Associate Professor iPh. D.j


Faculty of Information Science and Technology
Division of Media and Network Technologies
Research Group of Information Media Science and Technology
Wireless Technologies & EMC Research Lab.


URL : –kŠC“š‘ĺŠwŒ¤‹†ŽŇ‘——
URL : researchmap
URL : ResearchGate

URL : Œ¤‹†Žş‚Ěƒz[ƒ€ƒy[ƒW
URL : Web of Science
URL : Scopus Preview




Œ¤‹†‹ĆŃ (˜_•śE‘Ű‰ď‹cEu‰‰@1997”N`ŒťÝ)

2024(—ߘa6”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Sakura Tsuruga, Yugo Shimoyachi, Takashi Hikage, Keiko Yamazaki, Atsuko Ikeda-Araki, Chihiro Miyashita, Naomi Tamura, Reiko Kishi:
    "Body Blockage Effects on Exposure Dosimetry in Epidemiological Studies of Children's Health,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Sakura Tsuruga, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake, Kun Li, Akiko Nagai :
    "60 GHz Spatial Synthetic High-Localized Exposure System for Investigating Thermo-Physiology,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Koki Kusakabe, Kohsuke Ushimaru, Takashi Hikage, Manabu Omiya:
    "Estimating Human Body Shielding in 5G mmWave Frequency Band Using the Parallel FDTD Method,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Minori Kagohashi, Takashi Hikage, Manabu Yamamoto:
    "Estimation of SAR in Vertically Upward Exposures Using Anatomical Human Models,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Shuhei Waki, Funa Tsumura, Takashi Hikage, Tomoaki Nagaoka:
    "Averaging Mass Assessment for Estimation of Local SAR Surrounding Metallic Implants,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  6. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Kun Li, Takashi Hikage, Hiroshi Masuda, Etsuko Ijima, Akiko Nagai, Kenji Taguchi:
    "Comparison of Calculated APD Between 1-D and 3-D Rat Head Skin Models,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Kohsuke Ushimaru, Takashi Hikage, Manabu Omiya:
    "Estimation of Radio Propagation Characteristics in Small Aircraft Using Parallel FDTD Analysis,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  8. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24, 2024„

    Funa Tsumura, Shuhei Waki, Takashi Hikage, Junji Higashiyama, Yoshitoshi Tochikura, Takahiro Iyama, Yasunori Suzuki:
    "EMI Characteristics of Active Implantable Medical Devices Exposed to 5G Frequency Radio Waves,"
    proc. of The 2024 IEEE Joint International Symposium on Electromagnetic Compatibility, Signal & Power Integrity: EMC Japan/Asia-Pacific International Symposium on Electromagnetic Compatibility (EMC Japan/APEMC Okinawa), pp.xx-xx, May 2024.

  9. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,4ŒŽ26“ú„

    ˜e C•˝C’Ă‘ş•–“ށC“úŒi —˛C’ˇ‰Ş’q–ž:
    hƒ}ƒCƒNƒ”g‚΂­˜I‚É‚ć‚éˆă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg‚Ě”­”M‚đl—ś‚ľ‚˝‰ˇ“xă¸‰đÍhC
    MŠw‹Z•ń, vol.124, no.10, EMCJ2024-4, pp.18-22, 2024”N4ŒŽ.

  10. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,4ŒŽ24“ú„

    “Ö‰ę ÷, “úŒi —˛, ‘“c G, Î’|’B–ç, Kun Li, ‰iˆäˆŸŠóŽq:
    hƒ~ƒŠ”g‹ÇŠ‚΂­˜I‚É‚ć‚鉡”Mś—‚¨‚ć‚Ń×–E‹@\‚ւ̉e‹ż‚Ě’˛¸‚đ–Ú“I‚Ć‚ľ‚˝60GHz‹óŠÔ‡ŹŒ^‚΂­˜I‘•’u‚Ě“ÁŤ‰đÍhC
    ‘ć16‰ńˆă—pś‘Ě“dŽĽ‹CŠwƒVƒ“ƒ|ƒWƒEƒ€,pp.7-8, 2024”N4ŒŽ.

  11. ƒ˜_•ś:¸“Ç‚ ‚聄

    ˜e@C•˝C“úŒi@—˛C’ˇ‰Ş’q–ž:iŠwś˜_•ś“ÁWGˆí˜_•śj
    "Œg‘Ń“d˜bŽü”g”‘Ń“d”g‚΂­˜IŽž‚Ěˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‚É‹Nˆö‚ľ‚˝‰ˇ“xă¸‚Ć‹ÇŠSAR‹óŠÔ•˝‹ĎĄ–@‚Ě‘ŠŠÖŒŸ“˘,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ C, Vol.J107-C, No.4, pp.89-97, Apr. 2024.
    DOI:10.14923/transelej.2023PJP0005

  12. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ5“ú-8“ú„

    ˜U‹´ ‚Ý‚Ě‚č, “úŒi —˛CŽR–{ Šw:
    g”N—îEŤ•Ę‚ĚˆŮ‚Č‚é”’ll‘Ěƒ‚ƒfƒ‹‚đ—p‚˘‚˝ăŒü‚Ť“d”g‚΂­˜I‚ɑ΂ˇ‚éSAR•]‰żhC
    2024”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-19, L“‡‘ĺŠw, 2024”N3ŒŽ.

  13. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ5“ú-8“ú„

    “ńƒbX rˆęC•˝‰ę ‹KşC˜e C•˝C‹ŠŰ ᩉîC“úŒi —˛:
    gă‹ó”ňsŽž‚É‚¨‚Ż‚é“d”g‚“xŒv‚ĚŠąÂŒo˜H‘šŽ¸“ÁŤ•]‰żŒn-ƒr[ƒ`ƒNƒ‰ƒtƒgB300Œ^‹@‚đ—p‚˘‚˝‘Ş’č•]‰ż-hC
    2024”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-2-34, L“‡‘ĺŠw, 2024”N3ŒŽ.

  14. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ5“ú-8“ú„

    ŒĂŒä“° ”šlC“úŒi —˛CŽR–{ ŠwCâŒł ˆęŒőC“Ą–ě —m•ă:
    g‰qŻƒZƒ“ƒVƒ“ƒOƒvƒ‰ƒbƒgƒtƒH[ƒ€‚ÉŒü‚Ż‚˝ŹŒ`‰~•Î”gƒpƒbƒ`ƒAƒ“ƒeƒi‚ĚƒAƒŒ[‰ťŒŸ“˘hC
    2024”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1B-55, L“‡‘ĺŠw, 2024”N3ŒŽ.

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan.9-10, 2024„

    Takashi Hikage:
    Invited "A Numerical Prediction Method for Active Implantable Medical Device EMI due to Wireless Power Transfer System,"
    proc. of 2024 Vietnam-Japan International Symposium on Antennas and Propagation (VJISAP2024), I-5,pp.20-21, Jan. 2024.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan.9-10, 2024„

    Mangseang Hor,Takashi Hikage:
    Invited "Gain Enhancement of Planar Array of X-shaped Slot Antenna for Local 5G in Millimeter Wave Frequency Band,"
    proc. of 2024 Vietnam-Japan International Symposium on Antennas and Propagation (VJISAP2024), I-23,pp.82-83, Jan. 2024.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan.9-10, 2024„

    Hayato FURUMIDO, Takashi HIKAGE, Manabu YAMAMOTO, Kazumitsu SAKAMOTO, Yosuke FUJINO:
    "Examination of Miniaturized Patch Antenna with Circular Polarization for Earth Sensing Platform via LEO Satellite,"
    proc. of 2024 Vietnam-Japan International Symposium on Antennas and Propagation (VJISAP2024), P-8,pp.128-131, Jan. 2024.

2023(—ߘa5”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Sakura Tsuruga, Kaito Sugimura, Takashi Hikage, Manabu Omiya, Keiko Yamazaki, Atuko Ikeda-Araki, Chihiro Miyashita, Naomi Tamura, Reiko Kishi:
    "Estimation of Human Body Blockage Considering Elevation Angle of Exposure Plane-waves in Wireless LAN Frequency Band for Epidemiological Research on RF Exposure and Children's Health,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, P2-26, Nov. 2023.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Minori Kagohashi, Takashi Hikage, Manabu Yamamoto:
    "Numerical Estimations of Specific Absorption Rates for Vertical Exposure Using Anatomical Phantom Models Across Different Ages and Genders,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, P2-25, Nov. 2023.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Shuhei Waki, Funa Tsumura, Takashi Hikage, Tomoaki Nagaoka:
    "Numerical Evaluation of Averaging Mass for Local Specific Absorption Rate Enhancement in Human Tissue with Implanted Metal Plates Exposed to Radio Frequency Waves in the Cellular Frequency Band,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, P2-23, Nov. 2023.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Kaito Sugimura, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake, Kun Li, Akiko Nagai:
    "Novel Exposure Setup Using Spatial Synthetic Antennas for Investigation of Thermal Physiology and Cellular Function Changes Induced by Highly Localized Millimeter-Wave Exposure,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, P2-21, Nov. 2023.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Yoshiki Ono, Takashi Hikage, Manabu Yamamoto, Shuki Wai, Naoki Kita :
    "A Design of Quasi-Millimeter Wave Wideband Slot Array Antenna with Double-Sided Feeding Circuit and Leaf-Shaped Bowtie Slot Element,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, P1-24, Nov. 2023.

  6. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Hayato Furumido, Takashi Hikage, Manabu Yamamoto, Kazumitsu Sakamoto, Yosuke Fujino :
    "A Design of Miniaturized Patch Antenna with Circular Polarization for Earth Sensing Platform via LEO Satellite,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, P1-7, Nov. 2023.

  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-Dec.1, 2023„

    Takashi Hikage:
    "Interference Voltage Measurement for Wireless Power Transfer Using an Electro-Optical Converter for EMI Assessment of Active Implantable Medical Devices,"
    proc. of 2023 International Conference on Emerging Technologies for Communications(ICETC) 2023, I1-3, Nov. 2023.

  8. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.27-28, 2023„

    Shuhei Waki, Funa Tsumura, Takashi Hikage:
    "Comparisons of Averaging Mass of Localized SAR in Estimating Temperature Increase at the Edges of Implanted Metal Plates within the Cellular Radio Frequency Band,"
    proc. of 5th International Workshop on Photonics applied to Electromagnetic Measurement (PEM2023), M-10, pp.39-40, Nov. 2023.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.27-28, 2023„

    Kaito Sugimura, Sakura Tsuruga, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake, Kun Li, Akiko Nagai:
    "Spatial Synthetic Vertical Local Exposure System to Investigate Thermo]Physiological and Cellular Function Changes Induced by Millimeter]Wave Exposure,"
    proc. of 5th International Workshop on Photonics applied to Electromagnetic Measurement (PEM2023), M-9, pp.35-37, Nov. 2023.

  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.27-28, 2023„

    Funa Tsumura, Shuhei Waki, Takashi Hikage, Yoshitoshi Tochikura, Takahiro Iyama, Junji Higashiyama, Yasunori Suzuki:
    "Interference]Induced Voltage Measurement for EMI Assessment of Implantable Medical Devices by Exposure to 5G Frequency Radio Wave using Electro]Optical Converter,"
    proc. of 5th International Workshop on Photonics applied to Electromagnetic Measurement (PEM2023), M-8, pp.31-33, Nov. 2023.

  11. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ25“ú„

    @ŽRúąŒ\Žq, “c‘şŘ•ä”ü, Ammara Ajmal, “úŒi —˛, ŠÝ —ćŽq:
    hŒg‘Ń“d˜b“™‚É‚ć‚é“dŽĽ”g‚Ö‚Ě‘ŮŽ™Šú”˜˜I‚ÉŠÖ‚ˇ‚éĹ‹ß‚ĚŒ¤‹†“ŽŒüF•śŒŁ’˛¸hC
    ‘ć75‰ń–kŠC“šŒöO‰qśŠw‰ď, 2023”N11ŒŽ.

  12. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,11ŒŽ24“ú„

    ˜U‹´‚Ý‚Ě‚č, “úŒi@—˛, ŽR–{@Šw:
    h•Ą”Ží—ނ̉đ–U“I”’ll‘Ě‚đ—p‚˘‚˝ă•űŒü‚΂­˜I‚É‚¨‚Ż‚éSAR„’čhC
    MŠw‹Z•ń, vol.123, no.283, EMCJ2023-78, pp.34-39, 2023”N11ŒŽ.

  13. ƒ˜_•ś:¸“Ç‚ ‚聄

    •\ ‰p‹B, ˛“Ą˛O, –Ř‘ş ăÄ, “c’†ăĔn, —Ń ‡—S, “úŒi —˛, ŽR—˘Œh–ç:
    "HAPS‘Ήž“d”g“`”Ŕƒ‚ƒfƒ‹‚ĚŠJ”­‚ƍ‘Ű•W€‰ť,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B, Vol.J106-B, No.11, pp.677-695, Nov. 2023.
    DOI: 10.14923/transcomj.2023API0003

  14. ƒ˜_•ś:¸“Ç‚ ‚聄

    Kun Li, Takashi Hikage, Hiroshi Masuda, Etsuko Ijima, Akiko Nagai, and Kenji Taguchi:
    "Parameter variation effects on millimeter wave dosimetry based on precise skin thickness in real rats,"
    Scientific Reports, 13:17397, Oct. 2023.
    DOI: https://doi.org/10.1038/s41598-023-44572-y

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.30-Nov.2, 2023„

    Tsuruga Sakura, Kaito Sugimura, Takashi Hikage, Manabu Omiya, Keiko Yamazaki, Atsuko Ikeda, Chihiro Miyashita, Naomi Tamura and Reiko Kishi:
    "Human Body Blockage Effects on Personal Exposimeter Device in 4G/5G Frequency Bands for Epidemiological Research on Children's Health,"
    proc. of 2023 IEEE International Symposium On Antennas And Propagation (ISAP), RS24.2, Nov. 2023.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.30-Nov.2, 2023„

    Funa Tsumura, Shuhei Waki, Takashi Hikage, Takahiro Iyama, Junji Higashiyama and Yasunori Suzuki:
    "Interference-Induced Voltage Estimation for EMI Characteristics Evaluation of Implantable Medical Devices Exposed to 5G Frequency Radio Waves,"
    proc. of 2023 IEEE International Symposium On Antennas And Propagation (ISAP), RS11.6, Nov. 2023.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.30-Nov.2, 2023„

    Kosuke Ushimaru, Takashi Hikage, Manabu Yamamoto, and Manabu Omiya:
    "Propagation Characteristics Estimation for Indoor 5G Wireless Environment Including Human Body Shielding Using Parallel FDTD Method,"
    proc. of 2023 IEEE International Symposium On Antennas And Propagation (ISAP), RS9.5, Nov. 2023.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.30-Nov.2, 2023„

    Kaito Sugimura, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake, Kun Li, Akiko Nagai :
    " Novel Vertically Exposure System Using Spatial Synthetic Antennas to Investigate Thermo-Physiological and Cellular Function Changes Induced by Millimeter-Wave Exposure,"
    proc. of 2023 IEEE International Symposium On Antennas And Propagation (ISAP), RS2.5, Nov. 2023.

  19. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @™‘ş ŠC“n, “Ö‰ę ÷, “úŒi —˛, ‘“c G:
    hƒ~ƒŠ”g‹ÇŠ‚΂­˜IŽž‚̉ˇ”Mś—‚¨‚ć‚Ń×–E‰e‹ż’˛¸‚đ–Ú“I‚Ć‚ľ‚˝60 GHz‘Ń•Ą”‰ÓŠ“ŻŽž‚΂­˜I‘•’u‚ĚŠJ”­hC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.24, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  20. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @˜e C•˝, ’Ă‘ş •–“Ţ, “úŒi —˛, ’ˇ‰Ş ’q–ž:
    hŒg‘Ń“d˜bŽü”g”‘Ń“d”g‚΂­˜I‚É‚ć‚éˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‹óŒ„•”‚Ě‹ÇŠSARă¸•]‰ż‚ÉŠÖ‚ˇ‚é•˝‹Ď‰ťŽż—Ę‚ĚŒŸ“˘hC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.25, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  21. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @‹ŠŰ ᩉî, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw:
    h3D“sŽsƒ‚ƒfƒ‹Project PLATEAU‚¨‚ć‚Ń‘ĺ‹K–Í•Ŕ—ńFDTD‰đÍ‚đ—p‚˘‚˝ŽD–yŽsŠX’nƒGƒŠƒA‚É‚¨‚Ż‚鍂¸×“d”g“`”Ŕ“ÁŤ„’čhC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.26, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  22. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @“Ö‰ę ÷, ™‘ş ŠC“n, “úŒi —˛, ŽRúą Œ\Žq, ‹{‰ş ‚ż‚Đ‚ë, “c‘ş Ř•ä”ü, r–Ř “ÖŽq, ŠÝ —ćŽq:
    h‚Žü”g‚΂­˜I‚ƏŹŽ™‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚É—p‚˘‚éŒg‘ŃŒ^‚΂­˜I—Ę‘Ş’čƒfƒoƒCƒX‚ĚWi-FiŽü”g”‘ŃŽóM“ÁŤ„’čhC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.27, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  23. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @Œ‡’[ ‰J‰š, “úŒi —˛:
    h6 MHz‘ŃŽĽŠEŒ‹‡Œ^WPTƒVƒXƒeƒ€‚Š‚ç‚Ě“dŽĽ”g‚΂­˜I‚ɑ΂ˇ‚él‘ĚˆŔ‘SŤ‚̐”’l•]‰żŽč–@hC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.28, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  24. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @’Ă‘ş •–“Ţ, ˜e C•˝, “úŒi —˛, ŽR–{ Šw:
    h‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Sub-6 GHz‘Ń’[––‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI•]‰ż‚Ě‚˝‚ß‚Ě‚¸“xFDTDƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“hC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.29, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  25. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @˜U‹´ ‚Ý‚Ě‚č, “úŒi —˛, ŽR–{ Šw:
    h•Ą”Ží—ނ̐”’ll‘Ě‚đ—p‚˘‚˝ă•űŒü‚΂­˜IŽž‚ĚSAR„’čhC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.30, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  26. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @‘ĺ–ě ˜a‹P, “úŒi —˛, ŽR–{ Šw, ˜aˆä GŽ÷, –k ’źŽ÷:
    h—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝€ƒ~ƒŠ”gL‘ŃˆćƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚Ě“ÁŤ•]‰żhC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, pp.31-32, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  27. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28“ú-29“ú„

    @ŒĂŒä“° ”šl, “úŒi —˛, ŽR–{ Šw, âŒł ˆęŒő, “Ą–ě —m•ă:
    h‰qŻƒZƒ“ƒVƒ“ƒOƒvƒ‰ƒbƒgƒtƒH[ƒ€‚ÉŒü‚Ż‚˝ŹŒ`‰~•Î”gƒpƒbƒ`ƒAƒ“ƒeƒi‚Ě“ÁŤ•]‰żhC
    —ߘa5”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, pp.33-34, ”ŸŠŮ–˘—ˆ‘ĺŠw, 2023”N10ŒŽ.

  28. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.28-29, 2023„

    Ushimaru Kosuke, Hikage Takashi, and Omiya Manabu:
    "Estimation of Radio Propagation Characteristics in an Urban Area of Sapporo City Using Large-scaled Parallel FDTD Analysis,"
    proc. of The 23rd Chitose International Forum on Science & Technology (CIF23), R1_02, Sep. 2023.

  29. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ12“ú-15“ú„

    “ńƒbX rˆę, “úŒi —˛:
    hq‹ó‹@“ŕƒf[ƒ^’ʐMƒVƒXƒeƒ€‚̍‘Ű•W€‰ť“ŽŒü‚Ć“dŽĽŠÂ‹Ť•]‰ż‹Zp‚ÉŠÖ‚ˇ‚錤‹†Šˆ“ŽhC
    2023”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, AI-2-1, p.SS-31-SS-32, 2023”N9ŒŽ.

  30. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ12“ú-15“ú„

    ˜U‹´‚Ý‚Ě‚č, “úŒi —˛, ŽR–{ Šw:
    h”N—îEŤ•Ę‚ĚˆŮ‚Č‚é”’ll‘Ě‚đ—p‚˘‚˝ă•űŒü‚΂­˜IŽž‚ĚSAR„’čhC
    2023”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-6, p.186, 2023”N9ŒŽ.

  31. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ12“ú-15“ú„

    ˜e C•˝, ’Ă‘ş•–“Ţ, “úŒi —˛, ’ˇ‰Ş’q–ž:
    hƒ}ƒCƒNƒ”g‘ŃŒg‘Ń“d˜b“d”g‚΂­˜IŽž‚Ěˆă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg–„žl‘Ě‚É‚¨‚Ż‚é‹ÇŠSAR•]‰ż‚Ě‚˝‚ß‚Ě•˝‹Ď‰ťŽż—ĘŒŸ“˘hC
    2023”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-5, p.185, 2023”N9ŒŽ.

  32. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ12“ú-15“ú„

    ‘ĺ–ě˜a‹P, “úŒi —˛, ŽR–{ Šw, ˜aˆäGŽ÷, –k ’źŽ÷:
    h—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝€ƒ~ƒŠ”gL‘ŃˆćƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚ĚÝŒvhC
    2023”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-1-60, p.60, 2023”N9ŒŽ.

  33. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ12“ú-15“ú„

    ŒĂŒä“°”šl, “úŒi —˛, ŽR–{ Šw, âŒłˆęŒő, “Ą–ě—m•ă:
    h‰qŻƒZƒ“ƒVƒ“ƒOƒvƒ‰ƒbƒgƒtƒH[ƒ€‚ÉŒü‚Ż‚˝ŹŒ`‰~•Î”gƒpƒbƒ`ƒAƒ“ƒeƒi‚ĚÝŒvhC
    2023”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-1-76, p.76, 2023”N9ŒŽ.

  34. ƒ˜_•ś:¸“Ç‚ ‚聄

    ETSUKO IJIMA, KUN LI, TAKASHI HIKAGE, AKIKO NAGAI, YASUTAKA MURAKAMI, TAKUJI ARIMA, TATSUYA ISHITAKE, HIROSHI MASUDA:
    "Intensity-dependent Temperature Rise Induced by Local Exposure to 26.5 GHz Quasi-Millimeter-Wave in Rat,"
    In Vivo, Vol.37, Iss. 5, pp.2092-2099, Sep. 2023.
    DOI: 10.21873/invivo.13306

  35. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Yamazaki Keiko, Tamura Naomi, Miyashita Chihiro, Yoshikawa Toshio, Ikeda-Araki Atsuko, Hikage Takashi, Omiya Manabu, Mizuta Masahiro, Ikuyo Miwa, Tobita Kazuhiro, Onishi Teruo, Taki Masao, Watanabe Soichi, and Kishi Reiko:
    "Change of radiofrequency electromagnetic exposure of children from 2020 to 2021: A report from Hokkaido Study,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), K09, Aug. 2023.

  36. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Tsumura Funa, Waki Shuhei, Hikage Takashi, and Yamamoto Manabu:
    "Numerical Analysis of EMI Characteristics of Active Implantable Medical Devices in 3G/4G and 5G sub-6GHz bands using finite element method,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), KE-1, Aug. 2023.

  37. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Waki Shuhei, Funa Tsumura, Hikage Takashi, and Nagaoka Tomoaki:
    "Numerical Estimation of SAR Enhancement Characteristics Due to Implanted Metal Plates Exposed to Oblique Incidence Plane Waves,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), K15-1, Aug. 2023.

  38. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Ushimaru Kosuke, Hikage Takashi, and Omiya Manabu:
    "Effects of Multiple Human Body Shadowing on Indoor Propagation Characteristics in Local-5G Frequency Band,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), B06-2, Aug. 2023.

  39. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Hikage Takashi, Masuda Hiroshi, Kodera Sachiko, and Hirata Akimasa:
    "Novel Whole-body and Localized Exposure Systems to Investigate Human Biological Effects for 5G and Beyond Wireless Systems,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), K05, Aug. 2023.

  40. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Sakura Tsuruga, Kaito Sugimura, Takashi Hikage, Keiko Yamazaki, Atsuko Ikeda-Araki, Chihiro Miyashita, Naomi Tamura, and Reiko Kishi:
    "Human Body Shadowing Effect on Measurement of Personal RF Exposure Meter for Epidemiological Research on Children's Health,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), K05, Aug. 2023.

  41. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Kaito Sugimura, Sakura Tsuruga, Takashi Hikage, Keiko Yamazaki, Atsuko Ikeda-Araki, Chihiro Miyashita, Naomi Tamura, and Reiko Kishi:
    "Plane-wave Arrival Angle Dependency of Whole-body Averaged SAR for Epidemiological Research on Children's Health in Cellular Frequency bands,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), P-K05-01, Aug. 2023.

  42. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Hor Mangseang, Hirose Masanobu, and Hikage Takashi:
    "X-Shaped Slot Antenna for Sub-6 GHz 5G Application,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), B02-7, Aug. 2023.

  43. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Matsumoto Akiko, Endo Ikumi, Ijima Etsuko, Hirata Akimasa, Kodera Sachiko, Ichiba Masayoshi, Tokiya Mikiko, Hikage Takashi, Masuda Hiroshi:
    "Stress Response in Young Male Rats Following Brief Systemic Exposure to 5G Millimeter Waves,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), K01, Aug. 2023.

  44. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Masuda Hiroshi,Ijima Etsuko, Hikage Takashi,Li Kun, Kodera Sachiko, Hirata Akimasa, and Ishitake Tatsuya:
    "Effects of high intensity local exposure to 26.5 GHz-millimeter-waves on glial cells in rat brain,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), K01, Aug. 2023.

  45. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Etsuko Ijima, Tatsuya Ishitake, Sachiko Kodera, Akimasa Hirata, Akiko Matsumoto, Takashi Hikage, and Hiroshi Masuda:
    "28 GHz exposure of rat dorsal skin modulates body temperature and distal blood flow,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), P-K01-02, Aug. 2023.

  46. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Naomi Kamizawa, Etsuko Ijima, Tatsuya Ishitake, Akiko Nagai, Takashi Hikage, Kun Li, and Hiroshi Masuda:
    "Histological effects of high intensity local exposure to 26.5 GHz-millimeter waves on dorsal skin in rat,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), P-K01-03, Aug. 2023.

  47. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.19-26, 2023„

    Emi Hidaka, Etsuko Ijima, Yukina Tsuruta, Tatsuya Ishitake, Akiko Nagai, Takashi Hikage, Kun Li, and Hiroshi Masuda:
    "Effects of local exposure to 26.5 GHz-millimeter wave on neuronal cells in rat brain,"
    proc. of The 35th URSI General Assembly and Scientific Symposium (URSI GASS 2023), P-K01-04, Aug. 2023.

  48. ƒ˜_•ś:¸“Ç‚ ‚聄

    ™‘ş ŠC“n, ŽR–{ N•˝, “úŒi —˛, ŽRúą Œ\Žq, “c‘ş Ř•ä”ü, ‹{‰ş ‚ż‚Đ‚ë, ŠÝ —ćŽq:
    "“d”g‚΂­˜I‚Ɛ­”N‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚É‚Ţ‚Ż‚˝Œg‘ŃŒ^‚΂­˜IŒv‚̐l‘ĚŽŐ•Á‰e‹ż„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B, Vol.J106-B, No.8, pp.562-569, Aug. 2023.
    10.14923/transcomj.2022PEP0012

  49. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.23-28, 2023„

    Kohsuke Ushimaru, Takashi Hikage, Manabu Yamamoto, Nobuaki Kuno, Minoru Inomata, and Wataru Yamada:
    "Full-Three-Dimensional FDTD Analysis of 5G Frequency Bands Propagation Prediction for Typical Indoor Multi-path Environment,"
    proc. of The IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, TH-UB, Jul. 2023.

  50. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.23-28, 2023„

    Mangseang Hor, Masanobu Hirose, and Takashi Hikage:
    "2x2 Planar Array of X-Shaped Slot Antennas for Millimeter Wave Frequency Band,"
    proc. of The IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, TH-A5, Jul. 2023.

  51. ƒ’˜‘C•Ş’SŽˇ•M„

    “úŒi —˛,hƒƒCƒ„ƒŒƒX“d—Í“`‘—‹Zp‚ĚŒ¤‹†ŠJ”­‚ĆŽŔ—p‰ť‚ĚĹ‘Oüs•‹y”ŁtC(‘ć1Í‚W: ƒƒCƒ„ƒŒƒX‹‹“d‚ĆEMC\ƒy[ƒXƒ[ƒJ‚đˆę—á‚Ɂ\)h
    @ƒV[ƒGƒ€ƒV[o”Ĺ(“Œ‹ž),2023”N7ŒŽ.ISBNF978-4-7813-1698-7
    @@(https://www.hanmoto.com/bd/isbn/9784781316987)

  52. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,7ŒŽ12“ú-14“ú„

    ‘ĺ–ě˜a‹P, “úŒi@—˛, ŽR–{@Šw, ˜aˆäGŽ÷, –k@’źŽ÷:
    hƒXƒŠƒbƒg“ü‚č”˝ŽË”•t‚ŤL‘ŃˆćƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚ĚŽŽě‘Ş’č‚É‚ć‚é“ÁŤ•]‰żhC
    MŠw‹Z•ń, vol.123, no.103, AP2023-56, pp.139-144, 2023”N7ŒŽ.

  53. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.29-Jul.1, 2023„

    Mangseang Hor, Masanobu Hirose, and Takashi Hikage:
    "Planar Array of X-shaped Slot Antennas in Millimeter Wave Frequency Band,"
    proc. of The AWAP2023 (Asian Workshop on Antennas and Propagation 2023), TP2-2,Jun. 2023.

  54. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.18-23, 2023„

    Shuhei Waki, Funa Tsumura, Takashi Hikage, and Tomoaki Nagaoka:
    "Plane-wave Incident Angle Dependence of SAR Enhancement Characteristics Due to Implanted Metal Plates Exposed to RF Wave in Cellular Frequency Bands,"
    proc. of The BioEM 2023, B15,Jun. 2023.

  55. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.18-23, 2023„

    Kaito Sugimura, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake, Kun Li, and Akiko Nagai:
    "Development of a 60 GHz Band Lens Antenna for The Study of Thermo- physiological and Cellular Function Changes Induced by Millimeter-wave Exposure,"
    proc. of The BioEM 2023, B06,Jun. 2023.

  56. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.18-23, 2023„

    Keiko Yamazaki, Naomi Tamura, Chihiro Miyashita, Toshio Yoshikawa, Atsuko Ikeda-Araki, Takashi Hikage, Manabu Omiya, Masahiro Mizuta, and Reiko Kishi:
    "The association between personal exposure level to radio frequency electromagnetic fields (RF-EMFs) and behavioral problem of school aged children: cross-sectional analysis from Hokkaido study,"
    proc. of The BioEM 2023, A59, Jun. 2023.

  57. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.18-23, 2023„

    Naomi Tamura, Keiko Yamazaki, Chihiro Miyashita, Atsuko Ikeda-Araki, Satoshi Suyama, Takashi Hikage, Manabu Omiya, Masahiro Mizuta, and Reiko Kishi:
    "The Association Childrenfs Screen Time and Exposure to Radio Frequency Electromagnetic Fields (RF-EMFs) with Working Memories in Hokkaido Study on Environmental and ChildrenfsHealth,"
    proc. of The BioEM 2023, A39, Jun. 2023.

  58. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ9“ú„

    ˜e@C•˝, ’Ă‘ş•–“Ţ, “úŒi@—˛, ’ˇ‰Ş’q–ž:
    h4G/LTEŽü”g”‘Ń‚É‚¨‚Ż‚éˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‹óŒ„•”‚̉ˇ“xă¸„’čhC
    MŠw‹Z•ń, vol.123, no.72, EMCJ2023-12, pp.1-4, 2023”N6ŒŽ.

  59. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ9“ú„

    “Ö‰ę@÷, ™‘şŠC“n, “úŒi@—˛, ‘ĺ‹{@Šw, ŽRčŒ\Žq, ‹{‰ş‚ż‚Đ‚ë, “c‘şŘ•ä”ü, ’r“c“ÖŽq, ŠÝ@—ćŽq:
    h“d”g‚΂­˜I‚ƏŹŽ™‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚Ě‚˝‚ß‚Ě ‹ÂŠp‚đl—ś‚ľ‚˝5GŽü”g”‘ѐl‘ĚŽŐ•Á“ÁŤ„’čhC
    MŠw‹Z•ń, vol.123, no.72, EMCJ2023-13, pp.5-8, 2023”N6ŒŽ.

  60. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ9“ú„

    ™‘şŠC“n, “Ö‰ę@÷, “úŒi@—˛, ‘“c@G, Î’|’B–ç, Kun Li, ‰iˆäˆŸŠóŽq:
    hƒ~ƒŠ”g‹ÇŠ‚΂­˜I‚É‚ć‚鉡”Mś—‚¨‚ć‚Ń×–E‹@\‚ւ̉e‹ż‚Ě’˛¸‚đ–Ú“I‚Ć‚ľ‚˝60GHz‹óŠÔ‡ŹŒ^‚΂­˜I‘•’u‚Ě“ÁŤ‰đÍhC
    MŠw‹Z•ń, vol.123, no.72, EMCJ2023-14, pp.9-12, 2023”N6ŒŽ.

  61. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 23-26, 2023„

    Shuhei Waki, Funa Tsumura, Takashi Hikage, and Tomoaki Nagaoka:
    "Numerical Estimation of Arrival Angle Dependency of SAR Enhancement Characteristics Due to Implanted Metal Plates Exposed to Plane Waves,"
    URSI International Symposium on Electromagnetic Theory 2023, 1570876558, May 2023.

  62. ƒ˜_•ś:¸“Ç‚ ‚聄

    źě‘ńŽŸ, “úŒi@—˛, ’ˇ‰Ş’q–ž:
    "FDTD‰đÍ‚đ—p‚˘‚˝Œg‘Ń“d˜bŽü”g”‘Ń‚É‚¨‚Ż‚éƒXƒNƒŠƒ…[ƒz[ƒ‹•tˆă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg–„ž‚É‚ć‚éSARă¸•]‰ż,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ C, Vol.J106-C, No. 5, pp.180-186, May. 2023.
    DOI: 10.14923/transelej.2022STP0002

  63. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,4ŒŽ21“ú„

    ™‘şŠC“n, “Ö‰ę@÷, “úŒi@—˛, ‘“c@G, Î’|’B–ç, Kun Li, ‰iˆäˆŸŠóŽq:
    hƒ~ƒŠ”g‹ÇŠ‚΂­˜I‚މˇ”Mś—‚â×–E‹@”\‚É‚ŕ‚˝‚炡‰e‹ż‚ÉŠÖ‚ˇ‚é’˛¸‚đ–Ú“I‚Ć‚ľ‚˝60 GHz‚΂­˜I‘•’u‚Ě“ÁŤ‰đÍhC
    MŠw‹Z•ń, vol.123, no.10, EMCJ2023-2, pp.5-8, 2023”N4ŒŽ.

  64. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,4ŒŽ21“ú„

    ˜e@C•˝, ’Ă‘ş•–“Ţ, “úŒi@—˛, ’ˇ‰Ş’q–ž:
    h4G‚¨‚ć‚Ń5G Sub-6 GHz‘Ń‚Ě•Ą‡‚΂­˜I‚É‚¨‚Ż‚é ˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‹ß–T‚̉ˇ“xă¸‘Ş’čhC
    MŠw‹Z•ń, vol.123, no.10, EMCJ2023-1, pp.1-4, 2023”N4ŒŽ.

  65. ƒ˜_•ś:¸“Ç‚ ‚聄

    Shuhei Waki, Takuji Nishikawa, Takashi Hikage, and Manabu Yamamoto:
    "Interference Voltage Estimation for Implantable Cardiac Pacemaker Electromagnetic Interference at Fourth-Generation (4G) and Fifth-Generation (5G) Sub-6 GHz Cellular Frequency Bands,"
    URSI RADIO SCIENCE LETTERS, VOL. 4, pp.1-3, Apr. 2023.
    DOI:10.46620/22-0047

  66. ƒ˜_•ś:¸“Ç‚ ‚聄

    Chihiro Miyashita, Keiko Yamazaki, Naomi Tamura, Atsuko Ikeda-Araki, Satoshi Suyama, Takashi Hikage, Manabu Omiya, Masahiro Mizuta, Reiko Kishi,:
    "Cross-sectional associations between early mobile device usage and problematic behaviors among school-aged children in the Hokkaido Study on Environment and Childrenfs Health,"
    Environmental Health and Preventive Medicine, Volume 28, Pages 22, pp.1-11, Apr. 2023.
    @@https://doi.org/10.1265/ehpm.22-00245

  67. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ7“ú-10“ú„

    ˜e@C•˝, źě‘ńŽŸC“úŒi@—˛C’ˇ‰Ş’q–ž:
    gˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‹ß–T‚ĚSARă¸‚ÉŠÖ‚ˇ‚é‚΂­˜I•˝–Ę”g“ž—ˆŠp“xˆË‘śŤ‚Ě•]‰żhC
    2023”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-25, p.232, ŽĹ‰YH‹Ć‘ĺŠw, 2023”N3ŒŽ.

  68. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ7“ú-10“ú„

    ‘ĺ–ě˜a‹PC“úŒi@—˛CŽR–{@ŠwC˜aˆäGŽ÷C–k@’źŽ÷:
    g—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝€ƒ~ƒŠ”gL‘ŃˆćƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚ĚŒŸ“˘hC
    2023”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-109, p.109, ŽĹ‰YH‹Ć‘ĺŠw, 2023”N3ŒŽ.

  69. ƒ˜_•ś:¸“Ç‚ ‚聄

    Sachiko Kodera, Norika Miura, Yinliang Diao, Miyako Inoue, Takashi Hikage, Kenji Taguchi, Hiroshi Masuda, and Akimasa Hirata:
    "Whole-Body Exposure System Using Horn Antennas With Dielectric Lens at 28 GHz,"
    IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, Vol.7, Iss.1, pp.65-72, Mar. 2023.
    @@DOI:10.1109/JERM.2022.3218812

  70. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,2ŒŽ24“ú„

    ’Ă‘ş•–“Ţ, źě‘ńŽŸ, ˜e C•˝, “úŒi —˛, ˆäŽR—˛O, “ŒŽRŽi, —é–Ř‹ą‹X:
    h‘ć‚T˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Sub-6GHzŽü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@Ší EMI‚̂΂­˜I•Î”gˆË‘ś“ÁŤhC
    “dŽqî•ń’ʐMŠw‰ďŒő‰ž—p“dŽĽŠEŒv‘ŞŒ¤‹†‰ď‹ZpŒ¤‹†•ń, PEM2022-13, pp.1-4, 2023”N2ŒŽ.

  71. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27“ú„

    ‹g“c‘Šó, “úŒi@—˛, ‘ĺ‹{@Šw:
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝ƒ[ƒJƒ‹‚TGŽü”g”‘щŽ“ŕ“`”Ŕ‚É‚¨‚Ż‚él‘ĚŽŐ•Á•]‰żhC
    MŠw‹Z•ń, vol. 122, no. 372, EMCJ2022-82, pp.56-59, 2023”N1ŒŽ.

  72. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27“ú„

    ŽR–{N•˝, “úŒi@—˛, ‘“c@G, Î’|’B–ç, Kun Li, ‰iˆäˆŸŠóŽq:
    hƒ~ƒŠ”g‹ÇŠ‚΂­˜I‚É‚ć‚鉡”Mś—‚¨‚ć‚Ń×–E‹@\‚̕ωť‚ÉŠÖ‚ˇ‚錤‹†‚ÉŒü‚Ż‚˝60GHz‚΂­˜I‘•’u‚Ě“ÁŤ•]‰żhC
    MŠw‹Z•ń, vol. 122, no. 372, EMCJ2022-75, pp.17-20, 2023”N1ŒŽ.

  73. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27“ú„

    źě‘ńŽŸ, “úŒi@—˛, ˆäŽR—˛O, “ŒŽRŽi, —é–Ř‹ą‹X:
    h“d‹CŒő•ĎŠˇŠí‚đ—p‚˘‚˝4G‚¨‚ć‚Ń5GŽü”g”‘Ń“d”g‚΂­˜I‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čhC
    MŠw‹Z•ń, vol. 122, no. 372, EMCJ2022-74, pp.12-16, 2023”N1ŒŽ.

2022(—ߘa4”N)

  1. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,12ŒŽ15“ú„

    ‘ĺ—FŒ[ô, “úŒi@—˛, ŽR–{@Šw, âŒłˆęŒő, “Ą–ě—m•ă:
    h‰qŻƒZƒ“ƒVƒ“ƒOƒvƒ‰ƒbƒgƒtƒH[ƒ€‚ÉŒü‚Ż‚˝ŹŒ`‰~•Î”gƒpƒbƒ`ƒAƒ“ƒeƒi‚ĚŠî‘bŒŸ“˘hC
    MŠw‹Z•ń, vol.122, no.316, AP2022-175, pp.13-18, 2022”N12ŒŽ.

  2. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,12ŒŽ7“ú„

    ˜e@C•˝, źě‘ńŽŸ, “úŒi@—˛, ’ˇ‰Ş ’q–ž:
    h4G/LTEŽü”g”‘т̉“•űŠE‚΂­˜I‚É‚¨‚Ż‚éˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‹ß–T‚ĚSARă¸„’čhC
    MŠw‹Z•ń, vol.122, no.296, EMCJ2022-69, pp.35-38, 2022”N12ŒŽ.

  3. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,11ŒŽ25“ú„

    “úŒi@—˛:
    g“d”g‚ĚŠî–{“IŤŽż‚Ć‘Ě“ŕAž‚ÝŒ^ˆă—ĂŠíEMI‚đŠÜ‚ŢˆŔ‘SŤ•]‰ż‚ĚŽŔ—áhC
    ‘ć28‰ń EMCŠÂ‹ŤƒtƒH[ƒ‰ƒ€@‹ZpƒZƒbƒVƒ‡ƒ“3u“d”g‚Ɛś‘ĚˆŔ‘SŤvCƒIƒ“ƒ‰ƒCƒ“C2022”N11ŒŽ.
    @(https://www.it-book.co.jp/EMC/forum/2022/)

  4. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @Kohei Yamamoto, Kaito Sugimura, Takashi Hikage, Hiroshi Masuda:
    hDevelopment and Characteristics Estimation of 60 GHz Band Lens Antenna for Investigation of Effects of Local Exposure to Millimeter-waves on Thermal Physiology and Cellular FunctionshC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.103, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  5. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @‹g“c ‘Šó, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw:
    hLocal 5GĹ“KƒGƒŠƒAÝŒv‚ÉŒü‚Ż‚˝‰Ž“ŕŽŔŠÂ‹Ť“`”Ŕ“ÁŤ‚Ě‘ĺ‹K–ÍFDTD‰đÍhC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.101, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @źě ‘ńŽŸ, “úŒi —˛, ŽR–{ Šw:
    hŒg‘Ń“d˜bŽü”g”‘Ńƒy[ƒXƒ[ƒJEMI•]‰ż‚É‚¨‚Ż‚郊[ƒh‚É‚ć‚錋‡‰e‹ż‚̐„’čhC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.102, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @™‘ş ŠC“n, ŽR–{ N•˝, “úŒi —˛, ŽRč ŒbŽq, ‹{‰ş ‚ż‚Đ‚ë, “c‘ş Ř•ä”ü, r–Ř “ÖŽq, ŠÝ —ćŽq:
    hŹŽ™‚̍‚Žü”g‚΂­˜IƒhƒVƒƒgƒŠ‚đ–Ú“I‚Ć‚ľ‚˝‹ÂŠp‚Ě‚ ‚é“ž—ˆ•˝–Ę”g‚ɑ΂ˇ‚él‘ĚŽŐ•Á“ÁŤ„’čhC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, pp.104-105, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  8. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @˜e C•˝, źě ‘ńŽŸ, “úŒi —˛, ’ˇ‰Ş ’q–ž:
    h‰~•Î”g‚΂­˜I‚É‚¨‚Ż‚éˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‹ß–T‚ĚSAR„’čhC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.106, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  9. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @‘ĺ—F Œ[ô, “úŒi —˛, ŽR–{ Šw:
    h Lƒvƒ[ƒu‹‹“dŹŒ`‰~•Î”gƒpƒbƒ`ƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚éŠî‘bŒŸ“˘hC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, pp.109-110, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  10. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5“ú-6“ú„

    @‘ĺ–ě ˜a‹P, “úŒi —˛, ŽR–{ Šw:
    h—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝€ƒ~ƒŠ”g‘ŃƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚éŠî‘bŒŸ“˘hC
    —ߘa4”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, pp.111-112, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2022”N11ŒŽ.

  11. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.31-Nov.3, 2022„

    Kohei Yamamoto, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake, Kun Li, Akiko Nagai:
    "Development of a Numerical Model of 60 GHz Band Lens Antenna for the Study of Thermo-Physiological and Cellular Function Changes Induced by Millimeter-Wave Exposure,"
    proc. of The 2022 International Symposium on Antennas and Propagation (ISAP2022), pp.279-280, Nov. 2022.

  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.31-Nov.3, 2022„

    Kazuki Yoshida, Takashi Hikage, Manabu Yamamoto and Manabu Omiya:
    "Propagation Loss Characteristics Considering Human Body Shadowing in Local 5G Frequency Band Using Parallel FDTD Analysis,"
    proc. of The 2022 International Symposium on Antennas and Propagation (ISAP2022), pp.285-286, Nov. 2022.

  13. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.25-27, 2022„

    Takashi Hikage:
    "Large-scale Numerical Evaluation of Cabin-to-Exterior Propagation Characteristics for Sub-6GHz/5G Using Small Aircraft Model,"
    proc. of The International Workshop on ATM/CNS (IWAC2022), pp.243-244, Nov. 2022.

  14. ƒ˜_•ś:¸“Ç‚ ‚聄

    Hideki OMOTE, Akihiro SATO, Sho KIMURA, Shoma TANAKA, HoYu LIN, Takashi HIKAGE:
    "Propagation Loss Model with Human Body Shielding for High-Altitude Platform Station Communications,"
    IEICE TRANSACTIONS on Communications, VOL.E105-B, No.10, pp.1219-1230, Oct. 2022.
    DOI:10.1587/transcom.2021EBP3152

  15. ƒ˜_•ś:¸“Ç‚ ‚聄

    Keiko Yamazaki, Atsuko Ikeda-Araki, Chihiro Miyashita, Naomi Tamura, Toshio Yoshikawa, Takashi Hikage, Manabu Omiya, Masahiro Mizuta, Miwa Ikuyo, Kazuhiro Tobita, Teruo Onishi, Masao Taki, Soichi Watanabe, Reiko Kishi:
    "Measurement of personal radio frequency exposure in Japan: The Hokkaido Study on the Environment and Children's health.,"
    Environmental research, pp.114429-114429, Sep. 2022.
    DOI:10.1016/j.envres.2022.114429

  16. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ6“ú-9“ú„

    ŽR–{N•˝, “úŒi@—˛, ‘ĺ‹{@Šw, ŽRúąŒ\Žq, ’r“c“ÖŽq, ‹{‰ş‚ż‚Đ‚ë, “c‘şŘ•ä”ü, ŠÝ@—ćŽq:
    h“d”g‚΂­˜I‚Ɛ­”N‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚É‚Ţ‚Ż‚˝Œg‘ŃŒ^‚΂­˜IŒvŽóM“ÁŤ‚É—^‚Ś‚él‘ĚŽŐ•Á‰e‹ż•]‰żhC
    2022”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, BI-2-4, p.SS34-SS35, ƒIƒ“ƒ‰ƒCƒ“, 2022”N9ŒŽ.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 1-2, 2022„

    Shuhei Waki, Takuji Nishikawa, Takashi Hikage, Manabu Yamamoto:
    "Numerical Simulation of Active Implantable Medical Device EMI Characteristics at 4G and 5G Sub-6GHz Bands Using Finite Element Method,"
    proc. of 2022 URSI-Japan Radio Science Meeting (URSI-JRSM 2022), KP-4, p.174, Sep. 2022.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 1-2, 2022„

    Kohei Yamamoto, Kaito Sugimura, Takashi Hikage, Hiroshi Masuda:
    "Design and Development of 60 GHz Band Lens Antenna for Investigation of Effects of Local Exposure to Millimeter-waves on Thermal Physiology and Cellular Functions,"
    proc. of 2022 URSI-Japan Radio Science Meeting (URSI-JRSM 2022), KP-2, p.172, Sep. 2022.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.29-31, 2022„

    Takuji Nishikawa, Takashi Hikage, and Manabu Yamamoto:
    "Using FEM Simulation to Estimation of Active Implantable Medical Device EMI Characteristic in the 4G and 5G Sub-6 Frequency Bands,"
    proc. of 2022 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM2022), POS2.13, pp.124-125, Aug. 2022.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.29-31, 2022„

    Kazuki Yoshida, Takashi Hikage, and Manabu Omiya:
    "Estimation of Human Body Shadowing for Indoor Propagation in the 5G Frequency Band Using Parallel FDTD Analysis,"
    proc. of 2022 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM2022), POS2.9, pp.116-117, Aug. 2022.

  21. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.29-31, 2022„

    Haruki Otomo, Takashi Hikage, Manabu Yamamoto, Kazumitsu Sakamoto, and Yosuke Fujino:
    "A Design of L-probe Fed Miniaturized Patch Antenna for Earth Sensing Platform via LEO Satellite,"
    proc. of 2022 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM2022), POS2.3, pp.104-105, Aug. 2022.

  22. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.29-31, 2022„

    Kohei Yamamoto, Takashi Hikage, Hiroshi Masuda,Tatsuya Ishitake, Kun Li, Akiko Nagai:
    "A Novel 60 GHz Spatial Synthetic Exposure Set-up for the Study of Thermal Perception Thresholds for Biological Effects of 5G and Beyond Wireless Systems,"
    proc. of 2022 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition (iWEM2022), POS1.15, pp.37-38, Aug. 2022.

  23. ƒ˜_•ś:¸“Ç‚ ‚聄

    ŽR–{N•˝, ”öúą—´”V‰î, “úŒi@—˛, ŽRúąŒ\Žq, ‹{‰ş‚ż‚Đ‚ë, ŠÝ@—ćŽq:
    "“d”g‚΂­˜I‚Ɛ­”N‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚É‚Ţ‚Ż‚˝Œg‘ŃŒ^‚΂­˜IŒv‚ւ̐l‘ĚŽŐ•Á‰e‹ż„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B, Vol.J105-B, No.8, pp.640-642, Aug. 2022.
    DOI:10.14923/transcomj.2021PEL0003

  24. ƒ‘ŕE‰đŕ„

    “úŒi —˛, ˜e@C•˝, źě ‘ńŽŸ:
    hˆă—ÁE•ŸŽƒ•Ş–ě‚ĚƒfƒWƒ^ƒ‹ƒgƒ‰ƒ“ƒXƒtƒH[ƒ[ƒVƒ‡ƒ“‚đŽx‚Ś‚é“d”g‚̐Až‚ÝŒ^ˆă—ĂŠíEMI•]‰ż‹Zp,h
    Precision Medicine, Vol.5, No.9, pp.104-109, Aug. 2022.
    ISBN 17791-08

  25. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.10-15, 2022„

    Kazuki Yoshida, Kaito Sugimura, Takashi Hikage, Manabu Yamamoto, Nobuaki Kuno, Minoru Inomata, Wataru Yamada:
    "Full-Three-Dimensional FDTD Analysis of Multi-path Propagation Prediction in an Urban Environment,"
    proc. of the 2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting(IEEE AP-S/URSI2022), TU-UB.1A.9, Jul. 2022.

  26. ƒ‘Ű‰ď‹cF¸“Ç‚Č‚ľ, Jun.19-24, 2022„

    Takashi HIKAGE, Kun LI, Akiko NAGAI, Etsuko IJIMA, Miyako INOUE, Tatsuya ISHITAKE, Hiroshi MASUDA:
    "Investigation of the effects of local exposure to millimeter-waves on thermal physiology and cellular functions,"
    The BioEM 2022, Onsite Exhibitors, Jun. 2022.

  27. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.19-24, 2022„

    Etsuko Ijima, Tatsuya Ishitake, Akimasa Hirata, Sachiko Kodera, Akiko Matsumoto, Takashi Hikage, Hiroshi Masuda:
    "5G millimeter-wave exposure of rat dorsal skin regulates body temperature and distal blood flow,"
    proc. of The BioEM 2022, PB-56, pp.736-737, Jun. 2022.

  28. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.19-24, 2022„

    Naomi Tamura, Keiko Yamazaki, Chihiro Miyashita, Atsuko Ikeda-Araki, Hisanori Fukunaga, Satoshi Suyama, Takashi Hikage, Masahiro Mizuta, Manabu Omiya, Reiko Kishi:
    "Association between childrenfs screen time and behavioral problems in Hokkaido Study on Environmental and Childrenfs Health,"
    proc. of The BioEM 2022, PB-36, pp.680-682, Jun. 2022.

  29. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.19-24, 2022„

    Keiko Yamazaki, Atsuko Ikeda-Araki, Chihiro Miyashita, Naomi Tamura, Takashi Hikage, Manabu Omiya, Masahiro Mizuta, Reiko Kishi:
    "Personal measurement of radio frequency wave exposure in Japan: The Hokkaido study on environment and childrenfs health,"
    proc. of The BioEM 2022, PB-35, pp.677-680, Jun. 2022.

  30. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.19-24, 2022„

    Miyako Inoue, Etsuko Ijima, Tatsuya Ishitake, Akiko Matsumoto, Takashi Hikage, Akimasa Hirata,Sachiko Kodera, Hiroshi Masuda:
    "Effects of wide area exposure to 28 GHz-plane waves on back skin in human volunteer,"
    proc. of The BioEM 2022, PA-45, pp.528-529, Jun. 2022.

  31. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.19-24, 2022„

    Chihiro Miyashita, Keiko Yamazaki, NaomiTamura, Atsuko Ikeda-Araki, Satoshi Suyama,Takashi Hikage, Manabu Omiya, Masahiro Mizuta, Reiko Kishi:
    "Association between childfs age at first mobile device use and behavioral problems in the Hokkaido Study on Environment and Children's Health,"
    proc. of The BioEM 2022, S11-6,pp.284-285, Jun. 2022.

  32. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ10“ú„

    źě‘ńŽŸ, “úŒi@—˛, ˆäŽR—˛O, “ŒŽRŽi, —é–Ř‹ą‹X:
    h5G Sub-6Žü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚̂΂­˜I•Î”gˆË‘ś“ÁŤ„’čhC
    MŠw‹Z•ń, vol. 122, no. 67, EMCJ2022-20, pp. 30-33, 2022”N6ŒŽ.

  33. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ10“ú„

    ™‘şŠC“n, ŽR–{N•˝, “úŒi —˛, ‘ĺ‹{ Šw, ŽRúąŒ\Žq, ‹{‰ş‚ż‚Đ‚ë, “c‘ş“Ţ•ä”ü,@’r“c“ÖŽq, ŠÝ —ćŽq:
    h“d”g‚΂­˜I‚Ɛ­”N‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚đ–Ú“I‚Ć‚ľ‚˝ŹŽ™ƒ‚ƒfƒ‹‚̐l‘ĚŽŐ•Á“ÁŤ„’čhC
    MŠw‹Z•ń, vol. 122, no. 67, EMCJ2022-22, pp. 39-42, 2022”N6ŒŽ.

  34. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ10“ú„

    ˜e@C•˝, źě‘ńŽŸ, “úŒi@—˛:
    hEV[“d–łü“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰żhC
    MŠw‹Z•ń, vol. 122, no. 67, EMCJ2022-25, pp. 53-56, 2022”N6ŒŽ.

  35. ƒ˜_•ś:¸“Ç‚ ‚聄

    ”öúą—´”V‰î, “úŒi —˛, “cŒűŒ’ŽĄ, ” ’B–ç, ˆäă “s, ‘“c G, Î’|’B–ç:
    "60 GHz‘Ń“d”g‚ɑ΂ˇ‚鐜‘̉e‹ż‚̉ˇ”M臒l•]‰ż‚Ě‚˝‚ß‚Ě‹óŠÔ‡ŹŒ^‚΂­˜I‘•’uŠJ”­,"
    “d‹CŠw‰ď˜_•śŽ A, Vol.142 No.6 pp.250-256, Jun. 2022.
    DOI:10.1541/ieejfms.142.250

  36. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,5ŒŽ20“ú„

    ŽR–{N•˝, ™‘şŠC“n, “úŒi —˛, ‘ĺ‹{ Šw, ŽRúąŒ\Žq, ‹{‰ş‚ż‚Đ‚ë, “c‘ş“Ţ•ä”ü,@’r“c“ÖŽq, ŠÝ —ćŽq:
    hŠw“śŠú‚̍‚Žü”g‚΂­˜I‚ĆŒ’N‰e‹ż‚ĚŠÖ˜AŤ‚ɑ΂ˇ‚é‰uŠwŒ¤‹†‚đ–Ú“I‚Ć‚ľ‚˝Œg‘Ń“d˜bE–łüLANŽü”g”‘Ń‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ„’čhC
    MŠw‹Z•ń, vol. 122, no. 40, EMCJ2022-10, pp. 12-15, 2022”N5ŒŽ.

  37. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,5ŒŽ19“ú„

    źě‘ńŽŸ, “úŒi —˛, ’ˇ‰Ş’q–ž:
    hFDTD‰đÍ‚đ—p‚˘‚˝Œg‘Ń“d˜bŽü”g”‘Ń‚É‚¨‚Ż‚éƒXƒNƒŠƒ…[ƒz[ƒ‹•tˆă—Ă—p–„ž‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸•]‰żhC
    MŠw‹Z•ń, vol. 122, no. 37, EST2022-5, pp. 24-29, 2022”N5ŒŽ.

  38. ƒ˜_•ś:¸“Ç‚ ‚聄

    ‘ĺ’Ë “֐ś, “úŒi —˛, Î‰Ş —Č‘ż, “ŒŽR Ži, ˆäŽR —˛O, —é–Ř ‹ą‹X:
    "‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Sub-6GHzŽü”g”‘Ń‚É‚¨‚Ż‚é“dŠEŒ^‹y‚ŃŽĽŠEŒ^ƒAƒ“ƒeƒi‹ß–T‚ł̐Až‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ C, Vol.J105-C, No.5, pp. 157-166, 2022.
    DOI: 10.14923/transelej.2021STP0003

  39. ƒ˜_•ś:¸“Ç‚ ‚聄

    ˛“Ą ˆŸˆß, “úŒi —˛, ‘ĺ‹{ Šw, “ńƒbXrˆę, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl:
    "ŹŒ^q‹ó‹@ƒ‚ƒfƒ‹‚đ—p‚˘‚˝ 5G Sub-6 GHz Žü”g”‘Ń‚Ě‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ C, Vol.J105-C, No.5, pp. 149-156, 2022.
    DOI: 10.14923/transelej.2021STP0002

  40. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,4ŒŽ20“ú„

    ŽR–{ N•˝, “úŒi —˛, ‘ĺ‹{Šw, ŽRúą Œ\Žq, ‹{‰ş ‚ż‚Đ‚ë, “c‘ş “Ţ•ä”ü,@r–Ř “ÖŽq, ŠÝ —ćŽq:
    hÂ”NŠú‚̍‚Žü”g‚΂­˜I‚ĆŒ’N‰e‹ż‚ĚŠÖ˜AŤ‚ɑ΂ˇ‚é‰uŠwŒ¤‹†‚đ–Ú“I‚Ć‚ľ‚˝Œg‘Ń“d˜bE–łüLANŽü”g”‘Ń‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ„’čhC
    ‘ć14‰ńˆă—pś‘Ě“dŽĽ‹CŠwƒVƒ“ƒ|ƒWƒEƒ€, pp.6-7, “Œ‹ž‘ĺŠw, 2022”N4ŒŽ.

  41. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,4ŒŽ15“ú„

    ŽR–{Ž–ç, “úŒi@—˛, ŽR–{@Šw, ˜aˆäGŽ÷, Šâš ’C•F, “ŕ“c‘吽, –k@’źŽ÷:
    h”˝ŽË”•t‚ŤL‘ŃˆćƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚É‚¨‚Ż‚é—˜“ž’ቺ—}§‚ÉŠÖ‚ˇ‚錟“˘hC
    MŠw‹Z•ń, vol. 122, no. 3, AP2022-6, pp. 28-33, 2022”N4ŒŽ.

  42. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ15“ú-18“ú„

    źě‘ńŽŸC‘ĺ’˓֐śC“úŒi@—˛C’ˇ‰Ş’q–ž:
    h “d”g‚΂­˜I‚É‚ć‚鉺Š{œŽĄ—Ă‹ŕ‘ŽƒvƒŒ[ƒg‹ß–T‚̉ˇ“xă¸‘Ş’čhC
    2022”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-34, p.293, ƒIƒ“ƒ‰ƒCƒ“, 2022”N3ŒŽ.

  43. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ15“ú-18“ú„

    ‘ĺ—FŒ[ôC“úŒi@—˛CŽR–{@Šw:
    hŽüŠúƒpƒbƒ`‘•‰×“ą‘Ě”Âă‚É”z’u‚ł‚ę‚˝L‘Ńˆć‹éŒ`ƒ‹[ƒvƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚錟“˘hC
    2022”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-80, p.80, ƒIƒ“ƒ‰ƒCƒ“, 2022”N3ŒŽ.

  44. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ15“ú-18“ú„

    ‹g“c ‘Šó, “úŒi —˛, ŽR–{ Šw, ‹v–ěLWC’––” –ŤCŽR“c@Â:
    h•Ŕ—ńFDTD‰đÍ‚đ—p‚˘‚˝ 5GŽü”g”‘щŽ“ŕ“`”Ŕ‚É‚¨‚Ż‚él‘ĚŽŐ•Á—ʐ„’čhC
    2022”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-10, p.10, ƒIƒ“ƒ‰ƒCƒ“, 2022”N3ŒŽ.

  45. ƒ˜_•ś:¸“Ç‚ ‚聄

    Mangseang HOR, Takashi HIKAGE, and Manabu YAMAMOTO:
    "A Study on Gain Enhanced Leaf-Shaped Bow-Tie Slot Array Antenna within Quasi-Millimeter Wave Band,"
    IEICE Transactions on Communications, vol. E105.B , no.3, pp. 285-294, 2022.
    https://doi.org/10.1587/transcom.2021EBP3071

  46. ƒ˜_•ś:¸“Ç‚ ‚聄

    ƒz[ ƒƒBƒ“ƒVƒFƒ“,ŽR–{ Ž–ç,“úŒi —˛,ŽR–{ Šw,“ŕ“c ‘吽,”’ŒË —TŽj,–k ’źŽ÷:
    "1/4”g’ˇŽ‡‰ń˜H‚đ—p‚˘‚˝”˝ŽË”•t—tóƒ{ƒEƒ^ƒCƒXƒƒbƒgƒAƒ“ƒeƒi,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B, Vol.J105-B, No.3, pp.166-177, 2022.

  47. ƒ˜_•ś:¸“Ç‚ ‚聄

    ŽR–{ Ž–ç, “úŒi —˛, ŽR–{ Šw:
    "—ź•˝–ʉń˜H‚Ć—tóƒ{ƒEƒ^ƒCƒXƒƒbƒg‘fŽq‚đ—p‚˘‚˝L‘Ńˆć•˝–ĘƒAƒŒ[ƒAƒ“ƒeƒi,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B, Vol.J105-B, No.3, pp. 310-312, 2022.

  48. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27-28“ú„

    ‘ĺ’˓֐ś, źě‘ńŽŸ, “úŒi —˛, ˆäŽR—˛O, “ŒŽRŽi, —é–Ř‹ą‹X:
    g—LŒŔ—v‘f–@‚đ—p‚˘‚˝5G sub6Žü”g”‘Ń‚É‚¨‚Ż‚éƒ_ƒCƒ|[ƒ‹ƒAƒ“ƒeƒi‹y‚ŃƒXƒƒbƒgƒAƒ“ƒeƒi‹ß–T‚ł̐Až‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł„’č",
    MŠw‹Z•ń, vol. 121, no. 358, EST2021-63, pp. 32-37, 2022”N1ŒŽ.
  49. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27-28“ú„

    ”öúą—´”V‰î, ŽR–{Ž–ç, “úŒi —˛:
    g‹óŠÔ‡ŹŒ^‚΂­˜I—pƒŒƒ“ƒYƒAƒ“ƒeƒi‚ĚFDTD‰đÍŽč–@‚ÉŠÖ‚ˇ‚éˆęŒŸ“˘",
    MŠw‹Z•ń, vol. 121, no. 358, EST2021-62, pp. 27-31, 2022”N1ŒŽ.
  50. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27-28“ú„

    ˛“ĄˆŸˆß, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    g’n–Ę”˝ŽË‚đl—ś‚ľ‚˝5G Sub-6 GHzŽü”g”‘яŹŒ^q‹ó‹@‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’č",
    MŠw‹Z•ń, vol. 121, no. 358, EST2021-58, pp. 10-14, 2022”N1ŒŽ.
  51. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ27-28“ú„

    ŠÖŒű“O–ç, “úŒi —˛, ŽR–{ Šw, –쓇r—Y, “ńƒbXrˆę, X‰Ş˜as, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    g‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝4 GHz‘ŃWAICƒVƒXƒeƒ€‚Ě‚˝‚ß‚Ě‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’č",
    MŠw‹Z•ń, vol. 121, no. 358, EST2021-57, pp. 6-9, 2022”N1ŒŽ.
  52. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan.11-12, 2022„

    Kohei Yamamoto, Ryunosuke Ozaki, Takashi Hikage, Keiko Yamazaki, Atsuko Araki, Chihiro Miyashita, Naomi Tamura, and Reiko Kishi:
    "Numerical Estimation of Human Body Blockage Characteristics in 5G Sub-6 GHz for Epidemiologic Research on Childrenfs Health,"
    proc. of The 2022 Malaysia-Japan Workshop on Radio Technology (MJWRT2022), ID117031, Jan. 2022.

  53. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan.11-12, 2022„

    Kazuki Yoshida, Takashi Hikage and Manabu Yamamoto, Nobuaki Kuno, Minoru Inomata, and Wataru Yamada:
    "Numerical Estimation of Indoor Propagation Characteristics Considering Shadowing due to Human Bodies in Local-5G Frequency Band,"
    proc. of The 2022 Malaysia-Japan Workshop on Radio Technology (MJWRT2022), ID117204, Jan. 2022.

2021(—ߘa3”N)

  1. ƒ˜_•ś:¸“Ç‚ ‚聄

    Takashi Hikage, Ryunosuke Ozaki, Tatsuya Ishitake, Hiroshi Masuda:
    "Novel 60 GHz Band Spatial Synthetic Exposure Setup to Investigate Biological Effects of 5G and Beyond Wireless Systems on Human Body,"
    Frontiers in Public Health, Volume 9, Article 777712, pp.1-11, Dec.2021.
    https://doi.org/10.3389/fpubh.2021.777712

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec.4-10, 2021„

    Takashi Hikage, Kazuki Yoshida, Manabu Yamamoto, Manabu Omiya, Nobuaki Kuno, Minoru Inomata, Wataru Yamada:
    "Three-Dimensional Analysis of Propagation Characteristics in an Urban Environment Using Large-scaled FDTD simulation,"
    proc. of 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, TU-UE.1A.5, Dec. 2021.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec.4-10, 2021„

    Atsuki Otsuka, Takashi Hikage, Tomoaki Nagaoka, Kanako Wake:
    "Estimation of SAR Enhancement Due to Medical Metal Implants with Screws,"
    proc. of 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, TH-UK.1P.7, Dec. 2021.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec.4-10, 2021„

    Ai Sato, Takashi Hikage, Manabu Omiya, Shunichi Futatsumori, Naruto Yonemoto:
    "Evaluation of Interference Path Loss Characteristics in Sub-6 GHz/5G Frequency Bands for Small Aircraft Using Large-scale FDTD Analysis,"
    proc. of 2021 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, TU-UE.1A.5, Dec. 2021.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec.1-3, 2021„

    Takuji NISHIKAWA, Atsuki OHTSUKA, Takashi HIKAGE, Manabu YAMAMOTO:
    "RF Exposure Polarization Dependency of Active Implantable Medical Device EMI in 5G Sub-6 GHz Frequency Band,"
    proc. of 2021 International Conference on Emerging Technologies for Communications(ICETC), P3-8, Dec. 2021.

  6. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,11ŒŽ26“ú„

    “úŒi@—˛:
    g“d”g‚Ɛś‘ĚˆŔ‘SŤ‚¨‚ć‚ѐAž‚ÝŒ^ˆă—ĂŠíEMI•]‰ż‚ĚŽŔŰhC
    ‘ć27‰ńEMCŠÂ‹ŤƒtƒH[ƒ‰ƒ€C‹ZpƒZƒbƒVƒ‡ƒ“‚Ru“d”g‚Ɛś‘ĚˆŔ‘SŤvCƒIƒ“ƒ‰ƒCƒ“C2021”N11ŒŽ.
    @(https://www.it-book.co.jp/EMC/forum/2021/)

  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-30, 2021„

    Kohei YAMAMOTO, Ryunosuke OZAKI, Takashi HIKAGE, Keiko YAMAZAKI, Atsuko ARAKI, Chihiro MIYASHITA, Naomi TAMURA, and Reiko KISHI:
    "Characterization of Human Body Blockage in 5G Frequency Bands for Epidemiologic Research on Association Between Radio Frequency Wave Exposure and Children Health,"
    proc. of 4th International Workshop on Photonics applied to Electromagnetic Measurements in Sapporo (PEM2021), pp.61-62, Nov. 2021.

  8. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-30, 2021„

    Takuji NISHIKAWA*, Atsuki OHTSUKA, Takashi HIKAGE, Manabu YAMAMOTO:
    "Exposure Polarization Dependency of Active Implantable Medical Device EMI in 5G Frequency Band,"
    proc. of 4th International Workshop on Photonics applied to Electromagnetic Measurements in Sapporo (PEM2021), pp.57-59, Nov. 2021.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-30, 2021„

    Kazuki YOSHIDA, Takashi HIKAGE, Manabu YAMAMOTO, Manabu OMIYA:
    "Numerical Estimation of Indoor Propagation Characteristics Considering Shadowing due to Human Bodies in Local-5G Frequency Band,"
    proc. of 4th International Workshop on Photonics applied to Electromagnetic Measurements in Sapporo (PEM2021), pp.63-65, Nov. 2021.

  10. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @“c“ę —¤“l, źě ‘ńŽŸ, ‘ĺ’Ë “֐ś, “úŒi —˛:
    hAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI•]‰ż‚Ě‚˝‚ß‚Ě“dŽq¤•iŠÄŽ‹ƒQ[ƒgŽü•Ó‚ĚŽĽŠE•Ş•z„’čhC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.64, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  11. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @źě ‘ńŽŸ, ‘ĺ’Ë “֐ś, “úŒi —˛, ŽR–{ Šw:
    hƒ_ƒCƒ|[ƒ‹ƒAƒ“ƒeƒi‹ß–T‚É‚¨‚Ż‚éA‚Śž‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł‚̐„’č‹y‚Ń‘Ş’čhC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.63, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  12. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @ŽR–{ N•˝, ”öúą —´”V‰î, “úŒi —˛, ŽR–{ Šw, r–Ř “ÖŽq, ‹{‰ş ‚ż‚Đ‚ë, “c‘ş “Ţ•ä”ü, ŽRúąŒ\Žq, ŠÝ —ćŽq:
    hÂ”NŠú‚̍‚Žü”g‚΂­˜I‚ĆŒ’N‰e‹ż‚ĚŠÖ˜AŤ‚ɑ΂ˇ‚é‰uŠwŒ¤‹†‚đ–Ú“I‚Ć‚ľ‚˝–łüLANŽü”g”‘Ń‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ„’čhC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.62, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  13. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @‘ĺ’Ë “֐ś, źě ‘ńŽŸ, “úŒi —˛, ŽR–{ Šw:
    hŽĽŠEŒ^ƒAƒ“ƒeƒi‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł‘Ş’čhC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.61, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  14. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @”öúą —´”V‰î, “úŒi —˛, ŽR–{ Šw, ‘“c G:
    h’źŒđ•Î”g‚đ—˜—p‚ľ‚˝60 GHz‘Ń‹óŠÔ‡ŹŒ^“d”g‚΂­˜I‘•’u‚ĚŠJ”­hC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.60, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  15. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @‘ĺ—F Œ[ô, “úŒi —˛, ŽR–{ Šw:
    hŽüŠúƒpƒbƒ`‘•‰×“ą‘Ě”Âă‚É”z’u‚ł‚ę‚˝‹éŒ`ƒ‹[ƒvƒAƒ“ƒeƒihC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.53, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  16. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @ŽR–{ Ž–ç, “úŒi —˛, ŽR–{ Šw:
    h—ź•˝–ʉń˜H‚Ć—tóƒ{ƒEƒ^ƒCƒXƒƒbƒg‘fŽq‚đ—p‚˘‚˝ƒAƒŒ[ƒAƒ“ƒeƒi‚É‚¨‚Ż‚éE–Ę•úŽËƒpƒ^[ƒ“‚ĚƒTƒCƒhƒ[ƒu—}§‚ÉŠÖ‚ˇ‚錟“˘hC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.52, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  17. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @‹g“c ‘Šó, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw:
    hl‘ĚŽŐ•Á‚đl—ś‚ľ‚˝ƒ[ƒJƒ‹5GŽü”g”‘щŽ“ŕ“`”Ŕ“ÁŤ„’čhC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.50, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  18. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @˛“Ą ˆŸˆß, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw , “ńƒbX rˆę, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl :
    h‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Sub-6 GHzŽü”g”‘Ń‚Ě‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’čhC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.49, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  19. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ6“ú-7“ú„

    @Mangseang Hor, Takashi Hikage, Manabu Yamamoto :
    hStudy of Gain Enhancement of Leaf-Shaped Bowtie Slot Antenna Array Electromagnetically Fed by Microstrip LinehC
    —ߘa3”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.54, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2021”N11ŒŽ.

  20. ƒu‰‰E¸“Ç‚Č‚ľ,10ŒŽ27-29“ú„

    ”öúą—´”V‰îC“úŒi@—˛C‘“c@GCÎ’|’B–ç:
    gƒ~ƒŠ”g‘Ń“d”g‚ɑ΂ˇ‚鐜‘̉e‹ż‹y‚щˇ”M’mŠo臒l•]‰ż‚Ě‚˝‚ß‚Ě‹óŠÔ‡ŹŒ^‚΂­˜I‘•’uŠJ”­",
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ď (MIKA2021), p76, 2021”N10ŒŽ.
  21. ƒu‰‰E¸“Ç‚Č‚ľ,10ŒŽ27-29“ú„

    ‹g“c‘ŠóC“úŒi@—˛CŽR–{@ŠwC‘ĺ‹{@Šw:
    gl‘ĚŽŐ•Á‚đl—ś‚ľ‚˝ƒ[ƒJƒ‹‚TGŽü”g”‘щŽ“ŕ“`”Ŕ“ÁŤ„’č",
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ď (MIKA2021), p26, 2021”N10ŒŽ.
  22. ƒu‰‰E¸“Ç‚Č‚ľ,10ŒŽ27-29“ú„

    źě‘ńŽŸC‘ĺ’˓֐śC“úŒi@—˛CŽR–{@Šw:
    gA‚Śž‚ÝŒ^ˆă—ĂŠíEMI•]‰ż‚đ–Ú“I‚Ć‚ľ‚˝ƒAƒ“ƒeƒi‹ß–T“dŽĽŠEŒ‹‡‚̐”’l‰đÍ",
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ď (MIKA2021), p23, 2021”N10ŒŽ.
  23. ƒu‰‰E¸“Ç‚Č‚ľ,10ŒŽ27-29“ú„

    ŽR–{N•˝C”öúą—´”V‰îC“úŒi@—˛CŽRúąŒ\ŽqCr–Ř“ÖŽqC‹{‰ş‚ż‚Đ‚ëC“c‘şŘ•ä”üCŠÝ@—ćŽq:
    g“d”g‚΂­˜I‚ĆŽq‹Ÿ‚ĚŒ’N‚Ć‚ĚŠÖ˜AŤ‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚ÉŒü‚Ż‚˝–łüLANŽü”g”‘Ń‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ‘Ş’č",
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ď (MIKA2021), p19, 2021”N10ŒŽ.
  24. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.19- Oct.22, 2021„

    Shunichi Futatsumori, Norihiko Miyazaki, Ai Sato, Ryunosuke Ozaki, Takashi Hikage, Toshio Nojima:
    "Measurement of 4 GHz Radio Altimeter Interference Path Loss Including 5G Sub-6 Frequency Bands Using Beechcraft B300 Aircraft,"
    proc. of The 26th International Symposium on Antennas and Propagation (ISAP2021), no.220403, Oct. 2021.

  25. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.19- Oct.22, 2021„

    Akihiro Sato, Sho Kimura, Hoyu Lin, Shoma Tanaka, Hideki Omote, Takashi Hikage:
    "Human Body Shielding Loss Model with Frequency Characteristics for HAPS Communication ,"
    proc. of The 26th International Symposium on Antennas and Propagation (ISAP2021), no.220364, Oct. 2021.

  26. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.19- Oct.22, 2021„

    Naoya Yamamoto, Mangseang Hor, Takashi Hikage, Manabu Yamamoto:
    "A Wideband Planar Array Antenna Using Both- Sided MIC and Leaf-Shaped Bowtie Slot Elements,"
    proc. of The 26th International Symposium on Antennas and Propagation (ISAP2021), no.220080, Oct. 2021.

  27. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.19- Oct.22, 2021„

    Mangseang Hor, Takashi Hikage, Manabu Yamamoto:
    "Linear Array of Leaf-Shaped Bowtie Slot Antenna Electromagnetically Fed by Microstrip Line,"
    proc. of The 26th International Symposium on Antennas and Propagation (ISAP2021), no.220053, Oct. 2021.

  28. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ7-8“ú„

    ‘ĺ’˓֐śC“úŒi@—˛CˆäŽR—˛OC“ŒŽRŽiC—é–Ř‹ą‹X:
    gƒXƒƒbƒgƒAƒ“ƒeƒi‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł„’č",
    MŠw‹Z•ń, vol. 121, no. 188, EST2021-37, pp. 40-43, 2021”N10ŒŽ.
  29. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.26- Oct.1, 2021„

    Ryunosuke Ozaki, Takashi Hikage, Hiroshi Masuda, Tatsuya Ishitake:
    "Development of novel spatial synthetic exposure system for studies on thermal perception thresholds of biological effects exposed to millimeter-wave,"
    proc. of The BioEM2021, PS-64, Sep. 2021.

  30. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.26- Oct.1, 2021„

    Tatsuya Ishitake, Miyako Inoue, Etsuko Ijima, Takashi Hikage, Ryunosuke Ozaki, Akimasa Hirata, Sachiko Kodera, Kenji Taguchi, Tatsuya Kashiwa, Hiroshi Masuda:
    "Effects of local exposure to 28 GHz-millimeter-wave on skin blood flow in human volunteer,"
    proc. of The BioEM2021, PS-74, Sep. 2021.

  31. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.26- Oct.1, 2021„

    Junji Higashiyama, Takahiro Iyama, Tomoaki Nagaoka, Takashi Hikage:
    "EMF exposure evaluation method for underground mobile base stations,"
    proc. of The BioEM2021, PS-22, Sep. 2021.

  32. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.26- Oct.1, 2021„

    Etsuko Ijima, Tatsuya Ishitake, Akimasa Hirata, Sachiko Kodera, Akiko Matsumoto, Takashi Hikage, Hiroshi Masuda:
    "Effects of high intensity local exposure to 26.5 GHz-millimeter-waves on neuronal cells in rat brain,"
    proc. of The BioEM2021, PS-83, Sep. 2021.

  33. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.28- Sep.4, 2021„

    Atsuki Ohtsuka, Kouhei Yamamoto, Takashi Hikage:
    "Numerical Estimation on Active Implantable Medical Device EMI Due to Near-field Exposure of Sub-6 GHz 5G Frequency band Using Finite Element Analysis,"
    proc. of XXXIV General Assembly and Scientific Symposium (GASS) of the International Union of Radio Science (Union Radio Scientifique Internationale-URSI), Th-KE-AM1-1, Aug. 2021.

  34. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.28- Sep.4, 2021„

    Kohei Yamamoto, Ryunosuke Ozaki,Takashi Hikage:
    "(Invited) Numerical Estimation of Indoor Propagation Characteristics Considering Human-Body Blockage for a Beam-type Wireless Power Transfer,"
    proc. of XXXIV General Assembly and Scientific Symposium (GASS) of the International Union of Radio Science (Union Radio Scientifique Internationale-URSI), Th-FIP-DK1-19, Aug. 2021.

  35. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.28- Sep.4, 2021„

    Keiko Yamazaki, Atsuko Araki, Chihiro Miyashita, Naomi Tamura,Takashi Hikage, Manabu Omiya, Masahiro Mizuta, Reiko Kishi:
    "The protocol for the study about association between radio frequency wave and children health: The Hokkaido study on environment and children health,"
    proc. of XXXIV General Assembly and Scientific Symposium (GASS) of the International Union of Radio Science (Union Radio Scientifique Internationale-URSI), Th-FIP-K06-4, Aug. 2021.

  36. ƒ‘ŕE‰đŕ„

    “úŒi —˛, ‘ĺ’˓֐ś, źě ‘ńŽŸ:
    hˆă—ÁE•ŸŽƒIoT‚đŽx‚Ś‚é“d”g‚̐Až‚ÝŒ^ˆă—ĂŠíEMI•]‰ż‹Zp,h
    ’nˆćƒPƒAƒŠƒ“ƒO, Vol.23, No.9, pp.92-97, Jul. 2021.
  37. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,7ŒŽ29“ú„

    ŽR–{Ž–ç, “úŒi@—˛, ŽR–{@Šw:
    g—ź•˝–ʉń˜H‚Ć—tóƒ{ƒEƒ^ƒCƒXƒƒbƒg‘fŽq‚đ—p‚˘‚˝L‘Ńˆć•˝–ĘƒAƒŒ[ƒAƒ“ƒeƒi‚ĚÝŒv",
    MŠw‹Z•ń, vol. 121, no. 126, AP2021-43, pp. 109-114, 2021”N7ŒŽ.
  38. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,7ŒŽ29“ú„

    “úŒi@—˛, ‘ĺ‹{@Šw:
    gmƒ`ƒ…[ƒgƒŠƒAƒ‹u‰‰n‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝‰Ž“ŕE‰ŽŠOƒ}ƒ‹ƒ`ƒpƒX‹óŠÔ“d”g“`”Ŕ“ÁŤƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“",
    MŠw‹Z•ń, vol. 121, no. 126, AP2021-39, pp. 86-91, 2021”N7ŒŽ.
  39. ƒ˜_•ś:¸“Ç‚ ‚聄

    ”öúą—´”V‰î, “úŒi —˛:
    "Beyond 5G‚ÉŒü‚Ż‚˝60 GHz‘Ń‚É‚¨‚Ż‚鐜‘̉e‹ż‚Ě”M’mŠo臒l•]‰ż‚Ě‚˝‚ß‚Ě‹óŠÔ‡ŹŒ^‚΂­˜I‘•’uŠJ”­,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽB, Vol.J104-B,No.7,pp.648-649,Jul. 2021.

  40. ƒu‰‰E¸“Ç‚Č‚ľC6ŒŽ21“ú`7ŒŽ2“ú„

    “úŒi@—˛:
    h“dŽĽŠE‚Ěˆă—Éž—p‚Č‚ç‚Ń‚É–„‚ߍž‚Ý‹@Ší‚ւ̉e‹żhC
    “d‹CŠw‰ďu“dŽĽŠE‚̐l‘Ě–hŒě‚ÉŠÖ‚í‚é•]‰ż‹Zp“ŽŒüvuK‰ď, ƒIƒ“ƒ‰ƒCƒ“, 2021”N6ŒŽ.
    @@(
    https://www.iee.jp/tokyo/20210621seminar/)

  41. ƒ˜_•ś:¸“Ç‚ ‚聄

    ˆÉ“Ą—Á‰š, ‘ĺ’˓֐ś, “úŒi—˛, ’ˇ‰Ş’q–ž, ˜aŸ†‰Á“ŢŽq, “n•Ó‘ˆę:
    "FDTD‰đÍ‚đ—p‚˘‚˝ˆă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚ݐl‘Ě‚É‚¨‚Ż‚é‹ÇŠSARă¸‚Ě‹@˜„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽB, Vol.J104-B,No.06,pp.500-502,Jun. 2021.

  42. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ25“ú„

    “ńƒbXrˆę, ‹{č‘Ľ•F, “úŒi@—˛, ŠÖŒű“O–ç, ŽR–{@Šw, –쓇r—Y:
    gŹŒ^q‹ó‹@‚É‚¨‚Ż‚é4 GHz‘эq‹ó‹@“d”g‚“xŒv‚ĚŠąÂŒo˜H‘šŽ¸‘Ş’č ` ƒr[ƒ`ƒNƒ‰ƒtƒgB300Œ^‹@‚đ—p‚˘‚˝‘Ş’č•]‰ż `",
    MŠw‹Z•ń, vol. 121, no. 78, SANE2021-12, pp. 17-22, 2021”N6ŒŽ.
  43. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ11“ú„

    ”öúą—´”V‰î, “úŒi@—˛, ‘“c@G, “cŒűŒ’ŽĄ:
    g60 GHz‘Ń‚É‚¨‚Ż‚鐜‘̉e‹ż‚Ě”M’mŠo臒l•]‰ż‚Ě‚˝‚ß‚Ě‹óŠÔ‡ŹŒ^‚΂­˜I‘•’uŠJ”­",
    MŠw‹Z•ń, vol. 121, no. 63, EMCJ2021-15, pp. 23-27, 2021”N6ŒŽ.
  44. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,6ŒŽ11“ú„

    ŽR–{N•˝, ”öúą—´”V‰î, “úŒi@—˛, ŽRúąŒ\Žq, ‹{‰ş‚ż‚Đ‚ë, ŠÝ@—ćŽq:
    g“d”g‚΂­˜I‚Ɛ­”N‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚đ–Ú“I‚Ć‚ľ‚˝5G Sub-6GHzŽü”g”‘Ń‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ„’č",
    MŠw‹Z•ń, vol. 121, no. 63, EMCJ2021-13, pp. 13-17, 2021”N6ŒŽ.
  45. ƒ‘ŕE‰đŕ„

    “úŒi —˛, ‘ĺ’˓֐ś, źě ‘ńŽŸ:
    hV‚˝‚Č“d”g—˜—p‚ÉŒü‚Ż‚˝Až‚ÝŒ^ˆă—ĂŠíEMI•]‰ż‹Zp,h
    BIO Clinica, Vol.36, No.7, pp.73-78, Jun. 2021.

  46. ƒ’˜‘C•Ş’SŽˇ•M„

    h‹óŠÔ“`‘—Œ^ƒƒCƒ„ƒŒƒX‹‹“d‹Zp‚ĚĹ‘OüC(‘ć3Í: ƒƒCƒ„ƒŒƒX‹‹“d‚ĆEMC\ƒy[ƒXƒ[ƒJ‚đˆę—á‚Ɂ\)h
    ƒV[ƒGƒ€ƒV[o”Ĺ(“Œ‹ž),2021”N5ŒŽ.ISBNF978-4-7813-1603-1
    (
    https://www.cmcbooks.co.jp/products/detail.php?product_id=8139)

  47. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 24-26, 2021„

    Takashi Hikage:
    "Active Implantable Medical Device EMI Estimation for EV-Charging WPT System Based on Measurement and 3D Numerical Analysis,"
    proc. of 5th International Electric Vehicle Technology Conference (EVTeC 2021), 20214356 / G2.4, May 2021.

  48. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,5ŒŽ20“ú„

    ‘ĺ’˓֐śC“úŒi@—˛CÎ‰Ş—Č‘żC“ŒŽRŽiC—é–Ř‹ą‹X:
    g“dŠEŒ^‹y‚ŃŽĽŠEŒ^ƒAƒ“ƒeƒi‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł„’č",
    MŠw‹Z•ń, vol. 121, no. 32, EST2021-5, pp. 20-26, 2021”N5ŒŽ.
  49. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,5ŒŽ20“ú„

    ˛“ĄˆŸˆß, “úŒi@—˛, ‘ĺ‹{@Šw, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    gŹŒ^q‹ó‹@ƒ‚ƒfƒ‹‚đ—p‚˘‚˝5G Sub-6GHzŽü”g”‘Ń‚Ě‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’č",
    MŠw‹Z•ń, vol. 121, no. 32, EST2021-4, pp. 15-19, 2021”N5ŒŽ.
  50. ƒu‰‰E¸“Ç‚Č‚ľC4ŒŽ22“ú„

    ‘ĺ’˓֐ś, “úŒi—˛, ’ˇ‰Ş’q–ž, ˜aŸ†‰Á“ŢŽq:
    hƒXƒNƒŠƒ…[ƒz[ƒ‹•t‰şŠ{œŽĄ—ĂƒvƒŒ[ƒg–„ž‚Ý‚É‹Nˆö‚ˇ‚é SARă¸‚ĚŽü”g”“ÁŤ„’čhC
    ‘ć13‰ńˆă—pś‘Ě“dŽĽ‹CŠwƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|W, pp.4-5, ƒIƒ“ƒ‰ƒCƒ“, 2021”N4ŒŽ.

  51. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ9“ú-12“ú„

    “úŒi@—˛E‘ĺ’˓֐śEÎ‰Ş—Č‘żE“ŒŽRŽiE—é–Ř‹ą‹X:
    h5G Sub-6GHz Žü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ EMI „’č‚đ–Ú“I‚Ć‚ľ‚˝“d‹C - Œő•ĎŠˇ‚É‚ć‚銹Â—U‹N“dˆł‘Ş’čhC
    2021”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, BI-13-3, pp.SS-97-98, ƒIƒ“ƒ‰ƒCƒ“, 2021”N3ŒŽ.

  52. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ9“ú-12“ú„

    “ńƒbXrˆęE‹{č‘Ľ•FE˛“ĄˆŸˆßE”öúą—´”V‰îE“úŒi@—˛E–쓇r—Y:
    hŹŒ^q‹ó‹@‚É‚¨‚Ż‚éq‹ó‹@“d”g‚“xŒv‚ĚŠąÂŒo˜H‘šŽ¸ -ƒr[ƒ`ƒNƒ‰ƒtƒgB300 Œ^‹@‚đ—p‚˘‚˝—אڎü”g”‘Ń‚đŠÜ‚Ţ‘Ş’č•]‰ż-hC
    2021”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-2-8, p.173, ƒIƒ“ƒ‰ƒCƒ“, 2021”N3ŒŽ.

  53. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ9“ú-12“ú„

    ŽR–{ Ž–ç, “úŒi —˛, ŽR–{ Šw:
    h—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝—tóƒ{ƒEƒ^ƒCƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒi‚ĚŒŸ“˘hC
    2021”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-96, p.96, ƒIƒ“ƒ‰ƒCƒ“, 2021”N3ŒŽ.

  54. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ9“ú-12“ú„

    ˛“ĄˆŸˆßE‹g]–ž‰ÔE“úŒi@—˛EŽR–{@ŠwE‘ĺ‹{@ŠwE‹v–ěLWEŽR“c@Â:
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝RF‘Ń“sŽsŠÂ‹Ť“`”Ŕ“ÁŤƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚̍‚‘Ź‰ťŒŸ“˘hC
    2021”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-28, p.28, ƒIƒ“ƒ‰ƒCƒ“, 2021”N3ŒŽ.

  55. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ28“ú„

    ˛“ĄˆŸˆß, ‹g“c‘Šó, “úŒi@—˛, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    gFDTD‰đÍ‚đ—p‚˘‚˝‚TG Sub-6GHzŽü”g”‘Ń‚Ě‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’č",
    MŠw‹Z•ń, vol.120, no.350, SANE2020-38, pp.6-9, 2021”N.
  56. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan. 25-28, 2021„

    Atsuki Ohtsuka, Suzune Ito, Takashi Hikage, Tomoaki Nagaoka, Kanako Wake, and Soichi Watanabe:
    "Experimental Validation for Temperature Rise in Human Tissue Due to Implanted Metal Plates with Screw Holes Using Translucent Solid Phantom,"
    proc. of The 2020 International Symposium on Antennas and Propagation (ISAP2020), pp. 369-370, Jan. 2021.

  57. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ22“ú„

    ‹g]–ž‰Ô, ˛“ĄˆŸˆß, “úŒi@—˛, ŽR–{@Šw, ‘ĺ‹{@Šw, ‹v–ěLW, ’––”@–Ť, ŽR“c@Â:
    g‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝‰Ž“ŕƒ}ƒ‹ƒ`ƒpƒX‹óŠÔ“d”g“`”Ŕ“ÁŤƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚̐¸“xŒŸ“˘",
    MŠw‹Z•ń, vol. 120, no. 328, EST2020-73, pp. 103-107, 2021”N1ŒŽ.
  58. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ22“ú„

    ‘ˇ@’Ăčé, ˆÉ“Ą—Á‰š, “úŒi@—˛:
    gFEMƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚đ—p‚˘‚˝5G Sub6 Žü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^ƒy[ƒXƒ[ƒJEMI“ÁŤ‚ĚŒŸ“˘",
    MŠw‹Z•ń, vol. 120, no. 328, EST2020-72, pp. 99-102, 2021”N1ŒŽ.
  59. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ22“ú„

    ˆÉ“Ą—Á‰š, ‘ĺ’˓֐ś, “úŒi@—˛, ’ˇ‰Ş’q–ž, ˜aŸ†‰Á“ŢŽq:
    g‰şŠ{œŽĄ—ĂƒvƒŒ[ƒg–„ž‚Ý‚É‹Nˆö‚ˇ‚éSARă¸‚ĚŽü”g”“ÁŤ„’č",
    MŠw‹Z•ń, vol. 120, no. 328, EST2020-71, pp. 95-98, 2021”N1ŒŽ.
  60. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,1ŒŽ21“ú„

    ‘ĺ’˓֐ś, “úŒi@—˛, Î‰Ş—Č‘ż, “ŒŽRŽi, —é–Ř‹ą‹X:
    g‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Sub-6GHzŽü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI„’č‚đ–Ú“I‚Ć‚ľ‚˝ŠąÂ—U‹N“dˆł‘Ş’č",
    “dŽqî•ń’ʐMŠw‰ďŒő‰ž—p“dŽĽŠEŒv‘ŞŒ¤‹†‰ď‹ZpŒ¤‹†•ń,PEM2020-12, pp. 17-20, 2021”N1ŒŽ.

2020(—ߘa2”N)

  1. ƒ˜_•ś:¸“Ç‚ ‚聄

    Toru Ishihara, Keiko Yamazaki, Atsuko Araki, Yuri Teraoka, Naomi Tamura, Takashi Hikage, Manabu Omiya, Masahiro Mizuta, Reiko Kishi:
    "Exposure to Radiofrequency Electromagnetic Field in the High-Frequency Band and Cognitive Function in Children and Adolescents: A Literature Review,"
    International Journal of Environmental Research and Public Health, 17(24), 9179, Dec. 2020.
    https://doi.org/10.3390/ijerph17249179 (registering DOI)

  2. ƒ˜_•ś:¸“Ç‚ ‚聄

    Takashi Hikage, Suzune Ito, and Atsuki Ohtsuka:
    "Novel Interference Voltage Measurement for Beam-Type Wireless Power Transfer Using an Electro-Optical Converter for EMI Assessment of Active Implantable Medical Devices,"
    URSI RADIO SCIENCE LETTERS, VOL. 2, pp.1-3, Nov. 2020.
    DOI: 10.46620/20-0039

  3. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ‹g] –ž‰Ô, “úŒi —˛, ŽR–{ Šw:
    hŽs”ĚƒŒƒCƒgƒŒ[ƒVƒ“ƒOƒ\ƒtƒg‚đ—p‚˘‚˝“sŽsŠÂ‹Ť“`”Ŕ“ÁŤƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚̐¸“xŒŸ“˘hC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.5, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  4. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ˛“Ą ˆŸˆß, “úŒi —˛, ‘ĺ‹{ Šw, ŽR–{ Šw:
    hFDTD‰đÍ‚đ—p‚˘‚˝RF‘Ń“sŽs“`”ŔŠÂ‹Ť‚É‚¨‚Ż‚éŽóM“d—Í•Ş•z„’čhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.8, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  5. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ŠÖŒű “O–ç, “úŒi —˛, ŽR–{ Šw, “ńƒbX rˆę, X‰Ş ˜as, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl :
    hFDTD‰đÍ‚đ—p‚˘‚˝WAICŽü”g”‘Ń‚Ě‹@ŠO˜R‰k”g“ÁŤ„’čhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.10, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ”öúą —´”V‰î, “úŒi —˛, ŽR–{ Šw, ‘“c G:
    hś‘̉e‹ż‚Ě”M’mŠo臒l•]‰ż‚Ě‚˝‚ß‚Ě60 GHz‘Ń‹óŠÔ‡ŹŒ^“d”g‚΂­˜I‘•’u‚ĚŠJ”­hC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.11, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ˆÉ“Ą —Á‰š, “úŒi —˛, ŽR–{ Šw, ’ˇ‰Ş ’q–ž, ˜aŸ† ‰Á“ŢŽq, “n•Ó ‘ˆę:
    hƒXƒNƒŠƒ…[ƒz[ƒ‹•t‹ŕ‘ŽƒvƒŒ[ƒg‹óŒ„•”‚̉ˇ“xă¸‘Ş’čhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.15, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  8. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ‘ˇ ’Ăčé, “úŒi —˛, ŽR–{ Šw:
    h—LŒŔ—v‘f–@‰đÍ‚đ—p‚˘‚˝ƒXƒƒbƒgƒAƒ“ƒeƒi‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíŠąÂ—U‹N“dˆł„’čhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.16, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  9. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ‘ĺŸ —˛•˝, “úŒi —˛, ŽR–{ Šw:
    hŽĽŠE‹¤U‚đ—p‚˘‚˝ƒ}ƒ‹ƒ`ƒzƒbƒv–łü“d—Í“`‘—‘•’u‹ß–T‚É‚¨‚Ż‚é‚΂­˜IˆŔ‘SŤ•]‰ż‚ÉŠÖ‚ˇ‚éŠî‘bŒŸ“˘hC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.17, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  10. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ‘ĺ’Ë “֐ś, “úŒi —˛, ŽR–{ Šw:
    h‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Sub6Žü”g”‘ѐAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI„’č‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čŒnhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.18, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  11. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    –Ř‘ş —˝‘ž, “úŒi —˛, ŽR–{ Šw:
    h”N—îEŤ•Ę‚ĚˆŮ‚Č‚é”’ll‘Ě‚đ—p‚˘‚˝UHF‘ŃRFID‚ĚSAR„’čhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.19, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  12. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    Ž°Œ´ ’B˜Y, “úŒi —˛, ŽR–{ Šw:
    hEBG”˝ŽË”ă‚É”z’u‚ł‚ę‚˝‹éŒ`ƒ‹[ƒvƒAƒ“ƒeƒi‚Ě“ÁŤ•]‰żhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.91, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  13. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    ŽR–{Ž–ç, “úŒi@—˛, ŽR–{@Šw:
    h—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝16‘fŽq—tóƒ{ƒEƒ^ƒCƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒihC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.92, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  14. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7“ú„

    Mangseang Hor, Takashi Hikage, Manabu Yamamoto:
    hA Study on Application of Leaf-Shaped Bow-Tie Antenna for Beamforming Array Antenna within Millimeter Wave FrequencyhC
    —ߘa2”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.93, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N11ŒŽ.

  15. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ30“ú„

    “úŒi@—˛:
    g“d”g‚Ɛś‘ĚˆŔ‘SŤ-Šî–{“Il‚Ś•ű‚Š‚çŽŔŰ‚Ě•]‰ż‚Ü‚Ĺ-hC
    ‘ć26‰ńEMCŠÂ‹ŤƒtƒH[ƒ‰ƒ€C‹ZpƒZƒbƒVƒ‡ƒ“9u“d”g‚Ɛś‘ĚˆŔ‘SŤvCƒIƒ“ƒ‰ƒCƒ“C2020”N10ŒŽ.
  16. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ6“ú„

    “úŒi@—˛:
    gƒy[ƒXƒ[ƒJ“™ˆă—Ă‹@Ší‚ĆEMC‚Ě˜b‘čhC
    IoTŽž‘ă‚ĚƒVƒXƒeƒ€‚ĆEMC’˛¸ę–ĺˆĎˆő‰ď(“d‹CŠw‰ď)CƒIƒ“ƒ‰ƒCƒ“C2020”N10ŒŽ.
  17. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,9ŒŽ28“ú„

    ‘ˇ@’ĂčéCˆÉ“Ą—Á‰šC“úŒi@—˛C–쓇r—Y:
    g—LŒŔ—v‘f–@‚đ—p‚˘‚˝ƒXƒƒbƒgƒAƒ“ƒeƒi‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI“ÁŤ‚ĚŒŸ“˘hC
    MŠw‹Z•ń, vol. 120, no. 175, EMCJ2020-23, pp. 11-14, 2020”N9ŒŽ.
  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 23-25, 2020„

    Takashi Hikage, Ryunosuke Ozaki, Hiroshi Masuda, Tatsuya Ishitake:
    " Development of 5G-Frequency Bands Exposure Equipment System for Studies on Thermal Thresholds of Biological Effects of Quasi-millimeter to Millimeter Waves on Human Body "
    proc. of 2020 International Symposium on Electromagnetic Compatibility -EMC EUROPE, Sep. 2020.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 23-25, 2020„

    Shunichi Futatsumori, Norihiko Miyazaki, Takashi Hikage, Tetsuya Sekiguchi, Manabu Yamamoto, Toshio Nojima:
    " Interference Path Loss Measurements of Beechcraft B300 Aircraft at 4 GHz Wireless Avionics Intra-Communication Band "
    proc. of 2020 International Symposium on Electromagnectic Compatibility -EMC EUROPE, Sep. 2020.

  20. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,9ŒŽ24“ú„

    ‘ĺ’˓֐śCˆÉ“Ą—Á‰šC“úŒi@—˛CŽR–{@Šw:
    gmƒ|ƒXƒ^[u‰‰nRF-WPTŽü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI„’č‚đ–Ú“I‚Ć‚ľ‚˝“d‹C-Œő•ĎŠˇ‚É‚ć‚銹Â—U‹N“dˆł‘Ş’čhC
    MŠw‹Z•ń, vol. 120, no. 171, AP2020-49, pp. 79-80, 2020”N9ŒŽ.
  21. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ15“ú-18“ú„

    ŽR–{Ž–ç, “úŒi@—˛, ŽR–{@Šw:
    h—ź•˝–Ę‹‹“d‰ń˜H‚đ—p‚˘‚˝—tóƒ{ƒEƒ^ƒCƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒihC
    2020”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-1-45, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N9ŒŽ.

  22. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ15“ú-18“ú„

    “ńƒbXrˆę, ‹{č‘Ľ•F, ŠÖŒű“O–ç, “úŒi@—˛, –쓇r—Y:
    hq‹ó‹@“ŕƒf[ƒ^’ʐMŽü”g”‘Ń‚É‚¨‚Ż‚éq‹ó‹@“dŠE‹­“x“ÁŤ•]‰ż|ƒr[ƒ`ƒNƒ‰ƒtƒgB300Œ^‹@‚đ—p‚˘‚˝’nă•úŽË“ÁŤ‘Ş’č|hC
    2020”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-2-5, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N9ŒŽ.

  23. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ15“ú-18“ú„

    ˆÉ“Ą—Á‰šC‘ĺ’˓֐śC“úŒi@—˛C’ˇ‰Ş’q–žC˜aŸ†‰Á“ŢŽqC“n•Ó‘ˆę:
    hƒXƒNƒŠƒ…[ƒz[ƒ‹•t‰şŠ{œŽĄ—ĂƒvƒŒ[ƒg‹óŒ„•”‚ĚSAR„’čhC
    2020”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-4, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N9ŒŽ.

  24. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ15“ú-18“ú„

    ”öúą—´”V‰îC“úŒi@—˛C‘ĺ‹{@ŠwC…“cłOCŽRúąŒ\ŽqCr–Ř“ÖŽqCŠÝ@—ćŽq:
    h“d”g‚΂­˜I‚Ɛ­”N‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚é‰uŠwŒ¤‹†‚đ–Ú“I‚Ć‚ľ‚˝5GŽü”g”‘Ń‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ„’čhC
    2020”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-6, ƒIƒ“ƒ‰ƒCƒ“ŠJĂ, 2020”N9ŒŽ.

  25. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 2-4, 2020„

    Takashi Hikage and Manabu Omiya:
    " Numerical Estimation on Quasi-millimeter Wave Band Indoor Propagation Using Large Scale FDTD Analysis "
    proc. of The 2020 IEEE International Symposium on Radio-Frequency Integration Technology (RFIT2020), Sep. 2020.

  26. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 8/28-29FCOVID-19‚É‚ć‚č•sŠJĂ„

    Keshavarz Rasool, Miyanaga Yoshikazu, Yamamoto Manabu, Hikage Takashi, Shariati Negin:
    "Metamaterial-Inspired Quad-Band Notch Filter for LTE Band Receivers and WPT Applications(Invited),"
    proc. of XXXIV General Assembly and Scientific Symposium (GASS) of the International Union of Radio Science (Union Radio Scientifique Internationale-URSI), DK01-01, Aug. 2020.

  27. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 8/28-29FCOVID-19‚É‚ć‚č•sŠJĂ„

    Hikage Takashi, Ito Suzune, Ohtsuka Atsuki:
    "Novel Interference Voltage Measurement for Beam-Type Wireless Power Transfer using Electro-Optic Converter for Active Implantable Medical Device EMI Assessment,"
    proc. of XXXIV General Assembly and Scientific Symposium (GASS) of the International Union of Radio Science (Union Radio Scientifique Internationale-URSI), DK01-03, Aug. 2020.

  28. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 8/28-29FCOVID-19‚É‚ć‚č•sŠJĂ„

    Yamasaki Keiko, Araki Atsuko, Ishihara Toru, Teraoka Yuri, Hikage Takashi, Omiya, Manabu, Mizuta Masahiro, Kishi Reiko:
    "The protocol for the study about association between radio frequency wave and children's health: New challenge from Hokkaido study,"
    proc. of XXXIV General Assembly and Scientific Symposium (GASS) of the International Union of Radio Science (Union Radio Scientifique Internationale-URSI), K06-01, Aug. 2020.

  29. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,7ŒŽ15“ú-17“ú„

    ‹g]–ž‰ÔC˛“ĄˆŸˆßC“úŒi@—˛:
    gmˆË—Šu‰‰nŽs”ĚƒŒƒCƒgƒŒ[ƒVƒ“ƒOƒ\ƒtƒg‚đ—p‚˘‚˝“sŽsŠÂ‹Ť“`”Ŕ“ÁŤƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚̍‚‘Ź‰ťŒŸ“˘hC
    MŠw‹Z•ń, vol. 120, no. 97, AP2020-10, pp. 5-7, 2020”N7ŒŽ.
  30. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,7ŒŽ15“ú-17“ú„

    “úŒi@—˛C‹g]–ž‰ÔC‘ĺ‹{@Šw:
    gmˆË—Šu‰‰n‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝“sŽsŠÂ‹Ťƒ‚ƒfƒ‹‚Ě3ŽŸŒł“`”Ŕ“ÁŤ„’čhC
    MŠw‹Z•ń, vol. 120, no. 97, AP2020-9, pp. 1-4, 2020”N7ŒŽ.
  31. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 5-10„

    Takashi Hikage, Ryunosuke Ozaki, Manabu Omiya, Masahiko Mizuta, Keiko Yamazaki, Atsuko Araki, Reiko Kishi:
    "CHARACTERIZATION OF HUMAN BODY BLOCKAGE IN 5G FREQUENCY BANDS FOR LARGE SCALE EPIDEMIOLOGIC RESEARCH ON RF EXPOSURE AND ADOLESCENT HEALTH,"
    proc. of 2020 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting(Virtual Symposium), FR-UK.1P.9, July 2020.

  32. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,7ŒŽ2“ú-3“ú„

    ‘ˇ@’ĂčéCˆÉ“Ą—Á‰šC“úŒi@—˛C–쓇r—Y:
    g3D-FEMƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚đ—p‚˘‚˝4G/LTEŽü”g”‘ѐAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż–@‚ĚŒŸ“˘hC
    MŠw‹Z•ń, vol. 120, no. 83, EMCJ2020-16, pp. 29-32, 2020”N7ŒŽ.
  33. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 6/21-26FCOVID-19‚É‚ć‚č•sŠJĂ„

    Ryunosuke Ozaki, Takashi Hikage, Itsuki Kageyama, Hiroshi Masuda, Tatsuya Ishitake:
    "Development of novel 68 GHz exposure equipment system for studies on thermal perception thresholds of biological effects exposed to millimeter-wave,"
    proc. of The Joint Annual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association (BioEM2020), Dosimetry (measurements)-24, June 2020.

  34. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 6/21-26FCOVID-19‚É‚ć‚č•sŠJĂ„

    Suzune Ito, Atsuki Ohtsuka, Takashi Hikage, Tomoaki Nagaoka, Kanako Wake, Soichi Watanabe:
    "Specific absorption rate enhancement due to metallic plate implants with screw holes at mobile radio frequency bands,"
    proc. of The Joint Annual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association (BioEM2020), Dosimetry (computational)-29, June 2020.

  35. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 6/21-26FCOVID-19‚É‚ć‚č•sŠJĂ„

    Tatsuya Ishitake, Itsuki Kageyama, Toshihiro Morisaki, Takashi Hikage, Ryunosuke Ozaki, Akimasa Hirata, Sachiko Kodera, Kenji Taguchi, Tatsuya Kashiwa, Yoshitaka Morimatsu, Hiroshi Masuda:
    "Biological effects on skin temperature under local exposure to 28 GHz-milimeter-wave,"
    proc. of The Joint Annual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association (BioEM2020), Human-4, June 2020.

  36. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 6/21-26FCOVID-19‚É‚ć‚č•sŠJĂ„

    Hiroshi Masuda, Yoshitaka Morimatsu, Akimasa Hirata, Sachiko Kodera, Takuji Arima, Yasutaka Murakami, Takashi Hikage, Tatsuya Ishitake:
    "Effects of high intensity local exposure to 26.5 GHz quasi-millimeter wave on glial cells in rat brain,"
    proc. of The Joint Annual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association (BioEM2020), In vivo-13, June 2020.

  37. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ27“ú-28“ú„

    r–Ř“ÖŽqAŽRúąŒ\ŽqAŽ›‰Ş—F—˘A“úŒi —˛A…“cłOA‘ĺ‹{ ŠwAŠÝ —ćŽq:
    h“d”g‚¨‚ć‚ŃŒg‘Ń“d˜b‚Ö‚Ě‘ŮŽ™Šú”˜˜I‚É‚ć‚鎙‚ĚŒ’N‰e‹ż‚ÉŠÖ‚ˇ‚éĹ‹ß‚ĚŒ¤‹†“ŽŒüF•śŒŁ’˛¸hC
    ‘ć90‰ń“ú–{‰qśŠw‰ďŠwp‘‰ď, ŽăŠJĂ, 2020”N3ŒŽ.

  38. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ27“ú-28“ú„

    ŽRúąŒ\ŽqAr–Ř“ÖŽqAŽ›‰Ş—F—˘A“úŒi —˛A…“cłOA‘ĺ‹{ ŠwAŠÝ —ćŽq:
    h“d”g”˜˜I‚ĆŠw“śŠú‚̍s“Ž‚Ě–â‘č‹y‚Ń”F’m‹@”\‚Ć‚ĚŠÖ˜A‚ÉŠÖ‚ˇ‚éĹ‹ß‚ĚŒ¤‹†“ŽŒüF•śŒŁ’˛¸hC
    ‘ć90‰ń“ú–{‰qśŠw‰ďŠwp‘‰ď, ŽăŠJĂ, 2020”N3ŒŽ.

  39. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ17“ú-20“ú„

    ‹g]–ž‰ÔE“úŒi@—˛EŽR–{@ŠwE‘ĺ‹{@ŠwE‹v–ěLWEŽR“c@ÂEŸÇˆä—T‰îE‘éŽć‘׎i:
    h“sŽsŠÂ‹Ťƒ‚ƒfƒ‹‚Ě“`”Ŕ“ÁŤ„’č‚đ–Ú“I‚Ć‚ľ‚˝‘ĺ‹K–ÍFDTD‰đÍ‚Ě“K—phC
    2020”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-14, p.14, L“‡Žs, 2020”N3ŒŽ.

  40. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ17“ú-20“ú„

    ŠÖŒű“O–çE“úŒi@—˛EŽR–{@ŠwE–쓇r—YE“ńƒbXrˆęEX‰Ş˜asE‰Í‘ş‹ĹŽqE•Ä–{Źl:
    h‘ĺ‹K–ÍFDTD‰đÍ‚É‚ć‚é 4.4GHz‘ŃWAICƒVƒXƒeƒ€ÝŒv‚Ě‚˝‚ß‚Ě‹@ŠO˜R‰k”g“ÁŤ„’čhC
    2020”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-15, p.15, L“‡Žs, 2020”N3ŒŽ.

  41. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ17“ú-20“ú„

    Mangseang HorETakuma MakanaeETakashi HikageEManabu Yamamoto:
    hA Study on Gain Enhancement of Leaf-Shaped Bow-Tie Slot Array Antenna within Quasi-Millimeter Wave BandhC
    2020”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-70, p.70, L“‡Žs, 2020”N3ŒŽ.

  42. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ17“ú-20“ú„

    “ńƒbXrˆęE‹{č‘Ľ•FEŠÖŒű“O–çE“úŒi@—˛E–쓇r—Y:
    hq‹ó‹@“ŕƒf[ƒ^’ʐMŽü”g”‘Ń‚É‚¨‚Ż‚鏬Œ^q‹ó‹@‚ĚŠąÂŒo˜H‘šŽ¸ |ƒr[ƒ`ƒNƒ‰ƒtƒgB300 Œ^‹@‚đ—p‚˘‚˝‘Ş’č•]‰ż|hC
    2020”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-2-4, p.162, L“‡Žs, 2020”N3ŒŽ.

  43. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ17“ú-20“ú„

    ˆÉ“Ą—Á‰šE‘ĺ’˓֐śE“úŒi@—˛E’ˇ‰Ş’q–žE˜aŸ†‰Á“ŢŽqE“n•Ó‘ˆę:
    hƒXƒNƒŠƒ…[ƒz[ƒ‹•t‹ŕ‘ŽƒvƒŒ[ƒg‹óŒ„•”‚ĚSAR„’čhC
    2020”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-56, p.277, L“‡Žs, 2020”N3ŒŽ.

  44. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ17“ú-20“ú„

    ˆÉ“Ą—Á‰šE“úŒi@—˛EÎ‰Ş—Č‘żE“ŒŽRŽiE—é–Ř‹ą‹X:
    h5G Sub6 Žü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI„’č‚đ–Ú“I‚Ć‚ľ‚˝“d‹C-Œő•ĎŠˇ‚É‚ć‚銹Â—U‹N“dˆł‘Ş’čhC
    2020”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-57, p.278, L“‡Žs, 2020”N3ŒŽ.

2019(•˝Ź31”N,—ߘaŒł”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 4-5, 2019„

    Ryunosuke Ozaki, Takashi Hikage, Manabu Omiya, Masahiko Mizuta, Keiko Yamazaki, Atsuko Araki, Yuri Teraoka, Reiko Kishi:
    " Estimation on Human Body Blockage Characteristics at 5G Frequency bands for Epidemiologic Research on RF Exposure and Adolescent Health"
    proc. of The Philippines-Japan Workshop on Wireless, Radio and Antenna Technologies (PJWWRAT), Dec. 2019.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 4-5, 2019„

    Suzune ITO, Takashi HIKAGE, Tomoaki NAGAOKA, Kanako WAKE, Soichi WATANABE:
    " Estimation of Specific Absorption Rate Enhancement Due to Metallic Plate Implants with Screw Holes at Mobile Radio Frequency Bands"
    proc. of The Philippines-Japan Workshop on Wireless, Radio and Antenna Technologies (PJWWRAT), Dec. 2019.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 4-5, 2019„

    Jintao SUN, Takashi HIKAGE, Tomoaki NAGAOKA, Kanako WAKE:
    " Numerical Estimation on RF Penetration Characteristics into Saline Solution at 5G Frequency Bands for AIMD-EMI Assessments"
    proc. of The Philippines-Japan Workshop on Wireless, Radio and Antenna Technologies (PJWWRAT), Dec. 2019.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, November 18-19, 2019„

    Suzune ITO, Jintao SUN, Takashi HIKAGE, Junji HIAGASHIYAMA, and Teruo ONISHI:
    " Interference Voltage Measurement Set-up for Beam-Type WPT Using an Electro-Optic Converter for Active Implantable Medical Device EMI Assessment"
    proc. of 3rd PEM International Workshop in Ise (PEM2019),PE-10, pp.1-3, Nov. 2019.

  5. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ĺŒ´ Œc‘ž, “úŒi —˛, ŽR–{ Šw (–kŠC“š‘ĺŠw), ˆüŽR ˆís, ‘“c G (‹v—Ż•Ä‘ĺŠw):
    h 70 GHz‘Ń‚É‚¨‚Ż‚鐜‘̉e‹ż‚Ě”M’mŠo臒l•]‰ż‚Ě‚˝‚߂̂΂­˜I‘•’uŠJ”­hC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.64, Žş—–Žs, 2019”N11ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ˆÉ“Ą —Á‰š, “úŒi —˛, ŽR–{ Šw (–kŠC“š‘ĺŠw), “ŒŽR Ži, ‘吟 ‹P•v (NTTƒhƒRƒ‚):
    hRF-WPTŽü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI„’č‚đ–Ú“I‚Ć‚ľ‚˝“d‹C-Œő•ĎŠˇ‚É‚ć‚銹Â—U‹N“dˆł‘Ş’čŒn‚̍\’zhC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.63, Žş—–Žs, 2019”N11ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ‘ĺŸ —˛•˝, “úŒi —˛, ŽR–{ Šw:
    h3D-FEMƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚É‚ć‚éVHF‘Ń–łü“d—Í“`‘—‹@Ší‚̐ś‘ĚˆŔ‘SŤ•]‰ż‚Ě‚˝‚ß‚ĚŠî‘bŒŸ“˘hC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.62, Žş—–Žs, 2019”N11ŒŽ.

  8. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ‹g] –ž‰Ô, “úŒi —˛, ŽR–{ Šw:
    hBeam-type–łü“d—Í“`‘—‚̉Ž“ŕ“`”d‚É‚¨‚Ż‚é“Ž“Il‘ĚŽŐ•Á„’čhC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.61, Žş—–Žs, 2019”N11ŒŽ.

  9. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ŠÖŒű “O–ç, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw (–kŠC“š‘ĺŠw), “ńƒbX rˆę, X‰Ş ˜as, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl (“dŽqq–@Œ¤‹†Š):
    h‘ĺ‹K–ÍFDTD‰đÍ‚É‚ć‚é4.4 GHz‘ŃWAICƒVƒXƒeƒ€‚Ě‹@ŠO“`”Ŕ“ÁŤ„’čhC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.60, Žş—–Žs, 2019”N11ŒŽ.

  10. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ‘ˇ ’Ăčé, “úŒi —˛, ŽR–{ Šw (–kŠC“š‘ĺŠw), ’ˇ‰Ş ’q–ž, ˜aŸ† ‰Á“ŢŽq (î•ń’ʐMŒ¤‹†‹@\):
    h—LŒŔ—v‘f–@‰đÍ‚đ—p‚˘‚˝4.5 GHz‘Ń“d”g‚̉–…Z“§“ÁŤ„’čhC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.58, Žş—–Žs, 2019”N11ŒŽ.

  11. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    Mangseang Hor, Takashi Hikage, Manabu Yamamoto:
    hA Study on Increasing of Gain of Leaf-Shaped Bow-Tie Array Antenna within Quasi-Millimeter Wave BandhC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.57, Žş—–Žs, 2019”N11ŒŽ.

  12. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    Ž°Œ´ ’B˜Y, “úŒi —˛, ŽR–{ Šw:
    hƒvƒŠƒ“ƒgƒ_ƒCƒ|[ƒ‹‚ĚŽüŠú\‘˘‚Ş‘•‰×‚ł‚ę‚˝ƒpƒbƒ`ƒAƒŒ[ƒAƒ“ƒeƒi‚Ě“ÁŤ•]‰żhC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.56, Žş—–Žs, 2019”N11ŒŽ.

  13. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ9“ú„

    ŽŞ•c  ”n, “úŒi —˛, ŽR–{ Šw:
    h•Ą”‚Ě—U“d‘Ě”Â‚Ş‘•‰×‚ł‚ę‚˝L‘ŃˆćƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒihC
    —ߘaŒł”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.55, Žş—–Žs, 2019”N11ŒŽ.

  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, October 31-November 2 2019„

    Akika Yoshie, Keita Sakakibara, Takashi Hikage:
    "Numerical Estimation of Indoor Propagation Characteristics Considering Human-Body Shadowing for Beam-type Wireless Power Transfer"
    proc. of 2019 Asian Wireless Power Transfer Workshop(AWPT2019) , pp.1-2, Oct. 2019.

  15. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ31“ú-11ŒŽ1“ú„

    Shunichi FutatsumoriEKazuyuki MoriokaENorihiko MiyazakiiENRIjETetsuya SekiguchiETakashi HikageEToshio NojimaiHokkaido Univ.j:
    gElectromagnetic Field Strength Evaluations at 4 GHz Wireless Avionics Intra-Communication Band Using Experimental Aircraft -- Radiation Power Measurements Assuming WAIC Transmitters --h
    International Conference on Space, Aeronautical and Navigational Electronics 2019 (ICSANE 2019), pp.?? , 2019”N11ŒŽ.
  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 27-30 October 2019„

    Akihiro SATO, Daigo OGATA, Sho KIMURA, HIDEKI OMOTE, Takashi HIKAGE:
    "Measurement of Human Body Blockage in HAPS Communications with Consideration of Elevation Angle,"
    proc. of 2019 International Symposium on Antennas and Propagation (ISAP2019), pp.1-3, Oct. 2019.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 27-30 October 2019„

    Kimihiro Tajima, Kenichi Komeda, Yukihiro Miyota, Takashi Hikage:
    "Estimation of protection distance for RF field strength in quasi-far field around microwave WPT apparatus,"
    proc. of 2019 International Symposium on Antennas and Propagation (ISAP2019), pp.1-3, Oct. 2019.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 23-25 October 2019„

    Keita Sakakibara, Takashi Hikage, Itsuki Kageyama, Hiroshi Masuda:
    "Development of Novel 70 GHz Band Exposure Equipment System for Studies on Thermal Perception Thresholds of Biological Effects Exposed to Millimeter-Wave,"
    proc. of 2019 IEEE CAMA, pp.309-312, Oct. 2019.

  19. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ2“ú-4“ú„

    ‘ĺŸ—˛•˝, “úŒi@—˛, ŽR–{@Šw:
    gHF‘Ń“d—Í“`‘—‘•’u‹ß–T‚̐Až‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJŠąÂ—U‹N“dˆł‚ĚŒvŽZ„’čh
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ďiMIKA2019j, p.99, 2019”N10ŒŽ.
  20. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ2“ú-4“ú„

    ‘ĺ’˓֐ś, ”öč—´”V‰î, ˛“ĄˆŸˆß, ŽR–{Ž–ç, “úŒi@—˛, ŽR–{@Šw:
    g“dŽq¤•iŠÄŽ‹‹@Ší‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@Ší“dŽĽŠąÂ‚Ěin vitroŽŽŒą,h
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ďiMIKA2019j, p.89, 2019”N10ŒŽ.
  21. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ2“ú-4“ú„

    ‹g]–ž‰Ô, ĺŒ´Œc‘ž, “úŒi@—˛:
    g‰Ž“ŕŠÂ‹Ť‚É‚¨‚Ż‚éƒ}ƒCƒNƒ”g‘Ń–łü“d—Í“`‘—‚̐l‘ĚŽŐ•Á„’č,h
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ďiMIKA2019j, p.18, 2019”N10ŒŽ.
  22. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ,10ŒŽ2“ú-4“ú„

    ĺŒ´Œc‘ž, “úŒi@—˛, ˆüŽRˆís, ‘“c@G:
    g‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Œó•âŽü”g”‘Ń‚É‚¨‚Ż‚鐜‘Ě”˝‰žč‡’l•]‰ż‚Ě‚˝‚ß‚Ě“d”g‚΂­˜I‘•’uŠJ”­,h
    ŠvV“I–łü’ʐM‹Zp‚ÉŠÖ‚ˇ‚鉥’fŒ^Œ¤‹†‰ďiMIKA2019j, p.17, 2019”N10ŒŽ.
  23. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ10“ú-13“ú„

    ˆÉ“Ą—Á‰šE“úŒi —˛EŽR–{ ŠwE’ˇ‰Ş’q–žE˜aŸ†‰Á“ŢŽqE“n•Ó‘ˆę:
    hƒXƒNƒŠƒ…[ƒz[ƒ‹‚đ—L‚ˇ‚é‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚Ý‚É‹Nˆö‚ˇ‚é‹ÇŠSARă¸‚Ě•]‰żhC
    2019”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-13, p.210, ‘ĺă•{, 2019”N9ŒŽ.

  24. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ10“ú-13“ú„

    ‘ˇ ’ĂčéE“úŒi —˛E’ˇ‰Ş’q–žE˜aŸ†‰Á“ŢŽq:
    h—LŒŔ—v‘f–@‰đÍ‚đ—p‚˘‚˝ 28 GHz‘Ń“d”g‚̉–…Z“§“ÁŤ„’čhC
    2019”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-12, p.209, ‘ĺă•{, 2019”N9ŒŽ.

  25. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ10“ú-13“ú„

    ‹g]–ž‰ÔEĺŒ´Œc‘žE“úŒi —˛EŽR–{ Šw:
    hƒ}ƒCƒNƒ”g‘Ń–łü“d—Í“`‘—‚̉Ž“ŕ“`”d‚É‚¨‚Ż‚él‘ĚŽŐ•Á„’čhC
    2019”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-20-12, p.392, ‘ĺă•{, 2019”N9ŒŽ.

  26. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    Ž°Œ´’B˜YE“úŒi@—˛EŽR–{@ŠwE“ŕ“c‘吽:
    g ƒpƒbƒ`ƒAƒŒ[ƒAƒ“ƒeƒi‚Ě—U“d‘̔‘•‰×‚É‚ć‚鋡ƒr[ƒ€‰ť‹y‚э‚—˜“ž‰ť‚ÉŠÖ‚ˇ‚錟“˘,h
    MŠw‹Z•ń, vol. 119, no. 168, AP2019-47, pp. 1-6, 2019”N8ŒŽ.
  27. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 29-30„

    Jintao SUN, Takashi HIKAGE, and Tomoaki NAGAOKA:
    "Estimation on RF Penetration Characteristics into Saline Solution at 28 GHz Using Finite Element Method,"
    proc. of The 2nd Indonesia-Japan Workshop on Antennas and Wireless Technology (IJAWT2019), p.38, July 2019.

  28. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ˆÉ“Ą—Á‰š, ‘ˇ@’Ăčé, “úŒi@—˛, “ŒŽRŽi, ‘吟‹P•v:
    h“d‹CŒő•ĎŠˇŠí‚đ—p‚˘‚˝ƒr[ƒ€Œ^WPTŽü”g”‘Ń“d”g‚΂­˜I‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čŒnhC MŠw‹Z•ń, vol.119, no.135, WPT2019-26, pp.23-28, 2019”N7ŒŽ.
  29. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŠÖŒű“O–ç, “úŒi —˛, ŽR–{ Šw, –쓇r—Y, ‘ĺ‹{Šw, “ńƒbXrˆę, X‰Ş˜as, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝4.4GHz‘ŃWAICƒVƒXƒeƒ€‚Ě‚˝‚ß‚Ě‹@ŠOŠĎ‘Ş–Ę‚É‚¨‚Ż‚é“`”Ŕ“ÁŤ„’čhC MŠw‹Z•ń, vol.119, no.120, AP2019-43, pp.119-122, 2019”N7ŒŽ.
  30. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 7-12„

    S. Futatsumori, N. Miyazaki, T. Sekiguchi, and T. Hikage:
    "MEASUREMENT OF RADIATION POWER FROM AN AIRCRAFT FMCW RADAR ALTIMETER FOR INVESTIGATING SPECTRUM-SHARING CONDITIONS WITH WIRELESS AVIONICS INTRA-COMMUNICATION SYSTEMS,"
    proc. of 2019 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, WE-UE.1P.2, July 2019.

  31. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 7-12„

    T. Sekiguchi, T. Hikage, M. Yamamoto, T. Nojima, S. Futatsumori, K. Morioka, A. Kohmura and N. Yonemoto:
    "A LARGE SCALE FDTD ANALYSIS OF CROSS POLARIZATION CHARACTERISTICS FOR WIRELESS LINK DESIGN OF 4.4 GHZ-BAND WAIC SYSTEMS INSIDE AND OUTSIDE AIRCRAFT CABIN,"
    proc. of 2019 IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, TH-A1.2P.7, July 2019.

  32. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 23-28„

    Takashi Hikage, Suzune Ito, Toshio Nojima, Tomoaki Nagaoka, Soichi Watanabe:
    "Experimental estimation on temperature rise in human tissue due to implanted metal plates using novel translucent semi-solid phantom,"
    proc. of The Joint Annual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association (BioEM2019), pp.394-396, June 2019.

  33. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 23-28„

    Itsuki Kageyama, Takashi Hikage, Keita Sakakibara, Akimasa Hirata, Sachiko Kodera, Kenji Taguchi,Tatsuya Kashiwa, Yoshitaka Morimatsu, Tatsuya Ishitake, Hiroshi Masuda:
    "Characteristics of skin temperature elevation under the local exposure of 28 GHz-millimeter-wave in phantom and real human body,"
    proc. of The Joint Annual Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association (BioEM2019), pp.659-660, June 2019.

  34. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ‹g]–ž‰ÔCĺŒ´Œc‘žC“úŒi@—˛:
    gl‘ĚŽŐ•Á‚đl—ś‚ľ‚˝ƒ}ƒCƒNƒ”g‘Ń–łü“d—Í“`‘—‘•’u‚̉Ž“ŕ“`”Ŕ“ÁŤ„’č,h
    MŠw‹Z•ń, vol. 119, no. 74, WPT2019-12, pp.11-14, 2019”N6ŒŽ.
  35. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛, ‘ˇ@’ĂčéC–쓇r—Y:
    gƒ‚ƒoƒCƒ‹‹@Ší‚đ‘ÎŰ‚Ć‚ˇ‚郏ƒCƒ„ƒŒƒX“d—Í“`‘—‘•’u‚É‚ć‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ/ICD ‚Ö‚Ě“dŽĽŠąÂ‰e‹ż‚ÉŠÖ‚ˇ‚é’˛¸Ž–—á,h
    MŠw‹Z•ń,vol. 119, no. 74, WPT2019-11, pp.7-10, 2019”N6ŒŽ.
  36. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 3-7„

    Itsuki Kageyama, Takashi Hikage, Keita Sakakibara, Akimasa Hirata, Yoshitaka Morimatsu, Tatsuya Ishitake, Hiroshi Masuda:
    "Comparison of Temperature Elevation between in Physical Phantom Skin and in Human Skin During Local Exposure to a 28 GHz Millimeter-Wave,"
    proc. of EMC Sapporo & APEMC 2019, pp.766-769, June 2019.

  37. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 3-7„

    Suzune Ito, Emi Matsuda, Takashi Hikage,Tomoaki Nagaoka, Soichi Watanabe :
    "Experimental Estimation on SAR Enhancement Due to Implanted Metal Plates Using Novel Translucent Semi-Solid Phantom,"
    proc. of EMC Sapporo & APEMC 2019, p.765, June 2019.

  38. ƒ˜_•ś:¸“Ç‚ ‚聄

    Tetsuya Sekiguchi, Takashi Hikage, Manabu Yamamoto, Toshio Nojima, Syunichi Futatsumori, Kazuyuki Morioka, Akiko Kohmura, Naruto Yonemoto:
    "Numerical Estimation of Propagation Path Loss for Wireless Link Design of WAIC Systems Installed on outside Aircraft Cabin Based on Large-Scale FDTD Simulation,"
    IEICE Communications Express, Vol. 8, Iss. 5, pp.129-134, May 2019.
    DOI https://doi.org/10.1587/comex.2018XBL0165

  39. ƒ˜_•ś:¸“Ç‚ ‚聄

    ŽRŠÝ ˝’m, “úŒi —˛,@‹v–ě LW,@’†‘ş Œő‹M,@ŽR“c@Â,@‘éŽć ‘׎i:
    "”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚đ—p‚˘‚˝26 GHz‘щŽ“ŕ“`”Ŕ‚É‚¨‚Ż‚él‘ĚŽŐ•Á“ÁŤ„’č–@‚ɂ‚˘‚Ä‚ĚˆęŒŸ“˘,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ C, Vol.J102-C, No.5, pp.131-138, May 2019.

  40. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ19“ú-22“ú„

    ‹g]–ž‰ÔEŽRŠÝ˝’mE“úŒi —˛:
    hFDTD–@‚ĆƒŒƒCƒgƒŒ[ƒX‚ĚƒnƒCƒuƒŠƒbƒh‚RD‰đÍ‚đ—p‚˘‚˝“sŽsŠÂ‹Ťƒ‚ƒfƒ‹‚Ě“`”Ŕ‘šŽ¸„’čhC
    2019”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, BS-1-11, p.S-19, “Œ‹ž“s, 2019”N3ŒŽ.

  41. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ19“ú-22“ú„

    ˆÉ“Ą—Á‰šEź“c‰f”üE“úŒi —˛E–쓇r—YE’ˇ‰Ş’q–žE“n粑ˆę:
    h“§–žƒtƒ@ƒ“ƒgƒ€‚đ—p‚˘‚˝–„ž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸‚ĚŽŔŒą“I•]‰żhC
    2019”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-36, p.256, “Œ‹ž“s, 2019”N3ŒŽ.

  42. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ19“ú-22“ú„

    ‹g]–ž‰ÔEŽRŠÝ˝’mE“úŒi —˛E‹v–ěLWE’†‘şŒő‹MEŽR“c ÂE‘éŽć‘׎i:
    hƒXƒ‚[ƒ‹ƒIƒtƒBƒX‚É‚¨‚Ż‚é 26GHz‘Ń‚Ě“`”Ŕ‘šŽ¸“ÁŤ„’čhC
    2019”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-29, p.29, “Œ‹ž“s, 2019”N3ŒŽ.

  43. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ19“ú-22“ú„

    ˛“Ą˛OE•ű‘ĺŒĺE–Ř‘ş ăāE•\ ‰p‹BE“úŒi —˛:
    h‚’ź–Ę“d”g“ž—ˆŠp‚đl—ś‚ľ‚˝l‘ĚŽŐ•Á‘Ş’čhC
    2019”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-22, p.22, “Œ‹ž“s, 2019”N3ŒŽ.

  44. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ19“ú-22“ú„

    ŠÖŒű“O–çE“úŒi —˛EŽR–{ ŠwE–쓇r—Yi–k‘ĺjE“ńƒbXrˆęEX‰Ş˜asE‰Í‘ş‹ĹŽqE•Ä–{Źl:
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝ 4.4GHz‘Ń‹@ŠOWAICƒVƒXƒeƒ€ÝŒv‚Ě‚˝‚ß‚Ě“`”Ŕ‘šŽ¸„’čhC
    2019”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-12, p.12, “Œ‹ž“s, 2019”N3ŒŽ.

  45. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, March 9-15„

    Takashi Hikage :
    "Numerical Estimation on Indoor Propagation Characteristics for RF Wireless Power Transfer,"
    proc. of 2019 URSI Asia-Pacific Radio Science Conference (AP-RASC 2019), We-DO6-4, Mar. 2019.

  46. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, March 9-15„

    Shinto Son, Emi Matsuda, Takashi Hikage, and Toshio Nojima:
    "Investigation on Heating of the Implant Metal Exposed to HF-EMF due to Wireless Power Transfer,"
    proc. of 2019 URSI Asia-Pacific Radio Science Conference (AP-RASC 2019), PO-K-10, Mar. 2019.

  47. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, March 9-15„

    Takashi Hikage :
    "Electromagnetic Interference Impact of Wireless Power Transfer on Implantable Medical Device,"
    proc. of 2019 URSI Asia-Pacific Radio Science Conference (AP-RASC 2019), PO-K-27, Mar. 2019.

  48. ƒu‰‰E¸“Ç‚Č‚ľC2ŒŽ20“ú„

    ź“c ‰f”üEˆÉ“Ą —Á‰šE“úŒi —˛E–쓇 r—YE’ˇ‰Ş ’q–žE“nç˛ ‘ˆę:
    h”ź“§–žƒtƒ@ƒ“ƒgƒ€‚đ—p‚˘‚˝–„ž‚Ý‹ŕ‘Ž‚É‚ć‚éSARă¸‚Ě‘Ş’čhC
    ‘ć11‰ńˆă—pś‘Ě“dŽĽ‹CŠwƒVƒ“ƒ|ƒWƒEƒ€, “Œ‹ž“s, 2019”N2ŒŽ.

  49. ƒ˜_•ś:¸“Ç‚ ‚聄

    Shunichi Futatsumori, Kazuyuki Morioka, Akiko Kohmura, Naruto Yonemoto, Takashi Hikage, Tetsuya Sekiguchi, Manabu Yamamoto, Toshio Nojima:
    "Analysis of Radio Altimeter Interference due to Wireless Avionics Intra-Communication Systems by Using Large-Scale FDTD Method - Investigation on Airbus A320 Class Passenger Aircraft -,"
    APPLIED COMPUTATIONAL ELECTROMAGNETICS SOCIETY JOURNAL, Vol. 34, No. 2, pp. 365-368, Feb. 2019.

  50. ƒ˜_•ś:¸“Ç‚ ‚聄

    ŠÖŒű“O–ç, “úŒi@—˛, ŽR–{Šw, –쓇r—Y, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    "‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝4.4 GHz‘ŃWAICƒVƒXƒeƒ€‚Ě‚˝‚ß‚Ě‹@ŠOŠĎ‘Ş–Ę‚É‚¨‚Ż‚é“`”Ŕ“ÁŤ„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B Vol.J102-B No.2 pp.72-79, Feb. 2019.

2018(•˝Ź30”N)

  1. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛, ź“c‰f”ü, ŽRŠÝ˝’m, “ŒŽRŽi, ‘吟‹P•v:
    g“d‹CŒő•ĎŠˇŠí‚đ—p‚˘‚˝RF-WPTŽü”g”‘Ń“d”g‚΂­˜I‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’č,h
    MŠw‹Z•ń, vol. 118, no. 309, WPT2018-53, pp.13-20, 2018”N11ŒŽ.
  2. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    Shunichi Futatsumori, Norihiko Miyazaki, Tetsuya Sekiguchi, Takashi Hikage, Toshio Nojima:
    "Evaluation of Aircraft Electromagnetic Field Propagation Characteristics at 4 GHz Wireless Avionics Intra-Communication Band -- Numerical Analysis Based on Airbus A320-200 model and Field Measurement Using Beechcraft B300 aircraft --,"
    MŠw‹Z•ń, vol. 118, no. 287, SANE2018-83, pp. 137-140, 2018”N11ŒŽ.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 2-4„

    Tetsuya Sekiguchi, Masakazu Yamagishi, Takashi Hikage, Keita Sakakibara, Toshio Nojima:
    "Numerical Estimation of Indoor Propagation Characteristics for Microwave Wireless Power Transfer,"
    proc. of 2018 Asian Wireless Power Transfer Workshop (AWPT2018), SA-5-O1, Nov. 2018.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 2-4„

    Keita Sakakibara, Emi Matsuda, Takashi Hikage :
    "Investigation on Heating of the Implant Metal Exposed to HF-EMF due to Wireless Power Transfer,"
    proc. of 2018 Asian Wireless Power Transfer Workshop (AWPT2018), FR-4-P08, Nov. 2018.

  5. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ27“ú„

    “úŒi —˛, ŽRŠÝ ˝’m, ˆš’J [—˛, •ě Œĺ:
    hŹŽ™ƒ‚ƒfƒ‹‚đ—p‚˘‚˝26 GHz‘тł̐l‘ĚŽŐ•Á“ÁŤ„’čhC
    •˝Ź30”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.119, ŽD–yŽs, 2018”N10ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ27“ú„

    ĺŒ´ Œc‘ž, ŠÖŒű “O–ç, “úŒi —˛:
    h5GŽü”g”‘Ń‚É‚¨‚Ż‚鐜‘Ě”˝‰žč‡’l•]‰ż‚Ě‚˝‚ß‚Ě“d”g‚΂­˜I‘•’uŠJ”­hC
    •˝Ź30”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.118, ŽD–yŽs, 2018”N10ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ27“ú„

    ź“c ‰f”ü, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y, ’ˇ‰Ş ’q–ž:
    h–łüLAN‚¨‚ć‚Ń5GŽü”g”‘Ń‹ß–T‚΂­˜IđŒ‚É‚¨‚Ż‚é–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‹Nˆö‚ˇ‚éSARă¸‚ĚŽŔŒą“I•]‰żhC
    •˝Ź30”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.117, ŽD–yŽs, 2018”N10ŒŽ.

  8. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ27“ú„

    ŽRŠÝ ˝’m, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y :
    hFDTD‰đÍ‚đ—p‚˘‚˝ƒ}ƒCƒNƒ”g‘Ń–łü“d—Í“`‘—‘•’u‚̉Ž“ŕ“`”Ŕ“ÁŤ„’čhC
    •˝Ź30”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.116, ŽD–yŽs, 2018”N10ŒŽ.

  9. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ27“ú„

    ŠÖŒű “O–ç, “úŒi —˛, ŽR–{ Šw, ‘ĺ‹{ Šw, “ńƒbX rˆę, X‰Ş ˜as, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl :
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝q‹ó‹@ŠO‚É‚¨‚Ż‚éWAICŽü”g”‘Ń“`”Ŕ“ÁŤ„’čhC
    •˝Ź30”N“x “d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.115, ŽD–yŽs, 2018”N10ŒŽ.

  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 23-28„

    Masakazu Yamagishi, Takashi Hikage, Motoharu Sasaki, Mitsuki Nakamura, Yasushi Takatori:
    "Numerical Estimation on Human Body Blockage Characteristics of 26GHz Band Indoor Propagation Using FDTD Analysis," proc. of the 48th European Microwave Conference, EuMC43-12, pp.878-881, Sep. 2018.

  11. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ11-14“ú„

    “ńƒbXrˆę, ‹{č‘Ľ•F, ŠÖŒű“O–ç, “úŒi@—˛, –쓇r—Y:
    hq‹ó‹@“d”g‚“xŒv‚ƍq‹ó‹@“ŕƒf[ƒ^’ʐM‚ĚŽü”g”‹¤—pŠî‘bŒŸ“˘-ŹŒ^q‹ó‹@‚É‚¨‚Ż‚é“d”g‚“xŒv‚Ě’nă•úŽË“ÁŤ‘Ş’č-hC
    2018”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-2-16Cp.182, ‹ŕ‘ňŽs, 2018”N9ŒŽ.

  12. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ11-14“ú„

    ź“c‰f”üC“úŒi@—˛CŽR–{@ŠwC–쓇r—YC’ˇ‰Ş’q–žC“n粑ˆę:
    h‹ß–T‚΂­˜IđŒ‚É‚¨‚Ż‚é–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸•]‰żhC
    2018”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-14Cp.233, ‹ŕ‘ňŽs, 2018”N9ŒŽ.

  13. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŽRŠÝ˝’mC“úŒi@—˛C‹v–ěLWC’†‘şŒő‹MCŽR“c@ÂC‘éŽć‘׎i,
    g ‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝26GHz‘тł̐l‘ĚŽŐ•Á“ÁŤ„’č,h
    MŠw‹Z•ń, vol. 118, no. 209, EST2018-53, pp. 59-62, 2018”N9ŒŽ
  14. ƒ’˜‘C•Ş’SŽˇ•M„

    ’˜ŽŇ: Naoki Shinohara (Ed.)F
    hWireless Power Transfer: Theory, technology, and applicationsC(Section 13:Impact of electromagnetic interference arising from wireless power transfer upon implantable medical device)h
    The Institution of Engineering and Technology(London),2018”N8ŒŽ.(https://www.theiet.org/resources/books/pow-en/powtra.cfm)

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 29-31„

    Emi Matsuda, Keita Sakakibara, Takashi Hikage, Manabu Yamamoto and Toshio Nojima:
    "Estimation of SAR Enhancement Due to Implant Metal Exposed to External Electromagnetic Waves,"
    proc. of 2018 IEEE International Workshop on Electromagnetics: Applications and Student Innovation Competition, POS2.47, Aug. 2018.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 8-13„

    Tetsuya Sekiguchi, Takashi Hikage, Shunichi Futatsumori, Akiko Kohmura, Naruto Yonemoto:
    "A Large Scale FDTD Analysis of Propagation Characteristics for Wireless Link Design of 4.4 GHz-band WAIC Installed on Passenger Aircraft,"
    proc. of 2018 IEEE AP-S Symposium on Antennas and Propagation and URSI CNC/USNC Joint Meeting (AP-S/URSI 2018), FR-UB.5P.4, Jul. 2018.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 8-13„

    Shunichi Futatsumori, Takashi Hikage:
    "Microwave Electromagnetic Field Characteristic Inside Carbon Fiber Reinforced Plastic Structures Evaluation Based on Reverberation Chamber and Human Phantom,"
    proc. of 2018 IEEE AP-S Symposium on Antennas and Propagation and URSI CNC/USNC Joint Meeting (AP-S/URSI 2018), MO-UE.1P.5, Jul. 2018.

  18. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŽRŠÝ˝’m, ĺŒ´Œc‘ž, “úŒi@—˛, –쓇r—Y,
    gƒ}ƒCƒNƒ”g‘Ń–łü“d—Í“`‘—‘•’u‚̉Ž“ŕ“`”Ŕ“ÁŤ‚ÉŠÖ‚ˇ‚鐔’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“,h
    MŠw‹Z•ń, vol. 118, no. 115, WPT2018-26, pp. 101-104, 2018”N7ŒŽ
  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 24-29„

    Keita Sakakibara, Tetsuya Sekiguchi, Takashi Hikage:
    "Development of 28 GHz band exposure equipment for studies on thermal perception thresholds of biological effects exposed to millimeter-wave at 5th generation wireless systems candidate frequency band,"
    proc. of BioEM 2018, PB-58, pp.646-648, Jun. 2018.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 24-29„

    Takashi Hikage, Keita Sakakibara, Toshio Nojima, Takahiro Iyama, Teruo Onishi:
    "Numerical estimation of SAR enhancement due to implantable medical device inside human body exposed to external electromagnetic waves - 5G cellular candidate frequency bands -,"
    proc. of BioEM 2018, PB-14, pp.577-579, Jun. 2018.

  21. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ź“c‰f”ü, “úŒi@—˛, –쓇r—Y,
    gHF‘ŃWPT‘•’u‹ß–T‚É‚¨‚Ż‚éAž‚Ý‹ŕ‘Ž‚É‚ć‚é”­”M—ʐ„’č‚Ě‚˝‚ß‚ĚŠî‘bŒŸ“˘,h
    MŠw‹Z•ń, WPT2018-14, pp. 23-26, 2018”N6ŒŽ
  22. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ĺŒ´Œc‘ž, “úŒi@—˛, ŽRŠÝ˝’m,
    g‘ć5˘‘ăˆÚ“Ž’ʐMƒVƒXƒeƒ€Œó•âŽü”g”‘Ń‚É‚¨‚Ż‚鐜‘̍ě—p’˛¸‚Ě‚˝‚ß‚Ě28GHz‘т΂­˜I‘•’u‚ĚŠJ”­,h
    MŠw‹Z•ń, EMCJ2018-15, pp. 23-26, 2018”N6ŒŽ
  23. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 30-31„

    Masakazu Yamagishi, Takashi Hikage, Motoharu Sasaki, Mitsuki Nakamura, Yasushi Takatori:
    "Numerical Estimation on Human Body Blockage Characteristics for 26GHz Band Indoor Propagation," proc. of Vietnam-Japan International Symposium on Antennas and Propagation (VJISAP2018), pp.97-100, May 2018.

  24. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, March 25-29„

    Shunichi Futatsumori, Kazuyuki Morioka, Akiko Kohmura, Naruto Yonemoto, Takashi Hikage, Tetsuya Sekiguchi, Manabu Yamamoto, Toshio Nojima:
    "Analysis of radar altimeter interference due to wireless avionics intra-communication systems by using large-scale FDTD method -Investigation on Airbus A320 class passenger aircraft-,"
    proc. of 2018 International Applied Computational Electromagnetics Society Symposium (ACES), DOI:10.23919/ROPACES.2018.8364141, Mar. 2018.

  25. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ20-23“ú„

    ź“c‰f”üC“úŒi@—˛CŽR–{@ŠwC–쓇r—YC’ˇ‰Ş’q–žC“n粑ˆę:
    hŒg‘Ń“d˜bŽü”g”‘Ń‚É‚¨‚Ż‚éƒlƒWŒŠ‚đl—ś‚ľ‚˝–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸„’čhC
    2018”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.259, “Œ‹ž“s, 2018”N3ŒŽ.

  26. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ20-23“ú„

    ŽRŠÝ˝’mC“úŒi@—˛C˛X–ŘŒł°C’†‘şŒő‹MC‘éŽć‘׎i:
    hFDTD‰đÍ‚đ—p‚˘‚˝26GHz‘тł̐l‘ĚŽŐ•Á“ÁŤ„’čhC
    2018”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.32, “Œ‹ž“s, 2018”N3ŒŽ.

  27. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ20-23“ú„

    ŽŞ•c ”nC–{‹´ćx•˝C“úŒi@—˛CŽR–{@ŠwC•˝‰ę@Œ’C“ŕ“c‘吽:
    h—U“d‘̔•t‰Á‚É‚ć‚éƒpƒbƒ`ƒAƒŒ[ƒAƒ“ƒeƒi‚̍‚—˜“ž‰ť‚ÉŠÖ‚ˇ‚éŠî‘bŒŸ“˘hC
    2018”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.64, “Œ‹ž“s, 2018”N3ŒŽ.

  28. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ20-23“ú„

    •\@‰p‹BC“Ąˆä‹P–çC“úŒi@—˛:
    hĎá’†‚É–„‚ŕ‚ę‚˝l‘Ě‚É‘•’…‚ľ‚˝Œg‘Ń’[––‚Ě“d”g“`”Ŕ“ÁŤhC
    2018”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.4, “Œ‹ž“s, 2018”N3ŒŽ.

  29. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ20-23“ú„

    ŠÖŒű“O–ç, “úŒi@—˛, ŽR–{@Šw, –쓇r—Y, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl:
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝ 4.4 GHz‘Ń‹@ŠOWAICƒVƒXƒeƒ€ÝŒv‚Ě‚˝‚ß‚Ě“`”Ŕ“ÁŤ„’čhC
    2018”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.5, “Œ‹ž“s, 2018”N3ŒŽ.

  30. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛C‘ĺŸ—˛•˝CˆäŽR—˛OC‘吟‹P•v,
    gŠO—ˆ“d”g‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíŽü•Ó‚Ě‹ÇŠSARă¸‚̐„’č ` HF‘ŃWPT‚¨‚ć‚Ń5GŒó•âŽü”g”‘Ń `,h
    MŠw‹Z•ń, vol. 117, no. 466, WPT2017-89, pp. 105-108, 2018”N3ŒŽ
  31. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŠÖŒű“O–ç, “úŒi@—˛, ŽR–{@Šw, –쓇r—Y, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl,
    g‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝4.4GHz‘ŃWAICƒVƒXƒeƒ€‚Ě‚˝‚ß‚Ě‹@“ŕ-‹@ŠO“`”Ŕ“ÁŤ„’č,h
    MŠw‹Z•ń, vol. 117, no. 382, AP2017-172, pp. 121-124, 2018”N1ŒŽ

2017(•˝Ź29”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 19-26„

    Tetsuya Sekiguchi, Takashi Hikage, Toshio Nojima:
    "Numerical Simulations of Implantable Cardiac Pacemaker EMI Triggered by 85 kHz-band Wireless Power Transfer System," proc. of 2017 Asian Wireless Power Transfer Workshop (AWPT 2017), D2-S3-05, Dec. 2017.

  2. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28-29“ú„

    ˛“Ą ŽŽ÷, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y,
    h3D-FEMƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚đ—p‚˘‚˝EV[“dWPT‹@Ší‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż–@‚ĚŠî‘bŒŸ“˘hC
    2017”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.126, ”ŸŠŮŽs, 2017”N10ŒŽ.

  3. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28-29“ú„

    ź“c ‰f”ü, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y, ’ˇ‰Ş ’q–ž, “nç˛ ‘ˆę,
    h‹ß–T‚΂­˜I‚É‚¨‚Ż‚é–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸‚ĚŽŔŒą“I•]‰żhC
    2017”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.125, ”ŸŠŮŽs, 2017”N10ŒŽ.

  4. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28-29“ú„

    ŽRŠÝ ˝’m, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y,
    hƒŒƒCƒgƒŒ[ƒVƒ“ƒO‰đÍ‚đ—p‚˘‚˝26 GHz‘Ń“d”g‚ĚƒIƒtƒBƒX“ŕ“`”d“ÁŤ„’čhC
    2017”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.124, ”ŸŠŮŽs, 2017”N10ŒŽ.

  5. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28-29“ú„

    ŠÖŒű “O–ç, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y, “ńƒbX rˆę, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl,
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝‹@ŠOWAICƒVƒXƒeƒ€‚Ě4.4 GHz‘Ń“d”g“`”Ŕ“ÁŤ„’čhC
    2017”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.123, ”ŸŠŮŽs, 2017”N10ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28-29“ú„

    i“Ą ˜a‹P, ź“c ‰f”ü, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y,
    h 2 GHz‘ŃŒg‘Ń–łü’[––Žg—pŽž‚É‚¨‚Ż‚é“Ş•”Až‚ÝŒ^ˆă—Ă‹@Žü•Ó‚Ě‹ÇŠSAR•Ş•z‚ÉŠÖ‚ˇ‚é•Î”gˆË‘śŤhC
    2017”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.118, ”ŸŠŮŽs, 2017”N10ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ28-29“ú„

    ‹ß“Ą Œ¤, “úŒi —˛, –쓇 r—Y,
    hEAS‹@Ší‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚ĚŽŔŒą“I•]‰ż–@hC
    2017”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.117, ”ŸŠŮŽs, 2017”N10ŒŽ.

  8. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    i“Ą ˜a‹P, ź“c ‰f”ü, “úŒi —˛, –쓇 r—Y
    g–łü“d—Í“`‘—ƒRƒCƒ‹•tAž‚݈ă—ĂŠí‚ĆŒg‘Ń“d˜b“d”g‚Ě•Ą‡‚΂­˜I‚É‚¨‚Ż‚é“Ş•”“ŕ‹ÇŠSAR„’č,h
    @@MŠw‹Z•ń, vol. 117, no. 241, WPT2017-43, pp. 41-44, 2017”N10ŒŽ.
  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 19-26„

    Takashi Hikage, Toshio Nojima, and Hiroshi Fujimoto:
    "IN VITRO ASSESSMENT OF IMPLANTABLE CARDIAC PACEMAKER EMI TRIGGERED BY INTERMITTENT SIGNAL OF WIRELESS POWER TRANSFER SYSTEM IN STANDBY MODE," proc. of XXXIInd International Union of Radio Science General Assembly and Scientific Symposium (URSI GASS 2017), K16-4 (Invited), Aug. 2017.

  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, July 9-14„

    Takashi Hikage, Masakazu Yamagishi, Toshio Nojima, Sota Tsuchiya, and Takuya Kawata:
    " Numerical Estimation of Propagation Path Loss for Smart Gas Meters in Built-up Areas Based on Large-Scale FDTD Simulation,"
    proc. of 2017 IEEE AP-S Symposium on Antennas and Propagation and URSI CNC/USNC Joint Meeting (AP-S/URSI 2017), FR-UB.4P.1, Jul. 2017.

  11. ƒ‘Ű‰ď‹cF¸“Ç‚Č‚ľ, June 28-30„

    Masakazu Yamagishi, Takashi Hikage,Minoru Inomata, Motoharu Sasaki, Mitsuki Nakamura, Yasushi Takatori:
    "Numerical Estimation of Radio Propagation Characteristics for 26GHz Band Communication System using Large Scale FDTD Analysis and 3D Laser Scanner,"
    proc. of 2017 Asian Workshop on Antennas and Propagation (AWAP2017), p.96, Jun. 2017.

  12. ƒ‘Ű‰ď‹cF¸“Ç‚Č‚ľ, June 28-30„

    Tetsuya Sekiguchi, Takashi Hikage, Manabu Yamamoto, Toshio Nojima,Syunichi Futatsumori, Akiko Kohmura, and Naruto Yonemoto:
    "FDTD Analysis of Cross Polarization Characteristics for 4.4 GHz-band Radio Propagation Inside Aircraft Cabin,"
    proc. of 2017 Asian Workshop on Antennas and Propagation (AWAP2017), pp.61-62, Jun. 2017.

  13. ƒ‘Ű‰ď‹cF¸“Ç‚Č‚ľ, June 28-30„

    J. Motohashi, T. Hikage ,and M. Yamamoto:
    "Design of a Wideband 6-Port MIMO Antenna Array Consisting of Leaf-Shaped Radiating Elements,"
    proc. of 2017 Asian Workshop on Antennas and Propagation (AWAP2017), pp.23-24, Jun. 2017.

  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 20-23„

    Takashi Hikage, Masakazu Yamagishi, Kazuki Shindo and Toshio Nojima:
    "Active Implantable Medical Device EMI Estimation for EV-Charging WPT System Based on 3D Full-wave Analysis,"
    proc. of 2017 Asia-Pacific International Symposium on Electromagnetic Compatibility (APEMC), pp.87-89, Jun. 2017.

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 5-9„

    Kazuki Shindo, Takashi Hikage, Toshio Nojima:
    "Numerical estimation of SAR enhancement due to implantable vision prosthesis featuring wireless power transfer coil in human head under near- and far-fields exposure conditions,"
    proc. of BioEM 2017, PB-28, pp.522-523, Jun. 2017.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 5-9„

    Takashi Hikage, Toshio Nojima, Iyama Takahiro, Teruo Onishi:
    "Numerical estimation of frequency characteristics of interference voltage in cellular band for active implantable medical device EMI assessment,"
    proc. of BioEM 2017, PA-13, pp.334-337, Jun. 2017.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 22-25„

    Takashi Hikage, and Toshio Nojima:
    "3D Numerical Simulations of Implantable Cardiac Pacemaker EMI Triggered by Electric Vehicle Charging Wireless Power Transfer System,"
    proc. of PIERS 2017 St Petersburg, p.1578, May 2017.

  18. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi —˛, –쓇r—Y
    gƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒVƒXƒeƒ€‚É‚ć‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ/ICD‚Ö‚Ě“dŽĽŠąÂ‰e‹ż‚ÉŠÖ‚ˇ‚é’˛¸—á,h
    @@MŠw‹Z•ń, vol. 117, no. 15, WPT2017-4, pp. 13-16, 2017”N4ŒŽ.
  19. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŽRŠÝ˝’mC“úŒi@—˛C’––”@–ŤC˛X–ŘŒł°C’†‘şŒő‹MC‘éŽć‘׎i
    g3DƒŒ[ƒU[ƒXƒLƒƒƒi‚É‚ć‚鐔’lƒ‚ƒfƒŠƒ“ƒO‚Ć‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝26GHz‘Ń“d”g‚ĚƒIƒtƒBƒX“ŕ“`”Ŕ“ÁŤ„’č,h
    @@MŠw‹Z•ń, vol. 117, no. 2, AP2017-6, pp. 31-34, 2017”N4ŒŽ.
  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Mar. 26-30„

    Shunichi Futatsumori, Kazuyuki Morioka, Akiko Kohmura, Naruto Yonemoto, Takashi Hikage, Kanji Yahagi, Masami Shirafune, Manabu Yamamoto, Toshio Nojima, and Shoichi Narahashi:
    "Aircraft Electromagnetic Field Estimation for Wireless Avionics Intra-Communication Band Using Large-Scale FDTD Analysis,"
    proc. of 2017 International Applied Computational Electromagnetics Society (ACES) Symposium, pp.??-??, Mar. 2017.

  21. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ22-25“ú„

    “úŒi@—˛, “c’†ŽŽ÷, –쓇r—Y, ˆäŽR—˛O, ‘吟‹P•v:
    hAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI•]‰ż‚Ě‚˝‚ß‚Ě“d‹C/Œő•ĎŠˇŠí‚đ—p‚˘‚˝ŠąÂ—U‹N“dˆł‘Ş’čŒn `Œg‘Ń“d˜bŽü”g”‘Ń“d”g‚΂­˜I‚Ě•]‰ż—á`hC
    2017”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, ss29-ss30, –źŒĂ‰ŽŽs, 2017”N3ŒŽ.

  22. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ22-25“ú„

    “ńƒbXrˆę, X‰Ş˜as, ‰Í‘ş‹ĹŽq, •Ä–{Źl, “úŒi@—˛:
    h“dŽĽŠE‘šŽ¸”}‘Ě‚Şq‹ó‹@“ŕ•”“dŽĽŠE“ÁŤ‚É—^‚Ś‚é‰e‹ż@|l‘Ěƒtƒ@ƒ“ƒgƒ€‚đÝ’u‚ľ‚˝“d”g”˝ŽË” ‚̍\‘˘‘ĚQ’l‘Ş’č•]‰ż|hC
    2017”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.318, –źŒĂ‰ŽŽs, 2017”N3ŒŽ.

  23. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Mar. 8-10„

    Masami Shirafune, Takashi Hikage, Kazuki Shindo, Shoichi Narahashi, and Toshio Nojima Sota Tsuchiya, and Takuya Kawata:
    "Statistical Analysis Method of Radio Propagation Path Loss for Gas-Smart Meters in a Built-up Area Based on Large-Scale FDTD Simulation,"
    proc. of 2017 IEEE International Conference on Computational Electromagnetics (ICCEM2017), pp.254-256, Mar. 2017.

  24. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Mar. 1-3„

    Takashi Hikage, Tomoaki Nagaoka, and Soichi Watanabe:
    "Numerical Estimation of Electromagnetic Coupling Between Metallic Plates Implanted in Human Head and External RF Fields,"
    proc. of 2017 International Workshop on Antenna Technology (iWAT2017), p.265, Mar. 2017.

  25. ƒ˜_•śF¸“Ç‚ ‚聄

    “úŒi —˛, –쓇 r—Y, •ÄŕV ‰h“ń, Žđˆä “Ő, ‘ĺŕV FŽĄ:
    "lHŽ‹ŠoƒVƒXƒeƒ€–„Al‘Ě‚Ě“Ş•”“ŕSAR‚Ɖˇ“xă¸„’č,"
    ś‘ĚˆăHŠwCVol. 55CNo. 1, pp. 32-38, Feb. 2017.

  26. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan. 26-27„

    Takashi Hikage, Kazuki Shindo, Tomokazu Tachibana, Shoichi Narahashi, and Toshio Nojima Sota Tsuchiya, and Takuya Kawata:
    "Numerical Estimation of Propagation Characteristics for Smart Gas Meters in Built-up Areas Using Large-Scale FDTD analysis,"
    proc. of Malaysia-Japan Workshop on Radio Technology 2017 (MJWRT2017), pp.109-111, Jan. 2017.

2016(•˝Ź28”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 16-18„

    Kanji YAHAGI, Naoki TANAKA, Takashi HIKAGE, Shoichi NARAHASHI, and Toshio NOJIMA:
    "Active implantable medical device EMI estimation for EV-WPT system based on 3D full-wave analysis,"
    proc. of 2016 Asian Wireless Power Transfer Workshop (AWPT 2016), SA4-2, Dec. 2016.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 8-11„

    J. Corcoles, E. Zastrow, T. Hikage:
    "Computational electromagnetics for the assessment of electromagnetic fields interactions with active implantable medical devices,"
    proc. of XI Iberian Meeting on Computational Electromagnetics, Nov. 2016.

  3. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5-6“ú„

    ”’‘D ‰ë–¤, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y, “ńƒbX rˆę, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl,
    h‘ĺ‹K–ÍFDTDƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚đ—p‚˘‚˝q‹ó‹@GPS‘•’u‚Ö‚ĚŠąÂŒo˜H‘šŽ¸„’čhC
    2016”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.123, ŽD–yŽs, 2016”N11ŒŽ.

  4. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5-6“ú„

    – Š˛l, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y, “ńƒbX rˆę, ‰Í‘ş ‹ĹŽq, •Ä–{ Źl,
    hWireless Avionics Intra-Communication Žü”g”‘Ń‚É‚¨‚Ż‚éq‹ó‹@“ŕ“`”Ŕ“ÁŤ‚̐”’l‰đÍhC
    2016”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.124, ŽD–yŽs, 2016”N11ŒŽ.

  5. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5-6“ú„

    “c’† ŽŽ÷, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y, ’ˇ‰Ş ’q–ž, “nç˛ ‘ˆę,
    hŒőƒtƒ@ƒCƒoƒZƒ“ƒT‚đ—p‚˘‚˝‹ß–TŠE‚΂­˜IŽž‚Ě–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸—Ś•]‰żhC
    2016”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.125, ŽD–yŽs, 2016”N11ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5-6“ú„

    i“Ą ˜a‹P, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y,
    h2GHz‘ŃŒg‘Ń–łü’[––Žg—pŽž‚É‚¨‚Ż‚é“Ş•”Až‚ÝŒ^ˆă—ĂŠíŽü•Ó‚Ě‹ÇŠSAR„’čhC
    2016”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.126, ŽD–yŽs, 2016”N11ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5-6“ú„

    ˛“Ą ŽŽ÷, “úŒi —˛, ŽR–{ Šw, –쓇 r—Y,
    h•Â‹óŠÔ“ŕ‚É‚¨‚Ż‚é”N—îEŤ•Ę‚ĚˆŮ‚Č‚é”’ll‘Ě‚ĚSAR„’čhC
    2016”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.127, ŽD–yŽs, 2016”N11ŒŽ.

  8. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ5-6“ú„

    ‹k —F˜a, “úŒi —˛, –쓇 r—Y,
    hEAS‹@Ší‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMIŽŽŒą‚Ě‚˝‚ß‚Ě‹ß–TŽĽŠE•Ş•z•]‰żhC
    2016”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.132, ŽD–yŽs, 2016”N11ŒŽ.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct. 24-28„

    Naoki Tanaka, Takashi Hikage, Juan Corcoles and Toshio Nojima:
    "FEM Simulation of Induced Interference Voltage at Implantable Cardiac Pacemaker Due to Wireless Power Transfer in HF-band,"
    proc. of International Symposium on Antennas and Propagation (ISAP2016), POS2-103,pp.916-917, Oct. 2016.

  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct. 24-28„

    Kanji Yahagi, Masami Shirafune, Takashi Hikage, Manabu Yamamoto, Toshio Nojima, Shoichi Narahashi, Syunichi Futatsumori, Akiko Kohmura and Naruto Yonemoto:
    "Large-Scale FDTD Analysis of 4.4 GHz-band Propagation Characteristics in Aircraft Cabin,"
    proc. of International Symposium on Antennas and Propagation (ISAP2016), 3B1-3,pp.566-567, Oct. 2016.

  11. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ20-23“ú„

    –Š˛lC”’‘D‰ë–¤C“úŒi@—˛CŽR–{@ŠwC–쓇r—YC“ńƒcX rˆęC‰Í‘ş ‹ĹŽqC•Ä–{ ŹlC
    hA320Œ^q‹ó‹@ƒ‚ƒfƒ‹‚đ—p‚˘‚˝WAICŽü”g”‘Ń‹@“ŕ“d”g“`”Ŕ“ÁŤ‚̐„’čhC
    2016”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď,B-1-24, p.24, ŽD–yŽs, 2016”N9ŒŽ.

  12. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ20-23“ú„

    “c’†ŽŽ÷C“úŒi@—˛C–쓇r—YC’ˇ‰Ş ’q–žC“nç˛ ‘ˆęC
    h‰şŠ{œœÜŽĄ—Ă—p–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‹óŒ„•”‚É‚¨‚Ż‚éSARă¸‚ĚŽŔŒą“I„’čhC
    2016”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď,B-4-24, p.232, ŽD–yŽs, 2016”N9ŒŽ.

  13. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľC9ŒŽ15-16“ú„

    “c’†ŽŽ÷C“úŒi@—˛C–쓇r—YCˆäŽR—˛OC‘吟‹P•vC
    h[ˆË—Šu‰‰] “d‹CŒő•ĎŠˇŠí‚đ—p‚˘‚˝Œg‘Ń“d˜bŽü”g”‘Ń“d”g‚΂­˜I‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čŒnhC
    MŠw‹Z•ń, vol. 116, no. 218, AP2016-96, pp. 43-46, 2016”N9ŒŽ.

  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 21-25„

    Takashi Hikage and Toshio Nojima:
    "[Invited]In-vitro Assessment of Electromagnetic Interference Caused by Wireless Power Transfer Device on Active Implantable Medical Devices,"
    proc. of 2016 URSI Asia-Pacific Radio Science Conference(AP-RASC), S-K4-4, p.1087, Aug. 2016.

  15. ƒ˜_•ś:¸“Ç‚ ‚聄

    Naoki TANAKA, Takashi HIKAGE, Toshio NOJIMA:
    "FEM Simulations of Implantable Cardiac Pacemaker EMI Triggered by HF-Band Wireless Power Transfer System,"
    IEICE TRANSACTIONS on Electronics, Vol.E99-C, No.7, pp.809-812, July 2016.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 26- July 1„

    Takashi Hikage, Kanji Yahagi, Masami Shirafune, Toshio NOJIMA, Syunichi Futatsumori, Akiko Kohmura, and Naruto Yonemoto:
    "Numerical Estimation of WAIC-band Propagation Characteristics in Aircraft Cabin Using Large-Scale FDTD analysis,"
    proc. of 2016 IEEE AP-S Symposium on Antennas and Propagation and URSI CNC/USNC Joint Meeting, TH-UB.5P.6, pp.-, June. 2016.

  17. ƒ˜_•ś:¸“Ç‚ ‚聄

    T. Hikage, T. Nojima, H. Fujimoto:
    "Active implantable medical device EMI assessment for wireless power transfer operating in LF and HF bands,"
    Physics in Medicine and Biology, Volume 61, Number 12, pp. 4522-4536, June 2016.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 5-10„

    Naoki Tanaka, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka, Soichi Watanabe:
    "Experimental estimation of SAR enhancement due to two parallel implanted metal plates under near-field exposure conditions,"
    proc. of BioEM 2016, PB-80, pp.700-702, June. 2016.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 5-10„

    Takashi Hikage, Toshio Nojima, Iyama Takahiro, Teruo Onishi:
    "Novel measurement of interference voltage in cellular band using an electro-optic converter for active implantable medical device EMI assessment,"
    proc. of BioEM 2016, PA-63, pp.357-360, June. 2016.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May. 25-27„

    Takashi Hikage, Toshio Nojima, and Hiroshi Fujimoto:
    "Assessment of Electromagnetic Interference Due to Wireless Power Transfer for Electric Vehicle on Active Implantable Medical Devices,"
    proc. of EVTeC & APE Japan 2016, 20169023, pp.1-5, May. 2016.

  21. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ”’‘D‰ë–¤, “úŒi —˛, ŽR–{ Šw, –쓇r—Y, ’––” –Ť, ˛X–ŘŒł°, –k ’źŽ÷, ‹S‘ň •
    gFDTD–@‚đ—p‚˘‚˝‚‘Ź“S“šŽÔ—ź“ŕ–łüLAN‚Ě“`”Ŕ“ÁŤ‰đÍ‚É‚¨‚Ż‚éć‹q‹zŽű‚Ş‹y‚Ú‚ˇƒ}ƒ‹ƒ`ƒpƒX—}ˆłŒř‰Ę,h
    MŠw‹Z•ń, vol. 116, no. 56, EST2016-6, pp. 27-31, 2016”N5ŒŽ.
  22. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ15-18“ú„

    ”’‘D‰ë–¤, “úŒi —˛, ŽR–{ Šw, –쓇r—Y, ’––” –Ť, ˛X–ŘŒł°, ŽR“c Â, ‹S‘ň •,
    hć‹ql‘Ě‚É‚ć‚é‘šŽ¸‚đl—ś‚ľ‚˝“S“šŽÔ—ź“ŕ–łüLAN‚É‚¨‚Ż‚鎊ŽÔ—ź“ŕ“`”Ŕ‹y‚Ń‘ÎŒüŽÔ—ź˜R‚Ś‚˘“ÁŤ‚Ě‘ĺ‹K–͐”’l‰đÍhC
    2016”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.39, •Ÿ‰ŞŽs, 2016”N3ŒŽ.

  23. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ15-18“ú„

    “c’†ŽŽ÷, “úŒi@—˛C–쓇r—YCˆäŽR—˛OC‘吟‹P•v,
    hE/O•ĎŠˇŠí‚đ—p‚˘‚˝Œg‘Ń“d˜bŽü”g”‘Ń“d”g‚΂­˜I‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čhC
    2016”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.327, •Ÿ‰ŞŽs, 2016”N3ŒŽ.

  24. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Feb. 29-Mar. 1„

    Kanji Yahagi, Masami Shirafune,Takashi Hikage, ManabuYamamoto, Shoichi Narahashi,Toshio Nojima, Syunichi Futatsumori, Akiko Kohmura, Naruto Yonemoto:
    "Numerical Estimation of 4.4GHz-band Propagation Characterisics in Aircraft Cabin Using Large-Scale FDTD analysis,"
    proc. of 2016 Vietnam-Japan International Symposium on Antennas and Propagation, pp.98-101, Mar. 2016.

  25. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “c’†ŽŽ÷, “úŒi —˛, –쓇r—Y
    gLF‘ŃƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚̐Až‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJŠąÂ—U‹N“dˆł„’č,h
    MŠw‹Z•ń, WPT2015-74, pp.11-16, 2016”N2ŒŽ.
  26. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    i“Ą˜a‹P, “úŒi —˛, –쓇r—Y, •ÄŕV‰h“ń, ‘ĺŕVFŽĄ
    gŒg‘Ń–łü’[––Žg—pŽž‚Ě“d—Í“`‘—ƒRƒCƒ‹•tlHŽ‹ŠoƒVƒXƒeƒ€–„‚ߍž‚ݐl‘Ě‚Ě‹ÇŠSAR„’č,h
    MŠw‹Z•ń, WPT2015-66, pp.15-18, 2016”N1ŒŽ.




2015(•˝Ź27”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 10-11„

    Naoki TANAKA, Takashi HIKAGE, Toshio NOJIMA:
    "Numerical Estimation of Induced Interference Voltage at Implantable Cardiac Pacemaker Due to HF-band Wireless Power Transfer,"
    proc. of 2015 Asian Wireless Power Transfer Workshop,18, pp.1-4, Dec. 2015.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 27-28„

    Naoki TANAKA, Takashi HIKAGE, Toshio NOJIMA, Takahiro IYAMA, Junji HIAGASHIYAMA, and Teruo ONISHI:
    "Novel Interference Voltage Sensor Using an Electro-Optic Converter for Active Implantable Medical Devices EMI Assessment,"
    proc. of First PEM International Workshop in Kyoto,FCA-8, pp.1-2, Nov. 2015.

  3. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ25-27“ú„

    “úŒi —˛:
    hƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹•tlHŽ‹ŠoƒVƒXƒeƒ€–„‚ߍž‚ݐl‘Ě‚Ě‹ÇŠSAR „’čhC
    MWE2015 ƒ}ƒCƒNƒƒEƒF[ƒuƒ[ƒNƒVƒ‡ƒbƒv, TH-5A, pp.215-218, ‰Ą•lŽs, 2015”N11ŒŽ.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 23-24„

    Takashi Hikage, Masami Shirafune , Toshio Nojima and Hiroshi Fujimoto:
    "In-vitro Assessment of Electromagnetic Interference caused by Wireless Power Transfer System on Active Implantable Medical Devices,"
    proc. of 2015 Korea-Japan Joint Conference on EMT/EMC/BE (KJJC-2015),pp.45-48, Nov. 2015.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 9-12„

    Masami Shirafune, Takashi Hikage, Manabu Yamamoto, Toshio Nojima, Minoru Inomata, Motoharu Sasaki, Wataru Yamada, Takeshi Onizawa :
    "Estimation of RF Leakage to Oncoming Train Cars From Wireless Access Point Operating in Bullet Train Passing Through a Tunnel,"
    proc. of 2015 International Symposium on Antennas and Propagation (ISAP), S3.8.6, pp.619-620, Nov. 2015.

  6. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7-8“ú„

    “c’† ŽŽ÷C“úŒi —˛CŽR–{ ŠwC–쓇 r—YC’ˇ‰Ş ’q–žC“nç˛ ‘ˆę,
    h‹ß–T‚΂­˜I‚É‚¨‚Ż‚é–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸‚ĚŽŔŒą“I•]‰ż hC
    2015”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.95, –kŒŠŽs, 2015”N11ŒŽ.

  7. ƒu‰‰E¸“Ç‚Č‚ľC11ŒŽ7-8“ú„

    – Š˛lC“úŒi —˛CŽR–{ ŠwC–쓇 r—YC“ńƒcX rˆęC‰Í‘ş ‹ĹŽqC•Ä–{ Źl,
    h‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝q‹ó‹@“ŕWAICŽü”g”‘Ń“d”g“`”Ŕ“ÁŤ‚̐„’č hC
    2015”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.94, –kŒŠŽs, 2015”N11ŒŽ.

  8. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    –Š˛l, ”’‘D‰ë–¤, “úŒi@—˛, ŽR–{@Šw, –쓇r—Y, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl,
    g‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝q‹ó‹@“ŕ4.4GHz‘Ń“d”g“`”Ŕ“ÁŤ‚̐„’č,h
    MŠw‹Z•ń, vol. 115, no. 286, AP2015-124, pp. 83-86, 2015”N11ŒŽ
  9. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “c’†ŽŽ÷, “úŒi@—˛, –쓇r—Y,
    gHF‘ŃƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚̐Až‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJŠąÂ—U‹N“dˆł„’č,h
    MŠw‹Z•ń, vol. 115, no. 289, WPT2015-51, pp. 29-32, 2015”N11ŒŽ
  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct 14-16„

    Takashi Hikage, Tomoaki Nagaoka,Soichi Watanabe, Naoki Tanaka, and Toshio Nojima:
    "Experimental Estimation of SAR Enhancement Due to Two Parallel Implanted Metal Plates Using a Head Phantom and Thermograph,"
    proc. of 5th EAI International Conference on Wireless Mobile Communication and Healthcare, FA3-3, pp.1-4, Oct. 2015.

  11. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ8-11“ú„

    “úŒi@—˛C–쓇r—Y,
    hiˆË—Šu‰‰j•Â‹óŠÔ‚É‚¨‚Ż‚鐜‘Ě“dŽĽŠÂ‹Ť‚ĚˆŔ‘SŤ•]‰ż “dŽĽŠE‰đÍ‚ÉŠî‚Ă‚­ƒGƒŒƒx[ƒ^“ŕƒy[ƒXƒ[ƒJEMI„’č hC
    2015”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, BCS-1-1Cp.413, ĺ‘äŽs, 2015”N9ŒŽ.

  12. ƒu‰‰E¸“Ç‚Č‚ľC9ŒŽ8-11“ú„

    “c’†ŽŽ÷C“úŒi@—˛C–쓇r—YC’ˇ‰Ş’q–žC“n粑ˆę,
    h‰şŠ{œœÜŽĄ—Ă—p–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸‚ĚŽŔŒą“I„’čhC
    2015”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-20-3Cpp.S11-S12, ĺ‘äŽs, 2015”N9ŒŽ.

  13. ƒu‰‰E¸“Ç‚Č‚ľC7ŒŽ31“ú„

    “úŒi@—˛
    hƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒVƒXƒeƒ€‚É‚ć‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ/ICD‚Ö‚Ě“dŽĽŠąÂ‰e‹ż‚ÉŠÖ‚ˇ‚é’˛¸—áhC
    NICT/EMC-net ‘ć2‰ńl‘Ě‚Ě“dŽĽŠE‚΂­˜I•]‰żŒ¤‹†‰ď, “Œ‹ž“s, 2015”N7ŒŽ.

  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 14-19„

    Takashi Hikage, Toshio Nojima, Iyama Takahiro, Junji Higashiyama, Teruo Onishi:
    "Novel measurement set-up using an electro-optic converter for interference voltage of active implantable medical devices EMI assessment,"
    proc. of the annual joint meeting of the Bioelectromagnetics Society (BEMS) and the European BioElectromagnetics Association (EBEA) (BioEM2015), PB-60, pp.441-443, Jun. 2015.

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, June 14-19„

    Takashi Hikage, Naoki Tanaka, Toshio Nojima:
    "RF exposure dosimetry for testicles of human due to a mobile radio terminal closed to abdominal region,"
    proc. of the annual joint meeting of the Bioelectromagnetics Society (BEMS) and the European BioElectromagnetics Association (EBEA) (BioEM2015), PA-111, pp.308-311, Jun. 2015.

  16. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛C”’‘D‰ë–¤C–쓇r—YC“Ą–{@—T
    g EV[“d—pƒƒCƒ„ƒŒƒX“d—Í“`‘—‘•’u‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚ĚŽŔŒą“I•]‰ż,h
    MŠw‹Z•ń, vol. 115, no. 82, WPT2015-29, pp. 49-52, 2015”N6ŒŽ.
  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 18-22„

    T. Hikage, N. Tanaka, T. Nojima, T. Nagaoka, and S. Watanabe:
    "An Experimental Estimation for SAR Enhancement Due To Implanted Metal Plates Using Thermographic Method,"
    proc. of 1st URSI Atlantic Radio Science Conference (URSI AT-RASC), K02-2, May 2015.

  18. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “c’†ŽŽ÷C“úŒi —˛C–쓇r—YCˆäŽR—˛OC“ŒŽRŽiC‘吟‹P•v
    g“d‹CŒő•ĎŠˇŠí‚đ—p‚˘‚˝Až‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čŒn\’z,h
    “dŽqî•ń’ʐMŠw‰ďŒő‰ž—p“dŽĽŠEŒv‘ŞŒ¤‹†‰ď‹ZpŒ¤‹†•ń,PEM2015-5, pp. xx-xx, 2015”N5ŒŽ.
  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Mar. 24-26„

    T. Hikage, M. Shirafune, T. Nojima, and H. Fujimoto:
    "In-vitro Assessment of Electromagnetic Interference Due to Electric Vehicle Wireless Power Transfer System on Active Implantable Medical Devices,"
    proc. of 9th International Symposium on Medical Information and Communication Technology (ISMICT2015), pp.59-62, Mar. 2015.

  20. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ10-13“ú„

    ”’‘D‰ë–¤C“úŒi@—˛C–쓇r—YC˛X–ŘŒł°CŽR“c@ÂC™ŽR—˛—˜,
    hƒgƒ“ƒlƒ‹“ŕ‚ˇ‚ęˆá‚˘ŽÔ—ź‚ɑ΂ˇ‚鍂‘Ź“S“šŽÔ—ź“ŕ–łüLAN‚Ě˜R‚Ś‚˘•]‰żhC
    2015”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.162, ‘’ĂŽs, 2015”N3ŒŽ.

  21. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ10-13“ú„

    “úŒi@—˛CŹ–ě‘×”şC–쓇r—YCˆäŽR—˛OC“ŒŽRŽiC‘吟‹P•v,
    h“d‹CŒő•ĎŠˇŠí‚đ—p‚˘‚˝Až‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż‚Ě‚˝‚ß‚ĚŠąÂ—U‹N“dˆł‘Ş’čŒnhC
    2015”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.312, ‘’ĂŽs, 2015”N3ŒŽ.

  22. ƒu‰‰E¸“Ç‚Č‚ľC3ŒŽ10-13“ú„

    Ź–ě‘×”şC“úŒi@—˛C–쓇r—YC’ˇ‰Ş’q–žC“n粑ˆę,
    hƒT[ƒ‚ƒOƒ‰ƒtƒB–@‚đ—p‚˘‚˝–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸‚ĚŽŔŒą“I„’čhC
    2015”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.592, ‘’ĂŽs, 2015”N3ŒŽ.

  23. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jan. 7-9„

    T. Hikage, T. Ono, H. Suda, T. Nojima, and H. Fujimoto:
    "Active Implantable Medical Device EMI Assessments for Radio Frequency Identification Interrogators Operating in LF, HF, and UHF Bands,"
    proc. of Vietnam-Japan International Symposium on Antennas and Propagation, pp.18-21, Jan. 2015.

2014(•˝Ź26”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 8-10„

    T. Hikage, M. Shirafune, T. Nojima:
    "A Numerical Assessment Methodology Based on Interference Voltage for Pacemaker EMI Triggered by Magnetic Resonance Wireless Power Transfer Coils,"
    Proc. of the 2014 IEEE International Microwave Workshop Series on RF and Wireless Technologies for Biomedical and Healthcare Applications, WPos1-16, Dec. 2014.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec. 2-5„

    M. Shirafune, T. Hikage, T. Nojima, M. Sasaki, W. Yamada, T. Sugiyama:
    "Propagation Characteristic Estimations of 2 GHz Inter-Car Wireless Links in High-Speed Train Cars in a Railway Tunnel" ,
    Proc. of 19th International Symposium on Antennas and Propagation (ISAP 2014), pp.215-216, Dec. 2014.

  3. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ25-26“ú„

    ­–Ř —yCŹ–ě‘×”şC“úŒi —˛C–쓇r—Y,
    hHF‘ŃƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚É‚¨‚Ż‚é Až‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJŠąÂ—U‹N“dˆł‚ĚFEM‰đÍ|S–[ESŽşƒŠ[ƒh‚Ě”äŠr|hC
    2014”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.95, ŽD–yŽs, 2014”N10ŒŽ.

  4. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ25-26“ú„

    “úŒi —˛CŹ–ě‘×”şC–쓇r—YC•ÄŕV‰h“ńC‘ĺŕVFŽĄ,
    h“d—Í“`‘—ƒRƒCƒ‹‚ĚˆĘ’u‚¸‚ę‚đl—ś‚ľ‚˝lHŽ‹ŠoƒVƒXƒeƒ€–„‚ߍž‚ݐl‘Ě‚Ě‹ÇŠSAR„’čhC
    2014”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.94, ŽD–yŽs, 2014”N10ŒŽ.

  5. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ25-26“ú„

    Ź–ě‘×”şC“úŒi —˛C–쓇r—YC’ˇ‰Ş’q–žC“n粑ˆę,
    h‹­§ĆŽËEƒT[ƒ‚ƒOƒ‰ƒtƒB–@‚đ—p‚˘‚˝–„‚ߍž‚Ý‹ŕ‘ŽƒvƒŒ[ƒg‚É‚ć‚éSARă¸‚ĚŽŔŒą“I„’čhC
    2014”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.93, ŽD–yŽs, 2014”N10ŒŽ.

  6. ƒu‰‰E¸“Ç‚Č‚ľC10ŒŽ25-26“ú„

    ”’‘D‰ë–¤C“úŒi —˛C–쓇r—YC“ńƒbXrˆęC‰Í‘ş‹ĹŽqC•Ä–{Źl,
    hFDTD‰đÍ‚đ—p‚˘‚˝q‹ó‹@‹qŽş-‹@ăƒAƒ“ƒeƒiŠÔ‚ĚŒo˜H‘šŽ¸•]‰żhC
    2014”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď , p.87, ŽD–yŽs, 2014”N10ŒŽ.

  7. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    Ź–ě‘×”ş, “úŒi —˛, –쓇r—Y,
    g—LŒŔ—v‘f–@‚É‚ć‚鎼ŠE‹¤UŒ^ƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚̐Až‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJŠąÂ—U‹N“dˆł„’č,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 114, no. 246, WPT2014-39, pp. 19-22, 2014”N10ŒŽ.
  8. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi —˛, Ź–ě‘×”ş, –쓇r—Y, •ÄŕV‰h“ń, ‘ĺŕVFŽĄ,
    gƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹•tlHŽ‹ŠoƒVƒXƒeƒ€–„‚ߍž‚ݐl‘Ě‚Ě‹ÇŠSAR„’č,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 114, no. 246, WPT2014-38, pp. 15-18, 2014”N10ŒŽ.
  9. ƒ˜_•ś:¸“Ç‚ ‚聄

    ”’‘D ‰ë–¤ “úŒi —˛ –쓇 r—Y ˛X–Ř Œł° ŽR“c Â ™ŽR —˛—˜:
    "FDTD‰đÍ‚É‚ć‚鍂‘Ź“S“šŽÔ—ź“ŕ5GHz‘Ń–łüÚ‘ąƒT[ƒrƒX‚Ě“`”Ŕ“ÁŤ„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ B, Vol.J97-BCNo.9, pp.762-769, Sep. 2014.

  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 1-4„

    Shunichi Futatsumori, Kazuyuki Morioka, Akiko Kohmura, Naruto Yonemoto, Masami Shirafune,Takashi Hikage, and Toshio Nojima:
    "Evaluation of Effects on Electromagnetic Field Characteristics Inside Aircraft Due to Phenol Internal Structures Using a Reverberation Chamber,"
    Proc. of the 2014 International Symposium on Electromagnetic Compatibility (EMC Europe 2014), pp.313-317, Sep. 2014.

  11. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 16-23„

    T. Hikage, T. Ono, T. Nojima, T. Nagaoka, S. Watanabe:
    "NUMERICAL EVALUATION OF LOCAL SAR IN ANATOMICAL PHANTOM IMPLANTED WITH METALLIC OSTEOSYNTHESIS PLATES EXPOSED TO 2GHZ RF FIELDS,"
    XXXI URSI GENERAL ASSEMBLY AND SCIENTIFIC SYMPOSIUM, KB02.4, Aug. 2014.

  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 16-23„

    T. Hikage, M. Shirafune, T. Nojima:
    "AN ESTIMATION OF INDUCED VOLTAGE AT IMPLANTABLE CARDIAC PACEMAKER DUE TO MAGNETIC RESONANT WIRELESS POWER TRANSFER COILS USING FINITE ELEMENT METHOD,"
    XXXI URSI GENERAL ASSEMBLY AND SCIENTIFIC SYMPOSIUM, KE01.3, Aug. 2014.

  13. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 4-6„

    T. Hikage, M. Shirafune, T. Nojima, S. Futatsumori, A. Kohmura, and N. Yonemoto:
    "Numerical Estimations of Propagation Characteristics and Interference Path Loss Due to Personal Electric Device in a Commercial Aircraft Cabin,"
    2014 IEEE International Workshop on Electromagnetics:Applications and Student Innovation Competition , pp.243-244, Aug. 2014.

  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 4-6„

    Taisuke Ono, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka and Soichi Watanabe:
    "Local SAR in Anatomical Phantom Implanted with Metallic Osteosynthesis Plates in Mandibular Exposed to 2 GHz RF Fields,"
    2014 IEEE International Workshop on Electromagnetics:Applications and Student Innovation Competition , pp.209-210, Aug. 2014.

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul. 6-11„

    T. Hikage, M. Shirafune, T. Nojima, S. Futatsumori, A. Kohmura, and N. Yonemoto:
    "Estimations on Aircraft Interference Path Loss due to Personal Electric Device Using a Large-scaled Parallel FDTD Analysis,"
    Proc. of IEEE International Symposium on Antennas and Propagation and USNC-URSI Radio Science Meeting, 114.6, Jul. 2014.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun. 8-13„

    Takashi Hikage, Taisuke Ono, Toshio Nojima, Tomoaki Nagaoka and Soichi Watanabe:
    "Numerical Modeling for SAR Evaluation in Human Implanted with Osteosynthesis Plates of mandibular fractures,"
    Proc. of BioEM2014, pp.97-99, Jun. 2014.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 12-16„

    T. Hikage, M. Shirafune, T. Nojima:
    ". Implantable Cardiac Pacemaker EMI Triggered by HF-band Wireless Power Transfer Coils,"
    Proc. of 2014 International Symposium on Electromagnetic Compatibility, pp.222-225, May 2014.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 12-16„

    H. Fujimoto, T. Toyoshima, T. Hikage, T. Nojima:
    "A New Improved Electrode for the Human Body Model: Application for EMI Assessment of Active Implant Medical Devices,"
    Proc. of 2014 International Symposium on Electromagnetic Compatibility, pp.218-221, May 2014.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 12-16„

    M. Shirafune, T. Hikage, T. Nojima, S. Futatsumori, A. Kohmura, and N. Yonemoto:
    "Estimation of the Electromagnetic Fields Excited by a Cellular Phone in a Typical Aircraft Cabin,"
    Proc. of 2014 International Symposium on Electromagnetic Compatibility, pp.178-181, May 2014.

  20. ƒ˜_•ś:¸“Ç‚ ‚聄

    ”’‘D‰ë–¤, “úŒi@—˛, –쓇r—Y, “ńƒbXrˆę, ‰Í‘ş‹ĹŽq, •Ä–{Źl :
    "‘ĺ‹K–ÍFDTD‰đÍ‚É‚ć‚éq‹ó‹@“ŕ–łüLAN’[––‚ĚŒo˜H‘šŽ¸„’č,"
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ C, Vol. J97-C No. 5 pp. 197-200, May 2014.

  21. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, March 23-27„

    Shunichi Futatsumori, Kazuyuki Morioka, Akiko Kohmura, Naruto Yonemoto,Masami Shirafune, Takashi Hikage, and Toshio Nojima,:
    "EMF Propagation Characteristics of Boeing 777 Class Large Passenger Aircraft -Numerical Estimation and Measurement Results at 2 GHz Band-,"
    Proc. of The 30th Annual Review of Progress in Applied Computational Electromagnetics, Mar. 2014.

  22. ƒu‰‰E¸“Ç‚Č‚ľCMar.18-21„

    ”’‘D ‰ë–¤C“úŒi —˛C–쓇 r—Y, ˛X–ŘŒł°, ŽR“c@Â, ™ŽR—˛—˜,
    hƒgƒ“ƒlƒ‹’ʉߎž‚̍‚‘Ź“S“šŽÔ—ź“ŕ2GHz‘Ń“d”g‚Ě“`”Ŕ„’čhC
    2014”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.12, VŠƒŽs, Mar. 2014.

  23. ƒu‰‰E¸“Ç‚Č‚ľCMar.18-21„

    “ńƒbXrˆę, X‰Ş˜as, ‰Í‘ş‹ĹŽq, •Ä–{Źl, ”’‘D‰ë–¤, “úŒi@—˛, –쓇r—Y,
    hq‹ó‹@“ŕ\‘˘•¨‚Ş“ŕ•”“dŽĽŠE“`”Ŕ“ÁŤ‚É‹y‚Ú‚ˇ‰e‹ż\ƒtƒFƒm[ƒ‹“ŕ•Ç‚đ•t‰Á‚ľ‚˝“d”g”˝ŽË” ‚̍\‘˘‘ĚQ’l‘Ş’č•]‰ż\hC
    2014”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.342, VŠƒŽs, Mar. 2014.

  24. ƒu‰‰E¸“Ç‚Č‚ľCMar.18-21„

    “úŒi@—˛, Ź–ě‘×”ş, –쓇r—Y, •ÄŕV‰h“ń, ‘ĺŕVFŽĄ,
    h”ńÚG“d—Í“`‘—ƒRƒCƒ‹•tlHŽ‹ŠoƒVƒXƒeƒ€–„‚ߍž‚ݐl‘Ě‚Ě‹ÇŠSAR„’čhC
    2014”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.372, VŠƒŽs, Mar. 2014.

  25. ƒu‰‰E¸“Ç‚Č‚ľCMar.18-21„

    Ź–ě‘×”ş, “úŒi@—˛, –쓇r—Y, ’ˇ‰Ş’q–ž, “n粑ˆę,
    h‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚݃tƒ@ƒ“ƒgƒ€‚Ě2GHz‘ŃSAR‚¨‚ć‚щˇ“xă¸„’čhC
    2014”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.378, VŠƒŽs, Mar. 2014.

  26. ƒu‰‰E¸“Ç‚Č‚ľCMar.18-21„

    “úŒi@—˛, ”’‘D‰ë–¤, –쓇r—Y, “Ą–{@—T, Šâˆä@—m,
    h”ńÚG[“dŠí‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚Ěin vitroŽŽŒąhC
    2014”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, pp. SS-92`93, VŠƒŽs, Mar. 2014.

  27. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛E”’‘D‰ë–¤E–쓇r—YE˛X–ŘŒł°EŽR“c@ÂE™ŽR—˛—˜,
    gƒgƒ“ƒlƒ‹’ʉߎž‚̍‚‘Ź“S“šŽÔ—ź“ŕ2.4GHz‘Ń“d”g‚ĚŽÔŽÔŠÔ“`”Ŕ„’č,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol.113, no. 428, AP2013-180, pp. 81-84, 2014”N2ŒŽ.

2013(•˝Ź25”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec.9-11„

    T. Suzuki, T. Hikage, T. Nojima,:
    "Numerical Assessment Method for Implantable Cardiac Pacemaker EMI Triggered by 10MHz-band Wireless Power Transfer Coils,"
    Proc. of IEEE MTT-S International Microwave Workshop Series on RF and Wireless Technologies for Biomedical and Healthcare Applications (IMWS-Bio 2013) , WP4-4, Dec. 2013.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec.2-4„

    Masami Shirafune, Takashi Hikage, Toshio Nojima, Motoharu Sasaki, Wataru Yamada and Takatoshi Sugiyama,:
    "Numerical Estimation on Shielding Effect of Connecting Doors for Wireless LAN Access Service in High-Speed Train Cars,"
    Proc. of 2013 Thailand-Japan MicroWave (TJMW2013), TU2-38, Dec. 2013.

  3. ƒu‰‰E¸“Ç‚Č‚ľCOct.19,20„

    ”’‘D ‰ë–¤C“úŒi —˛C–쓇 r—Y,
    h—ńŽÔ“ŕ–łüLAN“d”g‚ĚŽÔŽÔŠÔ“`”Ŕ‚É‹y‚Ú‚ˇŽÔ—źŠÔƒhƒA‚ĚŽŐ•Á‰e‹ż„’čhC
    2013”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.104, Žş—–Žs, Oct. 2013.

  4. ƒu‰‰E¸“Ç‚Č‚ľCOct.19,20„

    —é–Ř ‘ô”nC“úŒi —˛C–쓇 r—Y,
    h—LŒŔ—v‘f–@‚đ—p‚˘‚˝ŽĽŠE‹¤UŒ^ƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJŠąÂ—U‹N“dˆł‚̐„’č \’P‹ÉE‘o‹Éƒ‚[ƒh‚Ě”äŠr\ hC
    2013”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.105, Žş—–Žs, Oct. 2013.

  5. ƒu‰‰E¸“Ç‚Č‚ľCOct.19,20„

    Ź–ě ‘×”şC“úŒi —˛C–쓇 r—Y,
    h–łü“d—Í“`‘—ƒRƒCƒ‹‹ß–TŠE‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚ĚFDTD‰đÍhC
    2013”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.106, Žş—–Žs, Oct. 2013.

  6. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi—˛A—é–Ř‘ô”nA–쓇r—Y,
    g–łü“d—Í“`‘—Žü”g”‘Ń‚É‚¨‚Ż‚é‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚ݐl‘Ě‚ĚSAR•]‰ż,h
    ‘ć16‰ń‰F’ˆ‘ž—z”­“dƒVƒXƒeƒ€iSPSjƒVƒ“ƒ|ƒWƒEƒ€, pp. ??-??, 2013”N10ŒŽ.
  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.9-12„

    T. Hikage, T. Nojima, S. Futatsumori, A. Kohmura, and N. Yonemoto:
    "Using Large-scale FDTD Method to Obain Precise Propagation Characteristics of In-flight Wireless Access Servise,"
    Proc. of IEEE AFRICON 2013, pp.771-774, Sep. 2013.

  8. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.2-6„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Tomoaki Nagaoka and Soichi Watanabe:
    "Local SAR Evaluation of Anatomical Human Implanted with Metallic Osteosynthesis Plates Exposed to UHF Radio Waves,"
    Proc. of 2013 International Symposium on Electromagnetic Compatibility EMC Europe, pp.165-168, Sep. 2013.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.29-30„

    Takashi Hikage, Takuma Suzuki, and Toshio Nojima:
    "Numerical Assessment Method for Implantable Cardiac Pacemaker EMI Triggered by 10MHz-band Wireless Power Transfer Coils,"
    Proc. of Joint Workshop of URSI Commission K and ICNIRP,p. 38, Aug. 2013.

  10. @@
  11. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ”’‘D‰ë–¤E“úŒi@—˛E–쓇r—Yi–k‘ĺjE“ńƒbXrˆęE‰Í‘ş‹ĹŽqE•Ä–{Źli“dŽqq–@Œ¤j
    gŽĺ—ƒ‚Š‚ç‚Ě”˝ŽË”g‚đl—ś‚ľ‚˝q‹ó‹@“ŕ•”‚Ě–łüLAN“d”g“`”Ŕ“ÁŤ•]‰ż,h
    MŠw‹Z•ń, vol. 113, no. 143, EST2013-18, pp. 51-54, 2013”N7ŒŽ.
  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.7-13„

    T. Hikage, M. Shirafune, T. Nojima, S. Futatsumori, A. Kohmura, and N. Yonemoto:
    "Numerical Estimation of RF Propagation Characteristics of Wireless Terminal in a Commercial Aircraft Cabin,"
    Proc. of 2013 IEEE International Symposium on Antennas and Propagation and USNC-URSI National Radio Science Meeting, 305.9, Jul. 2013.

  13. @@
  14. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛,‰Í‘ş—R•ś,–쓇r—Y
    gŒő“dŠEƒvƒ[ƒu‚đ—p‚˘‚˝‘Sg•˝‹ĎSAR‘Ş’čŒn‚̍\’z,h
    “dŽqî•ń’ʐMŠw‰ď Œő‰ž—p“dŽĽŠEŒv‘ŞŒ¤‹†‰ď,PEM2013-04, pp. 17-20, 2013”N6ŒŽ.
  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.10-14„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Tomoaki Nagaoka, Soichi Watanabe,
    "Thermographic SAR Measurements in a Rubber Phantom Implanted with Metallic Plates,"
    Joint Meeting of The Bioelectromagnetics Society and the European BioElectromagnetics Association, PB-42, Greece, June 2013.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May 20-24„

    Takashi Hikage, Masami Shirafune, Toshio Nojima, Hiroshi Fujimoto, and Takeshi Toyoshima,
    "In vitro Assessment of EMI from RFID Interrogator on Implantable Cardiac Pacemakers and Implantable Cardioverter Defibrillators,"
    The 2013 International Symposium on Electromagnetic Theory, pp.1140-1143, May 2013.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Apr.8-12„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Tomoaki Nagaoka and Soichi Watanabe,
    "Whole-Body Averaged SAR Measurements Using Cylindrical-External Field Scanning for 2 GHz Plane Wave Irradiation of Human Models,"
    THE 7TH EUROPEAN CONFERENCE ON ANTENNAS AND PROPAGATION EUCAP 2013, pp.1714-1715, Apr. 2013.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Mar.24-28„

    Shunichi Futatsumori, Takashi Hikage, Masami Shirafune, Toshio Nojima,Akiko Kohmura, and Naruto Yonemoto,
    "Numerical Estimation of Propagation Characteristics of Wireless Communications in Crowded Aircraft Cabin,"
    Annual Review of Progress in Applied Computational Electromagnetics ACES 2013, pp.82-85, Mar. 2013.

  19. ƒu‰‰E¸“Ç‚Č‚ľCMar.20„

    ”’‘D‰ë–¤, “úŒi@—˛, –쓇r—Y, ŽR“c@Â, ™ŽR—˛—˜,
    h”’l‰đÍ‚đ—p‚˘‚˝‚‘Ź“S“šŽÔ—ź“ŕ–łüLAN‚ĚŽÔŠO˜R‚Ś‚˘•]‰żhC
    2013”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-51, p.51, Šň•ŒŽs, Mar. 2013.

  20. ƒu‰‰E¸“Ç‚Č‚ľCMar.19„

    ‰Í‘ş—R•ś, “úŒi@—˛, –쓇r—Y, ’ˇ‰Ş’q–ž, “n粑ˆę,
    hƒT[ƒ‚ƒOƒ‰ƒtƒB‚đ—p‚˘‚˝‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚݃tƒ@ƒ“ƒgƒ€‚Ě2 GHz‘ŃSAR•]‰żhC
    2012”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-11, p.356, Šň•ŒŽs, Mar. 2013.

  21. @@
  22. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛,‰Í‘ş—R•ś,–쓇r—Y,“Ą–{@—T,–L“‡@Œ’,
    gRFID‹@Ší‚É‚ć‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ‚¨‚ć‚ѐAž‚ÝŒ^œ×“ŽŠí“dŽĽŠąÂ‚ĚŽŔŒą“I•]‰ż–@,h
    “d‹CŠw‰ď“dŽĽŠÂ‹ŤŒ¤‹†‰ďŽ‘—ż,EMC-13-9, pp. 37-40, 2013”N3ŒŽ.
  23. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛E”’‘D‰ë–¤E–쓇r—YEŽR“c@ÂE–k@’źŽ÷E™ŽR—˛—˜,
    g‚‘Ź“S“šŽÔ—źŠÔƒhƒA‚É‚ć‚é–łüLANŽŐ•ÁŒř‰Ę‚ĚFDTD‰đÍ,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 112, no. 384, AP2012-130, pp. 49-52, 2013”N1ŒŽ.

2012(•˝Ź24”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.29-30 „

    Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka and Soichi Watanabe,
    "Local SAR evaluation of anatomical human head model implanted with metal plates exposed to UHF radio waves,"
    Proc. of 5th Pan-Pacific EMC Joint Meeting@(PPEMC'12), Nov. 2012.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.29-Nov.2 „

    Takashi Hikage, Masami Shirafune, Toshio Nojima, Wataru Yamada and Takatoshi Sugiyama,
    "Numerical Estimations of the Propagation Characteristics of Wireless Links in High-Speed Train Cars,"
    Proc. of International Symposium on Antennas and Propagation (ISAP2012) , pp.327-330, Oct. 2012.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.29-Nov.2 „

    Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka and Soichi Watanabe,
    "Whole-Body Averaged SAR Measurements of Postured Phantoms Exposed to E-/H-Polarized Plane-Wave Using Cylindrical Field Scanning,"
    Proc. of International Symposium on Antennas and Propagation (ISAP2012) , pp.676-679, Oct. 2012.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.29-Nov.2 „

    Ken Hiraga, Takashi Hikage, Manabu Yamamoto and Toshio Nojima,
    "Harmonic Matching and Reflecting Amplifiers with 2nd and 3rd Harmonic Phase Tuning,"
    Proc. of International Symposium on Antennas and Propagation (ISAP2012) , pp.186-189, Oct. 2012.

  5. ƒu‰‰E¸“Ç‚Č‚ľCOct.20,21„

    –؉ş ^Ž÷C“úŒi —˛C–쓇 r—YC“ńƒcX rˆęC‰Í‘ş ‹ĹŽqC•Ä–{ Źl,
    hFDTD–@‚đ—p‚˘‚˝q‹ó‹@“ŕ‚É‚¨‚Ż‚é–łüLAN“d”g‚Ě“`”Ŕƒ‚ƒfƒ‹„’čhC
    2012”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.103, ŽD–yŽs, Oct. 2012.

  6. ƒu‰‰E¸“Ç‚Č‚ľCOct.20,21„

    ”’‘D ‰ë–¤C“úŒi —˛C–쓇 r—Y,
    h‚‘Ź“S“šŽÔ—źŠÔƒhƒA‚É‚ć‚é2GHz‘Ń–łüLANŽŐ•ÁŒř‰Ę‚ĚFDTD‰đÍhC
    2012”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.102, ŽD–yŽs, Oct. 2012.

  7. ƒu‰‰E¸“Ç‚Č‚ľCOct.20,21„

    —é–Ř ‘ô”nC“úŒi —˛C–쓇 r—Y,
    hŽĽŠE‹¤UŒ^”ńÚG“d—Í“`‘—‚Ě“dŽĽŠE‚É‚ć‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ’[Žq—U‹N“dˆł‚̐”’l„’č - ‘—ŽóMƒRƒCƒ‹‚ĚˆĘ’u‚¸‚ę‚É‚ć‚é‰e‹ż - hC
    2012”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.101, ŽD–yŽs, Oct. 2012.

  8. ƒu‰‰E¸“Ç‚Č‚ľCOct.20,21„

    ‰Í‘ş —R•śC“úŒi —˛C–쓇 r—YC’ˇ‰Ş ’q–žC“nç˛ ‘ˆę,
    h3ŽŸŒłƒ‚[ƒtƒBƒ“ƒO‚đ—p‚˘‚˝‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚ݐl‘Ě“Ş•”ƒ‚ƒfƒ‹‚Ě‹ÇŠSAR‰đÍhC
    2012”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.100, ŽD–yŽs, Oct. 2012.

  9. ƒu‰‰E¸“Ç‚Č‚ľCOct.20,21„

    “ü] —m•˝C“úŒi@ —˛C–쓇 r—Y,
    hAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMIŽŽŒą—p•˝”ƒgƒ‹ƒ\[ƒtƒ@ƒ“ƒgƒ€‚̐”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“ƒ‚ƒfƒ‹‚ĚŠJ”­hC
    2012”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď p.99, ŽD–yŽs, Oct. 2012.

  10. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛A‰Í‘ş—R•śA–쓇r—Y,
    g–łü“d—Í“`‘—Žü”g”‘Ń‚É‚¨‚Ż‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJEMI‚Ě•]‰ż–@,h
    ‘ć15‰ń‰F’ˆ‘ž—z”­“dƒVƒXƒeƒ€iSPSjƒVƒ“ƒ|ƒWƒEƒ€, pp. ??-??, 2012”N9ŒŽ.
  11. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.17-21„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Eugenia Cabot:
    "Numerical Assessment Methodology for Active Implantable Medical Device EMI due to Magnetic Resonance Wireless Power Transmission Antenna,"
    Proc. of International Symposium on Electromagnetic Compatibility EMC EUROPE 2012, D4-1, Sep. 2012.

  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.17-21„

    Junji Higashiyama, Yoshiaki Tarusawa, Takashi Hikage, and Toshio Nojima:
    "EMI risk assessment of electromagnetic field from mobile phone in elevator cabin for implantable pacemaker,"
    Proc. of International Symposium on Electromagnetic Compatibility EMC EUROPE 2012, D8-1, Sep. 2012.

  13. ƒu‰‰E¸“Ç‚Č‚ľCSep.11-14„

    “ńƒbX rˆę, ‰Í‘ş ‹ĹŽq, ˆéč ‰hŽő, •Ä–{ Źl, “úŒi —˛, –쓇 r—Y,
    h‘ĺŒ^—ˇ‹qq‹ó‹@‚É‚¨‚Ż‚铡‘Ě‘¤•Ç“ŕ‘•Ţ‚Ě“d‹C“I“ÁŤ -ƒtƒFƒm[ƒ‹Ž÷Ž‰‚đ—p‚˘‚˝FRP‚ĚŢ—ż’萔‘Ş’č•]‰ż-hC
    2012”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, p.22, •xŽRŽs, Sep. 2012.

  14. ƒu‰‰E¸“Ç‚Č‚ľCSep.11-14„

    ‰Í‘ş—R•ś, “úŒi@—˛, –쓇r—Y, “Ą–{—T, –L“‡Œ’,
    hLTE–łü’[––“d”g‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚Ěin vitroŽŽŒąhC
    2012”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, p.315, •xŽRŽs, Sep. 2012.

  15. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ‰Í‘ş—R•ś, “úŒi@—˛, –쓇r—Y, ’ˇ‰Ş’q–žE“n粑ˆę,
    gUHF‘Ń“dŽĽŠE‚΂­˜I‚É‚ć‚éˆă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚ݐl‘Ě‚Ě‹ÇŠSAR•]‰ż,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 112, no. 201, EMCJ2012-53, pp. 11-16, 2012”N9ŒŽ.
  16. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛E—é–Ř‘ô”nE‰Í‘ş—R•śE–쓇r—Y,
    g”’lŒvŽZ‚đ—p‚˘‚˝”ńÚG“d—Í“`‘—ƒRƒCƒ‹‹ß–T‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI•]‰ż–@,h
    “dŽqî•ń’ʐMŠw‰ď@WPT(‘ć“ńŽíŒ¤‹†‰ď)‹ZpŒ¤‹†•ń, 2012”N7ŒŽ.
  17. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    –؉ş^Ž÷E“úŒi@—˛E–쓇r—YE“ńƒbXrˆęE‰Í‘ş‹ĹŽqE•Ä–{Źl,
    g‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝q‹ó‹@‚É‚¨‚Ż‚é–łüLAN“d”g‚Ě“`”Ŕ“ÁŤ•]‰ż,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol.112, no.157, EST2012-32, pp.149-152, 2012”N7ŒŽ.
  18. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    —é–Ř‘ô”nE‰Í‘ş—R•śE“úŒi@—˛E–쓇r—Y,
    gŽĽŠE‹¤UŒ^ƒƒCƒ„ƒŒƒX“d—Í“`‘—ƒAƒ“ƒeƒi‚É‚ć‚éAž‚ÝŒ^ˆă—Ă‹@ŠíEMI‚̐”’l•]‰ż–@,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol.112, no.157, EST2012-34, pp.157-160, 2012”N7ŒŽ.
  19. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ”’‘D‰ë–¤E“úŒi@—˛E–쓇r—YEŽR“c@ÂE™ŽR—˛—˜,
    gFDTD‰đÍ‚đ—p‚˘‚˝‚‘Ź“S“šŽÔ—ź“ŕ–łüÚ‘ąƒT[ƒrƒX‚Ě“`”Ŕ“ÁŤ„’č,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol.112, no.149, AP2012-36, pp.35-38, 2012”N7ŒŽ.
  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.8-14„

    T. Hikage, M. Shirafune, T. Nojima, S. Futatsumori, A. Kohmura, and N. Yonemoto:
    "Numerical Estimation of RF Propagation Characteristics of Cellular Radio in a Crowded Aircraft Cabin,"
    Proc. of 2012 IEEE International Symposium on Antennas and Propagation and USNC-URSI National Radio Science Meeting, 166.1, Jul. 2012.

  21. ƒ˜_•ś:¸“Ç‚ ‚聄

    ‰Í‘ş@—R•śE“úŒi@—˛E–쓇@r—YE•Ÿˆä@úЁE“Ą–{@—TE–L“‡@Œ’:
    "“dŽq¤•iŠÄŽ‹‹@Ší‚É‚ć‚éAž‚ÝŒ^S‘Ÿƒy[ƒXƒ[ƒJ‚¨‚ć‚ѐAž‚ÝŒ^œ×“ŽŠí“dŽĽŠąÂ‚ĚŽŔŒą“I•]‰ż \ŠąÂ‹——Ł‚ĆˆăŠw“I‰e‹ż‚Ě•p“x\,"
    ś‘ĚˆăHŠw, Vol. 50, No. 3, pp. 289-298, Jun.2012.

  22. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.17-22„

    Takashi Hikage, Yoshifumi Kawamura & Toshio Nojima:
    "Numerical Estimation on Active Implantable Medical Device EMI due to Magnetic Resonance Wireless Power Transmission Coils,"
    Proc. 34th Annual Conference of The Bioelectromagnetics Society, pp. 87-89, Brisbane, Australia, Jun. 2012.

  23. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.17-22„

    Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima,Tomoaki Nagaoka, Soichi Watanabe:
    "Whole-Body Averaged SAR Measurement Based upon Cylindrical Field Scanning for UHF Plane Wave Irradiation of Precise Humans,"
    Proc. 34th Annual Conference of The Bioelectromagnetics Society, pp. 318-320, Brisbane, Australia, Jun. 2012.

  24. ƒu‰‰E¸“Ç‚Č‚ľCMar.23„

    “úŒi@—˛, ”’‘D‰ë–¤, –쓇r—Y, ŽR“c@Â, ™ŽR—˛—˜,
    h‚‘Ź“S“šŽÔ—ź“ŕ–łüƒT[ƒrƒX‚Ě“`”Ŕ“ÁŤ•]‰żhC
    2012”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.50, ‰ŞŽRŽs, Mar. 2012.

  25. ƒu‰‰E¸“Ç‚Č‚ľCMar.22„

    ‰Í‘ş—R•ś, “úŒi@—˛, –쓇r—Y, ’ˇ‰Ş’q–ž, “n粑ˆę,
    hˆă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg–„‚ߍž‚ݐl‘̂ɑ΂ˇ‚é‹ÇŠSAR‚Ě•˝–Ę”g“ž—ˆ•űŒüˆË‘śŤ‰đÍhC
    2012”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, p.374, ‰ŞŽRŽs, Mar. 2012.

  26. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛E“ü]—m•˝E–쓇r—YEŽR“c@ÂE™ŽR—˛—˜,
    g—ńŽÔ“ŕ–łüƒT[ƒrƒX‚É‚¨‚Ż‚éć‹q‚đ—L‚ˇ‚éŽÔ—ź“ŕ“`”Ŕ“ÁŤ‚ĚFDTD‰đÍ,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 111, no. 376, AP2011-153, pp. 43-46, 2012”N1ŒŽ.

2011(•˝Ź23”N)

  1. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “ü] —m•˝, ‰Í‘ş —R•ś, “úŒi —˛, –쓇r—Y,
    gFDTD‰đÍ‚đ—p‚˘‚˝Až‚ÝŒ^ˆă—p‹@ŠíEMIŽŽŒą—p‹zŽű‘Ě‘•‰×Œ^•˝”ƒgƒ‹ƒ\[ƒtƒ@ƒ“ƒgƒ€‚Ě“K—pŤ•]‰ż,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, EMCJ2011-106, pp.71-74, 2011”N12ŒŽ.
  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Dec 5-8„

    Masaki Kinoshita, Takashi Hikage, Toshio Nojima,Shunichi Futatsumori, Akiko Kohmura, Naruto Yonemoto:
    "Numerical Estimation of RF Propagation Characteristics of Cellular Radio in an Aircraft Cabin,"
    Proceedings of the Asia-Pacific Microwave Conference 2011, pp.82-85, Melbourne, Australia, Dec. 2011.

  3. ƒ˜_•ś:¸“Ç‚ ‚聄

    A.Y. Simba, S. Watanabe, T. Hikage, T. Nojima:
    "Experimental and numerical investigation of the maximum specific absorption rate in a spherical phantom when operating a mobile phone near a metallic wall,"
    IET Science, Measurement and Technology, Vol. 5, Iss. 6, pp. 225-230, Nov.2011.

  4. ƒ˜_•ś:¸“Ç‚ ‚聄

    M-.C. Gosselin, G. Vermeeren, S. Kuhn, V. Kellerman, S. Benkler, T.M.I. Uusitupa, W. Joseph, A. Gati, J. Wiart, F.J.C. Meyer, L. Martens, T. Nojima, T. Hikage, Q. Balzano, A. Christ, N. Kuster:
    "Estimation Formulas for the Specific Absorption Rate in Humans Exposed to Base-Station Antennas,"
    IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, Volume:53, Issue:4, pp909-922, Nov.2011.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, October 25-28„

    Takashi Hikage, Toshio Nojima, Wataru Yamada, and Takatoshi Sugiyama,:
    "Propagation Characteristics of Wireless Communications in Crowded Train Cars,"
    Proc. 2011 INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION, WeE1-2, Jeju, Korea, Oct. 2011.

  6. ƒu‰‰E¸“Ç‚Č‚ľCOct.22-23„

    –؉ş ^Ž÷C“úŒi —˛C–쓇 r—Y,
    h—LŒŔ—v‘f–@‚ĆSPICE‚đ—p‚˘‚˝–łü‘—“d—pƒRƒCƒ‹‚Ě˜AŹ‰đÍhC
    2011”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.90, ”ŸŠŮŽs, –kŠC“š, Oct. 2011.

  7. ƒu‰‰E¸“Ç‚Č‚ľCOct.22-23„

    “ü] —m•˝C“úŒi —˛C–쓇 r—Y,
    h—ńŽÔ“ŕ“d”g“`”Ŕ“ÁŤ‚ĚFDTD‰đÍ‚É‚¨‚Ż‚éŽű‘Šó‹ľ•]‰żhC
    2011”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.89, ”ŸŠŮŽs, –kŠC“š, Oct. 2011.

  8. ƒu‰‰E¸“Ç‚Č‚ľCOct.22-23„

    ‰Í‘ş —R•śC“úŒi —˛C–쓇 r—YC’ˇ‰Ş ’q–žC“nç˛ ‘ˆę,
    h“Ş•”‚Ɉă—Ă—p‹ŕ‘ŽƒvƒŒ[ƒg‚đ–„‚ßž‚ń‚žl‘Ě‚ĚSAR•]‰żhC
    2011”N“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, p.88, ”ŸŠŮŽs, –kŠC“š, Oct. 2011.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.26-30„

    Takashi Hikage, Shinya Hiraiwa, and Toshio Nojima, Shunichi Futatsumori, Akiko Kohmura, and Naruto Yonemoto:
    "Numerical Estimation of the Electric Field Distributions Due to Mobile Radio in an Aircraft Cabin Based on Large Scale FDTD Analysis,"
    Proc. 10th International Symposium on Electromagnetic Compatibility, pp.523-526, York, UK, Sep. 2011.

  10. ƒu‰‰E¸“Ç‚Č‚ľCSep.13-16„

    ‰Í‘ş —R•ś, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y, Ź’r •×, “Ą–{ —T, –L“‡ Œ’,
    hRFID‹@Ší‚̐Až‚ÝŒ^ˆă—pŠí“dŽĽŠąÂ•]‰ż‚ĆŠąÂŠÉ˜a‹ZphC
    2011”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, BI-3-4, –kŠC“š, Sep. 2011.

  11. ƒu‰‰E¸“Ç‚Č‚ľCSep.13-16„

    “ü] —m•˝, ‰Í‘ş —R•ś, “úŒi —˛, –쓇r—YC
    h“ŕ•”’čÝ”g—}ˆł‚đ–Ú“I‚Ć‚ľ‚˝A‚Śž‚ÝŒ^ˆă—Ă‹@ŠíEMIŽŽŒą—p•˝”ÂŒ^ƒgƒ‹ƒ\[ƒtƒ@ƒ“ƒgƒ€‚ĚŠJ”­hC
    2011”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-4-14, –kŠC“š, Sep. 2011.

  12. ƒu‰‰E¸“Ç‚Č‚ľCSep.13-16„

    –؉ş ^Ž÷, “úŒi —˛, –쓇 r—Y, “ńƒbX rˆę, ‰Í‘ş ‹ĹŽq, •Ä–{ ŹlC
    hFDTD–@‚đ—p‚˘‚˝q‹ó‹@“ŕ‚É‚¨‚Ż‚éŒg‘Ń“d˜bŽü”g”‘Ń“d”g‚Ě“`”d“ÁŤ•]‰żhC
    2011”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-22, –kŠC“š, Sep. 2011.

  13. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “ü] —m•˝, ‰Í‘ş —R•ś, “úŒi —˛, –쓇r—Y,
    g”w–Ę‚É‹zŽű‘Ě‚đ•t‰Á‚ľ‚˝Až‚ÝŒ^ˆă—p‹@ŠíEMIŽŽŒą—p•˝”ÂŒ^ƒgƒ‹ƒ\[ƒtƒ@ƒ“ƒgƒ€,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol.111, no.205, EMCJ2011-76, pp.27-32, 2011”N9ŒŽ.

  14. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    –؉ş ^Ž÷, “úŒi —˛, –쓇 r—Y,
    FDTD‰đÍ‚đ—p‚˘‚˝–łü‹‹“dƒRƒCƒ‹‹ß–T‚É‚¨‚Ż‚éƒy[ƒXƒ[ƒJ[EMI‚Ě•]‰ż,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol.111, no.205, EMCJ2011-77, pp.33-36, 2011”N9ŒŽ.

  15. ƒ˜_•ś:¸“Ç‚ ‚聄

    Norio Imai,Mayumi Kawabe, Takashi Hikage, Toshio Nojima, Satoru Takahashi and Tomoyuki Shirai:
    "Effects on rat testis of 1.95-GHz W-CDMA for IMT-2000 cellular phones,"
    Systems Biology in Reproductive Medicine,vol.57, no.4, pp204-209, Aug.2011.
    (http://informahealthcare.com/toc/aan/57/4)

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug.13-20„

    Takashi Hikage, Yoshifumi Kawamura, and Toshio Nojima:
    "Numerical Estimation Methodology for RFID/Active Implantable Medical Device-EMI based upon FDTD Analysis,"
    Proc. XXX General Assembly and Scientific Symposium of the International Union of Radio Science, K05.6, Istanbul, Turkey, Aug. 2011.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.3-8„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Ben Koike, Hiroshi Fujimoto, and Takeshi Toyoshima:
    "An Assessment Methodology of Active Implantable Medical Device EMI Based Upon Near Field Distribution Analysis,"
    Proc. 2011 IEEE International Symposium on AP-S and USNC/URSI National Radio Science Meeting, 131.5, Spokane, USA, July 2011.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jul.3-8„

    Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka, and Soichi Watanabe:
    "Experimental Estimation of Whole-Body Averaged SAR in Precise Human Models for 2 GHz Far-Field Exposure,"
    Proc. 2011 IEEE International Symposium on AP-S and USNC/URSI National Radio Science Meeting, 236.5, Spokane, USA, July 2011.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.12-17„

    Takashi Hikage, Yohei Irie, Toshio Nojima:
    "Numerical Estimation of EMI Impact by Cellular Radio on Implantable Cardiac Pacemakers in Elevator using Various Anatomical Whole-body Human Models,"
    Proc. 33rd Annual Meeting of The Bioelectromagnetics Society, PA-107, Halifax, Canada, Jun. 2011.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Jun.12-17„

    Junji Higashiyama, Yoshiaki Tarusawa, Takashi Hikage, Toshio Nojima:
    "Experimental Evaluation of Implantable Pacemaker EMI from Mobile Phone in Elevator Cabin,"
    Proc. 33rd Annual Meeting of The Bioelectromagnetics Society, PA-47, Halifax, Canada, Jun. 2011.

  21. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May.16-19„

    Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka, Soichi Watanabe:
    "Whole-Body Averaged SAR Estimation of Japanese Humans Exposed to 2 GHz H-Polarized Plane-Wave Using External Electric-Field Scanning,"
    Proc. 2011 Asia Pacific EMC Symposium, S-We4-5, Jeju, Korea, May. 2011.

  22. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, May.12-13„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Ben Koike, Hiroshi Fujimoto, and Takeshi Toyoshima:
    "Active Implantable Medical Device EMI Assessments for Electromagnetic Emitters Operating at various RF Bands,"
    Proc. 2011 IEEE MTT-S International Microwave Workshop Series on Innovative Wireless Power Transmission, pp.109-112, Kyoto, Japan, May. 2011.

  23. ƒu‰‰E¸“Ç‚Č‚ľCMar.14 2011„

    ‰Í‘ş—R•śE“úŒi@—˛E–쓇r—Yi–k‘ĺjE’ˇ‰Ş’q–žE“n•Ó‘ˆęiNICTjC
    h‘Sg•˝‹ĎSARŽŔŒą•]‰ż‚Ě‚˝‚ß‚ĚŠeŽíl‘Ěƒ‚ƒfƒ‹‚đ—p‚˘‚˝FDTD‰đÍhC
    2011”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď(’nk‚Ě‚˝‚ß”ńŠJĂ)CB-4-18,@p.331, Mar. 2011.

  24. ƒu‰‰E¸“Ç‚Č‚ľCMar.14 2011„

    “úŒi@—˛E‰Ş‘ş—Á•˝E–쓇r—Yi–k‘ĺjEŽR“c@ÂE™ŽR—˛—˜iNTTjC
    h—ńŽÔ“ŕ–łüƒT[ƒrƒX‚É‚¨‚Ż‚éć‹q‚đ—L‚ˇ‚éŽÔ—ź“ŕ“`”Ŕ“ÁŤhC
    2011”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď(’nk‚Ě‚˝‚ß”ńŠJĂ)CB-1-25, p.25, Mar. 2011.

  25. ƒu‰‰E¸“Ç‚Č‚ľCFeb. 2011„

    ‰Í‘ş —R•ś, “úŒi —˛, –쓇 r—Y,
    gEMIŠÉ˜a–@‚Ě’ńˆÄ,h
    ‘ć3‰ńAž‚݃fƒoƒCƒXŠÖ˜A“~‹G‘ĺ‰ď, p.53, “Œ‹ž, Feb. 2011.

2010(•˝Ź22”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov.23-26„

    S. Hiraiwa, T. Hikage, T. Nojima, S. Futatsumori, A. Kohmura, N. Yonemoto:
    "Estimation of the Electromagnetic Fields Distribution due to Mobile Radio in a Typical Aircraft Cabin Using Large Scale FDTD Analysis,"
    Proc. International Symposium on Antennas and Propagation in 2010, pp.547-550, Macao, China, Nov. 2010.

  2. ƒ˜_•ś:¸“Ç‚ ‚聄

    Yoshifumi KAWAMURA Takashi HIKAGE Toshio NOJIMA:
    "Basic Construction of Whole-Body Averaged SAR Estimation System Using Cylindrical-External Field Scanning for UHF Plane Wave Irradiation of Human Models,"
    IEICE TRANSACTIONS on Communications, Vol.E93-B, No.10, pp.2636-2643, Oct. 2010.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.10-14„

    TAKASHI HIKAGE, YOSHIFUMI KAWAMURA, TOSHIO NOJIMA, ALLY Y. SIMBA, TOMOAKI NAGAOKA, and SOICHI WATANABE:
    "WHOLE-BODY AVERAGED SAR MEASUREMENTS FOR POSTURED HUMAN USING EXTERNAL ELECTRIC-FIELD SCANNING,"
    Proc. 6th International Workshop on Biological Effects of Electromagnetic Fields, CD-ROM, Bodrum, Turkey, Oct. 2010.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Oct.10-14„

    YOSHIFUMI KAWAMURA, SHUNICHI FUTATSUMORI, TAKASHI HIKAGE, TOSHIO NOJIMA, BEN KOIKE, HIROSHI FUJIMOTO, TAKESHI TOYOSHIMA:
    "EXPERIMENTAL INVESTIGATION ON MITIGATION METHOD OF IMPLANTABLE CARDIAC PACEMAKER EMI DUE TO UHF RFID INTERROGATORS USING RADIO FILLER TECHNIQUE,"
    Proc. 6th International Workshop on Biological Effects of Electromagnetic Fields, CD-ROM, Bodrum, Turkey, Oct. 2010.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.22-26„

    T. Toyoshima, H. Fujimoto, T. Hikage and T. Nojima:
    "A New Electrode for Monitoring and Signal Applying for EMI Assessment of Active Implantable Medical Device Using Human Body Model,"
    Proc. 2010 Asia-Pacific Radio Science Conference, KE-6,CD-ROM, Toyama, Japan, Sep. 2010.

  6. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.22-26„

    Y. Kawamura, S. Futatsumori, T. Hikage, and T. Nojima:
    "Mitigating Implantable Cardiac-Pacemaker EMI by Using Radio Filler Signal against Actual UHF RFID Interrogators,"
    Proc. 2010 Asia-Pacific Radio Science Conference, KE-4,CD-ROM, Toyama, Japan, Sep. 2010.

  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.22-26„

    N. Kobayashi, Y. Kawamura, T. Hikage, T. Nojima:
    "Evaluation of Direction-of-Arrival Dependence of Whole-Body Averaged SAR of Human Models Exposed to UHF Plane-Wave,"
    Proc. 2010 Asia-Pacific Radio Science Conference, KBC-2,CD-ROM, Toyama, Japan, Sep. 2010.
  8. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.22-26„

    R. Okamura, T. Hikage, and T. Nojima:
    "Numerical Estimation of Pacemaker EMI from mobile radio used in Elevators using European Anatomical Whole-body Human Models,"
    Proc. 2010 Asia-Pacific Radio Science Conference, KB2-3,CD-ROM, Toyama, Japan, Sep. 2010.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.13-16„

    Takashi Hikage, Yoshifumi Kawamura, Toshio Nojima, Tomoaki Nagaoka, and Soichi Watanabe:
    "Whole-Body Averaged SAR Measurement for Postured Japanese Human Models using Cylindrical-External Field Scanning,"
    Proc. EMC EUROPE2010, pp.73-76, WrocLaw, Poland, Sep. 2010.

  10. ƒu‰‰E¸“Ç‚Č‚ľCSep.16 2010„

    •˝ŠâT–çE“úŒi@—˛E–쓇r—Yi–k‘ĺjE“ńƒbXrˆęE‰Í‘ş‹ĹŽqE•Ä–{Źli“dŽqq–@Œ¤jC
    hFDTD–@‚đ—p‚˘‚˝q‹ó‹@“ŕ‚É‚¨‚Ż‚é•Î”g“ÁŤ‚̉đÍhC
    2010”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCp. 23, Sep. 2010.

  11. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ‰Ş‘ş—Á•˝E“úŒi@—˛E–쓇r—Yi–k‘ĺjEƒAƒŠ ƒ„ƒnƒ„ ƒVƒ“ƒoE“n粑ˆęiNICTj,
    g“d‹C•Ç‹ŤŠEđŒ‚đ—p‚˘‚˝ƒGƒŒƒx[ƒ^“ŕŒg‘Ń“d˜b—˜—pŽž‚Ě“dŠE‹­“x•Ş•z•]‰żh,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 110, no. 194, EMCJ2010-41, pp. 1-6, 2010”N9ŒŽ.

  12. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    •˝ŠâT–çE“úŒi@—˛E–쓇r—Yi–k‘ĺjE“ńƒbXrˆęE‰Í‘ş‹ĹŽqE•Ä–{Źli“dŽqq–@Œ¤),
    g‘ĺ‹K–ÍFDTD‰đÍ‚đ—p‚˘‚˝q‹ó‹@“ŕ‚É‚¨‚Ż‚éŒg‘Ń“d˜bŽü”g”‘Ń“d”g‚Ě“`”Ŕ“ÁŤ•]‰ż,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 110, no. 194, EMCJ2010-42, pp. 7-10, 2010”N9ŒŽ.

  13. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    Ź—Ń”ÍsE‰Í‘ş—R•śE“úŒi@—˛E–쓇r—Yi–k‘ĺjE’ˇ‰Ş’q–žE“n粑ˆęiNICTj,
    g“ú–{lƒ‚ƒfƒ‹‚đ—p‚˘‚˝‘Sg•˝‹ĎSAR‚Ě•˝–Ę”g“ž—ˆ•űŒüˆË‘śŤ•]‰ż,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 110, no. 194, EMCJ2010-43, pp. 11-16, 2010”N9ŒŽ.

  14. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ‹e’J@“āE“úŒi@—˛E–쓇r—Yi–k‘ĺjEŹ’r@•×i“ú–{ŽŠ“Ž”FŽŻƒVƒXƒeƒ€‹Ś‰ďjE“Ą–{@—TE–L“‡@Œ’i“ú–{ƒƒhƒgƒƒjƒbƒNj,
    gHF‘ŃRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‹ß–TŠE‚É‚ć‚éAž‚ÝŒ^ˆă—p‹@ŠíŠąÂ‚ĚFDTD‰đÍ@` ‹ß–TŽĽŠE•Ş•zˆË‘śŤ‚ĚŒŸ“˘ `,h
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, vol. 110, no. 194, EMCJ2010-43, pp. 17-21, 2010”N9ŒŽ.

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Takashi Hikager, Toshio Nojima, Ally Y. Simba, and Soichi Watanabe:
    "Numerical Estimation of EMI Impact on Implantable Cardiac Pacemakers in Elevator Using EMF Distributions Inside Human Body,"
    Proc. 2010 IEEE International Symposium on Antenna and Propagation, 405.3, Canada, Jul. 2010.

  16. ƒ˜_•ś:¸“Ç‚ ‚聄

    Yoshifumi KAWAMURA Takashi HIKAGE Toshio NOJIMA:
    "Experimental Quasi-Microwave Whole-Body Averaged SAR Estimation Method Using Cylindrical-External Field Scanning,"
    IEICE TRANSACTIONS on Communications Vol.E93-B No.7 pp.1826-1833, Jul. 2010.

  17. ƒ˜_•ś:¸“Ç‚ ‚聄

    Atsushi KITAGAWA Takashi HIKAGE Toshio NOJIMA Ally Y. SIMBA Soichi WATANABE:
    "Estimation of EMI Impact by Cellular Radio on Implantable Cardiac Pacemakers in Elevator Using EMF Distributions Inside Human Body,"
    IEICE TRANSACTIONS on Communications Vol.E93-B No.7 pp.1839-1846, Jul. 2010.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima, Tomoaki Nagaoka, Soichi Watanabe:
    "WHOLE-BODY AVERAGED SAR ESTIMATION FOR POSTURED JAPANESE HUMAN MODELS USING CYLINDRICAL-EXTERNAL FIELD SCANNING MEASUREMENT FOR UHF PLANE-WAVE EXPOSURE -NUMERICAL ANALYSES FOR MEASUREMENT VALIDATION-,"
    Proc. BEMS 2010:, 1-5, Seoul, June. 2010.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    T. Hikage, Y. Kawamura, T. Nojima:
    "Whole-Body Averaged SAR Measurement Based on Electric Field Distributions on External Cylindrical Boundary,"
    Proc. EuCAP'2010 The 4th European Conference on Antennas and Propagation:, Mo-72, Spain, April. 2010.

  20. ƒu‰‰E¸“Ç‚Č‚ľCMar.16-19 2010„

    “úŒi@—˛E–kě~ŽuE–쓇r—Yi–k‘ĺjEŽR“c@ÂE™ŽR—˛—˜iNTTjC
    h—ńŽÔ“ŕ–łüƒT[ƒrƒX‚É‚¨‚Ż‚é—אڎԗź‚Ö‚ĚŠąÂ“ÁŤhC
    2010”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCp. 5, Mar. 2010.

  21. ƒu‰‰E¸“Ç‚Č‚ľCMar.16-19 2010„

    ‰Í‘ş—R•śE“úŒi@—˛E–쓇r—Yi–k‘ĺjE’ˇ‰Ş’q–žE“n•Ó‘ˆę(NICT)C
    hŽp¨•ĎX‚ľ‚˝“ú–{l”’ll‘Ěƒ‚ƒfƒ‹‚ɑ΂ˇ‚é‘Sg•˝‹ĎSAR•]‰żhC
    2010”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCp. 398, Mar. 2010.

  22. ƒ˜_•ś:¸“Ç‚ ‚聄

    Shunichi Futatsumori, Yoshifumi Kawamura, Takashi Hikage, Toshio Nojima, Ben Koike, Hiroshi Fujimoto, Takeshi Toyoshima:
    "In vitro Assessment of Electromagnetic Interference Due to Low-Band RFID reader/writers on Active Implantable Medical Devices,"
    Journal of Arrhythmia, Vol.25, No. 3, pp. 142-152, Jan. 2010.

2009(•˝Ź21”N)

  1. ƒ˜_•śF¸“Ç‚ ‚聄

    Yoko Mizuno, Yoshiya Moriguchi, Takashi Hikage, Yasuo Terao, Takashi Ohnishi, Toshio Nojima, Yoshikazu Ugawa:
    "Effects of W-CDMA 1950 MHz EMF emitted by mobile phones on regional cerebral blood flow in humans,"
    Bioelectromagnetics, Volume 30, Issue 7, pp.536-544, Oct. 2009.

  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Y. Kawamura, T. Hikage, T. Nojima:
    "Experimental Set-up for Whole-Body SAR Estimation Based on Cylindrical Scanning of External Electric Field Distribution,"
    Proc. the 2009 International Symposium on Antennas and Propagation, pp.592-595, THAILAND, Oct. 2009.

  3. ƒu‰‰E¸“Ç‚Č‚ľCOct. 17, 2009„

    Ź—Ń”Ís, “úŒi—˛, –쓇r—Y(–k‘ĺ)C
    h‰˘B’jŤƒ‚ƒfƒ‹‚đ—p‚˘‚˝‘Sg•˝‹Ď SAR‚Ě•˝–Ę”g“ž—ˆ•űŒüˆË‘śŤ•]‰żhC
    •˝Ź21”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďCp. 83, Oct. 17, 2009.

  4. ƒu‰‰E¸“Ç‚Č‚ľCOct. 17, 2009„

    ‰Ş‘ş—Á•˝, “úŒi—˛, –쓇r—Y(–k‘ĺ), ƒAƒŠƒ„ƒnƒ„ƒVƒ“ƒo, ’ˇ‰Ş’q–ž, “n•Ó‘ˆę(î•ń’ʐMŒ¤‹†‹@\)C
    h‘ĺ‹K–͐”’l‰đÍ‚đ—p‚˘‚˝ƒGƒŒƒx[ƒ^“ŕ‚É‚¨‚Ż‚é”N—îEŤ•Ę‚ĚˆŮ‚Č‚é”’ll‘Ěƒ‚ƒfƒ‹‚ĚSAR•]‰żhC
    •˝Ź21”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďCp. 84, Oct. 17, 2009.

  5. ƒu‰‰E¸“Ç‚Č‚ľCOct. 17, 2009„

    •˝ŠâT–ç, –kě~Žu, “úŒi—˛, –쓇r—Y(–k‘ĺ)C
    h‰đ–UŠw“I”’ll‘Ěƒ‚ƒfƒ‹‚đ—p‚˘‚˝ƒGƒŒƒx[ƒ^“ŕ•”‚É‚¨‚Ż‚éƒy[ƒXƒ[ƒJ EMI•]‰ż‚Ě‚˝‚ß‚ĚFDTD‰đÍhC
    •˝Ź21”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďCp. 85, Oct. 17, 2009.

  6. ƒ˜_•śF¸“Ç‚ ‚聄

    L. Harris, Takashi Hikage, and Toshio Nojima:
    "Precise Estimation of Cellular Radio Electromagnetic Field in Elevators and EMI Impact on Implantable Cardiac Pacemakers,"
    IEICE Trans. on Communications, Vol.E92-C,No.9,pp.1182-1187,Sep. 2009.

  7. ƒ˜_•ś:¸“Ç‚ ‚聄

    L. Harris, Takashi Hikage, and Toshio Nojima:
    "USING LARGE-SCALE FDTD METHOD TO OBTAIN PRECISE NUMERICAL ESTIMATION OF INDOOR WIRELESS LOCAL AREA NETWORK OFFICE ENVIRONMENT,"
    IEICE Trans. on Fundamentals, Vol.E92-A,No.9,pp.2177-2183,Sep. 2009.

  8. ƒu‰‰E¸“Ç‚Č‚ľCSep.15-18 2009„

    ‰Í‘ş—R•śE“úŒi@—˛E–쓇r—Y (–k‘ĺ)C
    hŠO•”“dŠE‰~“›‘–¸–@‚đ—p‚˘‚˝€ƒ}ƒCƒNƒ”g‘Ń‘Sg•˝‹ĎSAR•]‰żŒn‚̍\ŹhC
    2009”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCp. 286, Sep. 2009.

  9. ƒu‰‰E¸“Ç‚Č‚ľCSep.15-18 2009„

    “úŒi@—˛E–kě~ŽuE–쓇r—Y (–k‘ĺ)C
    h‰˘B”’ll‘Ěƒ‚ƒfƒ‹‚đ—p‚˘‚˝SAR„’č‚ĚInter-Laboratory ComparisonhC
    2009”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCp. 18, Sep. 2009.

  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Y. Kawamura, S. Futatsumori, T. Hikage, T. Nojima, B. Koike, H. Fujimoto, and T. Toyoshima:
    "A Novel Method of Mitigating EMI on Implantable Medical Devices: Experimental Validation for UHF RFID Reader/Writers,"
    Proc. IEEE EMC 2009 Symposium, pp.197-202, USA, Aug. 2009.

  11. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    A. Kitagawa, T. Hikage, T. Nojima, S. Ally and S. Watanabe,:
    "Large Scale FDTD Analysis for the Electromagnetic Field Distribution Estimations in Elevator Using Precise Numerical Phantom Model,"
    Proc. 2009 International Symposium on Electromagnetic Compatibility, pp. 517-520, Kyoto, July 2009.

  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Y. Kawamura, T. Hikage and T. Nojima,:
    "Experimental Whole-Body Average SAR Estimation System Using Cylindrical Field Scanning Method ,"
    Proc. 2009 International Symposium on Electromagnetic Compatibility, pp.257-260, Kyoto, July 2009.

  13. ƒ˜_•śF¸“Ç‚ ‚聄

    Hiroshi Masuda, Akira Ushiyama, Miyuki Takahashi, Jianqing Wang, Osamu Fujiwara, Takashi Hikage, Toshio Nojima, Koji Fujita, Motoshige Kudo, Chiyoji Ohkubo:
    "Effects of 915 MHz Electromagnetic-Field Radiation in TEM Cell on the Blood-Brain Barrier and Neurons in the Rat Brain,"
    Radiation Research,172(1), pp. 66-73, June 2009.

  14. ƒ˜_•śF¸“Ç‚ ‚聄

    Futatsumori, S.; Furuno, M.; Hikage, T.; Nojima, T.; Akasegawa, A.; Nakanishi, T.; Yamanaka, K.:
    "Precise Measurement of IMD Behavior in 5-GHz HTS Resonators and Evaluation of Nonlinear Microwave Characteristics,"
    IEEE Transactions on Applied Superconductivity, Vol.19, Iss.3, par.3, pp.3595-3599, June 2009.

  15. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Atsushi Kitagawa, Takashi Hikage, Toshio Nojima, Simba Ally, Soichi Watanabe,:
    "Numerical Estimations on Implantable Cardiac Pacemaker EMI due to mobile-radio in Elevator using Inhomogeneous Human Phantom Models,"
    Proc. BioEM2009, Switzerland, pp. 616-617, June 2009.

  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Yoshifumi Kawamura, Takashi Hikage, and Toshio Nojima,:
    "Design and Analysis of Experimental Whole-Body Averaged SAR Estimation system using Cylindrical Scanning of External Fields,"
    Proc. BioEM2009, Switzerland, pp. 286-287, June 2009.

  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Ally Y Simba, Soichi Watanabe, Takashi Hikage, and Toshio Nojima,:
    "Measurement of Maximum SAR in a Spherical Phantom When Using an Actual Mobile Phone in Close Proximity to a Metallic Wall,"
    Proc. BioEM2009, Switzerland, pp. 137-138, June 2009.

  18. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    T. Hikage, Y. Kawamura, T. Nojima,:
    "Whole-Body Averaged SAR Measurement Method Using Cylindrical Scanning of External Electromagnetic Fields,"
    Proc. EMC Europe Workshop 2009, Greece, pp. 163-166, June 2009.

  19. ƒ˜_•śF¸“Ç‚ ‚聄

    Ally Y. Simba, Takashi Hikage, Soichi Watanabe, and Toshio Nojima,:
    "Specific Absorption Rates of Anatomically Realistic Human Models Exposed to RF Electromagnetic Fields From Mobile Phones Used in ElevatorsC"
    IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES, vol. 57, no. 5, pp. 1250-1259, May 2009.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Y. Kawamaura, Takashi Hikage, Toshio Nojima,Ally Y. Simba, Soichi Watanabe:
    "Effects of Losses Due to Human Phantoms on 3-dimensional Electromagnetic Field Distribution in ElevatorsC"
    Proceeding of Progress In Electromagnetics Research Symposium(PIERS) 2009, pp.446-449, Beijing, China, March 23-27,2009.

  21. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Ally Y. Simba, Takashi Hikage, Soichi Watanabe,Toshio Nojima,
    "Effect of Passive RF-exposure from Mobile Phones on the SAR and Absorbed Power of Passengers in an Elevator at 900MHz",
    Abs. of Progress In Electromagnetics Research Symposium(PIERS) 2009, p.193, Beijing, China, March 23-27, 2009.

  22. ƒu‰‰E¸“Ç‚Č‚ľCMar. 2009„

    “ńƒbX rˆęC“úŒi —˛C–쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“TC
    h5 GHz‘э‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^‚É‚ć‚éGaN HEMT“d—Í‘•Ší‚Ě—×Ú‘Ńˆć˜R‰k“d—Í‚¨‚ć‚Ń“d—ÍŒř—Ś‰ü‘PhC
    2009”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďC, CS-3-6, p. S37-38, Mar.19 2009..

  23. ƒu‰‰E¸“Ç‚Č‚ľCMar. 2009„

    ’ˇ’JěŒöŽk, ŻŽi’mŽj, ‘ĺ‹{@Šw, “úŒi@—˛C
    hŒš•¨‘¤–ʐN“ü”g‚̉Ž“ŕ“`”Ŕ”’l‰đÍhC
    2009”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďC, B-1-16, p. 16, Mar.18 2008..

  24. ƒu‰‰E¸“Ç‚Č‚ľCMar. 2009„

    ‰Í‘ş—R•ś, “úŒi@—˛, –쓇r—Y,
    hŠO•”“dŽĽŠE‰~“›‘–¸–@‚đ—p‚˘‚˝‘Sg•˝‹ĎSAR„’čŽč–@hC
    2009”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďC, B-4-15, p. 358, Mar.18 2009..

  25. ƒu‰‰E¸“Ç‚Č‚ľCMar. 2009„

    Ally. Yahaya SimbaiNICTjETakashi HikageiHokkaido Univ.jESoichi WatanabeiNICTjEToshio NojimaiHokkaido Univ.j,
    hNumerical Investigation of Passive RF-Exposure Due to Mobile Phone Usage in an ElevatorhC
    2009”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďC, B-4-3, p. 346, Mar.17 2009..

  26. ƒ˜_•śF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, T. Nojima, A. Akasegawa, T. Nakanishi, and K. Yamanaka,
    gA novel filter construction utilizing HTS reaction-type filter to improve adjacent channel leakage power ratio of mobile communication systems,h
    IEICE Trans. Electronics, vol. E92-C, no. 3, pp.307-314,Mar.2009

2008(•˝Ź20”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, N. Toyama, T. Hikage, T. Nojima, B. Koike, H. Fujimoto and T. Toyoshima,
    "An experimental validation of a detailed numerical model for predicting implantable medical devices EMI due to low-band RFID reader/writers",
    Proceedings of the 2008 Asia-Pacific Microwave Conference, pp. 00-00, Oct. 2008.

  2. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“T,
    g5 GHz‘э‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^‚đ—p‚˘‚˝GaN HEMT“d—Í‘•Ší‚Ě—×Ú‘Ńˆć‚Đ‚¸‚Ý—}ˆł‚¨‚ć‚Ń“d—ÍŒř—Ś‰ü‘Ph,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, MW2008- , pp. - , Dec. 2008.

  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Simba, A.Y. Watanabe, S. Hikage, T. Nojima, T.,
    "Measurement of the maximum SAR in a spherical phantom when operating a mobile phone near a metallic wall",
    Proceedings of Applied Sciences on Biomedical and Communication Technologies, 2008. ISABEL '08. First International Symposium, pp. 1-4, Oct.25-28, 2008.

  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, T. Nojima, A. Akasegawa, T. Nakanishi and K. Yamanaka,
    "ACLR Improvement of a 5-GHz Power Amplifier Using High-Temperature Superconducting Reaction-Type Transmitting Filters",
    Proceedings of the 38th European Microwave Conference 2008 (EuMC2008), pp. 1145-1148, Oct. 2008.

  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Norihiro Toyama, Shunichi Futatsumori, Hiroki Seo Takashi Hikage, Toshio Nojima, Ben Koike, Hiroshi Fujimoto, Takeshi Toyoshima,
    "FDTD Analysis of Implantable MedicalDevice EMI Due to Near Field Generated Around HF RFID reader/writers",
    Proceedings of International Symposium on Antennas and Propagation 2008 (ISAP2008), pp. 00-00, Oct. 2008.

  6. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Tomotsugu Hasegawa, Yoshinori Iwamoto Manabu Omiya, Takashi Hikage,
    "A Numerical Analysis of Cumulative Probability of Incident Wave Indoor Propagation",
    Proceedings of International Symposium on Antennas and Propagation 2008 (ISAP2008), pp. 00-00, Oct. 2008.

  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Tomohito Shoji, Mitsuru Muramoto, Takashi Hikage, Manabu Omiya,
    "Radiation Patterns of On-Vehicle Antenna for Simplified Numerical Vehicle Models",
    Proceedings of International Symposium on Antennas and Propagation 2008 (ISAP2008), pp. 00-00, Oct. 2008.

  8. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Hiroki Seo, Shunichi Futatsumori, Takashi Hikage, Toshio Nojima,
    "An experimental investigation on typical low frequency amplifiers nonlinear response to microwave/quasi-millimeter wave interference",
    Proceedings of International Symposium on Antennas and Propagation 2008 (ISAP2008), pp. 00-00, Oct. 2008.

  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    M. Furuno, S. Futatsumori, T. Hikage, T. Nojima, A. Akasegawa, T. Nakanishi, K. Yamanaka,
    "A PRECISE MEASUREMENT AND ANALYSIS OF INTERMODULATION DISTORTION GENERATED IN HIGH-TEMPERATURE SUPERCONDUCTING MICROWAVE RESONATORS",
    Proceedings of The International Symposium on Superconductivity (ISS2008), pp. 151, Oct. 2008.

  10. ƒu‰‰E¸“Ç‚Č‚ľCOct. 25, 2008„

    ’ˇ’Jě ŒöŽk, ŻŽi ’mŽj, ‘ĺ‹{ Šw, “úŒi —˛ (–k‘ĺ)C
    hŒš•¨N“ü”g‚É‚ć‚éŒđˇ•Î”g‚̍\‘˘ˆË‘śŤhC
    •˝Ź20”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC185, Oct. 25, 2008.

  11. ƒu‰‰E¸“Ç‚Č‚ľCOct. 25, 2008„

    ‰Í‘ş —R•ś, “úŒi —˛, –쓇 r—Y (–k‘ĺ)C
    h“dŽĽŠE”’l‰đÍ‚É‚ć‚é—Yƒ‰ƒbƒgśB‘ŸŠíin vivo ‚΂­˜IŽŔŒą‚ĚƒhƒVƒƒgƒŠ•]‰żhC
    •˝Ź20”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC187, Oct. 25, 2008.

  12. ƒu‰‰E¸“Ç‚Č‚ľCOct. 25, 2008„

    –kě ~Žu, “úŒi —˛, –쓇 r—Y (–k‘ĺ)C
    h‘ĺŒ^ŒvŽZ‹@‚đ—p‚˘‚˝ŹŽ™l‘̐”’lƒ‚ƒfƒ‹‚É‚¨‚Ż‚é‘Sg•˝‹ĎSAR‚ĚFDTD‰đÍhC
    •˝Ź20”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC188, Oct. 25, 2008.

  13. ƒu‰‰E¸“Ç‚Č‚ľCOct. 25, 2008„

    ŒĂ–ě ‹§l, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y (–k‘ĺ)C
    hHTSƒ}ƒCƒNƒ”gƒfƒoƒCƒX‚Ě‘ć3ŽŸ‘ŠŒÝ•Ď’˛‚Đ‚¸‚ÝˆĘ‘Š•]‰żŽŔŒąhC
    •˝Ź20”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC190, Oct. 25, 2008.

  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep. 30 2008„

    T. HIKAGE, Y. KAWAMURA, T. NOJIMA:
    "SAR EVALUATION OF THE REPRODUCTIVE ORGAN OF MALE RATS FOR 2 GHz IN VIVO EXPERIMENT",
    Proceedings of 5th International Workshop on Biological Effects of Electromagnetic Fields, pp. 00-00(CDROM), Sep. 2008.

  15. @@
  16. ƒu‰‰E¸“Ç‚Č‚ľCSep.19 2008„

    “ńƒbX rˆęC“úŒi —˛C–쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“TC
    h5 GHz‘э‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^‚đ—p‚˘‚˝“d—Í‘•Ší‚Ě—ź‘¤—×Ú‘Ńˆć‚Đ‚¸‚݉ü‘PhC
    2008”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďC, C-2-84, p. 109, Sep. 2008..

  17. @@
  18. ƒu‰‰E¸“Ç‚Č‚ľCSep.16 2008„

    ’ˇ’JěŒöŽkEŻŽi’mŽjE‘ĺ‹{@ŠwE“úŒi@—˛C
    hŽÎ‚ß“üŽËŒš•¨N“ü”g‚̉Ž“ŕ“`”Ŕ”’l‰đÍhC
    2008”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďC, B-1-5, p. 5, Sep. 2008..

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Sep.10 2008„

    Takashi Hikage, Toshio Nojima, Manabu Omiya and Kazuo Yamamoto:
    "Numerical Analysis of Electromagnetic Field Distributions in a Typical Aircraft",
    Proceedings of the 8th Int. Symposium on Electromagnetic Compatibility (EMC Europe 2008), pp. 303-306, Sep. 2008.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, M. Furuno, T. Hikage, and T. Nojima,
    "Precise measurement of IMD behavior in 5-GHz HTS resonators and evaluation of nonlinear microwave properties",
    Proceedings of the 2008 Applied Superconductivity Conference (ASC2008), 2MPH08, pp. 00-00, Aug. 2008.

  21. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 7-16„

    Masahiko Hirono, Louis-Ray Harris, Takashi Hikage, Toshio Nojima,
    "Numerical Estimation of Electric Field Distribution in Wireless Office LANs Using the FDTD Method",
    Proceedings of the the XXIX URSI General Assembly, pp. 126-129, Aug. 2008.

  22. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 7-16„

    Takashi Hikage, Yoshihumi Kawamura, Toshio Nojima,
    "Experimental Assessment of Mobile Radio Modulated Microwaves Exposure Effects on Hydroxyl Radical Production within Human Leukocyte Cells",
    Proceedings of the the XXIX URSI General Assembly, pp. 139-142, Aug. 2008.

  23. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug. 7-16„

    Shunichi Futatsumori, Takashi Hikage, Toshio Nojima, Ben Koike, Hiroshi Fujimoto, Takeshi Toyoshima,
    "An Assessment Methodology of Implantable Medical Device EMI due to RFID Reader/Writers Based Upon the Three-Dimensional EMF Distribution Measurement",
    Proceedings of the the XXIX URSI General Assembly, pp. 243-245, Aug. 2008.

  24. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ, Jun. 20„

    ‰Í‘ş—R•śE“úŒi@—˛E–쓇r—Y
    g2GHz‘Ńin vivo‚΂­˜IŽŔŒą‚É‚¨‚Ż‚é—Yƒ‰ƒbƒgśB‘ŸŠí‚ĚSAR•]‰ż@` FDTD–@‚đ—p‚˘‚˝ƒhƒVƒƒgƒŠ•]‰żŒŸ“˘ ` h,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, EMCJ2008-7, pp. 89-94, Jun. 2008.

  25. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ, Jun. 20„

    ‰“ŽR“żGE“ńƒbXrˆęE“úŒi@—˛E–쓇r—Yi–k‘ĺjEŹ’r@•×i“ú–{ŽŠ“Ž”FŽŻƒVƒXƒeƒ€‹Ś‰ďjE“Ą–{@—TE–L“‡@Œ’i“ú–{ƒƒhƒgƒƒjƒbƒNj
    gHF‘ŃRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‹ß–TŠE‚É‚¨‚Ż‚éAž‚ÝŒ^ˆă—p‹@ŠíŠąÂ‚ĚFDTD‰đÍ@` ŽŔ‹@“ÁŤ•]‰ż‚É‚ć‚é‘Ă“–ŤŠm”F ` h,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, EMCJ2008-7, pp. 1-6, Jun. 2008.

  26. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Takashi Hikage, Yoshihumi Kawamura, Toshio NojimaF
    "Statistical Assessment of Hydroxyl Radical Production Within Human Fibroblasts and Leukocyte Cells Due to 900 MHz and 2.45GHz Microwave Exposure,"
    Proceeding of the Bioelectromagnetics Society 30th Annual Meeting, pp. 389-391, Jun. 2008

  27. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Ally Y. Simba, Takashi Hikage, Soichi Watanabe, Toshio NojimaF
    "The Effect of Reflected Electromagnetic Field from Elevator Walls on the SAR of a Mobile-Phone User -Comparison between SAR in an Adult and Children-,"
    Proceeding of the Bioelectromagnetics Society 30th Annual Meeting, pp. 283-285, Jun. 2008

  28. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Hiroshi Masuda, Akira Ushiyama, Miyuki Takahashi, Jianqing Wang, Osamu Fujiwara, Takashi Hikage, Toshio Nojima, Kouji Fujita, Motoshige Kudo, Chiyoji Ohkubo
    "TEffects of 915 MHz Electromagnetic Field Irradiated in Tem-Cell on Blood-Brain Barrier and Neurons in the Rat Brain,"
    Proceeding of the Bioelectromagnetics Society 30th Annual Meeting, pp. 207-209, Jun. 2008

  29. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Takashi Hikage, Louis-Ray Harris, Toshio Nojima, Simba Ally and Soichi Watanabe:
    "Estimations for Implantable Cardiac Pacemakers EMI from Cellular Radios in Narrow Space Multi-Reflection EnvironmentsC"
    Proceeding of 2008 Asia-Pacific EMC Symposium, pp. 128-131, May 2008.

  30. ƒ˜_•śF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, T. Nojima, A. Akasegawa, T. Nakanishi, and K. Yamanaka,
    gA 5 GHz high-temperature superconducting reaction-type transmitting filter based upon split open-ring resonatorsh,
    Institute of physics Superconductor Science and Technology, vol. 21, no. 4, Apr. 2008.

  31. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŽR’† ˆę“T, ŒIŒ´ ˜a–ž, ÔŁě Í•F, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y,
    g5 GHz‘Ń’´“`“ą“d—̓oƒ“ƒhƒpƒXƒtƒBƒ‹ƒ^‚É‚ć‚éƒXƒvƒŠƒAƒX—}§Œř‰Ęh,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, SCE2008-13/MW2008-13, pp. 69-74, Apr. 2008.

  32. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Louis-Ray Harris, Takashi Hikage, Toshio Nojima,Masahiko Hirono,
    "A Numerical Estimation of Human Effects on Electric Field Distribution in Wireless Office LANS Using the FDTD Method",
    Proceedings of Progress In Electromagnetics Research Symposium(PIERS) 2008, p.635, Hangzhou, China, March 24-28

  33. ƒu‰‰E¸“Ç‚Č‚ľCMar. 2008„

    “ńƒbX rˆęC“úŒi —˛C–쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“TC
    h‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^‚đ—p‚˘‚˝5 GHz‘Ń“d—Í‘•Ší‚Ě—×Ú‘Ńˆć‚Đ‚¸‚݉ü‘P—Ę•]‰żŽŔŒąhC
    2008”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďC, C-2-94, p. 127, Mar.20 2008..

  34. ƒu‰‰E¸“Ç‚Č‚ľCMar. 19, 2008„

    ‘ĺ‹{@ŠwC’ˇ’JěŒöŽkCŠâ–{‹ÓmC“úŒi@—˛
    hŒš•¨N“ü”g‚̉Ž“ŕ“dŽĽŠE•Ş•z‚ÉŠÖ‚ˇ‚éŒvŽZ‹@ƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“hC
    A Computer Simulation on Indoor Electromagnetic Field Distribution of Incident Waves,
    ‘ć6‰ń–k‘ĺƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“ƒTƒƒ“(HSS)ƒ[ƒNƒVƒ‡ƒbƒvu‰‰˜_•śWCWS6-13, pp. 25-26C–k‘ĺCMar. 19, 2008D

  35. ƒ‘ŕE‰đŕCFeb. 2008„

    “úŒi —˛, “ńƒbX rˆę, –쓇 r—Y,F
    hRFID‹@Ší‚Ěˆă—Ă‹@Ší‚ɑ΂ˇ‚é‰e‹ż‚ɂ‚˘‚Ä‚ĚŽŔŒą•]‰żCh
    ŒŽŠ§ŽŠ“Ž”FŽŻ, “ú–{H‹Ćo”Ĺ(“Œ‹ž), 2008”N2ŒŽ.(http://www.nikko-pb.co.jp/mz03.shtml)

  36. ƒ“Á‹–oŠč„

    –쓇 r—Y, “úŒi —˛, “ńƒbX rˆę, gŒŸ’m‘•’u‚ɑ΂ˇ‚é•âŠŽM†”­ŽË‘•’u‹y‚ŃŒŸ’m‘•’u‚ɑ΂ˇ‚éˆŔ‘SƒVƒXƒeƒ€h, “ÁŠč2008-016464, 2008”N1ŒŽ28“úoŠč.

    @
  37. ƒu‰‰E¸“Ç‚Č‚ľCJan, 2008„

    S. Futatsumori, T. Hikage, and T. Nojima,
    "Novel 5-GHz High-Temperature Superconducting Reaction-Type Transmitting Filter to Improve Adjacent Channel Leakage Power Ratioh,
    Proceedings of the 2008 International Symposium on Global COE Program of Center for Next-Generation Information Technology based on Knowledge Discovery and Knowledge Federation (GCOE-NGIT2008), 42, pp. 122-123, Jan. 2008..

2007(•˝Ź19”N)

  1. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Dec. 2007„

    S. Futatsumori, T. Hikage, and T. Nojima, A. Akasegawa, T. Nakanishi, K. Yamanaka,
    "HTS Reaction-Type Transmitting Filter Based Upon Split Open-Ring Resonators with Surface Current Density Reduction Technique",
    Proceedings of the 2007 Asia-Pacific Microwave Conference (APMC 2007), Dec. 2007. (paper submitted)

  2. ƒ˜_•ś„

    ˆŔ‘ˇŽq—F—SAƒ‹ƒCƒŒƒCƒnƒŠƒXA“úŒi—˛A–쓇r—YA“n•Ó‘ˆęAŽÂ’Ë—˛,
    "‘ĺ‹K–ÍFDTD‰đÍ‚ĆŠE‹­“xƒqƒXƒgƒOƒ‰ƒ€‚đ—p‚˘‚˝•Â‹óŠÔ“ŕ“dŽĽŠE•]‰ż–@,",
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽB, Vol. J90-B, No.11, pp.1097-1105, Nov. 2007

  3. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ, Nov. 15-16, 2007„

    ˆŔ‘ˇŽq—F—S, œA–쐳•F, “úŒi@—˛, –쓇r—Y,
    gl‘Ě‚Ě‹zŽű‰e‹ż‚đl—ś‚ľ‚˝Œg‘Ń“d˜b—˜—pŽž‚ĚƒGƒŒƒx[ƒ^“ŕ“dŽĽŠE•]‰żh,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, EMCJ2007-83, pp. 17-21, Nov. 2007.

  4. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ, Nov. 15-16, 2007„

    ‰“ŽR“żG, “ńƒbXrˆę, “úŒi@—˛, –쓇r—Yi–k‘ĺj, Ź’r@•×i“ú–{ŽŠ“Ž”FŽŻƒVƒXƒeƒ€‹Ś‰ďj,“Ą–{@—TE–L“‡@Œ’i“ú–{ƒƒhƒgƒƒjƒbƒNj,
    gHF‘ŃRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‹ß–TŠE‚É‚ć‚éAž‚ÝŒ^ˆă—p‹@ŠíŠąÂ‚ĚFDTD‰đÍ@` ”’lƒ‚ƒfƒ‹‰ť‚Ć—U‹N“dˆł„’č ` h,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, EMCJ2007-84, pp. 23-28, Nov. 2007.

  5. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ, Nov. 15-16, 2007„

    –…”öGŽ÷, “ńƒbXrˆę, “úŒi@—˛, –쓇r—Y,
    gƒ}ƒCƒNƒ”g‘Ń/€ƒ~ƒŠ”g‘Ń‚É‚¨‚Ż‚é’áŽü”g‘•Ší‚Ě”ńüŒ`‰ž“š‚ĚŽŔŒą“I•]‰żh,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, EMCJ2007-86, pp. 33-36, Nov. 2007.

  6. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Nov. 11-16, 2007„

    L. Harris, T. Hikage, T. Nojima,
    "ESTIMATION OF ELECTRIC FIELD DISTRIBUTION IN WIRELESS OFFICE LANS USING THE FDTD METHOD",
    Proceedings of The Second European Conference on Antennas and Propagation (EuCAP 2007) , pp.xxx-xxx, Nov. 11-16, 2007.(to be presented) (http://www.eucap2007.org/).

  7. ƒu‰‰E¸“Ç‚Č‚ľCOct. 28, 2007„

    “cŒű r—S, “ńƒbX rˆę, “úŒi —˛, –쓇 r—YC
    hŽOŽŸŒł“dŽĽŠEŽŠ“Ž‘Ş’čŒn‚đ—p‚˘‚˝“dŽĽ—U“ą•űŽŽRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‚É‚ć‚éAž‚ÝŒ^ˆă—p‹@Ší“dŽĽŠąÂ„’čhC
    •˝Ź19”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC30, Oct. 28, 2007.

  8. ƒu‰‰E¸“Ç‚Č‚ľCOct. 28, 2007„

    ‰“ŽR “żG, “ńƒbX rˆę, “úŒi —˛, –쓇 r—YC
    hHF‘ŃRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‚É‚ć‚éAž‚ÝŒ^ˆă—p‹@ŠíEMI‚ĚFDTD‰đÍ•]‰ż–@‚ÉŠÖ‚ˇ‚éŠî‘bŒŸ“˘hC
    •˝Ź19”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC31, Oct. 28, 2007.

  9. ƒu‰‰E¸“Ç‚Č‚ľCOct. 28, 2007„

    “ńƒbX rˆę, “úŒi —˛, –쓇 r—YC
    h“dŽĽ—U“ą•űŽŽRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‚ĚŽĽŠE•Ş•z‚đ—p‚˘‚˝Až‚ÝŒ^ˆă—p‹@Ší“dŽĽŠąÂ„’č–@hC
    •˝Ź19”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC32, Oct. 28, 2007.

  10. ƒu‰‰E¸“Ç‚Č‚ľCOct. 28, 2007„

    –…”ö GŽ÷, “ńƒbX rˆę, “úŒi —˛, –쓇 r—YC
    hƒ}ƒCƒNƒ”g‘Ń‚¨‚ć‚я€ƒ~ƒŠ”g‘Ń‚É‚¨‚Ż‚é’áŽü”g‘•—pŠî–{“dŽq‰ń˜H‚ĚEMI“ÁŤ•]‰żŽŔŒąhC
    •˝Ź19”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC33, Oct. 28, 2007.

  11. ƒu‰‰E¸“Ç‚Č‚ľCOct. 28, 2007„

    ’ˇ’JěŒöŽkCŠâ–{‹ÓmC‘ĺ‹{@ŠwC“úŒi@—˛C
    hŒš•¨N“ü”g‚É‚ć‚éŒđˇ•Î”g“ÁŤ‚ĚŒvŽZ‹@ƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“hC
    A Computer Simulation on Cross Polarization Charactereistics of Incident Waves,
    •˝Ź19”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC34, Oct. 28, 2007.

  12. ƒu‰‰E¸“Ç‚Č‚ľCOct. 28, 2007„

    ŒĂ–ě ‹§l, “ńƒbX rˆę, “úŒi —˛, –쓇 r—YC
    hHTSƒ}ƒCƒNƒ”gƒfƒoƒCƒX‚̍‚ƒ_ƒCƒiƒ~ƒbƒNƒŒƒ“ƒW”ńüŒ`‚Đ‚¸‚ݐU••]‰żŽŔŒąhC
    •˝Ź19”N“x“d‹CEî•ńŠÖŒW–kŠC“šŽx•”˜A‡‘ĺ‰ďC110, Oct. 28, 2007.

  13. ƒu‰‰E¸“Ç‚Č‚ľCSep. 2007„

    “ńƒbX rˆęC“úŒi —˛C–쓇 r—Y, ÔŁě Í•F, ’†ź ‹PCŽR’† ˆę“TC
    g5 GHz‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^‚ĚŽŔŒą•]‰żhC
    2007”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCC-2-69, p. 91, Sept. 2007.

  14. ƒu‰‰E¸“Ç‚Č‚ľCSep. 2007„

    ’ˇ’JěŒöŽkCŠâ–{‹ÓmC‘ĺ‹{@ŠwC“úŒi@—˛C
    hŒš•¨N“ü”g‚É‚ć‚éŒđˇ•Î”g“ÁŤ‚ÉŠÖ‚ˇ‚錟“˘hC
    2007”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-1, p. , Sept. 10, 2007.

  15. ƒ˜_•ś, Aug. 2007„

    S. Futatsumori, T. Hikage, T. Nojima, A. Akasegawa, T. Nakanishi, and K. Yamanaka,
    "Novel HTS split open-ring resonators with improved power-handling capability for reaction-type transmitting filters",
    IEE Electronics Letters, vol. 43, no. 17, pp. 956-957, Aug. 2007.
    ihttp://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=ELLEAK000043000017000956000001&idtype=cvips&gifs=Yesj

  16. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Aug. 23, 2007„

    Tomotsugu HASEGAWA, Yoshinori IWAMOTO, Manabu OMIYA and Takashi HIKAGE,
    FDTD Analysis of Incident Plane Wave Indoor Propagation,
    2007 International Symposium of Antennas and Propagation (ISAP 2007), 23 Aug., 2007 at Toki Messe, Niigata.

  17. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Aug. 23, 2007„

    S. Taguchi, S. Futatsumori, T. Hikage, T. Nojima, B. Koike, H. Fujimoto, and T. Toyoshima,
    "Three-Dimensional Automatic Measurement System for the Assessment Methodology of Implantable Medical Devices EMI due to RFID reader/writers",
    Proceedings of the 2007 International Symposium on Antennas and Propagation (ISAP 2007), Aug. 2007. (to be presented) 2007 International Symposium of Antennas and Propagation (ISAP 2007), 23 Aug., 2007 at Toki Messe, Niigata.

  18. ƒŒ¤‹†‰ďE¸“Ç‚Č‚ľCJuly 31, 2007„

    ’ˇ’JěŒöŽkCŠâ–{‹ÓmC‘ĺ‹{@ŠwC“úŒi@—˛C
    hYŠí‚đl—ś‚ľ‚˝“üŽË•˝–Ę”g‚̉Ž“ŕ“`”Ŕ“ÁŤ‚̐”’l‰đÍhC
    Numerical Analysis of Indoor Propagation Characteristics of Plane Waves Impinging upon the Room with a Set of Furniture,
    ‰f‘œî•ńƒƒfƒBƒAŠw‰ď•ú‘—‹ZpŒ¤‹†‰ďCvol. 31, no. 36, pp. 51-54, BCT2007-76, Jul. 31, 2007.

  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    T. Hikage, Y. Sakaguchi, T. Nojima, and Y. Koyamashita
    "Development of Lightweight Solid Phantom composed of Silicone Rubber and Carbon Nanotubes",
    Proceedings of the 2007 IEEE EMC Symposium (EMC 2007), TH-AM-3-4, Jul. 2007.

  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, T. Nojima, B. Koike, H. Fujimoto, and T. Toyoshima,
    "A Novel Assessment Methodology for the EMI Occurrence in Implantable Medical Devices Based Upon Magnetic Flux Distribution of RFID reader/writers",
    Proceedings of the 2007 IEEE EMC Symposium (EMC 2007), TU-PM-7-5, Jul. 2007.

  21. ƒŒ¤‹†‰ďE¸“Ç‚Č‚ľCJuly 19, 2007„

    ŻŽi’mŽjC‘ş–{@[C“úŒi@—˛C‘ĺ‹{@ŠwC
    hŽÔ‘Ěƒ‚ƒfƒ‹‚É‚ć‚éƒAƒ“ƒeƒi•úŽËƒpƒ^ƒ“‚ւ̉e‹ż‚ÉŠÖ‚ˇ‚éˆęŒŸ“˘hC
    A Study on Numerical Vehicle Models for Estimating Antenna Radiation Patters,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCAEP2007-57, Vol.107, No.144, pp. 89-93 Jul. 19, 2007.
    “dŽqî•ń’ʐMŠw‰ďƒAƒ“ƒeƒiE“`”dŒ¤‹†‰ď

  22. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    T.HIKAGE, Y. ABIKO, M. HIRONO, T. NOJIMA, S. WATANABE, T. SHINOZUKA,
    "Large scale FDTD analysis for implantable cardiac pacemaker EMI due to mobile radios in train carriage of complicated situation",
    Proceeding of EMC Europe Workshop 2007,ABS-71, Jun. 14-15 2007. (http://emcworkshop.univ-lille1.fr/).

  23. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, and T. Nojima,
    "A Novel Microwave High-Temperature Superconducting Reaction-Type Transmitting Filter for Mobile Radio Base Stations",
    Proceedings of the Sixth International Kharkov Symposium on Physics and Engineering of Microwaves, Millimeter and Submillimeter Waves (MSMWf07), pp. 398-400, Jun. 2007.

  24. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, T. Nojima, Akihiko Akasegawa, Teru Nakanishi, and Kazunori Yamanaka,
    "A Novel 5 GHz High-Temperature Superconducting Reaction-Type Transmitting Filter to Suppress Adjacent Channel Noise",
    Proceedings of the 13th International Superconductive Electronics Conference (ISEC 2007), O-J03, Jun. 2007.

  25. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Jun. 10-15, 2007„

    Takashi Hikage, Harris Louis-Ray, Yusuke Abiko, Toshio Nojima, Ally Y. Simba, Soichi Watanabe, Takashi Shinozuka
    "A NUMERICAL ESTIMATION FOR HUMAN BODY MITIGATION EFFECTS ON IMPLANTABLE CARDIAC PACEMAKER EMI FROM CELLULAR RADIOS USED IN ELEVATORS",
    Proceedings of the Bioelectromagnetics Society the 29th Annual Meeting (BEMS2007), P-138, pp. 502-504, Jun. 2007.

  26. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Jun. 10-15, 2007„

    S. Futatsumori, S. Taguchi, T. Hikage, T. Nojima, B. Koike, H. Fujimoto, and T. Toyoshima,
    "An Assessment Methodology of Implantable Medical Device EMI Due to RFID reader/writers Based Upon the EMF Distribution Analysis",
    Proceedings of the Bioelectromagnetics Society the 29th Annual Meeting (BEMS2007), P-115, pp. 460-462, Jun. 2007.

  27. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Jun. 10-15, 2007„

    Takashi Hikage, Masataka Endo, Toshio Nojima,
    "IN-VITRO EXPERIMENTS ON FREE RADICAL PRODUCTION WITHIN HUMAN WHITE BLOOD CELLS DUE TO 900 MHZ MOBILE RADIO WAVES EXPOSURE",
    Proceedings of the Bioelectromagnetics Society the 29th Annual Meeting (BEMS2007), 14-5, pp. 233-235, Jun. 2007.

  28. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Jun. 10-15, 2007„

    Ally Y. Simba, Takashi Hikage, Soichi Watanabe, Toshio Nojima,
    "THE DEPENDENCE OF SAR UPON POSITION OF A MOBILE PHONE USER IN ENCLOSED ENVIROMENTS",
    Proceedings of the Bioelectromagnetics Society the 29th Annual Meeting (BEMS2007), P-9, pp. 256-258, Jun. 2007.

  29. ƒ‘Ű‰ď‹cE¸“Ç‚ ‚č, Jun. 10-15, 2007„

    Yoko Mizuno, Takashi Ohnishi, Yoshiya Moriguchi, Toshio Nojima, Takashi Hikage,Yoshikazu Ugawa
    "EFFECTS OF A W-CDMA 1950 MHZ SIGNALS ASSOCIATED WITH MOBILE PHONE ON THE REGIONAL CEREBRAL BLOOD FLOW (RCBF) IN HUMANS",
    Proceedings of the Bioelectromagnetics Society the 29th Annual Meeting (BEMS2007), P-58, pp. 354-355, Jun. 2007.

  30. ƒ‘ŕE‰đŕCJun. 2007„

    —§ÎrŽO, “úŒi —˛C
    hRFIDƒVƒXƒeƒ€‚Ěˆă—Ă‹@Ší‚Ö‚ĚŠąÂhC
    ƒ~ƒ}ƒcƒR[ƒ|ƒŒ[ƒVƒ‡ƒ“, “dŽĽŠÂ‹ŤHŠwî•ńEMC(ŒŽŠ§EMC)6ŒŽ†, EMC 2007.6.5, no. 230, pp. 63-71, Jun. 2007. (http://www.it-book.co.jp/EMC/).

  31. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“T,
    g—×Ú‘Ńˆć‚Đ‚¸‚Ý—}ˆł‚đ–Ú“I‚Ć‚ľ‚˝5GHz‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^h,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, SCE2007-10/MW2007-10, pp. 49-54, Apr. 2007.

  32. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ŒĂ–ě ‹§l, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“T,
    g‚‰ˇ’´“`“ąƒ}ƒCƒNƒ”gƒfƒoƒCƒX—p‚ƒ_ƒCƒiƒ~ƒbƒNƒŒƒ“ƒW”ńüŒ`‚Đ‚¸‚ݐU•EˆĘ‘Š‘Ş’čŒn‚̍\’zh,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ń, SCE2007-6/MW2007-6, pp. 27-30, Apr. 2007.

  33. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Ally Y. Simba, Takashi Hikage, Soichi Watanabe, and Toshio Nojima,
    "THE SAR OF A REALISTIC HUMAN MODEL DUE TO MOBILE-PHONE RF RADIATION IN ENCLOSED AREAS",
    Abstracts of EBEA 2007 8th International congress of the European BioElectromagnetics Association, p.133, Apr. 10-13 2007. (http://ebea.adera.fr/).

  34. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Takashi HIKAGE, Masataka ENDO, and Toshio NOJIMA,
    "A New 900 MHz Ridged-Waveguide Microwave Exposure Equipment to Achieve High Power Density Irradiation for In Vitro Experiments",
    Abstracts of EBEA 2007 8th International congress of the European BioElectromagnetics Association, p.28, Apr. 2007.

  35. ƒu‰‰E¸“Ç‚Č‚ľCApr. 4-5, 2007„

    “úŒi —˛, –쓇 r—Y,
    h–łü“dŽĽŠÂ‹Ť•]‰ż‹Zp‚ĚŒ¤‹†hC
    Assessment methodology of electromagnetic environment for wireless technology,
    ƒƒCƒ„ƒŒƒXEƒeƒNƒmƒƒW[Eƒp[ƒN 2007(WTP2007) ƒAƒJƒfƒ~ƒAƒZƒbƒVƒ‡ƒ“, Apr.4-5, 2007. ƒƒCƒ„ƒŒƒXEƒeƒNƒmƒƒW[Eƒp[ƒN,

  36. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Y. Abiko, L. Harris, T. Hikage, T. Nojima, A. Simba, S. Watanabe, and T. Shinozuka,
    "Electromagnetic Field Estimations Considering of Implantable Cardiac Pacemaker EMI from Cellular Radios in Elevators",
    Proceedings of Progress In Electromagnetics Research Symposium(PIERS) 2007, p.100, Beijing, China, March 26-30

  37. ƒu‰‰E¸“Ç‚Č‚ľCMar. 22, 2007„

    “úŒi —˛, ăŒű —FŠó, –쓇 r—Y, ŹŽR‰ş —YŽĄC
    hƒJ[ƒ{ƒ“ƒiƒmƒ`ƒ…[ƒu‚đ—p‚˘‚˝Œy—ĘŒĹ‘Ěƒtƒ@ƒ“ƒgƒ€‚Ě•Ą‘f—U“d—ŚhC
    Complex permittivity of lightweight solid phantom using carbon nanotube composite,
    “dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-4-13,p.337, Mar. 20, 2007, –źé‘ĺŠw(–źŒĂ‰ŽŽs).

  38. ƒu‰‰E¸“Ç‚Č‚ľCMar. 22, 2007„

    “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y, ÔŁě Í•F, ’†ź ‹P, ŽR’† ˆę“TC
    h‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“Œ^‹¤UŠí‚Ě”ńüŒ`‚Đ‚¸‚Ý•]‰żŽŔŒąhC
    Nonlinear distortion measurements of High-Temperature Superconducting reaction-type resonators for transmitting filters,
    “dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, C-2-44,p77, Mar. 2007, –źé‘ĺŠw(–źŒĂ‰ŽŽs).

  39. ƒu‰‰E¸“Ç‚Č‚ľCMar. 22, 2007„

    ’ˇ’JěŒöŽkCŠâ–{‹ÓmC‘ĺ‹{@ŠwC“úŒi@—˛C
    hYŠí“™‚đ”ő‚Ś‚˝Žş“ŕ‚Ĺ‚Ě“üŽË•˝–Ę”g‚Ě“`”Ŕ‚ÉŠÖ‚ˇ‚鐔’l‰đÍhC
    Numerical Analysis of Incident Plane Wave Propagation in a Room with a Set of Furniture,
    “dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ď, B-1-7,p.7, Mar. 20, 2007, –źé‘ĺŠw(–źŒĂ‰ŽŽs).

  40. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    “úŒi@—˛EăŒű—FŠóE–쓇r—Yi–k‘ĺjEŹŽR‰ş—YŽĄiƒtƒ@ƒCƒ“ƒ‰ƒo[Œ¤‹†Šj,
    "ƒVƒŠƒR[ƒ“ƒSƒ€Ţ—ż‚đ—p‚˘‚˝Œy—ĘŒĹ‘Ěl‘ĚŒ`óƒtƒ@ƒ“ƒgƒ€‚ĚŠJ”­Œ¤‹†",
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCEMCJ2006-100(2007-01),pp.17-20, Jan. 2007 (Ž­Ž™“‡Œ§Žs’Ź‘şŽŠŽĄ‰ďŠŮ)

  41. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    ‰Í–ě‘žˆęE“ńƒbXrˆęE“úŒi@—˛E–쓇r—Yi–k‘ĺjEŹ’r@•×iŽĐ’c–@l“ú–{ŽŠ“Ž”FŽŻƒVƒXƒeƒ€‹Ś‰ďjE“Ą–{@—TE–L“‡@Œ’i“ú–{ƒƒhƒgƒƒjƒbƒNŠ”ŽŽ‰ďŽĐj,
    "RFIDƒŠ[ƒ_ƒ‰ƒCƒ^‚É‚ć‚éAž‚ÝŒ^ˆă—p‹@Ší“dŽĽŠąÂ‚̐”’l‰đÍ•]‰ż–@‚ĚŒŸ“˘",
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCEMCJ2006-99(2007-01),pp.11-16, Jan. 2007 (Ž­Ž™“‡Œ§Žs’Ź‘şŽŠŽĄ‰ďŠŮ)

2006(•˝Ź18”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, and T. Nojima,
    "High-Temperature Superconducting Reaction-type Transmitting Filter Consisting of Novel split open-ring resonator",
    Proceedings of the 2006 Asia-Pacific Microwave Conference (APMC 2006), Dec. 2006. (http://www.apmc2006.org/).
  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Hikage, T. Nojima, B. Koike, H. Fujimoto, and T. Toyoshima,
    "An Experimental Assessment on Implantable Medical Devices EMI caused by Magnetic Flux Distributions of Low-band RFID reader/writers",
    Proceedings of the 2006 International Symposium on Antennas and Propagation (ISAP 2006), Nov. 2006. (http://www.isap06.org/).
  3. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľ„

    S. Futatsumori, T. Hikage, and T. Nojima,
    "Power-Handling Capability Improvement of the High-Temperature Superconducting Filters by Using Split Open-Ring Resonators and Reaction-type construction",
    Proceedings of the 2006 Hokkaido-section Joint Convention of Institutes of Electrical Engineering, Oct. 2006.
  4. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    ăŒű —FŠó, ‰““Ą ł—˛, “úŒi —˛, –쓇 r—Y:
    "Œy—ĘŒĹ‘Ěƒtƒ@ƒ“ƒgƒ€—p‘šŽ¸Ť—U“d‘ĚŢ—ż‚ĚŒ¤‹†ŠJ”­",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  5. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    ’ˇ’Jě ŒöŽk, ‘ĺ‹{ Šw, “úŒi —˛:
    "Žü”g”800MHz‚É‚¨‚Ż‚éƒoƒX“ŕ•”“dŽĽŠE•Ş•z‚̉đÍ",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  6. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    Šâ–{ ‹Óm, ’ˇ’Jě ŒöŽk, ‘ĺ‹{ Šw, “úŒi —˛:
    "“üŽË•˝–Ę”g‚̉Ž“ŕ“`”Ŕ“ÁŤ‚ÉŠÖ‚ˇ‚錟“˘",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  7. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    –…”ö GŽ÷, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y,
    "’áŽü”g‘•—pŠî–{“dŽq‰ń˜H‚đ—p‚˘‚˝ƒ}ƒCƒNƒ”g‘ŃEMI•]‰żŽŔŒą",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  8. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    “cŒű r—S, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y,
    "RFID‹@Ší“dŽĽŠE•Ş•z•]‰ż‚Ě‚˝‚ß‚ĚŽOŽŸŒł’źüŔ•WŽŠ“Ž‘Ş’čŒn",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  9. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    ‰“ŽR “żG, “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y,
    "—U“ą‰Á”M’˛—Ší‚Ě‹ß–TŽĽŠE•Ş•z‚ĚŽOŽŸŒłÚ×‘Ş’č",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  10. ƒu‰‰E¸“Ç‚Č‚ľCOct., 2006„

    ŒĂ–ě ‹§l, “ńƒbX rˆę, Žá™ Œ’Žs, źŒ´ —T, “úŒi —˛, –쓇 r—Y,
    "‚‰ˇ’´“`“ąƒ}ƒCƒNƒ”gƒfƒoƒCƒX—p‚¸“x”ńüŒ`‚Đ‚¸‚Ý‘Ş’čŒn",
    •˝Ź18”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ď, Oct. 2006.(Žş—–H‹Ć‘ĺŠw)
  11. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    Masuda H., Ushiyama A., Takahashi M., Wang J., Fujiwara O., Hikage T., Nojima T., Fujita K., Kudo M. and Ohkubo C.;
    "Effects of 915 MHz Electromagnetic Field Irradiation in TEM-cell on Blood-Brain Barrier and Neurons in the Rat Brain"
    Biological Effects of EMFs 4th International Workshop 16 - 20 October 2006, Limin Hersonissou, Crete, Greece (http://imm.demokritos.gr/bioeffects/).
  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    M. Endo,T. Manabe,T. Hikage, and T. Nojima;
    "Experimental Investigations on the Biological Free Radical Production in Human Blood Cells due to Microwave Exposure"
    Biological Effects of EMFs 4th International Workshop 16 - 20 October 2006, Limin Hersonissou, Crete, Greece (http://imm.demokritos.gr/bioeffects/).
  13. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    S. Futatsumori, T. Kono, T. Hikage, T. Nojima, and B. Koike;
    "In vitro experiments to assess electromagnetic fields exposure limits from RFID reader/writer for pacemaker patients"
    Biological Effects of EMFs 4th International Workshop 16 - 20 October 2006, Limin Hersonissou, Crete, Greece (http://imm.demokritos.gr/bioeffects/).
  14. ƒu‰‰E¸“Ç‚Č‚ľCSep., 2006„

    “ńƒbX rˆęC“úŒi —˛C–쓇 r—Y, ŒIŒ´ ˜a–ž, ŽR’† ˆę“TC
    "•ŞŠ„ƒI[ƒvƒ“ƒŠƒ“ƒOŒ^5GHz’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“‘—MƒtƒBƒ‹ƒ^‚Ě“`‘—“ÁŤ„’č"C
    2006”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCSept. 2006.(‹ŕ‘ň‘ĺŠw)
  15. ƒu‰‰E¸“Ç‚Č‚ľCSept. 20, 2006„

    ’ˇ’JěŒöŽkC‘ĺ‹{@ŠwC“úŒi@—˛C
    h˜HüƒoƒX“ŕ“dŽĽŠE•Ş•z‚̍‚¸“x‰đÍhC
    Highly Precise Analysis of Electromagnetic Field Distributions in a Route Bus,
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ďC B-1-48CSept. 20, 2006.(‹ŕ‘ň‘ĺŠw)
  16. ƒu‰‰E¸“Ç‚Č‚ľCSept. 20, 2006„

    Šâ–{‹ÓmC’ˇ’JěŒöŽkC‘ĺ‹{@ŠwC“úŒi@—˛C
    h“üŽË•˝–Ę”g‚̉Ž“ŕ“`”Ŕ‚ÉŠÖ‚ˇ‚鐔’l‰đÍhC
    Indoor Propagation of Incident Plane Waves by Numerical Analysis,
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ďC B-1-47CSept. 20, 2006.(‹ŕ‘ň‘ĺŠw)
  17. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚聄

    M. Hirono,T. Hikage, Y. Abiko, T. Nojima, S. Watanabe, and T. Shinozuka;
    "Large Scale Parallel FDTD analysis of the EMF Excitation by Cellular Radios in Actual Train Carriages"
    emc europe 2006, Sep. 4-8, 2006,Barcelona, Spain (http://www.emceurope2006.org/).
  18. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCSep. 1, 2006„

    ‰““Ął—˛E^“獄ÍE“úŒi@—˛E–쓇r—Y
    hŒŒ‹…×–E‚É‚¨‚Ż‚éƒtƒŠ[ƒ‰ƒWƒJƒ‹”­ś‚É‹y‚Ú‚ˇƒ}ƒCƒNƒ”gĆŽË‰e‹ż‚ĚŽŔŒą“I’˛¸hC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCEMCJ2006-??,pp.??-??, SEP. 2006 (‘ĺă‘ĺŠw)
  19. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug., 2006„

    Y. KAWAHARA,T. KONO, T. HIKAGE, T. NOJIMA, M. OMIYA, and K. YAMAMOTO;
    "NUMERICAL ANALYSIS OF ELECTROMAGNETIC FIELD DISTRIBUTIONS IN A TYPICAL AIRPLANE"
    The 3rd IEEE VTS Asia Pacific Wireless Communications Symposium, pp.178-181, August 24-25, 2006, Information and Communications University, Daejeon, Korea (http://home.ewha.ac.kr/~APWCS06/).
  20. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug., 2006„

    M. Hirono, Y. Kawahara, T. Hikage, T. Nojima, M. Omiya;
    "FDTD Analysis for propagation Characteristics of Wireless LAN Equipped in a Jumbo Aircraft"
    PIERS 2006 - Tokyo,Progress in Electromagnetics Research Symposium, pp.552, 2 - 5 August 2006, Tokyo, Japan (http://emacademy.org/piers2k6Japan/).
  21. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug., 2006„

    S. Futatsumori, T. Kono, T. Hikage, T. Nojima, and B. Koike;
    "Experimental Test System to Assess the EMI from RFID Reader/Writer on Implantable Cardiac Pacemaker"
    PIERS 2006 - Tokyo,Progress in Electromagnetics Research Symposium, pp.210, 2 - 5 August 2006, Tokyo, Japan (http://emacademy.org/piers2k6Japan/).
  22. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, Aug., 2006„

    L. Harris, A. Simba, T. Hikage, T. Nojima, M. Omiya, S. Watanabe, and T. Shinoduka;
    "A Precise Electromagnetic Field Estimation in Elevator Considering of Implantable Cardiac Pacemaker EMI From Cellular Radios"
    PIERS 2006 - Tokyo,Progress in Electromagnetics Research Symposium, pp.123, 2 - 5 August 2006, Tokyo, Japan (http://emacademy.org/piers2k6Japan/).
    @@
  23. ƒŒ¤‹†‰ďE¸“Ç‚Č‚ľCJul. 27, 2006„

    ’ˇ’JěŒöŽkC‘ĺ‹{@ŠwC“úŒi@—˛C
    @@hŒg‘Ń“d˜b’[––‚ĚŽg—p‚É‚ć‚é˜HüƒoƒX“ŕ“dŽĽŠE•Ş•z‚̍‚¸“x‰đÍhC
    @@Highly Precise Analysis of Electromagnetic Field Distribution Caused by Cell Phone Terminals in a Route Bus,
    ‰f‘œî•ńƒƒfƒBƒAŠw‰ď‹Zp•ń(•ú‘—‹ZpŒ¤‹†‰ď)C vol. 30, no. 39, pp. 21-24, BCT2006-73, Jul. 27, 2006.
    @
  24. ƒŒ¤‹†‰ďE¸“Ç‚Č‚ľCJul. 27, 2006„

    Šâ–{‹ÓmC’ˇ’JěŒöŽkC‘ĺ‹{@ŠwC“úŒi@—˛C
    @h•ú‘—”g‚̉Ž“ŕ“`”Ŕ‚ÉŠÖ‚ˇ‚éŠî‘b“IŒŸ“˘hC
    @@Fundamental Studies on Indoor Propagation of Broadcasting Radio,
    @@‰f‘œî•ńƒƒfƒBƒAŠw‰ď‹Zp•ń(•ú‘—‹ZpŒ¤‹†‰ď)C @@vol. 30, no. 39, pp. 17-20, BCT2006-72, Jul. 27, 2006.
  25. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCJune 15, 2006„

    L. Harris, T. Hikage, T. Nojima, M.Omiya, S. Watanabe, and T. Shinozuka;
    "A PRECISE ESTIMATION METHOD FOR THE ELECTROMAGNETIC FIELD DISTRIBUTION EXCITED BY CELLULAR RADIOS IN ELEVATORS."
    Proceedings of the Bioelectromagnetics Society the 28th Annual Meeting at Cancun,Mexico on June 11-15, pp.523-526, 2006 (http://bioelectromagnetics.org/bems2006/).
  26. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCJune 13, 2006„

    J. Wang, O. Fujiwara, T. Hikage, T. Nojima, H. Masuda, A. Ushiyama, C. Ohkubo;
    "DOSIMETRY EVALUATION OF RATS EXPOSED TO GSM-900 SIGNALS IN SALFORD-USED TEM CELL."
    Proceedings of the Bioelectromagnetics Society the 28th Annual Meeting at Cancun,Mexico on June 11-15, pp.372-373, 2006 (http://bioelectromagnetics.org/bems2006/).
  27. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCJune 13, 2006„

    T. Hikage, T. Manabe, M. Endo, T. Nojima;
    "EXPERIMENTAL INVESTIGATIONS ON THE BIOLOGICAL FREE RADICAL PRODUCTION IN HUMAN FIBROBLASTS DUE TO MICROWAVE EXPOSURE."
    Proceedings of the Bioelectromagnetics Society the 28th Annual Meeting, PB-78, pp.304-306, June 2006, Cancun, Mexico (http://bioelectromagnetics.org/bems2006/).
  28. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJun. 12, 2006„

    “ńƒbXrˆęE‰““Ął—˛E“cŒűr—SE“úŒi@—˛E–쓇r—Yi–k‘ĺjEŹ’r@•×iŽĐ’c–@l“ú–{ŽŠ“Ž”FŽŻƒVƒXƒeƒ€‹Ś‰ďjE“Ą–{@—TE–L“‡@Œ’i“ú–{ƒƒhƒgƒƒjƒbƒNŠ”ŽŽ‰ďŽĐj
    hRFIDƒŠ[ƒ_ƒ‰ƒCƒ^‚É‚ć‚éAž‚ÝŒ^ˆă—p‹@Ší“dŽĽŠąÂ‚̐”’l‰đÍ‚ÉŒü‚Ż‚˝ŽŽŒą•]‰żhC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCEMCJ2006-12,pp.15-18, JUN. 2006 (–kŠC“š‘ĺŠw)
  29. ƒ˜_•śF¸“Ç‚ ‚čCMay, 2006„

    “ńƒbX rˆę, “úŒi —˛, –쓇 r—Y,
    "ƒI[ƒvƒ“ƒŠƒ“ƒO‹¤UŠí‚đ—p‚˘‚˝ƒ}ƒCƒNƒ”g‘—M—p’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“Œ^ƒtƒBƒ‹ƒ^‚ĚŠî–{\Ź–@",
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ(C), vol. J89-C, no. 5, pp. 266-273, May 2006.
  30. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCApr. 20, 2006„

    “ńƒbXrˆę, “úŒi@—˛, –쓇r—Y,
    h’´“`“ą•ŞŠ„ƒI[ƒvƒ“ƒŠƒ“ƒO‹¤UŠí‚̐”’l‰đÍ‚É‚ć‚é“d—Ź–§“x‚¨‚ć‚Ń“ÁŤ•]‰żhC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCSCE2006-6/MW2006-6, pp. 29-32, Apr. 2006. (’´“d“ąHŠwŒ¤‹†Š)
  31. ƒ˜_•śF¸“Ç‚ ‚čCMar. 30, 2006„

    S. Futatsumori, T. Hikage, and T. Nojima
    "Microwave superconducting reaction-type transmitting filter using split open-ring resonator",
    IET Electronics Letters, Volume 42, Issue 7, pp.428-430, Mar. 2006.
  32. ƒu‰‰E¸“Ç‚Č‚ľCMar. 25, 2006„

    “ńƒcXrˆę, “úŒi@—˛, –쓇r—Y,
    h’´“`“ą•ŞŠ„ƒI[ƒvƒ“ƒŠƒ“ƒO‹¤UŠí‚̐”’l‰đÍ‚É‚ć‚é“d—Ź–§“x•]‰żhC
    “dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCC-2-38,p.69, Mar. 25, 2006 (–kŠC“š‘ĺŠw)
  33. ƒu‰‰E¸“Ç‚Č‚ľCMar. 25, 2006„

    “ńƒcXrˆę, “úŒi@—˛, –쓇r—Y, Ź’r@•×, “Ą–{@—T, –L“‡@Œ’C
    hRFID‚É‚ć‚éS‘Ÿƒy[ƒXƒ[ƒJEMI‚ĚŽŔŒą•]‰żŒnhC
    “dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCB-4-17,p.312, Mar. 25, 2006 (–kŠC“š‘ĺŠw)
  34. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCMar. 1, 2006„

    Yusuke Abiko, Takashi Hikage, Louis-Ray Harris, Masahiko Hirono, Toshio Nojima, Manabu Omiya, Masaaki Komazaki, Soichi Watanabe, and Takashi Shinozuka
    "EMF Estimations in a Train Carriage Considering of Implantable Cardiac Pacemaker EMI from Cellular Radios"
    17th International Zurich Symposium on Electromagnetic Compatibility, Topical-meeting notes, pp.51-54, Mar. 2006. at Singapore SUNTEC International Convention Exhibition Centre on 27 February - 3 March 2006 (http://www.emc-zurich.org/).


2005(•˝Ź17”N)

  1. ƒƒ[ƒNƒVƒ‡ƒbƒvF¸“Ç‚Č‚ľCNov 1, 2005„

    –쓇r—Y, “úŒi@—˛
    h€•Â‹óŠÔ‚É‚¨‚Ż‚éŒg‘Ń“d˜b“d”g‚Ě“dŽĽŠE•Ş•z‚ĆEMC•]‰ż–@hC
    “dŽqî•ń’ʐMŠw‰ďŠÂ‹Ť“dŽĽHŠwŒ¤‹†ę–ĺˆĎˆő‰ď(EMCJ) “d‹CE“dŽq‹@Ší‚ĚEMCƒ[ƒNƒVƒ‡ƒv,‘ć17‰ńŽ‘—ż, pp.21-30, Nov. 2005.
  2. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCOct. 25, 2005„

    Takashi Hikage, Tomoko Nagae, Toshio Nojima, Manabu Omiya and Kiyohiko Itoh
    "Design of Rectenna for 5.8 GHz space solar power satellite based upon FDTD analysis"
    XXVIIIth URSI General Assembly at New Delhi, India on October 23-29, 2005 (http://www.ursiga2005.org).
  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCOct. 25, 2005„

    Takeaki Manabe, Takashi Hikage and Toshio Nojima
    "Experimental investigations on the Biological Free Radical Production - 2.45GHz & 900 MHz exposure systems design and estimation with ESR -"
    XXVIIIth URSI General Assembly at New Delhi, India on October 23-29, 2005 (http://www.ursiga2005.org).
  4. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCOct. 26, 2005„

    Toshio Nojima, Takashi Hikage, Yuki Sumi, Soichi Watanabe and Takashi Shinozuka
    "Electric field Estimations in a semi-echoic environment of a train carriage considering of implantable cardiac pacemaker EMI from cellular radios"
    XXVIIIth URSI General Assembly at New Delhi, India on October 23-29, 2005 (http://www.ursiga2005.org).
  5. ƒu‰‰F¸“Ç‚Č‚ľCOct. 22-23, 2004„

    ˜hŒŠ—E‹I, Ally Simba, “úŒi —˛, –쓇r—Y, ‘ĺ‹{ Šw,
    hƒqƒXƒgƒOƒ‰ƒ€‚É‚ć‚é“dŽÔ“ŕ“dŽĽŠE•Ş•z‚Ě’č—Ę“I•]‰żhC
    •˝Ź17”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC100COct. 23, 2005 (–kŠC“š‘ĺŠw)
  6. ƒu‰‰E¸“Ç‚Č‚ľCOct. 23, 2005„

    ’ˇ’Jě ŒöŽk, ‘ĺ‹{ Šw, “úŒi —˛C
    h˜HüƒoƒX“ŕ“dŽĽŠE•Ş•z‚ÉŠÖ‚ˇ‚élŽ@hC
    •˝Ź‚P‚V”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC139, Oct. 2005.
  7. ƒu‰‰E¸“Ç‚Č‚ľCSept. 20-23, 2005„

    ěŒ´—I•ăC‰Í–ě‘žˆęC˜hŒŠ—E‹IC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwC
    hq‹ó‹@“ŕ–łüLAN“`”Ŕ“ÁŤ‚ĚFDTD‰đÍhC
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ďCB-4-9, Sept. 20, 2005 (–kŠC“š‘ĺŠw)
  8. ƒu‰‰E¸“Ç‚Č‚ľCSept. 20-23, 2005„

    “ńƒbXrˆę, “úŒi@—˛, –쓇r—YC
    hƒ}ƒCƒNƒ”g‘—M—p’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“Œ^ƒtƒBƒ‹ƒ^‚Ě‘Ď“d—͉ťhC
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ď, C-2-63, Sept. 22, 2005 (–kŠC“š‘ĺŠw)
  9. ƒu‰‰E¸“Ç‚Č‚ľCSept. 20-23, 2005„

    ‰Í–ě‘žˆę, ěŒ´—I•ă, “úŒi@—˛, –쓇r—YC
    h’n”‚đ—L‚ˇ‚éƒ~ƒAƒ“ƒ_ƒ‰ƒCƒ“ƒAƒ“ƒeƒi‚ĚŠî–{“ÁŤhC
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ď, B-1-126, Sept. 23, 2005 (–kŠC“š‘ĺŠw)
  10. ƒu‰‰E¸“Ç‚Č‚ľCSept. 20-23, 2005„

    ’ˇ’JěŒöŽkC‘ĺ‹{ ŠwC“úŒi —˛C
    h˜HüƒoƒX“ŕ‚Ĺ‚ĚŒg‘Ń“d˜b’[––‚ĚŽg—p‚É‚ć‚é“dŽĽŠE•Ş•z‚ɂ‚˘‚āhC
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ď, C-1-6, Sept. 22, 2005 (–kŠC“š‘ĺŠw)
  11. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCSep. 12, 2005„

    “ńƒbXrˆę, “úŒi@—˛, –쓇r—Y,
    hŒg‘Ń“d˜bŠî’n‹Ç“K—p‚đ‘z’č‚ľ‚˝’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“Œ^‘—MƒtƒBƒ‹ƒ^‚ĚŠî–{\Ź–@‚Ć“ÁŤ„’čhC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńC ƒ}ƒCƒNƒ”gŒ¤‹†‰ď,MW2005-72,pp.55-60, Sep. 2005 (ÂŽRŠw‰@‘ĺŠw)
  12. ƒ˜_•śF¸“Ç‚ ‚čCAug., 2005„

    Takashi Hikage, Toshio Nojima, Soichi Watanabe and Takashi Shinozuka
    "Electric-Field Distribution Estimation in a Train Carriage due to Cellular Radios in order to Assess the Implantable Cardiac Pacemaker EMI in Semi-Echoic Environments",
    IEICE TRANS. COMMUN., Vol.E88-B, No.8, pp.3281-3286, Aug. 2005.
  13. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCAug. 10, 2005„

    T.Hikage, Y.Abiko, M.Hirono, T.Nojima, M.Omiya, S.Watanabe, T.Shinozuka
    "Estimation of the EMF Excitation by Cellular Radios in Actual Train Carriages"
    The 2005 IEEE International Symposium on Electromagnetic Compatibility (EMC), WE-PM-3-6, pp.628-631, at Chicago, IL on August 8-12, 2005 (http://www.emc2005.org).
  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCAug. 5, 2005„

    Y.Kawahara, T.Kono, Y.Sumi, T.Hikage, T.Nojima, M.Omiya, S.Watanabe and T.Shinozuka
    "EMF EXCITATION DEPENDENCY ON THE BOUNDARY CONDITION DUE TO MOBILE RADIOS - PARALLEL FDTD ANALYSIS ON THE RADIO ENVIRONMENT IN A TRAIN CARRIAGE -"
    The 2005 International Symposium on Antennas and Propagation (ISAP2005), FE2-4, pp.1241-1244, Korea, on August 3-5, 2005 (http://www.isap05.org).
  15. ƒŒ¤‹†‰ďE¸“Ç‚Č‚ľCJul. 28, 2005„

    ’ˇ’Jě@ŒöŽkA‘ĺ‹{ ŠwA“úŒi —˛C
    h‘ĺ‹K–͐”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚É‚ć‚é“dŽÔ“ŕ“dŽĽŠE‰ž“š‚¨‚ć‚Ń•Ş•z„’čhC
    ‰f‘œî•ńƒƒfƒBƒAŠw‰ď‹Zp•ńi•ú‘—‹ZpŒ¤‹†‰ďjCvol. 29, no. 44, pp. 13-16, BCT2005-76, Jul. 28, 2005.
  16. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCJun. 21, 2005„

    Takashi Hikage, Takeaki Manabe, Toshio Nojima
    "Experimental study on the Biological Free Radical Production due to microwave exposure"
    A joint meeting of The Bioelectromagnetics Society (BEMS) and the European BioElectromagnetics Association (EBEA), P-B-161, pp.423-426, at the University College of Dublin (Ireland) on June 19-24, 2005 (http://bioelectromagnetics2005.org).
  17. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJune 10, 2005„

    ˜hŒŠ—E‹IE“úŒi@—˛E–쓇r—YE‘ĺ‹{@Šwi–k‘ĺjE“n•Ó‘ˆęEŽÂ’ˁ@—˛C
    hŒg‘Ń’[––‚É‚ć‚é“dŽÔŽÔçq“ŕ“dŽĽŠE•Ş•z‚ĚÚ×ŒŸ“˘@` •Ą””gŒšƒ‚ƒfƒ‹‚Ć“ŕ•Ç•”ŢŽż‚̉e‹ż ` hC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńC ŠÂ‹Ť“dŽĽHŠwŒ¤‹†‰ď, EMCJ2005-31, pp.61-64, Jun. 2005.
  18. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJune 10, 2005„

    ěŒ´—I•ăE‰Í–ě‘žˆęE˜hŒŠ—E‹IE“úŒi@—˛E–쓇r—YE‘ĺ‹{@ŠwC
    h•Ŕ—ńFDTD‰đÍ‚đ—p‚˘‚˝€•Â‹óŠÔƒ‚ƒfƒ‹‚Ě“dŽĽŠE‰đÍ@` “dŽÔƒ‚ƒfƒ‹‚ƍq‹ó‹@ƒ‚ƒfƒ‹ `hC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńC ŠÂ‹Ť“dŽĽHŠwŒ¤‹†‰ď,EMCJ2005-30, pp.55-60, Jun. 2005.
  19. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJune 9, 2005„

    ^“獄ÍE“úŒi—˛E–쓇r—YC
    h”|—{×–E‚đ—p‚˘‚˝ƒ}ƒCƒNƒ”gĆŽË‚É‚ć‚郉ƒWƒJƒ‹”­ś‰e‹ż’˛¸hC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCŠÂ‹Ť“dŽĽHŠwŒ¤‹†‰ď,EMCJ2005-29, pp.51-54, Jun. 2005.
  20. ƒu‰‰F¸“Ç‚Č‚ľCMar. 23, 2005„

    “ńƒbXrˆęE“úŒi@—˛E–쓇r—Y
    hƒ}ƒCƒNƒ”g‚‰ˇ’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“Œ^ƒtƒBƒ‹ƒ^‚ĚŠî–{ŒŸ“˘hC
    “dŽqî•ń’ʐMŠw‰ďC2005”N‘‡‘ĺ‰ďCC-2-91, p. 124, Mar. 2005.
  21. ƒu‰‰F¸“Ç‚Č‚ľCMar. 21, 2005„

    “úŒi@—˛E˜hŒŠ—E‹IE–쓇r—YE‘ĺ‹{@Šw
    h€•Â‹óŠÔ“ŕ“d”g“`”Ŕ‚ĚFDTD‰đÍhC
    “dŽqî•ń’ʐMŠw‰ďC2005”N‘‡‘ĺ‰ďCB-4-4, p. 365, Mar. 2005.


2004(•˝Ź16”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCNov. 23, 2004„

    Yuki SUMI, Takashi HIKAGE, Toshio NOJIMA, Manabu OMIYA, Soichi WATANABE and Takashi SHINOZUKA,
    "Large-Scale Numerical Analysis of the EMF in Actual Train Carriages",
    2004 Korea-Japan Joint Conference on AP/EMC/EMT (KJJC-AP/EMC/EMT 2004), EMC-17, pp. 353-356, Seoul, Korea, Nov. 23, 2004.
  2. ƒu‰‰F¸“Ç‚Č‚ľCOct. 24, 2004„

    ‘ĺ‹{ ŠwC“úŒi —˛C’ˇ’JěŒöŽkC
    h“dŽÔ“ŕ“dŽĽŠE•Ş•z‚ÉŠÖ‚ˇ‚élŽ@hC
    •˝Ź16”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC100COct. 24, 2004.
  3. ƒu‰‰F¸“Ç‚Č‚ľCOct. 24, 2004„

    “úŒi —˛C˜hŒŠ—E‹IC–쓇r—YC‘ĺ‹{ ŠwC
    hFDTD‰đÍ‚É‚ć‚éŽÔçq“ŕ“dŽĽŠE•Ş•z‚ĚŒŸ“˘hC
    •˝Ź16”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC99COct. 24, 2004.
  4. ƒu‰‰F¸“Ç‚Č‚ľCOct. 23, 2004„

    “ńƒbX rˆę, –쓇 r—Y, “úŒi —˛
    hƒ}ƒCƒNƒ”g’´“`“ąƒŠƒAƒNƒVƒ‡ƒ“Œ^ƒtƒBƒ‹ƒ^‚ĚŠî–{ŒŸ“˘hC
    •˝Ź16”N“x“d‹CEî•ńŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC122COct. 23, 2004.
  5. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCOct. 4, 2004„

    Takashi Hikage, Takeaki Manabe and Toshio Nojima,
    " Microwave Exposure Effects on the Biological Free Radical Production -2.45GHz exposure system design and estimation with ESR -",
    BIOLOGICAL EFFECTS of EMFs 3rd International Workshop, pp. 82-86, Greece (Oct. 4, 2004)
  6. ƒ˜_•śF¸“Ç‚ ‚čCSep.1, 2004„

    Takashi Hikage, Kousuke Munakata, Toshio Nojima, Manabu Omiya and Kiyohiko Itoh
    "Cavity-Backed Slot Antennas and Array with Simple Geometry Adapted to Microwave Energy Transmission",
    U.R.S.I. The Radio Science Bulletin, no.310, pp.23-28, Sept. 2004.
  7. ƒu‰‰F¸“Ç‚Č‚ľCSept. 23, 2004„

    ^“獄Í, “úŒi —˛, –쓇r—Y,
    hƒ‰ƒWƒJƒ‹”­ś‰e‹ż’˛¸‚Ě‚˝‚ß‚ĚŠJ•úŒnƒ}ƒCƒNƒ”gĆŽË‘•’u hC
    “dŽqî•ń’ʐMŠw‰ďC2004”Nƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-4-38, p. 308, Sept. 2004.
  8. ƒu‰‰F¸“Ç‚Č‚ľCSept. 22, 2004„

    ˜hŒŠ—E‹IC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwC“n•Ó‘ˆęCŽÂ’Ë —˛C
    h“dŽÔ“ŕ“dŽĽŠE‚ĚFDTD‰đÍhC
    “dŽqî•ń’ʐMŠw‰ďC2004”Nƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-4-7, p. 277, Sept. 2004.
  9. ƒu‰‰F¸“Ç‚Č‚ľCSept. 17, 2004„

    ’ˇ]•üŽq, “úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h5.8GHzƒŒƒNƒeƒi—p‰~Œ`ƒ}ƒCƒNƒƒXƒgƒŠƒbƒvƒpƒbƒ`ƒAƒ“ƒeƒihC‘ć7‰ń‰F’ˆ‘ž—z”­“dƒVƒXƒeƒ€(SPS)ƒVƒ“ƒ|ƒWƒEƒ€Cpp. 73-78, Sept. 17, 2004.
  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCAug. 2004„

    Yuki Sumi, Takashi Hikage, Toshio Nojima, Manabu Omiya, Soichi Watanabe and Takashi Shinozuka,
    "ESTIMATION OF THE EMF IN ACTUAL TRAIN CARRIAGE USING THE PARALLEL FDTD METHODS",
    International Conference of Antennas and Propagation (ISAP) 2004, 1C2-4, pp. 137-140, Aug. 18, 2004.
  11. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJuly 22, 2004„

    ‘ĺ‹{ ŠwC“úŒi —˛C
    h“dŽÔ“ŕ•”“dŽĽŠE•Ş•z‚̐”’l‰đÍhC
    ‰f‘œî•ńƒƒfƒBƒAŠw‰ďŒ¤‹†•ńC•ú‘—‹ZpŒ¤‹†‰ď BCT2004-80Cvol. 28, no. 39, pp. 13-16, Jul. 2004.
  12. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJune 30, 2004„

    ˜hŒŠ—E‹IE“úŒi—˛E–쓇r—YE‘ĺ‹{ŠwC
    h€•Â‹óŠÔ“ŕ“dŽĽŠE•Ş•z‚Ě•Ŕ—ń‚e‚c‚s‚c‰đÍ’莎‰ť‚ÉŠÖ‚ˇ‚éˆęŒŸ“˘hC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCŠÂ‹Ť“dŽĽHŠwŒ¤‹†‰ď(EMCJ)CJun. 2004.
  13. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJune 30, 2004„

    ^“獄ÍE“úŒi—˛E–쓇r—YC
    h2.45GHzƒ}ƒCƒNƒ”g‚đ—p‚˘‚˝ƒ‰ƒWƒJƒ‹”­ś‰e‹ż‚Ě‚˝‚ß‚ĚŽŔŒąŒn‹y‚ŃŠî‘bŽŔŒąhC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCŠÂ‹Ť“dŽĽHŠwŒ¤‹†‰ď(EMCJ)CJun. 2004.
  14. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCJune 3, 2004„

    T. Hikage, T. Nojima, S. Watanabe and T.Shinozuka,
    "A STUDY ON IMPLANTABLE CARDIAC PACE MAKER EMI FROM CELLULAR RADIOS IN SEMI-ECHOIC ENVIRONMENTS
    @@@@\ FDTD Analysis and Experiments in Actual Train Carriage \",
    2004 International Symposium on Electromagnetic Compatibility (EMC'04), 3B2-2, pp. 565-568, Japan (Jun. 2004)
  15. ƒu‰‰F¸“Ç‚Č‚ľCMar. 22, 2004„

    ^“獄Í, “úŒi —˛, –쓇r—Y,
    hƒ‰ƒWƒJƒ‹”­ś‚É‹y‚Ú‚ˇƒ}ƒCƒNƒ”gĆŽË‰e‹ż‚ĚŠî‘bŽŔŒąhC
    “dŽqî•ń’ʐMŠw‰ďC2004”N‘‡‘ĺ‰ďCB-4-4, p. 371, Mar. 2004.
  16. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCFeb. 03, 2004„

    “úŒi —˛C“•űN‰îC–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‘ĺ‹K–Í‘—“dƒAƒ“ƒeƒi‚ĚFDTD‰đÍhC
    FDTD Analysis of a Large-Scale Energy Transmission Antenna,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńC‘ć‚S‰ń‰F’ˆ‘ž—z”­“dŽžŒŔŒ¤‹†‰ďCSPS2003-04, pp. 23-28, ‰F’ˆq‹óŒ¤‹†‹@\CFeb. 03, 2004.


2003(•˝Ź15”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCNov. 2003„

    Takashi HIKAGE, Toshio NOJIMA, Kousuke NUNAKATA, Manabu OMIYA and Kiyohiko ITOH,
    "FDTD Analysis and Design of Slot Antenna and Array for Microwave Energy Transmission",
    Proceedings of 2003 Asia-Pacific Microwave Conference, FE4-1, pp. 1985-1988, Seoul, Korea, Nov. 2003.
  2. ƒu‰‰”­•\F¸“Ç‚Č‚ľC2003. 10. 19„

    ‘ĺ‹{ ŠwCƒQƒIƒ‹ƒMƒGƒ”EƒQƒIƒ‹ƒMC’ˇ”öŒő‰xCƒRƒWƒ…ƒnƒ‹ƒtEƒJƒŠƒ“C“úŒi —˛C
    "ƒOƒŠƒbƒhEƒRƒ“ƒsƒ…[ƒeƒBƒ“ƒO‚É‚ć‚é‘ĺ‹K–Í“dŽĽŠE”’l‰đÍC"
    Large Scale Computational Electromagnetics Using Grid Computing,
    •˝Ź15”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC144, p. 176, Oct. 2003.
  3. ƒu‰‰”­•\F¸“Ç‚Č‚ľC2003.10.19„

    ’ˇ] •üŽq, “úŒi —˛, –쓇 r—YC‘ĺ‹{ Šw, ˆÉ“Ą ¸•FC
    h5.8GHz CMSA‚̍‚’˛”g—}ˆłƒXƒŠƒbƒgƒpƒ‰ƒ[ƒ^Ch
    •˝Ź15”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC142, p. 174, Oct. 2003.
  4. ƒu‰‰”­•\F¸“Ç‚Č‚ľC2003.10.19„

    —ŃŽRW–ç, “úŒi —˛, –쓇r—Y, ‘ĺ‹{ Šw, ˆÉ“Ą¸•FC
    hFPGA‚đ—p‚˘‚˝‰F’ˆ‘ž—z”­“d‰qŻ•űŒüŒŸ’mƒVƒXƒeƒ€‚ÉŠÖ‚ˇ‚錤‹†Ch
    •˝Ź15”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC141, p. 173, Oct. 2003.
  5. ƒu‰‰”­•\F¸“Ç‚Č‚ľC2003.10.19„

    ˆäŕV—Ç‘Ľ, “úŒi —˛, –쓇r—Y, ‘ĺ‹{ Šw, ˆÉ“Ą¸•FC
    h‰~•Î”g—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒiƒAƒŒ[‚ĚƒOƒŒ[ƒeƒBƒ“ƒOƒ[ƒu—}§Ch
    •˝Ź15”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC140, p. 172, Oct. 2003.
  6. ƒu‰‰”­•\F¸“Ç‚Č‚ľC2003.10.10„

    ˆäŕV—Ç‘ĽC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h5.8GHz–łü‘—“d—p‰~•Î”gƒAƒŒ[ƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚élŽ@Ch
    ‘ć6‰ń‘ž—z”­“d‰qŻ(SPS)ƒVƒ“ƒ|ƒWƒEƒ€COct. 2003.
  7. ƒu‰‰”­•\F¸“Ç‚Č‚ľCSep. 24, 2003„

    “úŒi —˛CˆäŕV—Ç‘ĽC–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    "5.8 GHz“d—Í“`‘——pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚đ—p‚˘‚˝‰~•Î”gƒAƒŒ[ƒAƒ“ƒeƒihC
    “dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒGƒeƒB‘ĺ‰ďCB-1-208, Sept. 2003.
  8. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJuly 30, 2003„

    ˆäŕV—Ç‘ĽC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‰~•Î”g—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒŒ[ƒAƒ“ƒeƒihC
    Cavity-Backed Slot Antenna Array for Circular Polarization,
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCƒAƒ“ƒeƒiE“`”dŒ¤‹†‰ďCAĽP2003-57, pp. 97-102, Jul. 2003.
  9. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJuly 25, 2003„

    ’ˇ]•üŽqC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‚’˛”g—}ˆłƒXƒŠƒbƒg‚đ—L‚ˇ‚é‰~Œ`ƒ}ƒCƒNƒƒXƒgƒŠƒbƒvƒAƒ“ƒeƒihC
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCŠÂ‹Ť“dŽĽHŠwŒ¤‹†‰ďCEMCJ2003-53, pp. 89-94, Jul. 2003.
  10. ƒŒ¤‹†‰ďF¸“Ç‚Č‚ľCJuly 25, 2003„

    ‘ĺ‹{ ŠwC“•űN‰îC“úŒi —˛C
    h‘ž—z”­“d‰qŻ‘—“dƒAƒ“ƒeƒi—pƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒihC
    Post-Wall Cavity-Backed Slot Antennas for Spacetenna od Space Solar Power Satellite,
    ‰f‘œî•ńƒƒfƒBƒAŠw‰ď–łüEŒő“`‘—Œ¤‹†‰ď, BCT2003-14Cvol. 27, no. 45, pp. 7-10, Jul. 2003.
  11. ƒ‘Ű‰ď‹cF¸“Ç‚Č‚ľ, 3-4, July 2003 „

    Takashi HIKAGE, Kosuke NUMAKATA, Toshio NOJIMA, Manabu OMIYA, Kiyohiko ITOH,
    "Cavity-Backed Slot Antennas and Array with Simple Geometry Adapted to Microwave Energy Transmission",
    2003 Japan-United States Joint Workshop on Space Solar Power System (JUSPS'03), Kyoto, 3-4, July 2003.
  12. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 26 March 2003„

    Manabu OMIYA, Kosuke MUNAKATA and Takashi HIKAGE,
    "Design of Slot Antennas and Arrays Using the FDTD Technique and a Parallel Supercomputer",
    The 19th Annual Review of Progress in Applied Computational Electromagnetics, pp. 539-544, March 24-28, 2003. Naval Postgraduate School, Monterey, California, USA.
  13. ƒu‰‰F¸“Ç‚Č‚ľC2003.03.22„

    “úŒi —˛C“•űN‰îC–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‹tF‘fŽq‹‹“dƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡‚ÉŠÖ‚ˇ‚錟“˘h
    A Study on Mutual Coupling of Cavity-Backed Slot Antenna Array Consisting of Parallel Plates and Posts which is Excited by an Inverted-F Element,
    2003”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCB-1-165, Mar. 2003.
  14. ƒ˜_•śF¸“Ç‚Č‚ľC2003.03.04„

    “úŒi —˛C“•űN‰îC–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‘—“dƒAƒ“ƒeƒi‘fŽq‚Ć‚ľ‚Ä—˜—p‚ˇ‚é‹tF‘fŽq‹‹“dƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒih
    Cavity-Backed Slot Antennas Excited by an Inverted-F Element and Consisting of Two Conductive Plates Separated by Sidewall Posts for the Use of Microwave Power Transmission
    “dŽqî•ń’ʐMŠw‰ď‘ć“ńŽí‰F’ˆ‘ž—z”­“d‰qŻŒ¤‹†‰ďCSPS2002-16, pp. 9-14C‘ć1‰ń‰F’ˆ‘ž—z”­“d‚Ć–łü“d—Í“`‘—‚ÉŠÖ‚ˇ‚錤‹†‰ď(METLABŒ¤‹†‰ď)•ń‘Cpp. 37 - 42CMar. 2003.

2002(•˝Ź14”N)

  1. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čC2002.11.26-28„

    Takashi HIKAGE, Toshio NOJIMA, Manabu OMIYA and Kiyohiko ITOH,
    "FDTD Analysis of a Large Scale Energy Transmission Array Antenna",
    Proceedings of 2002 Interim International Symposium on Antennas and Propagation (ISAP i-02), vol. 1, no. POS5-3, pp. 524-527, Yokosuka Research Park, Japan, Nov. 28, 2002.
  2. <‘Ű‰ď‹cF¸“Ç‚ ‚čC2002.11.21>

    Takashi HIKAGE, Toshio NOJIMA, Manabu OMIYA and Kiyohiko ITOH,
    "Development of Cavity-Backed Slot Antenna for Spacetenna of Space Solar Power Satellite at the Frequency of 5.8 GHz",
    Proceedings of 2002 Asia-Pacific Microwave Conference (APMC2002), vol. 2, no. TH2C-2, pp. 799-802, Kyoto International Conference Hall, Kyoto, Japan, Nov. 2002.
  3. ƒu‰‰C2002.11.08„

    ‘ĺ‹{ ŠwC“•űN‰îC“úŒi —˛C
    h–łü‘—“d—p‹tF‘fŽq‹‹“dƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚÝŒv–@hC
    Design Methods of Cavity-Backed Slot Antennas which is Fed by an Inverted-F Element and constructed with Two Conductive Plates and Metal Posts,
    ‘ć5‰ńSPSƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|WCvol. 5, pp. 35-40CNov. 2002.
  4. ƒu‰‰C2002.11.08„

    “úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h5GHz‘Ń–łü‘—“d—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒihC
    Cavity-Backed Slot Antennas for Energy Transmission in Frequency Band of 5 GHz,
    ‘ć5‰ńSPSƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|WCvol. 5, pp. 41-46, Nov. 2002.
  5. ƒu‰‰F¸“Ç‚Č‚ľC2002.10.13„

    —ŃŽRW–çC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    "DSP‚đ—p‚˘‚˝ƒpƒCƒƒbƒgM†•űŒüŒŸ’mƒVƒXƒeƒ€‚ĚŠî‘b“IŒ¤‹†"C
    Preliminary Study of Pilot Signal Arrival Direction Detection System Using DSP,
    •˝Ź14”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC151COct. 2002.
  6. ƒu‰‰F¸“Ç‚Č‚ľC2002.10.13„

    ‘ĺ‹{ ŠwC“•űN‰îC“úŒi —˛C
    "ă‰ş2–‡‚Ě“ą‘Ě”Â‚đƒƒCƒ„‚Őڑą‚ľ‚˝ƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚŠJ”­"C
    Development of Slot Antennas Consisting of the Two Conductive Plates,
    •˝Ź14”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC150COct. 2002.
  7. ƒu‰‰F¸“Ç‚Č‚ľC2002.10.13„

    ˆäŕV—Ç‘ĽC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    "5GHz‘Ń‘ž—z”­“d‰qŻ‘—“dƒAƒ“ƒeƒi—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡‚ÉŠÖ‚ˇ‚錟“˘"C
    Mutual Coupling of Cavity-Backed Slot Antenna for 5 GHz-Band Solar Power Satellite,
    •˝Ź14”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC149COct. 2002.
  8. ƒ˜_•śF¸“Ç‚ ‚čCSep. 2002„

    ě‘ş ‹P—YCŽR–{@ŠwC“úŒi@—˛CˆÉ“Ą ¸•FC
    "ƒXƒƒbƒg”Ş–ŘE‰F“cƒAƒŒ[‚đ—p‚˘‚˝•˝–Ęƒ}ƒ‹ƒ`ƒZƒNƒ^ƒAƒ“ƒeƒi",
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽBC vol.J85-B, no.9, pp.1633-1643, (Sept. 2002)
  9. ƒu‰‰F¸“Ç‚Č‚ľC2002.09.10-13„

    “úŒi —˛CˆäŕV—Ç‘ĽC–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    "5.8 GHz–łü‘—“d—pƒvƒ[ƒu‹‹“dƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi",
    Cavity-Backed Slot Antenna Fed by a Probe for Microwave Energy Transmission at 5.8 GHz,
    2002”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-38CSep. 2002D
  10. ƒ˜_•śF¸“Ç‚Č‚ľC2002.07.25„

    “•űN‰îC“úŒi —˛C‘ĺ‹{ ŠwC
    "–łü‘—“d—p‹tF‘fŽq‹‹“dƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi"C
    Cavity-Backed Slot Antennas with Sidewalls Consisting of Posts and Feeder of an Inverted-F Element for Wireless Energy Transmission,
    ‰f‘œî•ńƒƒfƒBƒAŠw‰ď‹Zp•ń(BCS2002-26, ROFT2002-68)Cvol. 26, no. 52, pp. 17-20, Jul. 2002.
  11. ƒ˜_•śF¸“Ç‚Č‚ľC2002.07.26„

    ˆäŕV—Ç‘ĽC“úŒi —˛C–쓇r—YC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h5.8 GHz–łü‘—“d—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚÝŒvhC
    Design of Cavity-Backed Slot Antenna for Microwave Energy Transmission at the Frequency of 5.8 GHz,
    “dŽqî•ń’ʐMŠw‰ď‹Zp•ńCAĽP2002-67, pp. 25-29, Jul. 2002.
  12. ƒu‰‰F¸“Ç‚Č‚ľC2002.03.27„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h5.8GHz–łü‘—“d—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒih
    Cavity-Backed Slot Antenna for Microwave Energy Transmission at 5.8 GHz
    2002”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCB-1-71C“Œ‹žCMar. 2002D
  13. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čC2002.03.19„

    Manabu OMIYA, Takashi HIKAGE and Kazuyuki MURAKAMI,
    "FDTD Analysis and Design of Cavity-Backed Slot Antennas for Microwave Energy Transmission",
    The 18th Annual Review of Progress in Applied Computational Electromagnetics, S3-1, pp.125-132, USA, Mar. 2002.

2001(•˝Ź13”N)

  1. ƒ˜_•śF¸“Ç‚ ‚čC2001-11„

    Takashi HIKAGE, Manabu Omiya, and Kiyohiko Itoh,
    "Considerations on Performance Evaluation of Cavity-Backed Slot Antenna Using the FDTD Technique,"
    IEEE Trans. Antennas and Propagation, vol. 49, No. 12, pp. 1712-1717, Dec. 2001.
  2. ƒu‰‰C2001.10.27„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒAƒŒ[ƒAƒ“ƒeƒi‚̐ť‘˘‚É“K‚ľ‚˝ƒ}ƒCƒNƒ”g“d—Í“`‘——pƒXƒƒbƒgƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚élŽ@hC
    Considerations on Slot Antennas for Microwave Energy Transmission Suitable for Manufacturing Array Antennas
    ‘ć4‰ń‰F’ˆ‘ž—z”­“dƒVƒXƒeƒ€(SPS)ƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|WCpp. 47-51, Oct. 27, 2001.
  3. ƒu‰‰F¸“Ç‚Č‚ľC2001.10.20„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    h‰~’Œƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡‚ÉŠÖ‚ˇ‚錟“˘hC
    Considerations on Mutual Coupling of Cavity-Backed Slot Antenna with Sidewalls Replaced by Cylindrical Posts,
    •˝Ź13”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC248, p. 297, –kŠC“š“ŒŠC‘ĺŠwCOct. 2001.
  4. ƒu‰‰F¸“Ç‚Č‚ľC2001.10.20„

    ‘şă˜a”VC“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒ}ƒCƒNƒ”g“d—Í“`‘—‚É“K‚ľ‚˝‰~’Œƒ|ƒXƒg‘¤•ÇƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒihC
    Cavity-Backed Slot Antenna with Sidewalls Replaced by Cylindrical Posts Suitable for Microwave Energy Transmission,
    •˝Ź13”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC248, p. 296, –kŠC“š“ŒŠC‘ĺŠwCOct. 2001.
  5. ƒu‰‰F¸“Ç‚Č‚ľC2001.10.20„

    “•űN‰îC‘şă˜a”VC“úŒi —˛C‘ĺ‹{ ŠwC
    hă‰ş‚Q–‡‚Ě“ą‘̔‚Ɗp’Œƒ|ƒXƒg‚ō\Ź‚ľ‚˝‹tF‘fŽq‹‹“dƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒihC
    Cavity-Backed Slot Antenna Fed by an Inverted-F Element which Consists of Two Conductive Plates and Rectangular Posts,
    •˝Ź13”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC246, p. 295, –kŠC“š“ŒŠC‘ĺŠwCOct. 2001.
  6. ƒu‰‰C2001.09.18-21„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    "2–‡‚Ě“ą‘̔‚¨‚ć‚щ~’Œƒ|ƒXƒg‚ō\Ź‚ľ‚˝ƒXƒƒbƒgƒAƒ“ƒeƒihC
    Slot Antenna Consisting of Two Parallel Conductive Plates and Cylindrical Posts,
    2001“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-153, p. 159, Sept. 2001.
  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čC2001.09.10„

    T. Hikage, K. Murakami, M. Omiya and K. Itoh,
    "Considerations on Slot Antenna Consisting of Parallel Conductive Plates Separated by Metal Posts",
    2001 Korea-Japan Joint Conference -AP/EMC/EMT (KJJC'2001) Proceeding, pp. 55-58, KAIST, Taejon, Korea, Sept. 2001.
  8. ƒu‰‰F˜_•śE¸“Ç‚Č‚ľC2001.07.27„

    ‘şă˜a”VC“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    "ƒ|ƒXƒg‘¤•Ç\ŹƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡‚đl—ś‚ľ‚˝ÝŒv"C
    Design of Cavity-Backed Slot Antenna with Sidewalls Replaced by Posts Taking Account of Mutual Coupling,
    “dŽqî•ń’ʐMŠw‰ď‹Zp•ńCAĽP2001-60Cpp. 81-88, Jul. 2001.
  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čC2001.07.21„

    Manabu OMIYA, Takashi HIKAGE, Kazuyuki MURAKAMI, and Kiyohiko ITOH,
    "Cavity-Backed Slot Antenna with Sidewalls Consisting of Thin Wires",
    Proceedings of Progress In Electromagnetics Research Symposium (PIERS 2001), 4A3-2, p. 443, July 21, 2001, Osaka, Japan.
  10. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čC2001.07.11„

    Manabu OMIYA, Takashi HIKAGE, Kazuyuki MURAKAMI and Kiyohiko ITOH,
    "Slot Antenna Consisted of Two Conductive Plates and Thin Wires",
    Digest of 2001 IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, vol. 3, pp. 545-548, Boston, Massachusetts, July 11, 2001.
  11. ƒu‰‰”­•\C¸“Ç‚Č‚ľC2001.03.29„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hƒ}ƒCƒNƒ”g“d—Í“`‘——pƒ|ƒXƒg‘¤•Ç\ŹƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒih
    Cavity-Backed Slot Antenna with Sidewalls Consisted of Thin Wires for Microwave Energy Transmission
    2001”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCB1-1-76, —§–˝ŠŮ‘ĺŠw‘’ĂƒLƒƒƒ“ƒpƒXCMarch 2001.

2000(•˝Ź12”N)

  1. ƒu‰‰”­•\E¸“Ç‚Č‚ľC2000.10.28: ŽD–yE–kŠC“š‘ĺŠw„

    ‘şă˜a”VC“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‘¤–Ę‚đƒƒCƒ„‚ō\Ź‚ľ‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚錟“˘hC
    Considerations on Cavity-Backed Slot Antennas with Side Walls Composed of Wires,
    ‘ć3‰ń‰F’ˆ‘ž—z”­“dƒVƒXƒeƒ€(SPS)ƒVƒ“ƒ|ƒWƒEƒ€u‰‰—vŽ|WCpp. 75-79, Oct. 2000D
  2. ƒu‰‰”­•\E¸“Ç‚Č‚ľC2000.10.22: ŽD–yE–kŠC“šH‹Ć‘ĺŠw„

    ŽR–{@ŠwC“úŒi@—˛C‘ĺ‹{@ŠwCˆÉ“Ą¸•FC
    hƒCƒ[ƒWNRDƒKƒCƒh‹¤UŒ^˜R‚ę”gƒAƒ“ƒeƒi‚ĚFDTD‰đÍhC
    FDTD Analysis of Image NRD Leaky Waveguide Antenna,
    •˝Ź12”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC173COct. 2000.
  3. ƒu‰‰”­•\E¸“Ç‚Č‚ľC2000.10.22: ŽD–yE–kŠC“šH‹Ć‘ĺŠw„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hƒ|ƒXƒg‘¤•Ç\ŹƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚錟“˘hC
    Considerations on Cavity-Backed Slot Antennas Whose Walls are Composed of Posts,
    •˝Ź12”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC175COct. 2000.
  4. ƒu‰‰”­•\E¸“Ç‚Č‚ľC2000.10.22: ŽD–yE–kŠC“šH‹Ć‘ĺŠw„

    ‘şă˜a”VC“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hă‰ş2–‡‚Ě“ą‘Ě”Â‚đƒƒCƒ„‚Őڑą‚ľ‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡—Ę‚¨‚ć‚Ńƒr[ƒ€‘–¸“ÁŤhC
    Evaluations of Mutual Coupling and Beam Steering of Cavity-Backed Slot Antennas made of two conductor plates connected by Wires,
    •˝Ź12”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC176COct. 2000D
  5. ƒu‰‰”­•\E¸“Ç‚Č‚ľC2000.09.30: –źŒĂ‰ŽE–źŒĂ‰ŽH‹Ć‘ĺŠw„

    “úŒi —˛CĄ“cŽ÷C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hƒ‹[ƒv‹‹“dƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚÝŒvhC
    Design of Cavity-Backed Slot Antennas Excited by a Loop Element,
    2000”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-58Cp. 58, Sept. 2000.
  6. ƒƒZƒ“ƒ^[ƒjƒ…[ƒXC2000.09.30„

    “úŒi —˛C‘şă˜a”VC”öčŒöˆęCˆÉ“Ą¸•FC‘ĺ‹{ ŠwC
    hƒX[ƒp[ƒRƒ“ƒsƒ…[ƒ^SR8000‚đ—p‚˘‚˝ŽžŠÔ—Ěˆćˇ•Ş–@‚É‚ć‚éƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡•]‰żhC
    Finite-Difference Time-Domain Analysis of Mutual Couplings of Cavity-Backed Slot Antennas Using Super Computer System SR8000,
    –kŠC“š‘ĺŠw‘ĺŒ^ŒvŽZ‹@ƒZƒ“ƒ^[ƒjƒ…[ƒXCvol. 32, no. 3, pp. 7-18, Sep. 2000.
  7. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚čCľ‘ҍu‰‰F2000.08.23, ISAP2000 in FUKUOKA„

    Takashi HIKAGE, Manabu OMIYA, and Kiyohiko ITOH,
    "Low Profile Cavity-Backed Slot Antennas for Microwave Energy Transmission,"
    Proceedings of the 2000 International Symposium on Antennas and Propagation, vol. 2, no. 2D4-4, pp. 709-712, Aug. 2000.
  8. ƒ˜_•śF¸“Ç‚Č‚ľF2000.07.26 Žş—–H‹Ć‘ĺŠw„

    ‘şă˜a”VC“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hƒAƒŒ[ƒAƒ“ƒeƒi‘fŽqŠÔ‘ŠŒÝŒ‹‡‚ĚFDTD‰đÍ–@‚ÉŠÖ‚ˇ‚é”äŠrŒŸ“˘h
    Comparison of FDTD Analysis Methods for Mutual Coupling of Array Antennas
    “dŽqî•ń’ʐMŠw‰ď ƒAƒ“ƒeƒiE“`”dC‰qŻ’ʐMCƒ}ƒCƒNƒ”gŒ¤‹†‰ďCAĽP2000-39CSAT2000-36, MW2000-39, pp. 53-59, July 2000.
  9. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č 2000.07.19„

    Takashi HIKAGE, Manabu OMIYA, and Kiyohiko ITOH,
    "Performance evaluation of cavity-backed slot antenna using the FDTD technique",
    2000 IEEE AP-S International Symposium and USNC/URSI National Radio Science Meeting, - Transmitting Waves of Progress to the Next Millennium-, 67.2, Session 67, Interactive Forum (American Plaza), Salt Lake City, Utah, July 2000.

  10. ƒu‰‰”­•\E¸“Ç‚Č‚ľC2000.03.29: L“‡‘ĺŠw„

    “úŒi —˛C‘şă˜a”VC‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h”–Œ`ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡•]‰żhC
    Evaluation of Mutual Coupling of Low-Profile Cavity-Backed Slot Antennas,
    2000”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCB-1-113Cp. 113, March 2000.

1999(•˝Ź11”N)

  1. ƒ˜_•śF¸“Ç‚Č‚ľF19999.12.16„

    “úŒi —˛CĄ“cŽ÷C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    h‘—“dƒAƒ“ƒeƒi—p”–Œ`ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚÝŒvh
    Design of a Low-Profile Cavity-Backed Slot Antenna for Microwave Energy Transmission
    “dŽqî•ń’ʐMŠw‰ď ƒAƒ“ƒeƒiE“`”dŒ¤‹†‰ďCƒtƒŒƒbƒVƒ…ƒ}ƒ“ƒZƒbƒVƒ‡ƒ“CAĽP99-152Cpp. 15-22, Dec. 1999.
  2. ƒu‰‰”­•\E¸“Ç‚Č‚ľC1999.10.23,24FŽş—–H‹Ć‘ĺŠw„

    Ą“cŽ÷C“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hƒ‹[ƒv‹‹“dƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚̏ŹŒ`‰ť‚ÉŠÖ‚ˇ‚élŽ@h
    Considerations on Small Size Cavity-Backed Slot Antenna Excited by a Loop Element
    •˝Ź11”N“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC117, p.160, Oct. 1999-10-23.
  3. ƒu‰‰”­•\E¸“Ç‚Č‚ľC1999.10.23,24FŽş—–H‹Ć‘ĺŠw„

    “úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•FC
    hPML‹zŽű‹ŤŠEđŒ‚ĆFDTD–@‚đ—p‚˘‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡•]‰żh
    Evaluation of Mutual Coupling of Cavity-Backed Slot Antenna Using the FDTD Technique and the PML Absorbing Boundary Condition
    •˝Ź11”N“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC118, p.161, Oct. 1999-10-23.
  4. ƒu‰‰”­•\E¸“Ç‚Č‚ľC1999.10.23,24FŽş—–H‹Ć‘ĺŠw„

    ‘ĺ‹{ ŠwC“úŒi —˛CĄ“cŽ÷CˆÉ“Ą¸•FC
    h‘¤–Ę‚đƒƒCƒ„‚ō\Ź‚ľ‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒih
    Cavity-Backed Slot Antennas with Side Walls of Wire,
    •˝Ź11”N“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC119, p.162, Oct. 1999-10-23.
  5. ƒu‰‰”­•\E¸“Ç‚Č‚ľC1999.09.10F‘D‹´E“ú–{‘ĺŠw—HŠw•”„

    ‘ĺ‹{ ŠwC“úŒi —˛CĄ“cŽ÷CˆÉ“Ą¸•F
    h‘¤–Ę‚đƒƒCƒ„‚ō\Ź‚ľ‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚÝŒvh
    Design of Cavity-Backed Slot Antenna with Side Walls of Wire
    1999”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďC B-1-97, 1999-09-10.
  6. ƒu‰‰”­•\E¸“Ç‚Č‚ľC1999.09.10F‘D‹´E“ú–{‘ĺŠw—HŠw•”„

    “úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hFDTD–@‚đ—p‚˘‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡‚ÉŠÖ‚ˇ‚élŽ@h
    Considerations on Evaluation of Mutual Coupling of Cavity-Backed Slot Antenna Using FDTD Technique
    1999”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-96, 1999-09-10.
  7. ƒ˜_•śF¸“Ç‚ ‚čC1999-10-01„

    “úŒi —˛CĄ“cŽ÷C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    h‘—“dƒAƒ“ƒeƒi—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě”–Œ`‰ťh
    Development of Low-Profile Cavity-Backed Slot Antenna for Microwave Energy Transmission
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽB, Vol.J82-B, No.10, pp.1905-1914, 1999-10.
  8. ƒ˜_•śE¸“Ç‚Č‚ľC1999.07.23„

    “úŒi —˛CĄ“cŽ÷C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě”–Œ`‰ť‚¨‚ć‚яŹŒ`‰ť‚Ě‚˝‚ß‚ĚÝŒv–@h
    Design Method of Cavity Backed Slot Antenna Realizing Low Profile and Miniaturized Structure
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCAP99-44, SAT99-44, pp.15-22CJul. 1999.
  9. ƒ˜_•śF¸“Ç‚ ‚čC1999-05-01„

    “úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hFDTD–@‚đ—p‚˘‚˝ƒLƒƒƒrƒeƒB•t‚ŤƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě“ÁŤ•]‰ż–@‚ÉŠÖ‚ˇ‚é”äŠrŒŸ“˘h
    Comparison of Analysis Methods for Performance of Cavity-Backed Slot Antennas Using the FDTD Technique
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽ(B), Vol.J82-B, No.5 pp.1038-1045, 1999-05.
  10. ƒu‰‰C1999-03-25„

    ‘ĺ‹{ ŠwC“úŒi —˛CĄ“cŽ÷CˆÉ“Ą¸•F
    "”–Œ`ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚÝŒv–@"C
    Design Method of a Low-Profile Cavity-Backed Slot Antenna
    1999”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďCB-1-92, p.92 (1999-03-25CŒc‰ž‘ĺŠw“ú‹gZŽÉ)D
  11. ƒ˜_•śF¸“Ç‚Č‚ľC1999-03-01„

    Takashi HIKAGE, Norio OHNO, Manabu OMIYA, and Kiyohiko ITOH,
    hProposal and Analysis of Cavity-Backed Slot Antennas for Microwave Energy Transmission h
    Electronics and Communications in Japan, Part 1, vol. 82, no. 3, pp. 20-27, March 1999.

1998(•˝Ź10”N)

  1. ƒ˜_•śF¸“Ç‚ ‚čC1998-12„

    Manabu Omiya, Takashi Hikage, Norio Ohno, Kenichi Horiguchi, and Kiyohiko Itoh
    "Design of Cavity-Backed slot antennas using the finite-difference time-domain technique"
    IEEE Trans. Antennas and Propagation, vol. AP-46, no. 12, pp.1853-1858, Dec. 1998.
  2. ƒ˜_•śF¸“Ç‚ ‚č, 1998-12„

    Takashi HIKAGE, Manabu OMIYA, and Kiyohiko ITOH
    "FDTD Analysis of Mutual Coupling of Cavity-Backed Slot Antenna Array"
    IEICE Transactions on Electronics, vol. E81-C, no. 12, Special Issue on Computational Electromagnetics, pp.1838-1844, December 1998.
  3. ƒ‘Ű‰ď‹cF¸“Ç‚ ‚č, 1998-12-10C‰Ą•l„

    Takashi HIKAGE, Manabu OMIYA, and Kiyohiko ITOH
    "Evaluation of Mutual Coupling of Cavity-Backed Slot Antennas Using the FDTD Technique"
    1998 Asia-Pacific Microwave Conference Proceedings - APMC'98 -, TH3D-4, pp.1409-1412, Yokohama, December 10, 1998.
  4. ƒu‰‰C1998-10-18„

    ‘ĺ‹{ ŠwC“úŒi —˛CˆÉ“Ą¸•F
    "‘fŽqŠÔ‘ŠŒÝŒ‹‡‚đl—ś‚ľ‚˝ƒAƒŒ[ƒAƒ“ƒeƒi‚ĚFDTD‰đÍ ,"
    FDTD Analysis of Array Antenna Concerning with Mutual Coupling among Elements
    •˝Ź10”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC368Cp.408 (1998-10-18C–kŠC“š‘ĺŠw)D
  5. ƒu‰‰C1998-10-18„

    “úŒi —˛CĄ“cŽ÷C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    "”–Œ`ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚élŽ@ ,"
    Considerations on a Low-Profile Cavity-Backed Slot Antenna
    •˝Ź10”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC367Cp.407 (1998-10-18C–kŠC“š‘ĺŠw)D
  6. ƒu‰‰C1998-10-18„

    Ą“cŽ÷C“úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    "‹tF‹‹“dƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚƒCƒ“ƒs[ƒ_ƒ“ƒXŽ‡‚ÉŠÖ‚ˇ‚élŽ@ ,"
    Considerations on a Impedance Matching of Cavity-Backed Slot Antenna Excited by Inverted-F Element
    •˝Ź10”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC366Cp.406 (1998-10-18C–kŠC“š‘ĺŠw)D
  7. ƒu‰‰, 1998-09-30„

    “úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒAƒŒ[ƒAƒ“ƒeƒi‚Ě‘fŽqŠÔ‘ŠŒÝŒ‹‡‚ÉŠÖ‚ˇ‚éFDTD‰đÍh
    FDTD Simulations of Mutual Coupling of an Antenna Array
    1998”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ď, B-1-89, p.89, (1998-10-02, ŽR—œ‘ĺŠw)
  8. ƒ˜_•śE¸“Ç‚Č‚ľ, 1998-07-24„

    “úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě”–Œ`‰ť‚ÉŠÖ‚ˇ‚錟“˘h
    Considerations on Design of Low-Profile Cavity-Backed Slot Antennas
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCƒ}ƒCƒNƒ”gŒ¤‹†‰ďC MW98-58, pp.7-14 (1998-07-24, –kŠC“š“ŒŠC‘ĺŠw)
  9. ƒu‰‰, 1998-03-29„

    “úŒi —˛C‘ĺ‹{ ŠwC•Ÿ’n‹v’źCˆÉ“Ą¸•F
    hƒtƒF[ƒYƒhƒAƒŒ[ƒAƒ“ƒeƒi‚Ěƒr[ƒ€‘–¸“ÁŤ‚ÉŠÖ‚ˇ‚éFDTD‰đÍh
    FDTD Analysis on Beam Steering Performance of Phased Array Antenna
    1998”N“dŽqî•ń’ʐMŠw‰ď‘‡‘ĺ‰ďC B-1-185, p.185 (1998-03-29, “ŒŠC‘ĺŠw) D
  10. ƒ˜_•śF¸“Ç‚ ‚čC1998-03„

    “úŒi —˛C‘ĺ–ě“NśC‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒ}ƒCƒNƒ”g‘—“d—pƒLƒƒƒrƒeƒB•t‚ŤƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě’ńˆÄh
    Proposal of Cavity-Backed Slot Antennas for the Microwave Energy Transmission
    “dŽqî•ń’ʐMŠw‰ď˜_•śŽB-IICVol.J81-B-IICNo.3Cpp.218-225 (1998-03)D

1997(•˝Ź9”N)

  1. ƒu‰‰, 1997-10-19„

    “úŒi —˛C‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒLƒƒƒrƒeƒB•tƒƒCƒhƒXƒƒbƒgƒAƒ“ƒeƒi‚ÉŠÖ‚ˇ‚élŽ@h
    Considerations on a Cavity-Backed Wide Slot Antenna
    •˝Ź9”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC175, p.208 (1997-10-19, –kŒŠH‘ĺ)
  2. ƒu‰‰, 1997.10.19„

    ‘ĺ‹{ ŠwC“úŒi —˛CˆÉ“Ą¸•F
    hFDTD–@‚đ—p‚˘‚˝ƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚Ě•úŽËŽwŒü“ÁŤ‚ÉŠÖ‚ˇ‚élŽ@h
    Considerations on radiation characteristics of Cavity-Backed Slot Antennas Using the Finite-Difference Time-Domain Technique
    •˝Ź9”N“x“d‹CŠÖŒWŠw‰ď–kŠC“šŽx•”˜A‡‘ĺ‰ďC174, p.207 (1997-10-19, –kŒŠH‘ĺ)
  3. ƒu‰‰, 1997-09-06„

    ‘ĺ‹{ ŠwC“úŒi —˛CˆÉ“Ą¸•F
    hƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒi‚ĚFDTD‰đÍh
    FDTD Analysis of a Cavity-Backed Slot Antenna
    1997”N“dŽqî•ń’ʐMŠw‰ďƒ\ƒTƒCƒGƒeƒB‘ĺ‰ďCB-1-124 p.124 (1997-09-06C‘ˆî“c‘ĺŠw—HŠw•”ƒLƒƒƒ“ƒpƒX)
  4. ƒ˜_•śE¸“Ç‚Č‚ľ, 1997-07-03„

    “úŒi —˛C‘ĺ–ě“NśC‘ĺ‹{ ŠwCˆÉ“Ą¸•F
    hƒ}ƒCƒNƒ”g‘—“d—pƒLƒƒƒrƒeƒB•tƒXƒƒbƒgƒAƒ“ƒeƒih
    Cavity-Backed Slot Antennas for the Microwave Energy Transmission
    “dŽqî•ń’ʐMŠw‰ď‹ZpŒ¤‹†•ńCƒAƒ“ƒeƒiE“`”dŒ¤‹†‰ďC AĽP97-67, pp.57-64 (1997-07-03, –k‘ĺ)