{"id":42,"date":"2015-11-18T14:07:30","date_gmt":"2015-11-18T05:07:30","guid":{"rendered":"http:\/\/www.comm.aclab.esys.tsukuba.ac.jp\/?page_id=42"},"modified":"2026-04-28T17:45:41","modified_gmt":"2026-04-28T08:45:41","slug":"works","status":"publish","type":"page","link":"https:\/\/www.comm.aclab.esys.tsukuba.ac.jp\/?page_id=42","title":{"rendered":"Publication"},"content":{"rendered":"

\u901a\u4fe1\u30b7\u30b9\u30c6\u30e0\u7814\u7a76\u5ba4\u304c\u6240\u5c5e\u3057\u3066\u3044\u308b\u30ea\u30b5\u30fc\u30c1\u30fb\u30b0\u30eb\u30fc\u30d7\u306e\u696d\u7e3e\u306f\u3053\u3061\u3089<\/a>\u3092\u3054\u53c2\u7167\u4e0b\u3055\u3044\u3002<\/p>\n

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Journal<\/h5>\n
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  1. \u6d77\u8001\u539f\u683c<\/span>, \u672b\u5e83\u76f4\u6a39: \u76f4\u4ea4\u4fe1\u53f7\u5206\u5272\u591a\u91cd\u65b9\u5f0f\u3068\u305d\u306e\u6027\u80fd\u8a55\u4fa1, <\/span>\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8c<\/span><\/i>, Vol.J91-B, No.9, pp.1086-1094, 2008.<\/span><\/li>\n
  2. Tadashi Ebihara<\/span>, Keiichi Mizutani, Takeshi Ohbuchi, Naoto Wakatsuki, Koichi Mizutani and Koichi Morikawa: Phase Shift Keying Acoustic Communication in Air with Impulse Response, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.48, pp.07GB06_01-07GB06_04, 2009. <\/span>https:\/\/doi.org\/10.1143\/JJAP.48.07GB06<\/span><\/a>\u00a0<\/span><\/li>\n
  3. Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Chip-Interleaved Multiple Access for Underwater Acoustic Communication and its Performance Evaluation in Propagation Simulation, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.48, pp.114505_01-114505_06, 2009. <\/span>https:\/\/doi.org\/10.1143\/JJAP.48.114505<\/span><\/a>\u00a0<\/span><\/li>\n
  4. Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Basic Study of Orthogonal Signal Division Multiplexing for Underwater Acoustic Communication: A Comparative Study, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.49, pp.07HG09_01-07HG09_08, 2010.<\/span><\/li>\n
  5. Tadashi Ebihara<\/span> and Keiichi Mizutani: Study on Doppler Shift Correction for Underwater Acoustic Communication Using Orthogonal Signal Division Multiplexing, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.50, pp.07HG06_1-07HG06_8, 2011.<\/span><\/li>\n
  6. Tadashi Ebihara<\/span> and Keiichi Mizutani: Experimental Study of Doppler Effect for Underwater Acoustic Communication Using Orthogonal Signal Division Multiplexing, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.51, pp.07GG04_1-07GG04_7, 2012.<\/span><\/li>\n
  7. Tadashi Ebihara<\/span>: Improvement of Power Efficiency for Underwater Acoustic Communication Using Orthogonal Signal Division Multiplexing Over Multiple Transducers, <\/span>Japanese Journal of <\/span><\/i>Applied Physics<\/span><\/i>, Vol.52, No.7, pp.07HG04_1-07HG04_8, 2013.<\/span><\/li>\n
  8. Tadashi Ebihara<\/span> and Koichi Mizutani: Underwater Acoustic Communication with an Orthogonal Signal Division Multiplexing Scheme in Doubly Spread Channels, <\/span>IEEE Journal of Oceanic Engineering<\/span><\/i>, Vol.39, No.1, pp.47-58, 2014.<\/span><\/li>\n
  9. \u65b0\u514d\u771f\u5df1, \u9752\u6728\u62d3\u4e5f, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00: \u643a\u5e2f\u7aef\u672b\u5411\u3051\u8fd1\u8ddd\u96e2\u97f3\u97ff\u901a\u4fe1\u7528\u30bd\u30d5\u30c8\u30a6\u30a7\u30a2\u30e2\u30c7\u30e0, <\/span>\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8cB<\/span><\/i>, Vol.J97-B, No.7, pp.507-514, 2014.<\/span><\/li>\n
  10. Tadashi Ebihara<\/span>, Hanako Ogasawara and Koichi Mizutani: Experiment of Underwater Acoustic Communication with an Orthogonal Signal Division Multiplexing Scheme in a Harbor, <\/span>Journal of Marine Acoustical Society of Japan<\/span><\/i>, Vol.41, No.4, pp.157-168, 2014.<\/span><\/li>\n
  11. Yoshito Imai, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: High-Speed Visible Light Communication Using Combination of Low-speed Image Sensor and Polygon Mirror, <\/span>IEICE Transactions<\/span><\/i>, Vol.E99-A, No.1, pp.263-270, 2016.<\/span><\/li>\n
  12. Tadashi Ebihara<\/span>, Hanako Ogasawara and Koichi Mizutani: Underwater Acoustic Communication Using Orthogonal Signal Division Multiplexing Scheme with Time Diversity, <\/span>Japanese Journal of <\/span><\/i>Applied Physics<\/span><\/i>, Vol.55, No.3, pp.037301_1-037301_13, 2016.<\/span><\/li>\n
  13. Tadashi Ebihara<\/span> and Geert Leus: Doppler-Resilient Orthogonal Signal Division Multiplexing for Underwater Acoustic Communication, <\/span>IEEE Journal of Oceanic Engineering<\/span><\/i>, Vol.41, No.2, pp.408-427, 2016.<\/span><\/li>\n
  14. Yosuke Saito, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki and Hanako Ogasawara: Adaptive Impedance Matching of Piezoelectric Transducer for Underwater Acoustic Communication System, <\/span>Journal of Marine Acoustical Society of Japan<\/span><\/i>, Vol.43, No.3, pp.134-144, 2016.<\/span><\/li>\n
  15. Tadashi Ebihara<\/span>, Geert Leus and Hanako Ogasawara: Underwater Acoustic Communication Using Doppler-resilient Orthogonal Signal Division Multiplexing in a Harbor Environment, <\/span>Physical Communication<\/span><\/i>, Vol.27, pp.24-35, 2018.<\/span><\/li>\n
  16. \u4eca\u4e95\u7fa9\u4eba\uff0c\u6817\u672c\u7adc\u4e4b\u4ecb\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597: \u30d6\u30ed\u30c3\u30af\u4f1d\u9001\u3068\u30d1\u30b9\u30d0\u30f3\u30c9\u4fe1\u53f7\u3092\u7528\u3044\u308b\u53ef\u8996\u5149\u30a4\u30e1\u30fc\u30b8\u30bb\u30f3\u30b5\u901a\u4fe1\u30b7\u30b9\u30c6\u30e0\u306e\u69cb\u7bc9\u3068\u5c4b\u5916\u306b\u304a\u3051\u308b\u6027\u80fd\u8a55\u4fa1: <\/span>\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8cB<\/span><\/i>. Vol.J101-B, No.2, p.111-121, 2018.<\/span><\/li>\n
  17. Yusuke Chiba, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Elastic Property Estimation of Surface layer of Layered Structure by Measuring Love Wave Propagation Characteristics using Laser Doppler Vibrometer, <\/span>Int. J. Soc. Mater. Eng. Resour.<\/span><\/i> Vol.23, No.1, pp.109-116 2018.<\/span><\/li>\n
  18. Saki Nishihara, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Secure and Fast Near-Field Acoustic Communication Using Acoustic and Vibrational Signals, IEICE Transactions Vol.E101-A, No.11, pp.1841-1848, 2018.<\/span><\/li>\n
  19. Yusuke Umezawa, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Design of Acoustic Vehicle-to-pedestrian Communication System and its Performance Evaluation, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.58, No.7, pp.SGGB11_1-SGGB11_9, 2019.<\/span><\/li>\n
  20. Tadashi Ebihara<\/span>, Hanako Ogasawara, Koichi Mizutani and Naoto Wakatsuki: Field testing of underwater acoustic communication using Doppler-resilient orthogonal signal division multiplexing in coastal area of Suruga Bay, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.58, No.SG, pp. SGGF07_1-SGGF07_7, 2019.<\/span><\/li>\n
  21. \u897f\u5cf6\u4e5f\u5bf8\u5f66, \u6c34\u8c37\u5b5d\u4e00, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u82e5\u69fb\u5c1a\u6597, \u4e45\u4fdd\u7530\u5065\u55e3, \u5b87\u8cc0\u535a\u4e4b: \u30b3\u30ca\u30b8\u30e9\u30df\u985e\u306e\u4ea4\u4fe1\u97f3\u306e\u6291\u5236\u304c\u914d\u5076\u884c\u52d5\u306b\u53ca\u307c\u3059\u5f71\u97ff, \u8fb2\u696d\u65bd\u8a2d, Vol.50, No.4, pp.140-145, 2019.<\/span><\/li>\n
  22. Riku Fukuda, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Digital acoustic communication in air using parametric loudspeaker, IEICE Communications Express, Vol.9, No.5 pp. 136-140, 2020.<\/span><\/li>\n
  23. Yushi Tabata, <\/span>Tadashi Ebihara<\/span>, Hanako Ogasawara, Koichi Mizutani and Naoto Wakatuki: Improvement of Communication Quality Using Compressed Sensing in Underwater Acoustic Communication System with Orthogonal Signal Division Multiplexing, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.59, pp.SKKF04_1\u2013SKKF04_7, 2020.<\/span><\/li>\n
  24. \u4f50\u85e4\u5e83\u9686, \u4e2d\u6797\u5927\u6a39, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597, \u4e45\u4fdd\u7530\u5065\u55e3: \u5712\u82b8\u65bd\u8a2d\u5185\u306b\u304a\u3051\u308b\u30bf\u30d0\u30b3\u30b3\u30ca\u30b8\u30e9\u30df\u985e\u306e\u5fae\u5c0f\u767a\u751f\u97f3\u306e\u53ce\u9332, \u8fb2\u696d\u65bd\u8a2d, Vol.51, No.3, pp.77-88, 2020.<\/span><\/li>\n
  25. Tadashi Ebihara<\/span>, Hanako Ogasawara and Geert Leus: Underwater Acoustic Communication Using Multiple-Input Multiple-Output Doppler-Resilient Orthogonal Signal Division Multiplexing, <\/span>IEEE Journal of Oceanic Engineering<\/span><\/i>, Vol.45, No.4, pp.1594-1610, 2020.<\/span><\/li>\n
  26. Yuji Sato, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Design of a wide-angle compound eye acoustic lens system suitable for multi-user underwater acoustic communication, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.60, pp.SDDF01_1\u2013SDDF01_8, 2021. <\/span>https:\/\/doi.org\/<\/span>10.35848\/1347-4065\/abf2a6<\/span><\/a>\u00a0<\/span><\/li>\n
  27. \u897f\u5cf6\u4e5f\u5bf8\u5f66, \u6c34\u8c37\u5b5d\u4e00, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u82e5\u69fb\u5c1a\u6597, \u4e45\u4fdd\u7530\u5065\u55e3, \u77f3\u4e95\u96c5\u4e45, \u5b87\u8cc0\u535a\u4e4b: \u30b3\u30ca\u30b8\u30e9\u30df\u985e\u306e\u4ea4\u4fe1\u97f3\u3092\u7528\u3044\u308b\u97f3\u97ff\u653e\u5c04\u306b\u3088\u308b\u4ea4\u5c3e\u884c\u52d5\u306e\u6291\u5236, \u8fb2\u696d\u65bd\u8a2d, Vol.52, No.2, pp.57-63 2021. <\/span>https:\/\/doi.org\/10.11449\/sasj.52.1_57<\/span><\/a>\u00a0<\/span><\/li>\n
  28. \u4f50\u85e4\u5e83\u9686, \u4e2d\u6797\u5927\u6a39, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597, \u4e45\u4fdd\u7530\u5065\u55e3:\u6df1\u5c64\u5b66\u7fd2\u306b\u3088\u308b\u30b3\u30ca\u30b8\u30e9\u30df\u985e\u306e\u5fae\u5c0f\u767a\u751f\u97f3\u3092\u7528\u3044\u305f\u7a2e\u304a\u3088\u3073\u30d0\u30a4\u30aa\u30bf\u30a4\u30d7\u306e\u5224\u5225, \u8fb2\u696d\u65bd\u8a2d, Vol.52, No.3, pp.81-89, 2021. <\/span>https:\/\/doi.org\/10.11449\/sasj.52.3_81<\/span><\/a>\u00a0<\/span><\/li>\n
  29. Yushi Tabata, <\/span>Tadashi Ebihara<\/span>, Hanako Ogasawara, Koichi Mizutani and Naoto Wakatuki: Mobile Underwater Acoustic Communication with Orthogonal Signal Division Multiplexing Under Inter-carrier Interference Larger than a Guardband, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, <\/span>Vol.60, pp.107003_1\u2013107003_10, 2021. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ac27f2<\/span><\/a>\u00a0<\/span><\/li>\n
  30. Ritsuki Hamagami, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: Optimal Modulation Technique for Underwater Visible Light Communication Using Rolling-Shutter Sensor, <\/span>IEEE Access<\/span><\/i>, Vol.9, pp.146422-146436, 2021. <\/span>https:\/\/doi.org\/10.1109\/ACCESS.2021.3123358<\/span><\/a>\u00a0<\/span><\/li>\n
  31. Yuji Sato, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Design of a hemispherical compound eye lens consisting of a concave meniscus for underwater acoustic communication, Japanese Journal of Applied Physics, Vol.61, pp.SG1017_1\u2013SG1017_3, 2022. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ac4eab<\/span><\/a>\u00a0<\/span><\/li>\n
  32. Ritsuki Hamagami, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: Rolling-Shutter-Sensor-Based Visible Light Communication for Multi-user Long-range Communication and Positioning, IEICE Communications Express, Vol.11, No.5 pp. 202-207, 2022. <\/span>https:\/\/doi.org\/10.1587\/comex.2021XBL0229<\/span><\/a>\u00a0<\/span><\/li>\n
  33. Tohru Yoshihara, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Yuma Sato: Underwater Acoustic Positioning in Multipath Environment Using Time-of-flight Signal Group and Database Matching, Japanese Journal of Applied Physics, Vol.61, pp.SG1075_1-SG1075_10, 2022. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ac6a3d<\/span><\/a>\u00a0<\/span><\/li>\n
  34. Yushi Tabata, <\/span>Tadashi Ebihara<\/span>, Hanako Ogasawara, Naoto Wakatuki, Keiichi Zempo and Koichi Mizutani: Underwater acoustic communication using orthogonal signal division multiplexing with windowing, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.61, pp.SG1033_1-SG1033_10, 2022. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ac51e5<\/span><\/a><\/li>\n
  35. Kohei Wada, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Keiichi Zempo and Koichi Mizutani: Simultaneous distance measurement and information transmission in mobile environment using digital acoustic communication, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.62, pp.SJ1037_1-SJ1037_10, 2023. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/acbf5c<\/span><\/a><\/li>\n
  36. \u5409\u539f\u5230\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u97f3\u6ce2\u306e\u4f1d\u642c\u6642\u9593\u7fa4\u3068\u30c7\u30fc\u30bf\u30d9\u30fc\u30b9\u7167\u5408\u3092\u7528\u3044\u305f\u30de\u30eb\u30c1\u30d1\u30b9\u74b0\u5883\u4e0b\u306b\u304a\u3051\u308b\u79fb\u52d5\u4f53\u306e\u6c34\u4e2d\u6e2c\u4f4d\u5b9f\u9a13\uff0c<\/span>\u571f\u6728\u5b66\u4f1a\u8ad6\u6587\u96c6<\/span><\/i>\uff0cVol. 79, No.22, pp.22-22012_1-22-22012_8, 2023. <\/span>https:\/\/doi.org\/10.2208\/jscejj.22-22012<\/span><\/a><\/li>\n
  37. Takuya Waki, Yuto Hara, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: Investigation of Characteristics of Underwater Acoustic Channel and Quality of Underwater Acoustic Communication in Line-of-Sight and Non-Line-of-Sight Environments, <\/span>Journal of Signal Processing<\/span><\/i>, Vol.27, No.6, pp.179-188, 2023. <\/span>https:\/\/doi.org\/10.2299\/jsp.27.179<\/span><\/a><\/li>\n
  38. \u7530\u908a\u662d\u5b50\uff0c\u4f50\u85e4\u88d5\u6cbb\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u6c34\u4e2d\u97f3\u97ff\u30ec\u30f3\u30ba\u306b\u304a\u3051\u308b\u30a8\u30d0\u30cd\u30c3\u30bb\u30f3\u30c8\u5834\u306e\u5f71\u97ff\uff0c\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u8a8c\uff0cVol.50, No.3, pp.56-66, 2023. <\/span>https:\/\/doi.org\/10.3135\/jmasj.50.56<\/span><\/a>\u00a0<\/span><\/li>\n
  39. \u65bc\u4fdd\u62d3\u9ad8\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u72ed\u9593\u9694\u30de\u30a4\u30af\u30ed\u30d5\u30a9\u30f3\u30a2\u30ec\u30a4\u306b\u3088\u308b\u30b3\u30ca\u30b8\u30e9\u30df\u985e\u306e\u8907\u6570\u982d\u653e\u98fc\u74b0\u5883\u4e0b\u306b\u304a\u3051\u308b\u767a\u97f3\u4f4d\u7f6e\u306e\u63a8\u5b9a\uff0c\u8fb2\u696d\u65bd\u8a2d\uff0cVol.54, No.4, pp.88-100, 2023.<\/span><\/li>\n
  40. \u5409\u539f\u5230\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u8010\u30de\u30eb\u30c1\u30d1\u30b9\u6c34\u4e2d\u97f3\u97ff\u6e2c\u4f4d\u6280\u8853\u306e\u958b\u767a\u3068\u6c34\u4e2d\u30d0\u30c3\u30af\u30db\u30a6\u306e\u6c34\u4e2d\u6e2c\u4f4d\u3078\u306e\u5fdc\u7528\uff0c\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u8a8c\uff0cVol.50, No.4, pp.123-133, 2023. <\/span>https:\/\/doi.org\/10.3135\/jmasj.50.123<\/span><\/a>\u00a0<\/span><\/li>\n
  41. \u8305\u6839\u6dbc\u592a\u90ce\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u4f50\u85e4\u88d5\u6cbb\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1aLoS \u304a\u3088\u3073NLoS \u74b0\u5883\u306b\u304a\u3051\u308b\u30d1\u30e9\u30dc\u30e9\u30a2\u30f3\u30c6\u30ca\u3092\u7528\u3044\u305f\u6c34\u4e2d\u97f3\u97ff\u901a\u4fe1\u306e\u30b7\u30df\u30e5\u30ec\u30fc\u30b7\u30e7\u30f3\uff0c\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u8a8c\uff0cVol.51, No.1, pp.1-11, 2024. <\/span>https:\/\/doi.org\/10.3135\/jmasj.51.1<\/span><\/a>\u00a0<\/span><\/li>\n
  42. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Measurement of distance and speed between transmitter and receiver using propagation time of underwater acoustic communication signals with orthogonal signal division multiplexing, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.63, No.5, pp.057001_1-057001_10, 2024. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ad378e<\/span><\/a><\/li>\n
  43. \u85e4\u7530\u4f91\u5e0c\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u30aa\u30fc\u30c7\u30a3\u30aa\u5165\u51fa\u529b\u9045\u5ef6\u3092\u6709\u3059\u308b\u30aa\u30fc\u30c7\u30a3\u30aa\u30a4\u30f3\u30bf\u30fc\u30d5\u30a7\u30fc\u30b9\u306b\u9069\u3057\u305f\u6c17\u6e29\u6e2c\u5b9a\u7528\u97f3\u97ff\u6ce2\u30d7\u30ed\u30fc\u30d6\u306e\u69cb\u7bc9\uff0c\u8a08\u6e2c\u81ea\u52d5\u5236\u5fa1\u5b66\u4f1a\u8ad6\u6587\u96c6\uff0cVol.60, No.9, pp.497-508, 2024. <\/span>https:\/\/doi.org\/10.9746\/sicetr.60.497<\/span><\/a>\u00a0<\/span><\/li>\n
  44. Yuji Sato, <\/span>Tadashi Ebihara<\/span>, Naomasa Urasaki, Koichi Mizutani and Naoto Wakatsuki: Enhancing azimuth estimation in low-resolution underwater acoustic lens systems for advanced communication and positioning, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.63, No.5, pp.05SP07_1-05SP07_7, 2024. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ad3fc8<\/span><\/a><\/li>\n
  45. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatuki, Yuka Maeda and Koichi Mizutani: Multiple-Input-Multiple-Output Underwater Acoustic Communication with Orthogonal Signal Division Multiplexing Using Basis Pursuit Denoising, \u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u8a8c, Vol.51, No.4, pp.96-116, <\/span>2024. <\/span>https:\/\/doi.org\/10.3135\/jmasj.51.96<\/span><\/a>\u00a0<\/span><\/li>\n
  46. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatuki, Yuka Maeda and Koichi Mizutani: Sparse Channel Estimation with Global Optimum Solution for Orthogonal Signal Division Multiplexing in Underwater Acoustic Communication, <\/span>IEEE Access<\/span><\/i>, Vol.12, pp.128778-128790, 2024. <\/span>https:\/\/doi.org\/10.1109\/ACCESS.2024.3407963<\/span><\/a><\/li>\n
  47. \u85e4\u7530\u4f91\u5e0c\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u4e2d\u4e45\u4fdd\u4eae\uff0c\u77f3\u7530\u4e09\u4f73\uff0c\u897f\u5cf6\u4e5f\u5bf8\u5f66\uff1a\u8d85\u97f3\u6ce2\u30d7\u30ed\u30fc\u30d6\u3092\u7528\u3044\u305f\u8c5a\u820e\u5185\u306e\u6c17\u6e29\u5206\u5e03\u6e2c\u5b9a\uff0c\u8fb2\u696d\u65bd\u8a2d\uff0cVol.55, No.2, pp.37-43, 2024. <\/span>https:\/\/doi.org\/10.11449\/sasj.55.2_37<\/span><\/a><\/li>\n
  48. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatuki, Yuka Maeda and Koichi Mizutani: Parameter Determination in Basis Pursuit Denoising via Stein\u2019s Unbiased Risk Estimate for Underwater Acoustic Communication with Orthogonal Signal Division Multiplexing, <\/span>IEEE Access<\/span><\/i>, Vol.13, pp.28505-28521, 2025. <\/span>https:\/\/doi.org\/10.1109\/ACCESS.2024.3516316<\/span><\/a>\u00a0<\/span><\/li>\n
  49. Yuji Sato, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Acoustic positioning of communication partner using code division multiplexing in a multipath environment for underwater acoustic communication with an acoustic lens system, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.64, No.4, pp.04SP42_1-04SP42_8, 2025. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/adc69a<\/span><\/a><\/li>\n
  50. Taiga Saito, <\/span>Tadashi Ebihara<\/span> Yuji Sato, Atsushi Tsuchiya, Naoto Wakatsuki and Keiichi Zempo: Basic study on underwater acoustic positioning using time-of-flight and direction-of-arrival with semi-circular array, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.64, No.4, pp.048006_1-048006_3, 2025. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/adcacd<\/span><\/a><\/li>\n
  51. Hirotaka Obo, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: High PSRR and Low Output Impedance Pre-Amplifier Circuit for Plugin-Powered Electret Condenser Microphone, IEEE Sensors Journal (in press), 2025. <\/span>https:\/\/doi.org\/10.1109\/JSEN.2025.3606421<\/span><\/a><\/li>\n
  52. Keisuke Nakamura, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Optimization of Doppler Shift Correction Based on Frequency-Scaling Search in Underwater Acoustic Communication Using Orthogonal Signal Division Multiplexing, <\/span>Journal of Signal Processing<\/span><\/i> , Vol.29, No.6, pp.175-183, 2026.<\/span>https:\/\/doi.org\/10.2299\/jsp.29.175<\/span><\/a>\u00a0<\/span><\/li>\n
  53. Junnosuke Yoshita, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: Relationship Between Signal Retransmission Interval and Communication Quality in Underwater Acoustic Communication Using Time-diversity and Orthogonal Signal Division Multiplexing, <\/span>Journal of Signal Processing<\/span><\/i> , Vol.31, No.1, pp.1-14, 2026. <\/span>https:\/\/doi.org\/10.2299\/jsp.30.1<\/span><\/a><\/li>\n
  54. Taiga Saito, Tadashi Ebihara<\/span>, Atsushi Tsuchiya, Yuji Sato, Naoto Wakatsuki, Keiichi Zempo and Tohru Yoshihara: Underwater acoustic positioning using reconstructed wavefront sets based on time-of-arrival in multipath environments, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.65, No.6, pp.06SP03_1-06SP03_8, 2026. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ae4be8<\/span><\/a><\/li>\n<\/ol>\n
    Journal\uff08Acoustics Laboratory Group)<\/h5>\n
      \n
    1. Kojiro Nishimiya, Koichi Mizutani, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Ken Yamamoto: Visualization of Mode Conversion of Lamb-Type Waves in Glass Plates Using Pulsed Light Source, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.48, pp.07GC06_01-07GC06_04, 2009.<\/span><\/li>\n
    2. Keiichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: Locality of Area Coverage on Acoustic Communication in Air Using Differential Phase Shift Keying, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.48, pp.07GB07_01-07GB07_03, 2009.<\/span><\/li>\n
    3. Takeshi Ohbuchi, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki and Hiroyuki Masuyama: Estimation of Sound Velocity Distribution Using Sectional Near-field Acoustical Holography and Global Search, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.49, pp.07HC06_01-07HC06_05, 2010.<\/span><\/li>\n
    4. Takanobu Kuroyama, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Takeshi Ohbuchi: Experimental Study on Measurement of Acoustic Cavitation Bubbles at Spatial Frequency Domain Using Optical Spectrometer, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.50, pp.07HE05_1-07HE05_4, 2011.<\/span><\/li>\n
    5. \u8302\u6728\u8cb4\u5f18, \u6c34\u8c37\u5b5d\u4e00, <\/span>\u6d77\u8001\u539f\u683c<\/span>: \u5730\u8868\u4ed8\u8fd1\u306b\u304a\u3051\u308b\u6c17\u6e29\u5206\u5e03\u8a08\u6e2c\u306e\u305f\u3081\u306e\u97f3\u97ff\u30bb\u30f3\u30b5\u30cd\u30c3\u30c8\u30ef\u30fc\u30af\u30e6\u30cb\u30c3\u30c8, <\/span>\u571f\u6728\u5b66\u4f1a\u8ad6\u6587\u96c6A2\uff08\u5fdc\u7528\u529b\u5b66\uff09<\/span><\/i>, Vol.67, pp.I_31-I_38, 2011.<\/span><\/li>\n
    6. Keiichi Zempo, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Direction of Arrival Estimation Based on Delayed-sum Method in Reverberation Environment, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.51, pp.07GB09_1-07GB09_8, 2012.<\/span><\/li>\n
    7. Takanobu Kuroyama, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Takeshi Ohbuchi: Evaluation of Acousto-optic Effect on Size Distribution Measurement of Oscillating Cavitation Bubbles Using Optical Spectrometer, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.51, pp.07GD04_1-07GD04_6, 2012.<\/span><\/li>\n
    8. Hideto Mitsui, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Simulation of Internal Crack Detection in Shape Distorted Cast Billets Using Time-of-flight Measurement of Longitudinal Ultrasonic Waves, <\/span>Materials Transactions<\/span><\/i>, Vol.53, No.2, pp.337-341, 2012.<\/span><\/li>\n
    9. \u5b89\u85e4\u6cf0\u96c5, \u85e4\u7530\u52d9, \u7518\u5229\u5948\u7dd2\u7f8e, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597: \u96fb\u6c17\u30a4\u30f3\u30d4\u30fc\u30c0\u30f3\u30b9\u6cd5\u3092\u7528\u3044\u308b\u7384\u7c73\u306e\u542b\u6c34\u7387\u8a08\u6e2c\u304a\u3088\u3073\u30ab\u30d3\u767a\u751f\u306e\u691c\u51fa, <\/span>\u96fb\u6c17\u5b66\u4f1a\u8ad6\u6587\u8a8cA<\/span><\/i>, Vol.133, No.12, pp.630-635, 2013.<\/span><\/li>\n
    10. Koichi Kakuma, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Defect Visualization in Billets by Time Reversal of Scattered Waves from Defects, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.54, No.7, pp.07HC10_1-07HC10_7, 2015.<\/span><\/li>\n
    11. Ryusuke Miyamoto, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Defect Detection and Size Estimation in Billet from Profile of Time-of-flight Using Ultrasonic Transmission Method with Linear Scanning, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.54, No.7, pp.07HC11_1-07HC11_6, 2015.<\/span><\/li>\n
    12. Yoko Norose, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Noise Reduction in Ultrasonic Computerized Tomography by Preprocessing for Projection Data, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.54, No.7, pp.07HC12_1-07HC12_4, 2015.<\/span><\/li>\n
    13. Ryusuke Miyamoto, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Effect of mode conversion on defect detection and size estimation in billet from time-of-flight profile by ultrasonic transmission method, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.55, No.7, pp.07KC06_1-07KC06_6, 2016.<\/span><\/li>\n
    14. Masafumi Aoyanagi, Naoto Wakatsuki, Koichi Mizutani and <\/span>Tadashi Ebihara<\/span>: Numerical analysis of piezoelectric probe for beam forming of longitudinal and shear waves, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.56, No.3, pp.036601_1-036601_13, 2017.<\/span><\/li>\n
    15. Hirokazu Iwaya, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Acoustical positioning method using transponders with adaptive signal level normalizer, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.56, No.7, pp.07JC07_1-07JC07_6, 2017.<\/span><\/li>\n
    16. Ryusuke Miyamoto, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Ultrasonic inspection method for billet using time-of-flight deviation of bottom echo and its performance evaluation in numerical simulations, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.56, No.7, pp.07JC09_1-07JC09_8, 2017.<\/span><\/li>\n
    17. Masafumi Aoyanagi, Naoto Wakatsuki, Koichi Mizutani and <\/span>Tadashi Ebihara<\/span>: Design of piezoelectric probe for measurement of longitudinal and shear components of elastic wave, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.56, No.7, pp.07JD14-1_07JD14_5, 2017.<\/span><\/li>\n
    18. \u5927\u585a\u7693\u592a\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>: \u6642\u9593\u7d4c\u904e\u306b\u3088\u308a\u52a3\u5316\u3057\u305f\u30ae\u30bf\u30fc\u5f26\u306e\u5f26\u632f\u52d5\u7279\u6027\u8a08\u6e2c, <\/span>\u65e5\u672c\u97f3\u97ff\u5b66\u4f1a\u8a8c<\/span><\/i>, Vol.73, No.7, pp.401-403, 2017<\/span><\/li>\n
    19. Hayato Udo, Hiroki Nakabayashi, Koichi Mizutani, Tadashi Ebihara, Naoto Wakatsuki, Hiroyuki Uga and Kenji Kubota: Detection of Whitefly Bodies Using Image Processing in Greenhouse Environment, The Journal of the Society of Agricultural Structures, Japan, Vol.48, No.3, pp.138-145, 2017.<\/span><\/li>\n
    20. Hiroki Nakabayashi, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Hiroyuki Uga, Kenji Kubota, Masahisa Ishii, Biotype identification of Bemisia tabaci by acoustical method, <\/span>Journal of Agricultural Informatics<\/span><\/i>, Vol.8, No.3, pp.11-22, 2017.<\/span><\/li>\n
    21. Hirokazu Iwaya, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Experimental investigation of the effect of signal reflection and coverage area on indoor acoustical positioning using transponders with adaptive signal level normalizer, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.57, No.7, pp. 07LC03-1_ 07LC03_6, 2018.<\/span><\/li>\n
    22. \u5b89\u7acb\u9686\u967d, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597, <\/span>\u6d77\u8001\u539f\u683c<\/span>: \u30d7\u30e9\u30b9\u30c1\u30c3\u30af\u5bb9\u5668\u5e95\u9762\u306b\u57cb\u3081\u8fbc\u3093\u3060\u5727\u96fb\u632f\u52d5\u5b50\u306e\u4e2d\u592e\u90e8\u306e\u632f\u52d5\u3092\u7528\u3044\u308b\u7c98\u5ea6\u8a08\u6e2c\u624b\u6cd5, <\/span>\u8fb2\u696d\u65bd\u8a2d<\/span><\/i>, Vol.49, No.4, pp.149-156, 2018.<\/span><\/li>\n
    23. Satoki Ogiso, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Robust indoor localization in a reverberant environment using microphone pairs and asynchronous acoustic beacons, <\/span>IEEE Access<\/span><\/i>, Vol.7, pp.123116-123127, 2019.<\/span><\/li>\n
    24. \u571f\u5c4b\u5145\u5fd7, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597, <\/span>\u6d77\u8001\u539f\u683c<\/span>: \u5730\u4e0b\u74b0\u5883\u306b\u304a\u3051\u308b\u70b9\u691c\u30ed\u30dc\u30c3\u30c8\u306e\u305f\u3081\u306e\u97f3\u97ff\u53cd\u5c04\u3092\u5229\u7528\u3057\u305f\u81ea\u5df1\u4f4d\u7f6e\u63a8\u5b9a\u6cd5, \u571f\u6728\u5b66\u4f1a\u8ad6\u6587\u96c6F3\uff08\u571f\u6728\u60c5\u5831\u5b66\uff09, Vol. 77, No. 2, pp.I_89-I_96, 2021.<\/span><\/li>\n
    25. Kazuma Tajima, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: An efficient subcarrier arrangement for airborne OFDM communication using parametric loudspeaker, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.60, pp.SDDB07_1\u2013SDDB07_10, 2021.<\/span><\/li>\n
    26. Takayuki Kawamura, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Keiichi Zempo: EYEDi: Graphical Authentication Scheme of Estimating Your Encodable Distorted Images to Prevent Screenshot Attacks, <\/span>IEEE Access<\/span><\/i>, Vol.10, pp.2256-2268, 2022. <\/span>https:\/\/doi.org\/10.1109\/ACCESS.2021.3138093<\/span><\/a>\u00a0<\/span><\/li>\n
    27. Atsushi Tsuchiya, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Keiichi Zempo and Koichi Mizutani: Indoor self-localization using multipath arrival time measured by a single acoustic ranging sensor, Japanese Journal of Applied Physics, Vol.61, pp.SG1037_1-SG1037_8, 2022. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ac506c<\/span><\/a>\u00a0<\/span><\/li>\n
    28. Takeru Doi, Ryusuke Miyamoto, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Transmission detection of internal defect in billet using shear ultrasonic waves, Japanese Journal of Applied Physics, Vol.61, pp.SG1039_1-SG1039_7, 2022. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ac5068<\/span><\/a><\/li>\n
    29. Ryusuke Miyamoto, Takeru Doi, Koichi Mizutani, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Seiji Akiyama: Detection of fish passing through a narrow path using reflected and transmitted ultrasonic waves, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.62, pp.SJ1047_1-SJ1047_6, 2023. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/acc4ce<\/span><\/a><\/li>\n
    30. Noko Kuratomo, Haruka Miyakawa, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Koichi Mizutani and Keiichi Zempo: Attracting Effect of Pinpoint Auditory Glimpse on Digital Signage, <\/span>IEEE Access<\/span><\/i>, Vol.11, pp.42779-42794, 2023. <\/span>https:\/\/doi.org\/10.1109\/ACCESS.2023.3270909<\/span><\/a><\/li>\n
    31. \u4eca\u6cc9\u745b\uff0c\u524d\u7530\u7950\u4f73\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff1a\u4fe1\u53f7\u54c1\u8cea\u5206\u985e\u304a\u3088\u3073\u4e8c\u6ce2\u9577\u306e\u5149\u96fb\u5bb9\u7a4d\u8108\u6ce2\u30bb\u30f3\u30b5\u3092\u7528\u3044\u308b\u4f53\u52d5\u30ce\u30a4\u30ba\u9664\u53bb\u624b\u6cd5\u306e\u958b\u767a\uff0c\u30e9\u30a4\u30d5\u30b5\u30dd\u30fc\u30c8\uff0cVol.36, No.2, pp.49-57, 2024.<\/span><\/li>\n
    32. Ryusuke Miyamoto, Koichi Mizutani, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Seiji Akiyama: Detection of free-swimming fish passing through a narrow passage using MHz-band ultrasonic reflected and transmitted waves, <\/span>Japanese Journal of Applied Physics<\/span><\/i>, Vol.63, No. pp.05SP11_1-05SP11_9, 2024. <\/span>https:\/\/doi.org\/10.35848\/1347-4065\/ad3e03<\/span><\/a><\/li>\n
    33. Atsushi Tsuchiya, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Keiichi Zempo and Koichi Mizutani: Self-localization method using a single acoustic ranging sensor based on impulse response and Doppler effect, <\/span>IEEE Journal of Indoor and Seamless Positioning and Navigation<\/span><\/i>, Vol.2, pp.193-204 2024. <\/span>https:\/\/ieeexplore.ieee.org\/document\/10535727<\/span><\/a>\u00a0<\/span><\/li>\n
    34. Etsuki Onodera, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Yuka Maeda: Alaryngeal speech system and controller for flexible vocalization, <\/span>Acoustical Science and Technology<\/span><\/i>, Vol.46, No.4, pp.361-364, 2025. <\/span>https:\/\/doi.org\/10.1250\/ast.e25.05<\/span><\/a><\/li>\n
    35. Yunosuke Kozumi, Manabu Dohi, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Basic Study on Fire Detection Using Air Temperature Monitoring with an Ultrasonic Probe, <\/span>Journal of Signal Processing<\/span><\/i> , Vol.30, No.1, pp.23-32, 2026. <\/span>https:\/\/doi.org\/10.2299\/jsp.30.23<\/span><\/a><\/li>\n
    36. Ryusuke Miyamoto, Koichi Mizutani, Naoto Wakatsuki and Tadashi Ebihara<\/span>: Simulation and experimental study of multiple defect detection in billet from time-of-flight profile by transmission method with linear scanning, <\/span>Acoustical Science and Technology<\/span><\/i>, Vol.47, No.2, pp.163-172, 2026. <\/span>https:\/\/doi.org\/10.1250\/ast.e25.35<\/span><\/a><\/li>\n<\/ol>\n
      International Conference<\/h5>\n
        \n
      1. Tadashi Ebihara<\/span>, Keiichi Mizutani, Kojiro Nishimiya, Koichi Mizutani and Naoto Wakatsuki: Underwater Ultrasonic Ranging by Digital Signal Multiplexing with Hadamard Matrix, <\/span>2009 IEEE International Ultrasonics Symposium<\/span><\/i> (DVD-ROM), Rome, Italy, 4 pages, 2009.<\/span><\/li>\n
      2. Tadashi Ebihara<\/span>, Hideto Mitsui, Takeshi Ohbuchi, Naoto Wakatsuki and Koichi Mizutani: Effect of Guard-time Inserted Phase Shift Keying Modulation for Ultrasonic Digital Testing, <\/span>The 13th Asia-Pacific Conference on Non-Destructive Testing<\/span><\/i>, Yokohama, Japan, p.62, 2009.<\/span><\/li>\n
      3. Tadashi Ebihara<\/span> and Koichi Mizutani: Performance Evaluation of Acoustic Anti-Multipath Modems for Ubiquitous Computing, <\/span>Proceedings of the 17th International Congress on Sound and Vibration (ICSV17)<\/span><\/i>, Cairo, Egypt, CD-ROM, 8 pages, 2010.<\/span><\/li>\n
      4. Tadashi Ebihara<\/span>, Yoko Norose, Hideto Mitsui and Koichi Mizutani: Defect Detection in Square Billet Using Phase-information of Longitudinal Waves, Poland, <\/span>Acoustical Imaging<\/span><\/i>, vol.31, pp.413-421, 2011.<\/span><\/li>\n
      5. Tadashi Ebihara<\/span> and Koichi Mizutani: Evaluation of Underwater Acoustic Communication with an Orthogonal Signal Division Multiplexing in Test-tank, <\/span>Proceedings of the Pacific Rim Underwater Acoustic Conference (PRUAC) 2011<\/span><\/i>, 5-7 October, 2011, Jeju, Korea, pp.57-60, 2011.<\/span><\/li>\n
      6. Tadashi Ebihara<\/span>: Multichannel Underwater Acoustic Communication with Orthogonal Signal Division Multiplexing on Moving Platform, <\/span>Proceedings of the 19th International Congress on Sound & Vibration (ICSV19)<\/span><\/i>, Vilnius, Lithuania, CD-ROM, 8 pages, 2012.<\/span><\/li>\n
      7. Naoki Shinmen, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Software-based Modem for Near Field Acoustic Communication, <\/span>Proceedings of the 1st IEEE Global Conference on Consumer Electronics (GCCE2012)<\/span><\/i>, Tokyo, Japan, pp.152-155 , 2012.<\/span><\/li>\n
      8. Tadashi Ebihara<\/span>: Single-stream Communication Using Orthogonal Signal Division Multiplexing with Multiple Antennas, <\/span>Proceedings of PIERS 2013<\/span><\/i>, Taipei, Taiwan, pp.113-116, 2013.<\/span><\/li>\n
      9. Tadashi Ebihara<\/span>: Hydrophone Array-assisted Doppler Spread Compensation for Underwater Acoustic Communication, <\/span>Proceedings of the 2013 MTS\/IEEE OCEANS<\/span><\/i>, Bergen, Norway, CD-ROM, 130114-012, 6 pages, 2013.<\/span><\/li>\n
      10. Yusuke Chiba, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Evaluation of Brick Deterioration Using Ultrasonic Probe, <\/span>Proceedings of the 20th International Congress on Sound & Vibration (ICSV20)<\/span><\/i>, Bangkok, Thailand, CD-ROM, R45-563, 8 pages, 2013.<\/span><\/li>\n
      11. Naoki Shinmen, Takuya Aoki, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: Software Modem for Near Field Acoustic Communication with Antenna Diversity Technique, <\/span>Proceeding of the 2nd IEEE Global Conference on Consumer Electronics (GCCE2013)<\/span><\/i>, Tokyo, Japan, pp.106-108, 2013.<\/span><\/li>\n
      12. Tadashi Ebihara<\/span> and Geert Leus: Underwater Acoustic Communication Using Doppler-Resilient Orthogonal Signal Division Multiplexing, <\/span>Proceedings of the 2014 MTS\/IEEE OCEANS<\/span><\/i>, Taipei, Taiwan, CD-ROM, 2.8.5-1, 4 pages, 2014.<\/span><\/li>\n
      13. Yosuke Saito, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Study on Increasing Efficiency of Radio Communication Using Tunable Antenna and Software-Defined Radio, <\/span>Proceedings of the 2014 European Microwave Week (EuMW2014)<\/span><\/i>, Rome, Italy, pp.151-154, 2014.<\/span><\/li>\n
      14. Yoshihito Imai, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: High-speed Visible Light Communication with Image Sensor of the Low Frame Rate and Polygon Mirror, <\/span>Proceeding of the 3rd IEEE Global Conference on Consumer Electronics (IEEE GCCE 2014)<\/span><\/i>, Tokyo, Japan, CFP14GCB-USB, DEM-2.6, pp.434-438, 2014.<\/span><\/li>\n
      15. Eisuke Nakata, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Mobile Robotic Access Point for Transitional Optimization of Wireless Access Point Positioning, <\/span>Proceeding of the 3rd IEEE Global Conference on Consumer Electronics (IEEE GCCE 2014)<\/span><\/i>, Tokyo, Japan, CFP14GCB-USB, DEM-2.7 pp.439-441, 2014.<\/span><\/li>\n
      16. Nozomi Yamada, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Performance of Sound Masking System for Mobile Phone Using Comb-shape Noise, <\/span>Proceedings of the 22nd International Congress on Sound and Vibration (ICSV22)<\/span><\/i>, Florence, Italy, CD-ROM, T10.RS06-0081, 7 pages, 2015.<\/span><\/li>\n
      17. Makoto Ogihara, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Wireless Power and Data Transfer System for Station-based Autonomous Underwater Vehicles, <\/span>Proceedings of the 2015 MTS\/IEEE OCEANS<\/span><\/i>, Washington DC, United States, CD-ROM, 2.8.5-1(5 pages), 2015.<\/span><\/li>\n
      18. Yoshihito Imai, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Performance Evaluation of High-Speed Visible Light Communication Combining Low-Speed Image Sensor and Polygon Mirror in an Outdoor Environment, <\/span>Proceedings of the 8th International Conference on Ubiquitous and Future Networks (ICUFN)<\/span><\/i>, Vienna, Austria, USB, 1C-3, pp.51-55, 2016.<\/span><\/li>\n
      19. Yusuke Chiba, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Love Wave Propagation Along Viscoelastic Surface Layer on Elastic Half-space Substrate, <\/span>Proceedings of the 23rd International Congress on Sound & Vibration (ICSV22)<\/span><\/i>, Athens, Greece, CD-ROM, 425 (8 pages), 2016.<\/span><\/li>\n
      20. Tadashi Ebihara<\/span> and Hanako Ogasawara: Underwater Acoustic Communication Using Doppler-Resilient Orthogonal Signal Division Multiplexing with Time Diversity, <\/span>Proceedings of the 2017 MTS\/IEEE OCEANS<\/span><\/i>, Aberdeen, United Kingdom, CD-ROM, 161130-133, 9 pages, 2017.<\/span><\/li>\n
      21. Yusuke Umezawa, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Detection of individual vehicles approaching for pedestrians using digital modulated warning sounds, <\/span>Proceedings of the 2017 IEEE 6<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Nagoya, Japan (6 pages), 2017.<\/span><\/li>\n
      22. Saki Nishihara, Naoki Shinmen, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Design of secure near-field communication for smartphones using sound and vibration, <\/span>Proceedings of the 2017 IEEE 6<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Nagoya, Japan (4 pages), 2017.<\/span><\/li>\n
      23. Ryunosuke Kurimoto, Yoshihito Imai, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Design of efficient and compact visible light communication using low-speed image sensor and MEMS mirror, <\/span>Proceedings of the 2017 IEEE 6<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Nagoya, Japan (4 pages), 2017.<\/span><\/li>\n
      24. Tadashi Ebihara<\/span>, Geert Leus and Hanako Ogasawara: Underwater Acoustic Communication Using Multiple-input Multiple-output Doppler-resilient Orthogonal Signal Division Multiplexing,<\/span> Proceedings of the 2018 MTS\/IEEE OCEANS<\/span><\/i>, Kobe, Japan, CD-ROM, 161130-133, 4 pages, 2018. https:\/\/doi.org\/10.1109\/OCEANSKOBE.2018.8559404\u00a0<\/span><\/li>\n
      25. Saki Nishihara, Takuya Aoki, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Software Modem for Secure Near-field Communication for Smartphones Using Sound and Vibration, <\/span>Proceedings of the 11th IPSJ International Conference on Mobile Computing and Ubiquitous Networking (ICMU2018)<\/span><\/i>, Poster\/Demo-6, Auckland, New Zealand (2 pages), 2018.<\/span><\/li>\n
      26. Haruka Iiyama, Ryunosuke Kurimoto, Yoshihito Imai, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Design of Compact and Vibration Resistant Receiver for Visible Light Communication Using MEMS mirror, <\/span>Proceedings of the 2018 IEEE 7<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Nara, Japan (4 pages), 2018. https:\/\/doi.org\/10.1109\/GCCE.2018.8574700.<\/span><\/li>\n
      27. Riku Fukuda, Ryunosuke Iwaoka, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki and Keiichi Zempo: Acoustic Beacon for Smartphones to Support Optimum Wi-Fi Spot Connection, <\/span>Proceedings of the 2018 IEEE 7<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Nara, Japan (4 pages), 2018.<\/span><\/li>\n
      28. Yasuhiko Nishijima, Ryusuke Miyamoto, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Kenji Kubota, Hiroyuki Uga and Masahisa Ishii: Monitoring System of Mating Behavior and Acoustic Communication of Bemisia Tabaci, <\/span>2018 ESA, ESC and ESBC Joint Annual Meeting (Entomology 2018)<\/span><\/i>, D3080, Vancouver, Canada, 12 November 2018.<\/span><\/li>\n
      29. Akifumi Goto, Misaki Mito, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki, Nobuhiro Takemae and Takehiko Saito: Sound Source Localization in Pig Houses Using Wireless Microphone Array and Its Accuracy by Microphone Arrangements, <\/span>Proceedings of 13th Commission Internationale du G\u00e9nie Rural VI<\/span><\/i>, 6-1130-P-15 (9 pages), 2019.<\/span><\/li>\n
      30. Yasuhiko Nishijima, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Kenji Kubota and Hiroyuki Uga: Behavioral Study of Vibrational Sensitivity in Whitefly, <\/span>Proceedings of 13th Commission Internationale du G\u00e9nie Rural VI<\/span><\/i>, 6-1130-P-16 (5 pages), 2019.\u00a0<\/span><\/li>\n
      31. Ryunosuke Kurimoto, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Visible Light Communication System Using Low-speed Image Sensor and Two-dimensional Optical Scanner, Proceedings of the\u300013th International Conference on Signal Processing and Communication Systems, Surfers Paradise, Gold Coast, Australia, pp.555-560, 2019.<\/span><\/li>\n
      32. Ritsuki Hamagami, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Underwater Visible Light Communication Using Phase-Shift Keying and Rolling-shutter Effect, <\/span>Proceedings of the 2020 IEEE 9<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Kobe, Japan, pp.842-843, 2020. https:\/\/doi.org\/10.1109\/GCCE50665.2020.9291709 (Acceptance rate: 71%)<\/span><\/li>\n
      33. Tadashi Ebihara<\/span>, Yushi Tabata, Hanako Ogasawara, Koichi Mizutani and Naoto Wakatsuki: Field testing of underwater acoustic communication using orthogonal signal division multiplexing with time diversity, <\/span>Proceedings of the 27th International Congress on Sound and Vibration (ICSV27)<\/span><\/i>, Prague, Czech, CD-ROM, 8 pages, 2021.<\/span><\/li>\n
      34. Ritsuki Hamagami, Tadashi Ebihara, Yuka Maeda, Koichi Mizutani and Naoto Wakatsuki: Rolling-Shutter Sensor-Based Visible Light Communication with Cross-Screen Filter: Communication and Positioning System Using a Commercial Camera, <\/span>Proceedings of the 2021 IEEE 10<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Kyoto, Japan, pp.386-390, 2021. <\/span>https:\/\/doi.org\/10.1109\/GCCE53005.2021.9621902<\/span><\/a>.<\/span><\/li>\n
      35. Fumina Utsumi, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: Recording Sounds of <\/span>Bemicia Tabaci<\/span><\/i> on an Artificial Leaf, <\/span>Proc. Appl. Info. Tech. Agri. Asia-pacific Region (APFITA 2022)<\/span><\/i>, pp.54-57, 2022.<\/span><\/li>\n
      36. Hiroki Ichikura, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Individual Posture Estimation of Swine from Piggery Videos Using Transfer Learning, <\/span>Proc. Appl. Info. Tech. Agri. Asia-pacific Region (APFITA 2022)<\/span><\/i>, pp.64-68, 2022.<\/span><\/li>\n
      37. Hirotaka Obo, <\/span>Tadashi Ebihara<\/span>, Yuka Maeda, Naoto Wakatsuki and Koichi Mizutani: Detection of Whiteflies and Veins on Leaves by Capturing Image Under Controlled Lightning, <\/span>Proc. Appl. Info. Tech. Agri. Asia-pacific Region (APFITA 2022)<\/span><\/i>, pp.116-121, 2022.<\/span><\/li>\n
      38. Naomasa Urasaki, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki and Kenji Kubota: Stable Observation of Whiteflies Using Artificial Leaf, <\/span>Proc. Appl. Info. Tech. Agri. Asia-pacific Region (APFITA 2022)<\/span><\/i>, pp.318-322, 2022.<\/span><\/li>\n
      39. Ryosuke Izumi, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Study on Visible Light Communication\u00a0 System\u00a0 Using\u00a0 Low-Speed\u00a0 Camera\u00a0 and\u00a0 Circular\u00a0 Scanning, <\/span>\u00a0Proc. Int.\u00a0 Conf. Emerging Tech. Commun. (ICETC2022)<\/span><\/i>, 2022. <\/span>https:\/\/doi.org\/10.34385\/proc.72.S9-6<\/span><\/a>\u00a0<\/span><\/li>\n
      40. Reo Okawara, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Keiichi Zempo and Koichi Mizutani: Smartphone Camera-Based Indoor Positioning System Utilizing Optical Diffusion Filter, <\/span>Proc. Int.\u00a0 Conf. Emerging Tech. Commun. (ICETC2022)<\/span><\/i>, 2022. <\/span>https:\/\/doi.org\/10.34385\/proc.72.S9-7<\/span><\/a>\u00a0<\/span><\/li>\n
      41. Ryotaro Chinone, <\/span>Tadashi Ebihara<\/span>, Yuji Sato, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Simulation of Underwater Acoustic Communication Using a Directional Transducer Consisting of Multiple Reflectors, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2023)<\/span><\/i>, pp.229-232, 2023.<\/span><\/li>\n
      42. Takuya Waki, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Keiichi Zempo and Koichi Mizutani: Measurement of Delay and Doppler Spreads in Shallow Water Environment for Mobile Underwater Acoustic Communication, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2023)<\/span><\/i>, pp.233-236, 2023.<\/span><\/li>\n
      43. Tohru Yoshihara, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Trial Experiment of Positioning of Underwater Backhoe Using Time-of-flight of Acoustic Signal Group and Database Matching for Realization of Unmanned and Remote Underwater Construction, <\/span>Proc. Int. Symp. Underwater Tech. (UT23)<\/span><\/i>, pp.263-267, 2023. <\/span>https:\/\/doi.org\/10.1109\/UT49729.2023.10103442<\/span><\/a>\u00a0<\/span><\/li>\n
      44. Tadashi Ebihara<\/span>, Naoto Wakatsuki, Koichi Mizutani and Riku Fukuda: Modulation and Demodulation Techniques for Indoor Acoustic Communications Using Parametric Loudspeaker, <\/span>Proc. Symp. Nonlinear Dynamics Design Mech. Syst. Across Diff. Length\/time Scales (IUTAM)<\/span><\/i>, 2-pages, 2023.<\/span><\/li>\n
      45. Reo Okawara, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Keiichi Zempo and Koichi Mizutani: Study on a Visible Light Communication and Positioning System Utilizing an Optical Diffusion Filter and Rolling Shutter Sensor, <\/span>Proceedings of the 13th International Conference on Indoor Positioning and Indoor Navigation (IPIN)<\/span><\/i>, 6-pages, 2023. <\/span>https:\/\/doi.org\/10.1109\/IPIN57070.2023.10332543<\/span><\/a>\u00a0\u00a0<\/span><\/li>\n
      46. Yuki Fujita, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda, Koichi Mizutani: Acoustic probe for temperature measurement suitable for operation with audio interfaces having random input\/output delays, <\/span>J. Acoust. Soc. Am.<\/span><\/i> Vol.154, A285, 2023. <\/span>https:\/\/doi.org\/10.1121\/10.0023539<\/span><\/a><\/li>\n
      47. Naomasa Urasaki, Masatoshi Yano, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Performance Evaluation of Orthogonal Signal Division Multiplexing Schemes with Large Delay and Doppler Spread in Underwater Acoustic Communication Channel, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2024)<\/span><\/i>, pp.180-183, 2024.<\/span><\/li>\n
      48. Taiga Saito, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Measurement of Impulse Response in an Underwater Acoustic Channel in Shallow Water, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2024)<\/span><\/i>, pp.226-229, 2024.<\/span><\/li>\n
      49. Emi Kitano, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Experiment of Underwater Optical Camera Communication System Under Sunlight Condition Using Rolling-Shutter Sensor and Diffusion Filter, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2024)<\/span><\/i>, pp.287-290, 2024.<\/span><\/li>\n
      50. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Performance Improvement of Underwater Acoustic Communication and Ranging System Using Orthogonal Signal Division Multiplexing, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2024)<\/span><\/i>, pp.287-290, 2024.<\/span><\/li>\n
      51. Hiroki Ichikura, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: Analysis of the Effectiveness of Skeletal Data in Individual Pig Behavior, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2024)<\/span><\/i>, pp.333-336, 2024.<\/span><\/li>\n
      52. Fumina Utsumi, Hirotaka Obo, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Recording and Analysis of Emitting Sounds of Whiteflies on Paraffin Membrane Using a High-Density Microphone Array, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2024)<\/span><\/i>, pp.470-473, 2024.<\/span><\/li>\n
      53. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Reduced-complexity Underwater Acoustic Communication Using MIMO Orthogonal Signal Division Multiplexing with BPDN, <\/span>Proceedings of the 2024 MTS\/IEEE OCEANS<\/span><\/i>, Harifax, Canada, 5 pages, 2024. (acceptance rate: 66%) <\/span>https:\/\/doi.org\/10.1109\/OCEANS55160.2024.10754429<\/span><\/a>\u00a0<\/span><\/li>\n
      54. Taiga Saito, Atsushi Tsuchiya, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Keiichi Zempo: Design of Underwater Acoustic Positioning System Using Delay-And-Sum Beamforming, <\/span>Proc. 2024 IEEE 13th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, pp.438-441, 2024. <\/span>https:\/\/doi.org\/10.1109\/GCCE62371.2024.10760443<\/span><\/a>\u00a0<\/span><\/li>\n
      55. Ryoichi Ishijima, Atsushi Tsuchiya, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: Simultaneous Underwater Acoustic Communication and Positioning Using Orthogonal Signal Division Multiplexing in Coastal Area, <\/span>Proc. 2024 IEEE 13th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, pp.442-446, 2024. <\/span>https:\/\/doi.org\/10.1109\/GCCE62371.2024.10760440<\/span><\/a>\u00a0<\/span><\/li>\n
      56. Keisuke Nakamura, Tadashi Ebihara, and Naoto Wakatsuki: Faster Doppler Correction Based on Multi-Rate Signal Processing for Underwater Acoustic Communications Using Doppler-Resilient Orthogonal Signal Division Multiplexing, <\/span>Proc. RISP Int. Workshop Nonlinear Circuits, Commun. Sig. Process. (NCSP2025)<\/span><\/i>, pp.348-351, 2025.<\/span><\/li>\n
      57. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Efficient Parameter Determination for BPDN in Underwater Acoustic MIMO-OSDM Communications Using Stein\u2019s Unbiased Risk Estimate, Proc. 2025 IEEE International Symposium on underwater Technology (UT25), 152, 9-pages, 2025.<\/span><\/li>\n
      58. Emi Kitano, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: Robust Underwater Positioning System Using LED Markers and Perspective-n-Point Solver, Proc. 2025 IEEE International Symposium on underwater Technology (UT25), 151, 6-pages, 2025.<\/span><\/li>\n
      59. Tohru Yoshihara and <\/span>Tadashi Ebihara<\/span>, Real-Time Distance Measurement Between Structures in Breakwater Construction Using a Multipath-Resistant Underwater Acoustic Positioning System, Proc. 2025 IEEE International Symposium on underwater Technology (UT25), 125, 6-pages, 2025.<\/span><\/li>\n
      60. Atsushi Tsuchiya, Tadashi Ebihara, Naoto Wakatsuki and Tohru Yoshihara: Velocity Estimation of an Underwater Vehicle Using Doppler Shift of Positioning Signals, Proc. 2025 IEEE International Symposium on underwater Technology (UT25), 125, 6-pages, 2025. <\/span>https:\/\/doi.org\/10.1109\/UT61067.2025.10947408<\/span><\/a><\/li>\n
      61. Tohru Yoshihara and <\/span>Tadashi Ebihara<\/span>: Measurement of the Position and Rotation of an Underwater Construction Robot Using a Multichannel Underwater Acoustic Positioning System, <\/span>Proceedings of the 2025 MTS\/IEEE OCEANS<\/span><\/i>, Brest, France, 5 pages, 2025.<\/span>https:\/\/doi.org\/10.1109\/OCEANS58557.2025.11104506<\/span><\/a><\/li>\n
      62. Junnosuke Yoshita, Masatoshi Yano, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: Basic Study on Adaptive Orthogonal Signal Division Multiplexing for Improving Effective Data Rate in Underwater Acoustic Communication, Proc. 2025 IEEE 14th Global Conference on Consumer Electronics (GCCE), pp.181-185, 2025. <\/span>https:\/\/doi.org\/10.1109\/GCCE65946.2025.11274778<\/span><\/a>\u00a0<\/span><\/li>\n
      63. Kodai Ono, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Atsushi Tsuchiya, Yuji Sato and Tohru Yoshihara: Basic Study on Wave Propagation Simulation with Sound Velocity Distribution for Underwater Acoustic Positioning, Proc. 2025 IEEE 14th Global Conference on Consumer Electronics (GCCE), pp.186-190, 2025. <\/span>https:\/\/doi.org\/10.1109\/GCCE65946.2025.11274912<\/span><\/a>\u00a0<\/span><\/li>\n
      64. Taisei Kiriyama, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Atsushi Tsuchiya and Tohru Yoshihara: Basic Study on Underwater Acoustic Positioning Using Multiple Acoustic Beacons with Database Matching, Proc. 2025 IEEE 14th Global Conference on Consumer Electronics (GCCE), pp.191-195, 2025. <\/span>https:\/\/doi.org\/10.1109\/GCCE65946.2025.11275202<\/span><\/a>\u00a0<\/span><\/li>\n
      65. Fumihiko Kurosawa, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Evaluating the Effectiveness of Adding Support Structures to 3D-Printed Oboe Reeds, Proc. 2025 IEEE 14th Global Conference on Consumer Electronics (GCCE), pp.1329-1333, 2025. <\/span>https:\/\/doi.org\/10.1109\/GCCE65946.2025.11275015<\/span><\/a>\u00a0<\/span><\/li>\n
      66. Daiki Hiraishi, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Yuka Maeda: Timpani Tuning Support System Using Mobile Devices, Proc. 2025 IEEE 14th Global Conference on Consumer Electronics (GCCE), pp.1334-1338, 2025. <\/span>https:\/\/doi.org\/10.1109\/GCCE65946.2025.11274887<\/span><\/a>\u00a0<\/span><\/li>\n
      67. Taiga Saito, <\/span>Tadashi Ebihara<\/span>, Atsushi Tsuchiya, Yuji Sato, Naoto Wakatsuki and Keiichi Zempo: Improving the Accuracy of Direction-of-arrival Estimation for Underwater Acoustic Signals Using a Semi-Circular Array and Wall Reflections, Proceedings of the 2025 IEEE SENSORS, Vancouver, Canada, 4-pages 2025. https:\/\/doi.org\/10.1109\/SENSORS59705.2025.11330293<\/span><\/li>\n
      68. Emi Kitano, Tadashi Ebihara, Naoto Wakatsuki and Yuka Maeda: Design of Wide-Area Optical Camera Communication System with Fisheye Lens and Diffusion Filter, Proceedings of the 2025 IEEE SENSORS, Vancouver, Canada, 4-pages 2025. https:\/\/doi.org\/10.1109\/SENSORS59705.2025.11330870<\/a><\/li>\n<\/ol>\n
        International Conference\uff08Acoustics Laboratory Group)<\/h5>\n
          \n
        1. Naoki Suehiro, Rongzhen Jin, <\/span>Tadashi Ebihara<\/span> and Chenggao Han: Increasing of Wireless Frequency Usage Efficiency Using Orthogonal Signal Division Multiplexing with Multiple Antennas, <\/span>Proceedings of Third International Workshop on Signal Design and its Applications in Communications<\/span><\/i>, IEEE Press, Chengdu, China, pp.295-298, 2007.<\/span><\/li>\n
        2. Takeshi Ohbuchi, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki and Hiroyuki Masuyama: Determination of Sound Velocity Distribution Using Sectional Near-field Acoustical Holography and Simulated Annealing, <\/span>2009 IEEE International Ultrasonics Symposium<\/span><\/i> (DVD-ROM), Rome, Italy, 4 pages, 2009.<\/span><\/li>\n
        3. Hideto Mitsui, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Detection of Cracks in Distorted Billets Using Time of Flight of Longitudinal Waves, <\/span>The 13th Asia-Pacific Conference on Non-Destructive Testing<\/span><\/i>, Yokohama, Japan, p.227, 2009.<\/span><\/li>\n
        4. Keiichi Zempo, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Separation of Direct and Reflected Sound Source Directions Using Array of Small Number of Microphones, <\/span>Proceedings of the 18th International Congress on Sound & Vibration (ICSV18)<\/span><\/i>, Rio de Janeiro, Brazil, R42-2193, 8 pages, 2011.<\/span><\/li>\n
        5. Takanobu Kuroyama, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Takeshi Ohbuchi: Measurement of Density and Size Distribution of Oscillating Cavitation Bubbles Using Optical Spectrometer, <\/span>Proceedings of the Acoustics 2012 Hong Kong<\/span><\/i>, Hong Kong, China, 3aPA8, S223, 6 pages, 2012.<\/span><\/li>\n
        6. Hiroki Nakabayashi, Takuji Kawagishi, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Hiroyuki Uga and Kenji Kubora: Observation of Acoustical Behavior of Whitefly Colony, <\/span>Proceedings of the 7th International Conference on Sustainable Agriculture for Food, Energy and Industry in Regional and Global Context (ICSAFEI2015)<\/span><\/i>, Kuala Lumpur, Malaysia, CD-ROM, ICSAFEI-132, 8 pages, 2015.<\/span><\/li>\n
        7. Takuji Kawagishi, Koichi Mizutani, Keiichi Zempo, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Monitoring of Swine Sneezing Using Multi Templates Matching for Detecting Respiratory Tract Infection, <\/span>Proceedings of the 7th International Conference on Sustainable Agriculture for Food, Energy and Industry in Regional and Global Context (ICSAFEI2015)<\/span><\/i>, Kuala Lumpur, Malaysia, CD-ROM, ICSAFEI-134, 7 pages, 2015.<\/span><\/li>\n
        8. Koichi Kakuma, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Visualization of defects in high-attenuation billet using back propagation of scattered waves, <\/span>Proceedings of the 2015 IEEE International Ultrasonics Symposium (IUS)<\/span><\/i>, Taipei, Taiwan, CD-ROM, P2B1-2(4 pages), 2015.<\/span><\/li>\n
        9. Hiroki Nakabayashi, Takuji Kawagishi, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Hiroyuki Uga and Kenji Kubota: Observation of Acoustical Behavior of Some Biotypes of <\/span>BEMISIA TABACI<\/span><\/i>, <\/span>Proceedings of the International Conference on Agricultural Engineering CIGR-AgEng 2016<\/span><\/i>, Session 7.1-2 (5 pages), 2016.<\/span><\/li>\n
        10. Hayato Udo, Hiroki Nakabayashi, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Hiroyuki Uga and Kenji Kubota: Study on Detection of Whitefly Bodies and Pairs Using Image Processing, <\/span>Proceedings of the International Conference on Agricultural Engineering CIGR-AgEng 2016<\/span><\/i>, Session 7.1-1 (7 pages), 2016.<\/span><\/li>\n
        11. Ryusuke Miyamoto, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Ultrasonic Defect Detection in Billet Using Time-of-flight of Bottom Echo, <\/span>Proceedings of the 23rd International Congress on Sound & Vibration (ICSV22)<\/span><\/i>, Athens, Greece, CD-ROM, 526 (5 pages), 2016.<\/span><\/li>\n
        12. Takahiro Adachi, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Viscosity Sensor for Nursing Care Meal Using Piezoelectric Resonator in Radial Mode, <\/span>Proceedings of 2016 IEEE 5th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Student Award Session 5 (SAW 5), pp. 12-14, 2016.<\/span><\/li>\n
        13. Hiroki Nakabayashi, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Hiroyuki Uga and Kenji Kubota: Biotype identification of bemisia tabaci by acoustical method, <\/span>Conference Proceedings of the 2017 EFITA WCCA Congress<\/span><\/i>, Montpellier, France, Paper 85, pp.163-164, 2017.<\/span><\/li>\n
        14. Ryusuke Miyamoto, Yasuhiko Nishijima, Hiroki Nakabayashi, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Hiroyuki Uga and Kenji Kubota: Simultaneous video and sound acquisition system for detecting and monitoring greenhouse environments, <\/span>Conference Proceedings of the 2017 EFITA WCCA Congress<\/span><\/i>, Montpellier, France, Paper 17, pp.19-20, 2017.<\/span><\/li>\n
        15. Noriyuki Sakai, Keiichi Zempo, Takeshi Kurata, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani, Naoto Wakatsuki and Ryosuke Ichikari: Development of IR Marker Positioning System, <\/span>Proceedings of 8th International Conference on Indoor Positioning and Indoor Navigation<\/span><\/i>, 231-WIP, 4-pages, 2017.<\/span><\/li>\n
        16. Naoto Wakatsuki, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span>, Haruo Kinoshita and Ayaka Fujii: Inclined Sound Wave Field Generated by Acoustic Radiator Panel for Auditory Guiding System, <\/span>Proceedings of the 25th International Congress on Sound and Vibration (ICSV25)<\/span><\/i>, Hiroshima, Japan, USB distribution, T11-RS1-1021 (5 pages) (11 July, 2017). (ISSN 2329-3675, ISBN 978-83-7880-552-6)<\/span><\/li>\n
        17. Hirokazu Iwaya, Satoki Ogiso, Koichi Mizutani, <\/span>Tadashi Ebihara<\/span> and Naoto Wakatsuki: Effect of Movement on Positioning Accuracy in a Transponder-based Acoustical Positioning, <\/span>Journal of Physics: Conference Series<\/span><\/i>, vol.1075, 012025 (6 pages), 2017.<\/span><\/li>\n
        18. Satoki Ogiso, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Evaluation of Time-Difference-of-Arrival Error of Acoustic Beacons Caused by Velocity of Microphone Array, <\/span>Journal of Physics: Conference Series<\/span><\/i>, vol.1075, 012046 (7 pages), 2017.<\/span><\/li>\n
        19. Ryusuke Miyamoto, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Defect Detection in Billet Using Plane-Wave and Time-of-Flight Deviation with Transmission Method, <\/span>Proceedings of the 2018 IEEE International Ultrasonics Symposium (IUS)<\/span><\/i>, Kobe, Japan, CD-ROM, P2-A8-3(4 pages), 2018.<\/span><\/li>\n
        20. Satoki Ogiso, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Robust Localization of Mobile Robot in Reverberant Rooms Using Acoustic Beacons with Iterative Bayesian Filtering, <\/span>Proceedings of the International Conference on Indoor Positioning and Indoor Navigation, IPIN 2018<\/span><\/i>, Nantes, France, 24-27 September 2018.<\/span><\/li>\n
        21. Atsushi Tsuchiya, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: Estimation of Distance to Wall Surface using Omnidirectional Speaker, <\/span>Proceedings of the 2019 IEEE 8<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Osaka, Japan, pp.1168-1171, 2019. https:\/\/doi.org\/10.1109\/GCCE46687.2019.9015286.<\/span><\/li>\n
        22. Takuya Aoki, Naoto Wakatsuki, Koichi Mizutani and <\/span>Tadashi Ebihara<\/span>: Sound Source Visualization System in Reflective Environment Using Time-Reversal Wave, <\/span>Proceedings of the 2019 IEEE 8<\/span><\/i>th<\/span><\/i> Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, Osaka, Japan, pp.307-310, 2019. https:\/\/doi.org\/10.1109\/GCCE46687.2019.9015286.<\/span><\/li>\n
        23. Hiroki Uchida, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Keiichi Zempo: ALiSE: Through the mirrored space and what user interacts with avatars naturally, Companion Proceedings of the 2021 Conference on Interactive Surfaces and Spaces (ISS ’21), pp.29-32, 2021. <\/span>https:\/\/doi.org\/10.1145\/3447932.3490678<\/span><\/a>\u00a0<\/span><\/li>\n
        24. Noko Kuratomo, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Koichi Mizutani and Keiichi Zempo: How Much is the Noise Level be Reduced? \u2013 Speech Recognition Threshold in Noise Environments Using a Parametric Speaker \u2013, Human-Computer Interaction \u2013 INTERACT 2021, pp.542-550, 2021. <\/span>https:\/\/link.springer.com\/chapter\/10.1007\/978-3-030-85616-8_31<\/span><\/a>\u00a0<\/span><\/li>\n
        25. Keisuke Mizuno, Keito Kamimura, Tadashi Ebihara, Naoto Wakatsuki and Keiichi Zempo: 2D-3D Transformation of Pointing Objects Based on Skeletal Body Surface Models for Remote Collaboration, Proceedings of the 2021 IEEE 10th Global Conference on Consumer Electronics (GCCE), Kyoto, Japan, pp.259-262, 2021. <\/span>https:\/\/doi.org\/10.1109\/GCCE53005.2021.9621900<\/span><\/a>.<\/span><\/li>\n
        26. Haruna Miyakawa, Hisham Elser Bilal Salih, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Keiichi Zempo: Eye-Phonon: Depth and Color Sonification Wearable System to Enhance the Mobility of People with Vision Impairment, Adjunct Publication of the 24th International Conference on Human-Computer Interaction with Mobile Devices and Services (MobileHCI ’22 Adjunct), 6 pages, 2022. <\/span>https:\/\/doi.org\/10.1145\/3528575.3551449<\/span><\/a>\u00a0<\/span><\/li>\n
        27. Hiroki Uchida, Noko Kuratomo, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Keiichi Zempo: Spatialphonic360: Acoustic Space for Arbitrary Sound Image Presentation Based on Both Ears Tracking, Proceedings of the 2022 ACM International Joint Conference on Pervasive and Ubiquitous Computing, pp.123-125, 2022. <\/span>https:\/\/doi.org\/10.1145\/3544793.3560319<\/span><\/a>\u00a0<\/span><\/li>\n
        28. Noko Kuratomo, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Koichi Mizutani and Keiichi Zempo: Differences in Speech Recognition Thresholds Emitted From Parametric Speakers Caused by Sound Level Variation and Voice Gender, <\/span>Proceedings of the 28th International Congress on Sound & Vibration (ICSV28)<\/span><\/i>, Singapore, Singapore, CD-ROM, T09-RS01-27, 8 pages, 2022.<\/span><\/li>\n
        29. Atsushi Tsuchiya, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Keiichi Zempo and Koichi Mizutani: Indoor Self-Localization of Mobile Robots Using Asynchronous Acoustic Multipath Arrival Time Measurement, <\/span>Proc. 2022 IEEE 11th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, pp.177-181, 2022. <\/span>https:\/\/doi.org\/10.1109\/GCCE56475.2022.10014138<\/span><\/a>\u00a0<\/span><\/li>\n
        30. Manatsu Furukawa, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Yuka Maeda and Koichi Mizutani: Vocal Tract Shape Estimation for Speech Imitation by Motorized Vocal Tract Models, <\/span>Proc. 2022 IEEE 11th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, pp.516-519, 2022. <\/span>https:\/\/doi.org\/10.1109\/GCCE56475.2022.10014394<\/span><\/a>\u00a0<\/span><\/li>\n
        31. Noko Kuratomo, Hiroki Uchida, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Koichi Mizutani and Keiichi Zempo: Spatialphonic360: Accuracy of the Arbitrary Sound Image Presentation using Surrounding Parametric Speakers, <\/span>Proc. ACM ISS\u201922<\/span><\/i>, pp.32-36, 2022. <\/span>https:\/\/doi.org\/10.1145\/3532104.3571462<\/span><\/a>\u00a0<\/span><\/li>\n
        32. Yuto Hara, Ryodai Izaki, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Yuka Maeda: Observation of Self-Excited Vibrations of Strings on Bowed String Instrument Using Displacement Measurement Method Based on Light Intensity, <\/span>Proc. Symp. Nonlinear Dynamics Design Mech. Syst. Across Diff. Length\/time Scales (IUTAM)<\/span><\/i>, 2-pages, 2023.<\/span><\/li>\n
        33. Shoya Saito, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Yuka Maeda and Koichi Mizutani: Real-time additive sound synthesis of plucked strings considering inharmonicity and geometrical nonlinearity using the method of multiple scales, <\/span>Proc. Symp. Nonlinear Dynamics Design Mech. Syst. Across Diff. Length\/time Scales (IUTAM)<\/span><\/i>, 2-pages, 2023.<\/span><\/li>\n
        34. Atsushi Tsuchiya, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Keiichi Zempo and Koichi Mizutani: Time-of-arrival measurement method for reflected waves from multiple directions using doppler effect by a single coaxially placed omnidirectional SP and MIC, <\/span>Proceedings of the 29th International Congress on Sound and Vibration (ICSV29)<\/span><\/i>, 8-pages, 2023.<\/span><\/li>\n
        35. Atsushi Tsuchiya, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Keiichi Zempo and Koichi Mizutani: Method of Reconstructing Wall Positions Using Direction-of-Arrival Estimation Based on the Doppler Effect of Omnidirectional Active Sonar, <\/span>Proceedings of the Work-in-Progress Papers at the 13th International Conference on Indoor Positioning and Indoor Navigation (IPIN-WiP 2023)<\/span><\/i>, 12-pages, 2023. <\/span>https:\/\/ceur-ws.org\/Vol-3581\/198_WiP.pdf<\/span><\/a><\/li>\n
        36. Akira Imaizumi, Yuka Maeda, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: Motion Artifact Reduction System Using Dual-Wavelength Photoplethysmogram for Pulse Rate Monitoring in Daily Life, Proceedings of the 2023 IEEE 12th Global Conference on Consumer Electronics (GCCE), pp.121-125, 2023. <\/span>https:\/\/doi.org\/10.1109\/GCCE59613.2023.10315391<\/span><\/a>\u00a0<\/span><\/li>\n
        37. Ukyo Inomata, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Yuka Maeda: Evaluation of Oscillation Characteristics by Changing Cross-Sectional Area Profiles of Brass Instruments With Numerical Simulation, <\/span>Proc. 2024 IEEE 13th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, pp.1363-1367, 2024. <\/span>https:\/\/doi.org\/10.1109\/GCCE62371.2024.10760481<\/span><\/a><\/li>\n
        38. Etsuki Onodera, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Yuka Maeda: User Interface for Natural Voice Quality of Alaryngeal Speech, <\/span>Proc. 2024 IEEE 13th Global Conference on Consumer Electronics (GCCE)<\/span><\/i>, pp.1357-1360, 2024. <\/span>https:\/\/doi.org\/10.1109\/GCCE62371.2024.10760821<\/span><\/a><\/li>\n
        39. Atsushi Tsuchiya, Naoto Wakatsuki, Tadashi Ebihara, Keiichi Zempo and Koichi Mizutani: Relationship Between the Resolution of Echo Images Obtained From an Acoustic Ranging Sensor and the Accuracy of Self-Position Estimation, Proc. 2024 IEEE 13th Global Conference on Consumer Electronics (GCCE)<\/i>, pp.447-451, 2024. https:\/\/doi.org\/10.1109\/GCCE62371.2024.10760545<\/a><\/li>\n<\/ol>\n
          Awards (Research)<\/span><\/h5>\n
            \n
          1. \u6d77\u8001\u539f\u683c<\/span>:\u7b51\u6ce2\u5927\u5b66 \u7b2c\u4e09\u5b66\u7fa4 \u5de5\u5b66\u30b7\u30b9\u30c6\u30e0\u5b66\u985e\u9577\u8868\u5f70, 2007\u5e743\u6708<\/span><\/li>\n
          2. \u6d77\u8001\u539f\u683c<\/span>:\u65e5\u672c\u97f3\u97ff\u5b66\u4f1a \u97f3\u697d\u97f3\u97ff\u7814\u7a76\u4f1a \u5968\u52b1\u8cde, 2008\u5e7411\u6708<\/span><\/li>\n
          3. \u6d77\u8001\u539f\u683c: The 5th IEEE Tokyo Young Researchers Workshop \u5b9f\u884c\u59d4\u54e1\u4f1a\u7279\u5225\u8cde, 2008\u5e7412\u6708<\/span><\/li>\n
          4. \u6d77\u8001\u539f\u683c<\/span>:\u65e5\u672c\u97f3\u97ff\u5b66\u4f1a \u7b2c21\u56de \u30dd\u30b9\u30bf\u30fc\u8cde, 2009\u5e743\u6708<\/span><\/li>\n
          5. \u6d77\u8001\u539f\u683c<\/span>:\u7b51\u6ce2\u5927\u5b66 \u5927\u5b66\u9662\u30b7\u30b9\u30c6\u30e0\u60c5\u5831\u5de5\u5b66\u7814\u7a76\u79d1\u9577\u8868\u5f70, 2009\u5e743\u6708<\/span><\/li>\n
          6. \u6d77\u8001\u539f\u683c<\/span>:\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a2009\u5e74\u5ea6\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8ad6\u6587\u767a\u8868\u8cde, 2009\u5e745\u6708<\/span><\/li>\n
          7. \u8c37\u6d66\u826f\u7950, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597, \u77f3\u4e95\u96c5\u4e45\uff1a\u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde, 2010\u5e74\u5ea6\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5e74\u6b21\u5927\u4f1a, 2010\u5e748\u6708<\/span><\/li>\n
          8. \u85e4\u7530\u52d9\uff0c\u7518\u5229\u5948\u7dd2\u7f8e\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u897f\u5bae\u5eb7\u6cbb\u6717\uff1a\u6700\u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde, 2010\u5e74\u5ea6\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5e74\u6b21\u5927\u4f1a, 2010\u5e748\u6708<\/span><\/li>\n
          9. \u8302\u6728\u8cb4\u5f18\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff1a\u5e73\u621023\u5e74\u5ea6\u7b51\u6ce2\u5927\u5b66\u9678\u57df\u74b0\u5883\u7814\u7a76\u30bb\u30f3\u30bf\u30fc\u5e74\u6b21\u7814\u7a76\u5831\u544a\u4f1a\u4e00\u822c\u7814\u7a76\u767a\u8868\u3000\u30dd\u30b9\u30bf\u30fc\u8cde\u6700\u512a\u79c0\u8cde, 2012\u5e743\u6708<\/span><\/li>\n
          10. Naoki Shinmen, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: IEEE GCCE Young Researcher Award, The IEEE Consumer Electronics Society Kansai Chapter, 2012\u5e7410\u6708<\/span><\/li>\n
          11. Naoki Shinmen, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Outstanding Poster Award, The 1st IEEE Global Conference on Consumer Electronics, 2012\u5e7410\u6708<\/span><\/li>\n
          12. Naoki Shinmen, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Blu-ray Disk Association Award, The 9th IEEE Tokyo Young Researchers Workshop, 2012\u5e7411\u6708<\/span><\/li>\n
          13. \u6d77\u8001\u539f\u683c<\/span>:\u8d85\u97f3\u6ce2\u30b7\u30f3\u30dd\u30b8\u30a6\u30e0 USE2011\u5968\u52b1\u8cde, 2012\u5e7411\u6708<\/span><\/li>\n
          14. \u5b89\u7acb\uf9dc\u967d\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff1a\u65e5\u672c\u98df\u54c1\u79d1\u5b66\u5de5\u5b66\u4f1a \u5e73\u621025\u5e74\u5ea6\u95a2\u6771\u652f\u90e8\u5927\u4f1a \u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u767a\u8868\u8cde\uff0c2013\u5e743\u6708<\/span><\/li>\n
          15. \u6d77\u8001\u539f\u683c<\/span>: \u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a2013\u5e74\u5ea6\u7814\u7a76\u767a\u8868\u4f1a\u30d9\u30b9\u30c8\u30dd\u30b9\u30bf\u30fc\u8cde, 2013\u5e745\u6708<\/span><\/li>\n
          16. \u65b0\u514d\u771f\u5df1, \u9752\u6728\u62d3\u4e5f, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u82e5\u69fb\u5c1a\u6597, \u6c34\u8c37\u5b5d\u4e00: TYRW Best Award, The 10th IEEE Tokyo Young Researchers Workshop, 2013\u5e7412\u6708<\/span><\/li>\n
          17. \u9f4b\u85e4\u967d\u4ecb, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597\uff1a\u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde, \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a2014\u5e74\u7dcf\u5408\u5927\u4f1aISS\u7279\u5225\u4f01\u753b\u5b66\u751f\u30dd\u30b9\u30bf\u30fc\u30bb\u30c3\u30b7\u30e7\u30f3, 2014\u5e743\u6708<\/span><\/li>\n
          18. \u6d77\u8001\u539f\u683c<\/span>: \u65e5\u672c\u6d77\u6d0b\u5de5\u5b66\u4f1a JAMSTEC\u4e2d\u897f\u8cde, 2014\u5e745\u6708<\/span><\/li>\n
          19. Yosuke Saito and <\/span>Tadashi Ebihara<\/span>: IEEE TOWERS Good Flower Award\uff1aAdaptive Impedance Matching of Transducer for Underwater Acoustic Communication, IEEE TOWERS, 2014\u5e7411\u6708<\/span><\/li>\n
          20. \u5c71\u7530\u671b\u672a, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597: \u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde\uff1a\u6adb\u5f62\u30ce\u30a4\u30ba\u306b\u3088\u308b\u643a\u5e2f\u96fb\u8a71\u901a\u8a71\u4e2d\u306e\u30d7\u30e9\u30a4\u30d0\u30b7\u30fc\u4fdd\u8b77\u3068\u305d\u306e\u6027\u80fd\u8a55\u4fa1\u306b\u95a2\u3059\u308b\u57fa\u790e\u7684\u7814\u7a76, \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a2015\u5e74\u7dcf\u5408\u5927\u4f1aISS\u7279\u5225\u4f01\u753b\u5b66\u751f\u30dd\u30b9\u30bf\u30fc\u30bb\u30c3\u30b7\u30e7\u30f3, 2015\u5e743\u6708<\/span><\/li>\n
          21. \u6d77\u8001\u539f\u683c<\/span>: \u7b51\u6ce2\u5927\u5b66\u82e5\u624b\u6559\u54e1\u5968\u52b1\u8cde, 2016\u5e741\u6708<\/span><\/li>\n
          22. \u4e2d\u6751\u76f4\u5f66\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597: \u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde\uff1a\u30df\u30b7\u30f3\u76ee\u306e\u7834\u65ad\u97f3\u3092\u5229\u7528\u3057\u305f\u97f3\u97ff\u901a\u4fe1\u306b\u95a2\u3059\u308b\u7814\u7a76\u201d, \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a2016\u5e74\u7dcf\u5408\u5927\u4f1aISS\u7279\u5225\u4f01\u753b\u5b66\u751f\u30dd\u30b9\u30bf\u30fc\u30bb\u30c3\u30b7\u30e7\u30f3, 2016\u5e743\u6708<\/span><\/li>\n
          23. \u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00:\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u8ad6\u6587\u8cde\uff0c\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a, 2016\u5e745\u6708<\/span><\/li>\n
          24. Takahiro Adachi, Koichi Mizutani, Naoto Wakatsuki and Tadashi Ebihara: Student Paper Award (2<\/span>nd<\/span> prize), The 5<\/span>th<\/span> IEEE Global Conference on Consumer Electronics, 2016\u5e7410\u6708<\/span><\/li>\n
          25. \u897f\u539f\u6c99\u7d00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597: \u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde,\u201c\u632f\u52d5\u30e2\u30fc\u30bf\u3068\u30de\u30a4\u30af\u30ed\u30d5\u30a9\u30f3\u3092\u7528\u3044\u308b\u30e2\u30d0\u30a4\u30eb\u30c7\u30d0\u30a4\u30b9\u9593\u306e\u8fd1\u8ddd\u96e2\u97f3\u97ff\u901a\u4fe1\u306b\u95a2\u3059\u308b\u7814\u7a76,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u60c5\u5831\u30fb\u30b7\u30b9\u30c6\u30e0\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u4f1a\u9577 \u5742\u4e95\u4fee\u4e00 (23 March, 2017).<\/span><\/li>\n
          26. \u6885\u6fa4\u53cb\u8f14\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597: \u512a\u79c0\u30dd\u30b9\u30bf\u30fc\u8cde,\u201c\u97f3\u97ff\u901a\u4fe1\u3068\u8a08\u6e2c\u3092\u4f75\u7528\u3059\u308b\u6b69\u884c\u8005\u5411\u3051\u81ea\u52d5\u8eca\u63a5\u8fd1\u691c\u77e5\u6280\u8853\u306b\u95a2\u3059\u308b\u7814\u7a76,\u201d \u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u60c5\u5831\u30fb\u30b7\u30b9\u30c6\u30e0\u30bd\u30b5\u30a4\u30a8\u30c6\u30a3\u4f1a\u9577 \u5742\u4e95\u4fee\u4e00 (23 March, 2017).\u00a0<\/span><\/li>\n
          27. Tadashi Ebihara<\/span>: IEEE\/OES Japan Chapter Young Researcher Award, 2017\u5e7411\u6708<\/span><\/li>\n
          28. Yusuke Umezawa, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: Excellent Poster Award (1<\/span>st<\/span> prize), The 6<\/span>th<\/span> IEEE Global Conference on Consumer Electronics, 2017\u5e7410\u6708<\/span><\/li>\n
          29. \u4f50\u85e4\u4e98, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00, \u82e5\u69fb\u5c1a\u6597: \u65e5\u672c\u97f3\u97ff\u5b66\u4f1a \u97f3\u697d\u97f3\u97ff\u7814\u7a76\u4f1a \u5968\u52b1\u8cde, \u201c\u518d\u751f\u74b0\u5883\u306e\u5909\u5316\u306b\u3088\u308b\u30e2\u30b9\u30ad\u30fc\u30c8\u97f3\u3092\u7528\u3044\u305f\u697d\u66f2\u6b4c\u8a5e\u63d0\u793a\u30b7\u30b9\u30c6\u30e0\u306e\u6027\u80fd\u8a55\u4fa1\u201d, 2017\u5e7410\u670823\u65e5\uff0c\u6c34\u8c37\u5b5d\u4e00<\/span><\/li>\n
          30. Saki Nishihara, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: IEEE TOWERS \u30bd\u30b7\u30aa\u30cd\u30af\u30b9\u30c8\u8cde, \u201cSecure Near-field Communication for Smartphones Using Sound and Vibration,\u201d 2017\u5e7411\u67084\u65e5\uff0c\u4e95\u4e0a\u3042\u307e\u306d<\/span><\/li>\n
          31. \u4eca\u4e95\u7fa9\u4eba\uff0c\u6817\u672c\u7adc\u4e4b\u4ecb\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597:\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u8ad6\u6587\u8a8cB, \u512a\u79c0\u5b66\u751f\u8ad6\u6587\u8cde, 2018\u5e742\u6708.<\/span><\/li>\n
          32. Yusuke Chiba, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: \u65e5\u672c\u7d20\u6750\u7269\u6027\u5b66\u4f1a\u5e73\u621030\u5e74\u5ea6\u5c71\u5d0e\u8cde, 2018\u5e746\u6708<\/span><\/li>\n
          33. Saki Nishihara, Takuya Aoki, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: ICMU2018 Best Paper Award, 2018\u5e7410\u6708<\/span><\/li>\n
          34. Hirotaka Sato, <\/span>Tadashi Ebihara<\/span>, Koichi Mizutani and Naoto Wakatsuki: IEEE TOWERS Best Award, 2018\u5e7411\u6708<\/span><\/li>\n
          35. Satoki Ogiso, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: IPIN2018 Best Presentation Award, 2018\u5e749\u6708<\/span><\/li>\n
          36. \u4e2d\u6797\u5927\u6a39\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u5b87\u8cc0\u535a\u4e4b\uff0c\u4e45\u4fdd\u7530\u5065\u55e3\uff0c\u77f3\u4e95\u96c5\u4e45: 2019\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2019.<\/span><\/li>\n
          37. \u897f\u5cf6\u4e5f\u5bf8\u5f66\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u4e45\u4fdd\u7530\u5065\u55e3\uff0c\u5b87\u8cc0\u535a\u4e4b\uff0c\u77f3\u4e95\u96c5\u4e45: 2019\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2019.<\/span><\/li>\n
          38. \u5f8c\u85e4\u53e1\u53f2\uff0c\u5473\u85e4\u672a\u51b4\u6765\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u7af9\u524d\u559c\u6d0b\uff0c\u897f\u85e4\u5cb3\u5f66: 2019\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2019.<\/span><\/li>\n
          39. \u65bc\u4fdd\u62d3\u9ad8\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597: 2019\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2019.<\/span><\/li>\n
          40. Takuya Aoki, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: IEEE GCCE 2019 Excellent Demo! Award Bronze Award 2019.<\/span><\/li>\n
          41. Atsushi Tsuchiya, Koichi Mizutani, Naoto Wakatsuki and <\/span>Tadashi Ebihara<\/span>: IEEE TOWERS Supporter’s Group Award, 2019\u5e7410\u6708<\/span><\/li>\n
          42. \u5f8c\u85e4\u53e1\u53f2\uff08<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff09, \u5b87\u7530\u4f0a\u5439, \u591a\u7530\u8b01\u4e5f, RaynellInojosa: IEEE TOWERS Event Award, 2019\u5e7410\u6708.<\/span><\/li>\n
          43. \u6d77\u8001\u539f\u683c<\/span>\uff1aSAT\u30c6\u30af\u30ce\u30ed\u30b8\u30fc\u30fb\u30b7\u30e7\u30fc\u30b1\u30fc\u30b92020\uff0c\u7dcf\u5408\u5f97\u70b9\u8cde\uff08Best Presentation Award\uff09, 2020\u5e741\u6708<\/span><\/li>\n
          44. \u65bc\u4fdd\u62d3\u9ad8\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>, \u82e5\u69fb\u5c1a\u6597: 2020\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2020.<\/span><\/li>\n
          45. \u4f50\u85e4\u5e83\u9686\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u4e45\u4fdd\u7530\u5065\u55e3: 2020\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2020.<\/span><\/li>\n
          46. \u4f50\u85e4\u5e83\u9686\uff0c\u4e2d\u6797\u5927\u6a39\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u4e45\u4fdd\u7530\u5065\u55e3\uff0c\u77f3\u4e95\u96c5\u4e45\uff0c\u5b87\u8cc0\u535a\u4e4b\uff1a2020\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u79cb\u5b63\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u5ca9\u6e15\u548c\u5247\u7279\u5225\u8cde\uff08\u526f\u4f1a\u9577\u8cde\uff092020.<\/span><\/li>\n
          47. \u971c\u7530\u6643\u5e0c\uff0c\u5473\u85e4\u672a\u51b4\u6765\uff0c\u5584\u752b\u5553\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a2020\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u79cb\u5b63\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2020.<\/span><\/li>\n
          48. \u4f50\u85e4\u5e83\u9686\uff0c\u4e2d\u6797\u5927\u6a39\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u4e45\u4fdd\u7530\u5065\u55e3\uff0c\u77f3\u4e95\u96c5\u4e45\uff0c\u5b87\u8cc0\u535a\u4e4b\uff1a2021\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2021.<\/span><\/li>\n
          49. \u897f\u5cf6\u4e5f\u5bf8\u5f66\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u77f3\u4e95\u96c5\u4e45\uff0c\u4e45\u4fdd\u7530\u5065\u55e3\uff0c\u5b87\u8cc0\u535a\u4e4b\uff1a2021\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2021.<\/span><\/li>\n
          50. \u65bc\u4fdd\u62d3\u9ad8\uff0c\u5b89\u85e4\u98af\u82b1\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff1a2021\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2021.<\/span><\/li>\n
          51. \u4e45\u4fdd\u7530\u5065\u55e3\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u5b87\u8cc0\u535a\u4e4b\uff0c\u6797\u6cf0\u6b63\uff0c\u77f3\u4e95\u96c5\u4e45: SAT\u30c6\u30af\u30ce\u30ed\u30b8\u30fc\u30fb\u30b7\u30e7\u30fc\u30b1\u30fc\u30b92021\uff0c\u30d9\u30b9\u30c8\u7570\u5206\u91ce\u4ea4\u6d41\u8cde\uff08Best Presentation Award for Cross-Fertilization\uff09, 2021\u5e742\u6708<\/span><\/li>\n
          52. \u53e4\u5ddd\u611b\u90fd\uff0c\u82e5\u69fb\u5c1a\u6597, <\/span>\u6d77\u8001\u539f\u683c<\/span>, \u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00: \u65e5\u672c\u97f3\u97ff\u5b66\u4f1a\u97f3\u697d\u97f3\u97ff\u7814\u7a76\u4f1a \u5968\u52b1\u8cde\uff0c2021\u5e748\u6708<\/span><\/li>\n
          53. \u85e4\u7530\u4f91\u5e0c\uff08<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff09\uff1aIEEE TOWERS Kansai Young Professionals Affinity Group Award, 2021\u5e7411\u6708<\/span><\/li>\n
          54. \u85e4\u7530\u4f91\u5e0c\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u6c34\u8c37\u5b5d\u2f00\uff0c\u4e2d\u4e45\u4fdd\u4eae\uff0c\u77f3\u7530\u4e09\u4f73\uff1a2022\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2022.<\/span><\/li>\n
          55. \u4eca\u6cc9\u745b\uff0c\u524d\u7530\u7950\u4f73\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff1aIEEE TOWERS Excellence Presentation Award, 2022\u5e7410\u6708<\/span><\/li>\n
          56. \u539f\u512a\u4eba\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u524d\u7530\u7950\u4f73\uff0c\u9ed2\u5c71\u55ac\u5141\uff1a\u65e5\u672c\u97f3\u97ff\u5b66\u4f1a \u97f3\u697d\u97f3\u97ff\u7814\u7a76\u4f1a \u5968\u52b1\u8cde, \u201c\u5149\u5f37\u5ea6\u306b\u57fa\u3065\u304f\u5f26\u5909\u4f4d\u8a08\u6e2c\u6cd5\u3092\u7528\u3044\u308b\u5f26\u632f\u52d5\u53ca\u3073\u6f14\u594f\u60c5\u5831\u306e\u53d6\u5f97\u201d, 2022\u5e7410\u67088\u65e5\uff0c\u4e09\u6d66\u96c5\u5c55<\/span><\/li>\n
          57. Atsushi Tsuchiya, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Keiichi Zempo and Koichi Mizutani: IEEE GCCE 2022 Excellent Student Poster Awards (Gold prize), 2022.<\/span><\/li>\n
          58. Manatsu Furukawa, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span>, Yuka Maeda and Koichi Mizutani: IEEE GCCE 2022 Excellent Demo! Awards (Gold prize), 2022.\u00a0<\/span><\/li>\n
          59. Tadashi EBIHARA<\/span>\uff0cSenior member, IEEE 2022.<\/span><\/li>\n
          60. Ryosuke Izumi, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: ICETC Best Short Paper Award, 2022.<\/span><\/li>\n
          61. \u9f4a\u85e4\u5320\u54c9\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u65e5\u672c\u97f3\u97ff\u5b66\u4f1a \u97f3\u697d\u97f3\u97ff\u7814\u7a76\u4f1a \u5968\u52b1\u8cde, \u201c\u975e\u8abf\u548c\u6027\u3068\u975e\u7dda\u5f62\u6027\u3092\u8003\u616e\u3057\u305f\u591a\u91cd\u5c3a\u5ea6\u6cd5\u306b\u3088\u308b\u64a5\u5f26\u97f3\u306e\u30ea\u30a2\u30eb\u30bf\u30a4\u30e0\u5408\u6210\u201d, 2023\u5e742\u670819\u65e5\uff0c\u4e09\u6d66\u96c5\u5c55<\/span><\/li>\n
          62. Tadashi EBIHARA<\/span>\uff0cIEEE\u6771\u4eac\u652f\u90e8, Senior member\u6607\u683c\u8005\u4ee3\u8868, 2023\/03\/17.<\/span><\/li>\n
          63. \u6d66\u5d0e\u76f4\u5c06\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff1a2023\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde 2023.<\/span><\/li>\n
          64. \u5409\u539f\u5230\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u7b2c47\u56de\u696d\u7e3e\u8cde, 2023.<\/span><\/li>\n
          65. Atsushi Tsuchiya, Naoto Wakatsuki, Tadashi Ebihara, Keiichi Zempo and Koichi Mizutani: The 13th International Conference on Indoor Positioning and Indoor Navigation (IPIN2023) Best Poster Award, 2023.<\/span><\/li>\n
          66. \u65bc\u4fdd\u62d3\u9ad8\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u524d\u7530\u7950\u4f73\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u8d85\u97f3\u6ce2\u30b7\u30f3\u30dd\u30b8\u30a6\u30e0 USE2022\u5968\u52b1\u8cde, 2023\u5e7411\u6708\uff0e<\/span><\/li>\n
          67. Akira Imaizumi, Yuka Maeda, Naoto Wakatsuki, <\/span>Tadashi Ebihara<\/span> and Koichi Mizutani: IEEE GCCE 2023 Excellent Student Poster Awards, Gold Prize, 2023\u5e7410\u6708.<\/span><\/li>\n
          68. \u5927\u6cb3\u539f\u793c\u738b\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u5584\u752b\u5553\u4e00\uff1aSAT\u30c6\u30af\u30ce\u30ed\u30b8\u30fc\u30fb\u30b7\u30e7\u30fc\u30b1\u30fc\u30b92024\uff0c\u5b66\u751f\u5968\u52b1\u8cde, 2024\u5e741\u6708<\/span><\/li>\n
          69. \u4e00\u5009\u5f18\u6bc5\uff0c\u6d77\u8001\u539f\u683c\uff1a2024\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u7279\u5225\u8cde 2024.<\/span><\/li>\n
          70. \u4eca\u6cc9\u745b\uff0c\u524d\u7530\u7950\u4f73\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff1a\u30e9\u30a4\u30d5\u30b5\u30dd\u30fc\u30c8\u5b66\u4f1a\u30d5\u30ed\u30f3\u30c6\u30a3\u30a2\u8b1b\u6f14\u4f1a\u8ad6\u6587\u8cde\uff0c2024\u5e743\u6708\uff0e<\/span><\/li>\n
          71. \u6d77\u8001\u539f\u683c<\/span>\uff1a\u4ee4\u548c\uff16\u5e74\u5ea6\u79d1\u5b66\u6280\u8853\u5206\u91ce\u306e\u6587\u90e8\u79d1\u5b66\u5927\u81e3\u8868\u5f70\uff08\u82e5\u624b\u79d1\u5b66\u8005\u8cde\uff09\uff0c2024\u5e744\u6708\uff0e<\/span><\/li>\n
          72. \u6d77\u8001\u539f\u683c<\/span>: \u7b51\u6ce2\u5927\u5b66\u82e5\u624b\u6559\u54e1\u7279\u5225\u5968\u52b1\u8cde, 2024\u5e745\u6708<\/span><\/li>\n
          73. \u77f3\u5cf6\u8ad2\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a 2024\u5e74\u5ea6 \u7814\u7a76\u767a\u8868\u4f1a\u512a\u79c0\u8ad6\u6587\u767a\u8868\u8cde\uff0c2024\u5e746\u6708<\/span><\/li>\n
          74. \u6d77\u8001\u539f\u683c<\/span>, \u6c34\u8c37\u5b5d\u4e00,\u82e5\u69fb\u5c1a\u6597, \u524d\u7530\u7950\u4f73, \u5584\u752b\u5553\u4e00, \u571f\u5c4b\u5145\u5fd7\uff1aFOOMA JAPAN 2024\u56fd\u969b\u98df\u54c1\u5de5\u696d\u5c55, \u30a2\u30ab\u30c7\u30df\u30c3\u30af\u30d7\u30e9\u30b6AP\u8cde\uff08\u51fa\u5c55\u793e\u8cde\uff09\uff08\u8cde\u91d1200\u5343\u5186\uff09\uff0c2024\u5e746\u6708<\/span><\/li>\n
          75. \u5185\u6d77\u53f2\u83dc\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff1aIEEE TOWERS Woman in Engineering (WIE) Best Award, 2024\u5e7411\u6708<\/span><\/li>\n
          76. \u77f3\u5cf6\u8ad2\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff0c\u6c34\u8c37\u5b5d\u4e00\uff1a\u65e5\u672c\u6d77\u6d0b\u5de5\u5b66\u4f1a JAMSTEC\u4e2d\u897f\u8cde, 2025\u5e743\u6708<\/span><\/li>\n
          77. Takuya Waki, Yuto Hara, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Koichi Mizutani: \u4fe1\u53f7\u51e6\u7406\u5b66\u4f1a\u8ad6\u6587\u8cde, 2025\u5e745\u6708<\/span><\/li>\n
          78. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Efficient Parameter Determination for BPDN in Underwater Acoustic MIMO-OSDM Communications Using Stein\u2019s Unbiased Risk Estimate, 2025 IEEE International Symposium on underwater Technology (UT25), Student poster session finalist.<\/span><\/li>\n
          79. Atsushi Tsuchiya, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Tohru Yoshihara: Velocity estimation of an underwater vehicle using Doppler shift of positioning signals, 2025 IEEE International Symposium on underwater Technology (UT25), Student poster session finalist.<\/span><\/li>\n
          80. Emi Kitano, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: Robust Underwater Positioning System Using LED Markers and Perspective-n-Point Solver, 2025 IEEE International Symposium on underwater Technology (UT25), Student poster session finalist.<\/span><\/li>\n
          81. Ryoichi Ishijima, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Yuka Maeda and Koichi Mizutani: Efficient Parameter Determination for BPDN in Underwater Acoustic MIMO-OSDM Communications Using Stein\u2019s Unbiased Risk Estimate, 2025 IEEE International Symposium on underwater Technology (UT25), Student poster session Silver Prize.<\/span><\/li>\n
          82. \u85e4\u7530\u4f91\u5e0c\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u6c34\u8c37\u5b5d\u4e00\uff0c\u4e2d\u4e45\u4fdd\u4eae\uff0c\u77f3\u7530\u4e09\u4f73\uff0c\u897f\u5cf6\u4e5f\u5bf8\u5f66\uff1a\u8d85\u97f3\u6ce2\u30d7\u30ed\u30fc\u30d6\u3092\u7528\u3044\u305f\u8c5a\u820e\u5185\u306e\u6c17\u6e29\u5206\u5e03\u6e2c\u5b9a\uff0c2025\u5e74\u5ea6\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u8ad6\u6587\u8cde\uff0e<\/span><\/li>\n
          83. \u77f3\u5cf6\u8ad2\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u524d\u7530\u7950\u4f73\uff1a\u96fb\u5b50\u60c5\u5831\u901a\u4fe1\u5b66\u4f1a\u30ef\u30a4\u30c9\u30d0\u30f3\u30c9\u30b7\u30b9\u30c6\u30e0\u7814\u7a76\u4f1a\u30aa\u30fc\u30e9\u30eb\u30bb\u30c3\u30b7\u30e7\u30f3\u82e5\u624b\u5968\u52b1\u8cde, 2025\u5e745\u6708<\/span><\/li>\n
          84. \u5c0f\u91ce\u7693\u5927\uff0c\u571f\u5c4b\u5145\u5fd7\uff0c\u4f50\u85e4\u88d5\u6cbb\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u82e5\u69fb\u5c1a\u6597\uff0c\u5409\u539f\u5230\uff1a\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a 2025\u5e74\u5ea6 \u7814\u7a76\u767a\u8868\u4f1a\u512a\u79c0\u8ad6\u6587\u767a\u8868\u8cde\uff0c2025\u5e745\u6708\uff0e<\/span><\/li>\n
          85. Kodai Ono, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki, Atsushi Tsuchiya and Yuji Sato: IEEE GCCE 2025 Excellent Paper Awards, Outstanding Prize, 2025\u5e749\u6708.<\/span><\/li>\n
          86. Junnosuke Yoshita, Tadashi Ebihara, Naoto Wakatsuki and Yuka Maeda: IEEE GCCE 2025 Oral Presentation Award, 2025\u5e749\u6708.<\/span><\/li>\n
          87. Emi Kitano, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: IEEE Sensors 2025 Outstanding Student Poster Award Nomination, 2025\u5e7410\u6708\uff0e<\/span><\/li>\n
          88. Taiga Saito, <\/span>Tadashi Ebihara<\/span>, Naoto Wakatsuki and Yuka Maeda: IEEE Sensors 2025 Outstanding Student Poster Award Nomination, 2025\u5e7410\u6708\uff0e<\/span><\/li>\n
          89. \u5317\u91ce\u611b\u5b9f\uff1a\u516c\u76ca\u8ca1\u56e3\u6cd5\u4eba\u30b9\u30ba\u30ad\u8ca1\u56e3, 2025\u5e74\u5ea6\u7814\u7a76\u8005\u6d77\u5916\u7814\u7a76\u52a9\u6210\u91d1<\/span><\/li>\n
          90. \u5317\u91ce\u611b\u5b9f\uff1aIEEE Sensors2025 Travel Award<\/span><\/li>\n
          91. \u6d77\u8001\u539f\u683c\uff1a\u3064\u304f\u3070\u5968\u52b1\u8cde, \u8328\u57ce\u770c\u79d1\u5b66\u6280\u8853\u632f\u8208\u8ca1\u56e3<\/span><\/li>\n
          92. \u77f3\u5cf6\u8ad2\u4e00\uff0c<\/span>\u6d77\u8001\u539f\u683c<\/span>\uff0c\u524d\u7530\u7950\u4f73\uff0c\u82e5\u69fb\u5c1a\u6597\uff1a\u8d85\u97f3\u6ce2\u30b7\u30f3\u30dd\u30b8\u30a6\u30e0 USE2025\u5968\u52b1\u8cde, 2025\u5e7411\u6708\uff0e<\/span><\/li>\n
          93. \u5965\u539f\u5927\u6a39\uff0c\u571f\u5c4b\u5145\u5fd7\uff0c\u77f3\u5cf6\u8ad2\u2f00\uff0c\u6ff5\u672c\u5353\uff0c\u4f50\u91ce\u771f\u559c\u2f26\uff0c\u52a0\u5d8b\u5d07\u4e4b\uff0c\u5c0f\u5ddd\u5b97\u548c\uff0c<\/span>\u6d77\u2f7c\u539f\u683c<\/span>\uff0c\u6c34\u8c37\u5b5d\u2f00\uff1a2026\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u512a\u79c0\u8cde\uff0c2026.<\/span><\/li>\n
          94. \u5409\u7530\u6210\u79c0\uff0c\u82e5\u69fb\u5c1a\u2f43\uff0c<\/span>\u6d77\u2f7c\u539f\u683c<\/span>\uff1a2026\u5e74\u8fb2\u696d\u65bd\u8a2d\u5b66\u4f1a\u5b66\u751f\u30fb\u82e5\u624b\u7814\u7a76\u767a\u8868\u4f1a \u5353\u8d8a\u8cde\uff0c2026.<\/span><\/li>\n
          95. \u77f3\u5cf6\u8ad2\u4e00\uff0c<\/span>\u6d77\u2f7c\u539f\u683c<\/span>\uff1a\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a\u8ad6\u6587\u8cde\uff0c\u6d77\u6d0b\u97f3\u97ff\u5b66\u4f1a, 2026\u5e745\u6708<\/span><\/li>\n<\/ol>\n
            Awards (Education)<\/span><\/h5>\n
              \n
            1. \u65b0\u514d\u771f\u5df1, \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5c02\u653b\u9577 \u5ca9\u7530\u6d0b\u592b, 2014\u5e743\u6708<\/span><\/li>\n
            2. \u65b0\u514d\u771f\u5df1, \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff1a\u643a\u5e2f\u7aef\u672b\u3092\u7528\u3044\u308b\u8fd1\u8ddd\u96e2\u97f3\u97ff\u901a\u4fe1\u306e\u305f\u3081\u306e\u30bd\u30d5\u30c8\u30a6\u30a7\u30a2\u30e2\u30c7\u30e0\u306b\u95a2\u3059\u308b\u7814\u7a76, \u5c02\u653b\u9577 \u5ca9\u7530\u6d0b\u592b, 2014\u5e743\u6708<\/span><\/li>\n
            3. \u5343\u8449\u7950\u4ecb: \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff1a\u5f3e\u6027\u6ce2\u3092\u7528\u3044\u308b\u5149\u786c\u5316\u6027\u6a39\u8102\u5857\u819c\u306e\u786c\u5316\u904e\u7a0b\u30e2\u30cb\u30bf\u30ea\u30f3\u30b0\u306b\u95a2\u3059\u308b\u7814\u7a76, \u5c02\u653b\u9577 \u845b\u5ca1\u82f1\u660e, 2015\u5e743\u6708<\/span><\/li>\n
            4. \u4eca\u4e95\u7fa9\u4eba, \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5c02\u653b\u9577 \u845b\u5ca1\u79c0\u660e, 2016\u5e743\u6708\uff08\u535a\u58eb\u524d\u671f\u8ab2\u7a0b1\u5e74\u6b21\u3067\u53d7\u8cde\uff09<\/span><\/li>\n
            5. \u897f\u539f\u6c99\u7d00: \u96fb\u6c17\u5b66\u4f1a\u6771\u4eac\u652f\u90e8\uff0c\u96fb\u6c17\u5b66\u8853\u5973\u6027\u6d3b\u52d5\u5968\u52b1\u8cde, 2017\u5e743\u670824\u65e5<\/span><\/li>\n
            6. \u897f\u539f\u6c99\u7d00: \u30b7\u30b9\u30c6\u30e0\u60c5\u5831\u5de5\u5b66\u7814\u7a76\u79d1\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u7814\u7a76\u79d1\u9577 \u5927\u6fa4\u7fa9\u660e, 2019\u5e743\u6708<\/span><\/li>\n
            7. \u897f\u539f\u6c99\u7d00: \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0cStudy on Secure Near Field Communication Among Mobile Devices Using Mechanical Vibration and Airborne Sound, \u5c02\u653b\u9577 \u85ea\u91ce\u6d69\u53f8, 2019\u5e743\u6708<\/span><\/li>\n
            8. \u6885\u6fa4\u53cb\u8f14: \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5c02\u653b\u9577 \u85ea\u91ce\u6d69\u53f8, 2019\u5e743\u6708<\/span><\/li>\n
            9. \u6885\u6fa4\u53cb\u8f14: \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0c\u76f4\u4ea4\u5468\u6ce2\u6570\u5206\u5272\u591a\u91cd\u3092\u7528\u3044\u308b\u6b69\u8eca\u9593\u97f3\u97ff\u901a\u4fe1\u30b7\u30b9\u30c6\u30e0\u306b\u95a2\u3059\u308b\u7814\u7a76, \u85ea\u91ce\u6d69\u53f8, 2019\u5e743\u6708<\/span><\/li>\n
            10. \u4f50\u85e4\u5e83\u9686: \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5c02\u653b\u9577 \u4e2d\u5185\u9756, 2021\u5e743\u6708<\/span><\/li>\n
            11. \u4f50\u85e4\u5e83\u9686: \u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5c02\u653b\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff1a\u96d1\u97f3\u74b0\u5883\u4e0b\u306b\u304a\u3051\u308b\u97f3\u97ff\u7684\u624b\u6cd5\u3092\u7528\u3044\u305f\u30b3\u30ca\u30b8\u30e9\u30df\u985e\u306e\u7a2e\u304a\u3088\u3073\u30d0\u30a4\u30aa\u30bf\u30a4\u30d7\u8b58\u5225\u306b\u95a2\u3059\u308b\u7814\u7a76, \u5c02\u653b\u9577 \u4e2d\u5185\u9756, 2021\u5e743\u6708<\/span><\/li>\n
            12. \u6ff1\u4e0a\u7acb\u5b63\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u4e2d\u5185\u9756, 2022\u5e743\u6708<\/span><\/li>\n
            13. \u6ff1\u4e0a\u7acb\u5b63\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0cOptimal Modulation Technique for Underwater Visible Light Communication Using Rolling-Shutter Sensor, \u5b66\u4f4dPL \u4e2d\u5185\u9756, 2022\u5e743\u6708<\/span><\/li>\n
            14. \u7530\u7aef\u4f51\u81f3\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u4e2d\u5185\u9756, 2022\u5e743\u6708<\/span><\/li>\n
            15. \u7530\u7aef\u4f51\u81f3\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0cStudy on Improvement of Underwater Acoustic Communication Using Compressed Sensing, \u5b66\u4f4dPL \u4e2d\u5185\u9756, 2022\u5e743\u6708<\/span><\/li>\n
            16. \u6cc9\u4eae\u4f51\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0c\u6c4e\u7528\u30ab\u30e1\u30e9\u3068\u5186\u8d70\u67fb\u578b\u5149\u5b66\u30b9\u30ad\u30e3\u30ca\u3092\u7528\u3044\u305f\u53ef\u8996\u5149\u901a\u4fe1\u30b7\u30b9\u30c6\u30e0\u306e\u69cb\u7bc9\u306b\u95a2\u3059\u308b\u7814\u7a76, \u5b66\u4f4dPL \u76f8\u5c71\u5eb7\u9053, 2023\u5e743\u6708<\/span><\/li>\n
            17. \u548c\u7530\u5eb7\u5e73\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0c\u30c7\u30a3\u30b8\u30bf\u30eb\u97f3\u97ff\u901a\u4fe1\u6280\u8853\u3092\u5fdc\u7528\u3057\u305f\u79fb\u52d5\u4f53\u306e\u5c4b\u5185\u6e2c\u8ddd\u306b\u95a2\u3059\u308b\u7814\u7a76, \u5b66\u4f4dPL \u76f8\u5c71\u5eb7\u9053, 2023\u5e743\u6708<\/span><\/li>\n
            18. \u5185\u6d77\u53f2\u83dc\uff1a\u96fb\u6c17\u5b66\u4f1a\u6771\u4eac\u652f\u90e8\uff0c\u96fb\u6c17\u5b66\u8853\u5973\u6027\u6d3b\u52d5\u5968\u52b1\u8cde, 2023\u5e743\u670824\u65e5<\/span><\/li>\n
            19. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u96fb\u6c17\u5b66\u4f1a\u6771\u4eac\u652f\u90e8\uff0c\u96fb\u6c17\u5b66\u8853\u5968\u52b1\u8cde, 2023\u5e743\u670824\u65e5<\/span><\/li>\n
            20. \u5317\u91ce\u611b\u5b9f\uff1a\u96fb\u6c17\u5b66\u4f1a\u6771\u4eac\u652f\u90e8\uff0c\u96fb\u6c17\u5b66\u8853\u5973\u6027\u6d3b\u52d5\u5968\u52b1\u8cde, 2024\u5e743\u670825\u65e5<\/li>\n
            21. \u65bc\u4fdd\u62d3\u9ad8\uff1a\u30b7\u30b9\u30c6\u30e0\u60c5\u5831\u5de5\u5b66\u7814\u7a76\u7fa4\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0c\u7814\u7a76\u7fa4\u9577 \u9060\u85e4\u9756\u5178\uff0c2024\u5e743\u670825\u65e5<\/li>\n
            22. \u5409\u539f\u5230\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u76f8\u5c71\u5eb7\u9053, 2024\u5e743\u670825\u65e5<\/li>\n
            23. \u8107\u62d3\u54c9\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u76f8\u5c71\u5eb7\u9053, 2024\u5e743\u670825\u65e5<\/li>\n
            24. \u85e4\u7530\u4f91\u5e0c\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0cStudy on Improvement of Underwater Acoustic Communication Using Compressed Sensing, \u5b66\u4f4dPL \u76f8\u5c71\u5eb7\u9053, 2024\u5e743\u670825\u65e5<\/li>\n
            25. \u8107\u62d3\u54c9\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0cStudy on Improvement of Underwater Acoustic Communication Using Compressed Sensing, \u5b66\u4f4dPL \u76f8\u5c71\u5eb7\u9053, 2024\u5e743\u670825\u65e5<\/li>\n
            26. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u65e5\u672c\u5b66\u8853\u632f\u8208\u4f1a\u7279\u5225\u7814\u7a76\u54e1\uff08DC1\uff09\u63a1\u629e, 2025\u5e744\u6708\uff5e2028\u5e743\u6708<\/li>\n
            27. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u516c\u76ca\u8ca1\u56e3NEC C&C\u8ca1\u56e3 \u56fd\u969b\u4f1a\u8b70\u8ad6\u6587\u767a\u8868\u8005\u52a9\u6210\u5185\u5b9a, C&C\u6587\u7b2c24-025\u53f7, 2024\u5e7410\u6708<\/li>\n
            28. \u6850\u5c71\u6cf0\u8aa0\uff1a\u96fb\u6c17\u5b66\u4f1a\u6771\u4eac\u652f\u90e8\uff0c\u96fb\u6c17\u5b66\u8853\u5968\u52b1\u8cde, 2025\u5e743\u670825\u65e5<\/li>\n
            29. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u5b66\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u9577 \u6c38\u7530\u606d\u4ecb, 2025\u5e743\u670825\u65e5<\/li>\n
            30. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u30b7\u30b9\u30c6\u30e0\u60c5\u5831\u5de5\u5b66\u7814\u7a76\u7fa4\u9577\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u7814\u7a76\u7fa4\u9577 \u9060\u85e4\u9756\u5178, 2025\u5e743\u670825\u65e5<\/li>\n
            31. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09\uff0c\u5b66\u4f4dPL \u77e2\u91ce\u535a\u660e, 2025\u5e743\u670825\u65e5<\/li>\n
            32. \u77f3\u5cf6\u8ad2\u4e00\uff1a\u8317\u6e13\u4f1a\u8cde, \u7406\u4e8b\u9577 \u4e95\u53e3\u6b66\u96c4, 2025\u5e743\u670825\u65e5<\/li>\n
            33. \u9f4b\u85e4\u5927\u96c5\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u77e2\u91ce\u535a\u660e, 2026\u5e743\u6708<\/span><\/li>\n
            34. \u5317\u91ce\u611b\u5b9f\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u77e2\u91ce\u535a\u660e, 2026\u5e743\u6708<\/span><\/li>\n
            35. \u5409\u7530\u65ec\u4e4b\u4ecb\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u5b66\u4f4dPL \u77e2\u91ce\u535a\u660e, 2026\u5e743\u6708<\/span><\/li>\n
            36. \u9f4b\u85e4\u5927\u96c5\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09, \u591a\u91cd\u53cd\u5c04\u74b0\u5883\u306b\u304a\u3051\u308b\u5230\u6765\u6642\u9593\u306b\u57fa\u3065\u304f\u518d\u69cb\u6210\u6ce2\u9762\u7fa4\u3092\u7528\u3044\u308b\u6c34\u4e2d\u97f3\u97ff\u6e2c\u4f4d\u306b\u95a2\u3059\u308b\u7814\u7a76\uff0c\u5b66\u4f4dPL \u77e2\u91ce\u535a\u660e, 2026\u5e743\u6708<\/span><\/li>\n
            37. \u5317\u91ce\u611b\u5b9f\uff1a\u77e5\u80fd\u6a5f\u80fd\u30b7\u30b9\u30c6\u30e0\u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\uff08\u7b51\u6ce2\u5927\u5b66\uff09, Study on Wide-Field Underwater Optical Camera Communication System with Fisheye Camera\uff0c\u5b66\u4f4dPL \u77e2\u91ce\u535a\u660e, 2026\u5e743\u6708<\/span><\/li>\n<\/ol>\n
              Awards (Funding)<\/span><\/h5>\n
                \n
              1. \u5b66\u9577\u8868\u5f70\u30001\u540d<\/li>\n
              2. \u7814\u7a76\u7fa4\u9577\u8868\u5f70\u30002\u540d<\/li>\n
              3. \u5b66\u4f4d\u30d7\u30ed\u30b0\u30e9\u30e0\u30ea\u30fc\u30c0\u30fc\u8868\u5f70\u300012\u540d<\/li>\n
              4. \u512a\u79c0\u4fee\u58eb\u8ad6\u6587\u8cde\u300014\u540d<\/span><\/li>\n
              5. \u65e5\u672c\u5b66\u751f\u652f\u63f4\u6a5f\u69cb\u3000\u7b2c\u4e00\u7a2e\u5968\u5b66\u91d1\u3000\u5168\u984d\u514d\u9664\u30005\u540d<\/li>\n
              6. \u65e5\u672c\u5b66\u751f\u652f\u63f4\u6a5f\u69cb\u3000\u7b2c\u4e00\u7a2e\u5968\u5b66\u91d1\u3000\u534a\u984d\u514d\u9664\u30004\u540d<\/li>\n<\/ol>\n\n\n

                <\/p>\n","protected":false},"excerpt":{"rendered":"

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