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1. A. Miyamichi, A. Ono, H. Kamehama, K. Kagawa, K. Yasutomi, S. Kawahito, gMulti-band plasmonic color filters for visible-to-near-infrared image sensorsh, Optics Express, Vol.26, No.19 2018.9.17 pp.25178-25187, IF:3.356
2. R. Mitsuhashi, K. Kagawa, S. Kawahito, C. Koopipat, N. Tsumura, gDual-Band Infrared Video-Based Measurement Using Pulse Wave Maps to Analyze Heart Rate Variabilityh, Journal of Imaging Science and Technology, Vol.62, No.5, September 2018, 2018.9.1, pp. 50405-1-50405-7, IF:0.535
3. G. Okada, R. Mitsuhashi, K. Kagawa, S. Kawahito, N. Tsumura, gNoncontact heart rate measurement using a high-sensitivity camera in a low-light environmenth, Artificial Life and Robotics, Vol.24, Issue1, pp.6-11, 2018.8.31(online) IF:0.48
4. R. Mitsuhashi, G. Okada, K. Kurita, K. Kagawa, S. Kawahito, C. Koopipat, N. Tsumura, gNoncontact pulse wave detection by two-band infrared video-based measurement on face without visible lightingh, Artificial Life and Robotics, Vol.23, Issue 3, pp. 345-352, September 2018, IF:0.48
5. M.-W. Seo, Y. Shirakawa, Y. Kawata, K. Kagawa,K. Yasutomi, S. Kawahito, gA Time-Resolved Four-Tap Lock-In Pixel CMOS Image Sensor for Real-Time Fluorescence Lifetime Imaging Microscopyh, IEEE J. Solid-State Circuits, vol.53, Issue8,@Aug, 2018, 2018.8, pp.2319-2330, IF:4.075
6. S. Kawahito, gColumn-Parallel ADCs for CMOS Image Sensors and Their FoM-Based Evaluationsh, IEICE Trans. Electronics, vol. E101-C, Issue7 July 2018 (invited paper), pp.444-456, 2018.7.1. IF:0.516
7. F. Mochizuki, K. Kagawa, R. Miyagi, M-W. Seo, B. Zhang, T. Takasawa, K. Yasutomi, S. Kawahito, gSeparation of Multi-path Components in Sweep-less Time-of-flight Depth Imaging with a Temporally-compressive Multi-aperture Image Sensorh, ITE Trans. On MTA, Vol.6, No.3, 2018.7.1, pp.202-211,
8. S. Shrestha, S. Kawahito, H. Kamehama, S. Nakanishi, K. Yasutomi, K. Kagawa, N. Teranishi, A. Takeda, T. Go. Tsuru, I. Kurachi, Y. Arai, gA Silicon-on-Insulator-Based Dual-Gain Charge-Sensitive Pixel Detector for Low-Noise X-ray Imaging for Future Astronomical Satellite Missionsh, Sensors, vol.18, Issue6, No.1789, 2018.6.1, pp.1-19, IF:2.475,
9. H.Ishida, K. Kagawa, T.Komuro, B.Zhang, M-W.Seo, T.Takasawa, K.Yasutomi, S.Kawahito, gMulti-Aperture-Based Probabilistic Noise Reduction of Random Telegraph Signal Noise and Photon Shot Noise in Semi-Photon-Counting Complementary-Metal-Oxide-Semiconductor Image Sensorh, Sensors 2018.18, 2018.3.26, pp.977, IF:2.677
10. T.Yoda, H.Nagahara, R.Taniguchi, K. Kagawa, K. Yasutomi, S. Kawahito, gThe Dynamic Photometric Stereo Method Using a Multi-Tap CMOS Image Sensorh, Sensors 2018.18, 2018.3.5, pp.786, IF:2.677
11. ìŒiˆê˜YAˆÀ•xŒ[‘¾AìlË“ñA‰«Œ´Lˆê˜N, gŒõEƒCƒ[ƒWƒZƒ“ƒTEM†ˆ—‚ª‘ŠŒÝ•âŠ®‚·‚éƒRƒ“ƒsƒ…ƒe[ƒVƒ‡ƒiƒ‹’´‚‘¬ƒCƒ[ƒWƒ“ƒOh, ŒõƒAƒ‰ƒCƒAƒ“ƒX, ‚XŒŽ†, pp.50-54, 2018.8(‰ðà)
12. ™@ûa—YAìlË“ñ, gƒŠƒZƒbƒgƒQ[ƒgƒŒƒX‰æ‘f‚ð—p‚¢‚½’´’áƒmƒCƒYƒCƒ[ƒWƒZƒ“ƒT, ‰f‘œî•ñƒƒfƒBƒAŠw‰ïŽ, 2018.Vol.72, 2018.3(“ÁW)
13. ìlË“ñ, ˆÀ•xŒ[‘¾, ™ûa—Y, ìŒiˆê˜Y, ƒ}[ƒX@ƒJƒƒ‹, Ž›¼Mˆê, gƒƒbƒNƒCƒ“ƒsƒNƒZƒ‹ƒCƒ[ƒWƒZƒ“ƒTh, ŒõŠw, 47Šª1†, pp.27-29, 2018.1(ƒtƒH[ƒJƒX)
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14. T.Takaaki, T.G. Tsuru, H. Uchida, S. Harada, T.Okuno, K. Kayama, Y. Amano, H. Matsumura, A.Takeda, K. Mori, Y. Nishioka, K. Fukuda, T. Hida, M. Yukumoto, Y.Arai, I. Kurachi, S. Kawahito, K. Kagawa, K. Yasutomi, S. Shrestha, S. Nakanishi, H. Kamehama, T. Kohmura, K. Hagino, K. Negishi, K. Oono, K.Yarita, gPerformance of SOI Pixel Sensors Developed for X-ray Astronomyh, Conference Record of IEEE NSS-MIC2018, 2018.12.14
15. S.Kawahito, K. Yasutomi, K. Kagawa, S. Aoyama, gHybrid Time-of-Flight Range Image Sensors Using High-Speed Multiple-Tap Charge Modulation Pixelsh, IDWf18, INP2 – 2, Aichi, Japan, 2018.12.12(invited)
16. A. Miyamichi, A. Ono, K. Kagawa, K. Yasutomi, S. Kawahito, gMulti-band plasmonic color filtering through nanostructured metal thin film for RGB-NIR image sensorh, 4th International Workshop on Image Sensors and Imaging Systems (IWISS2018), pp.3-4, Tokyo, Japn, 2018.11.28
17. Y. Nishioka, K. Kagawa, K. Yasutomi, S. Kawahito, gTissue measurement based on a multi-tap CMOS image sensor with binary structured lighth, 4th International Workshop on Image Sensors and Imaging Systems (IWISS2018), pp.7-8, Tokyo, Japan, 2018.11.28
18. R. Miyagi, K. Kagawa, Y. Murakami, H. Nagahara, K. Yasutomi, S. Kawahito, gVisualization of time-of-flight signals with normalized and calibrated phasor ploth, 4th International Workshop on Image Sensors and Imaging Systems (IWISS2018), pp.15-16, Tokyo, Japan, 2018.11.28
19. S. Lee, K. Yasutomi, M. Morita, S. Kawahito, gA 4-tap Lock-in Pixels with a high NIR Sensitivity for Long Range Time-of-Flight Range Sensorh, 4th International Workshop on Image Sensors and Imaging Systems (IWISS2018), pp.35-36, Tokyo, Japan, 2018.11.28
20. L. Tan, M. Hakamata, C. Chen, K. Kagawa, N. Tsumura, S. Kawahito, gA real-time stress monitoring system using a high sensitivity camerah, 4th International Workshop on Image Sensors and Imaging Systems (IWISS2018), pp.17-18, Tokyo, Jaoan, 2018.11.28
21. M. Lee, J-K. Shin, K. Yasutomi, K. Kagawa, S. Kawahito, gA Wide Dynamic Range(WDR)CMOS Image Sensor with Gated Dual Strage Diodesh, The 20th Takayanagi Kenjiro Memorial Symposium, Proceedings, pp.165-166, Shizuoka, Japan, 2018.11.28
22. K. Yasutomi, S.Kawahito, gHigh range resolution Time-of-Flight range imagers and their applicationsh, The 20th ,Takayanagi Kenjiro Memorial Symposium, Proceedings, pp.17-18, Shizuoka, Japan, 2018.11.27(invited)
23. S. Kawahito, gRecent Progress of Image Sensor Device and Technologyh, The 8th Forum on the Science and Technology of Silicon Materials 2018, S6-1, Proceedings, pp.159-164, Okayama, Japan, 2018.11.21(invited)
24. L. Tan, M. Hakamata, C. Chen, K. Kagawa, N. Tsumura, S. Kawahito, gA real-time driver monitoring system using an 18-bit high sensitivity RGB camerah, The 3rd International Symposium on Biomedical Engineering, Hiroshima, Japan, 2018.11.8
25. S. Kawahito, K. Yasutomi, S. Lee, gA Time-of-Flight Range Image Sensor with High Near Infrared Quantum Efficiency Using SOI-Based Fully-Depleted-Substrate Detectorsh, 2018 Japan SOI Workshop, Tokyo, Japan, 2018.10.26(invited)
26. K. Kondo, K. Yasutomi, K.Yamada, A. Komazawa, Y.Handa, Y. Okura, T. Michiba, S. Aoyama, S. Kawahito, gA Built-in Drift-field PD Based 4-tap Lock-in Pixel for Time-of-Flight CMOS Range Image Sensorsh, 2018 International Conference on Solid State Devices and Materials , J-7-03, Proceedings, Tokyo, Japan, 2018.9.13
27. S. Lee, K. Yasutomi, H-H. Nam, M. Morita, S. Kawahito, gA Back-illuminated Time-of-Flight Image Sensor with SOI-based Fully Depleted Detector Technology for LiDAR applicationh, EUROSENSORS 2018, Proceedings MDPI, Graz, Austria, University of Graz, 2018.9.10
28. S. H. Kim, Y. Takeuchi, K.Takemasa, K. Nagata, K. Kasahara, S. Yagi, R. Wakasa, R. Senzaki, K. Moriuchi, C. Asano, H. Ikeda, T. Wada, K. Nagase, S. Baba, H. Ishino, A. Kibayashi, S. Matsuura, K. Kikuchi, S.Mima, T. Yoshida, M. Sakai, T. Nakamura, Y. Kato, M. Hazumi, Y. Arai, I. KUrachi, M. Ohkubo, M. Ukibe, S. Shiki, G. Fujii, S. Kawahito, E. Ramberg, M. Kozlovsky, P. Rubinov, D. Sergatskov, J. Yoo, S.B. Kim, gDevelopment of Superconducting Tunnel Junction Photon Detectors with Cryogenic Preamplifier for COBAND Experimenth, International Conference on Technology and Instrumentation in Particle Physics 2017, Proceedings, Volume 2, pp.242-248, 2018.8.8
29. K. Takemasa, S. Kim, Y. Takeuchi, K. Nagata, K. Kasahara, S. Yagi, R. Wakasa, C. Asano, Y. Ootuka, S. Mima, K. Kiuchi, Y. Arai, I. Kurachi, M. Hazumi, H. Ishino, A. Kibayashi, T. Yoshida, M. Sakai, T. Nakamura, Y. Kato, S. Matuura, S. Kawahito, H. Ikeda, T.Wada, K. Nagase, S. Baba, S. Shiki, M. Ukibe, G. Fuji, M. Ohkubo, E. Ramberg, M. Kozlovsky, P. Rubinov, J. Yoo, D. A. Sergatskov, S-B. Kim, gDevelopment of Superconducting Tunnel Junction Detector Using Hafnium for COBAND Experimenth, International Conference on Technology and Instrumentation in Particle Physics 2017, Proceedings, Volume 2, pp.254-258, 2018.8.8.
30. T. G. Tsuru, H. Hayashi, K. Tachibana, S. Harada, H. Uchida, T. Tanaka, Y. Arai, I. Kurachi, K. Mori, A. Takeda, Y. Nishioka, N. Takebayashi, S. Yokoyama, K. Fukuda, T. Kohmura, K. Hagino, K. Ohno, K. Negishi, K. Yarita, S. Kawahito, K. Kagawa, K. Yasutomi, S. Shrestha, S. Nakanishi, H. Kamehama, H. Matsumura, gKyoto's event-driven x-ray astronomy SOI pixel sensor for the FORCE missionh, Proc. SPIE. , 10179, High Energy, Optical, and infrared Detectors for Astronomy VIII, 2018.8.1
31. C. Chen, Y. Shirakawa, L. Tan, M-W. Seo, K.Kagawa, K. Yasutomi, T. Kosugi, S. Aoyama, N. Teranishi, N. Tsumura, S. Kawahito, gA Two]Tap NIR Lock]In Pixel CMOS Image Sensor with Background Light Cancelling Capability for Non]Contact Heart Rate Detection, 2018 Symposia on VLSI Circuits, C7-4, pp.75-76, Honolulu, Hawaii, USA, Hilton Hawaiian Village, Honolulu, 2018.6.20
32. D-X Lioe, Z. Liu, M-W Seo, M. Niwayama, M, Hakamata, K. Yasutomi, K. Kagawa, Y. Fukushi, S. Yamamoto, S. Kawahito,gA time-resolved near-infrared spectroscopy based on CMOS image sensor Asia-Pacific Optical Sensorsh, Conference, Thu_1, Shimane, Japan, 2018.5.31
33. S. Kawahito, gSOI Pinned Depleted Diodeh, Front-End Electronics 2018, No.54, Canada, Jouvence, 2018.5.21.(Invited)
34. S. Kawahito, gTime-of-flight (TOF) range image sensors for VR/AR applications, Image Sensors Europe@2018, Park Plaza Victoria London Hotel, London, UK, 2018.3.14
35. T. Yasue, K. Tomioka, R. Funatsu, T. Nakamura, T. Yamasaki, H. Shimamoto, T. Kosugi, J. Sungwook, T. Watanabe, M. Nagase, T. Kitajima, S. Aoyama, S. Kawahito, g A 2.1ƒÊm 33Mpixel CMOS Imager with Multi-Functional 3-Stage Pipeline ADC for 480fps High-Speed Mode and 120fps Low-Noise Mode, ISSCC2018, 5.6, SAN FRANCISCO MARRIOTT MARQUIS HOTEL, SAN FRANCISCO, USA, 2018.2.12
36. K. Yamada, A. Komazawa, T. Takasawa, K. Yasutomi, K. Kagawa, S. Kawahito, gA distance measurement method using a time-of-flight CMOS range image sensor with 4-tap output pixels and multiple time-windowsh, Electronic Imaging 2018, Hyatt Regency San Francisco Airport, Burlingame, California, USA, 2018.1.31
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7. ‹{é —º‘¾, ‘ºã—T‘¾, ìŒiˆê˜Y, ’·Œ´ˆê, 쓈Œ’Žk, ˆÀ•xŒ[‘¾, ìlË“ñ, gŒõ”òsŽžŠÔ‚ÉŠî‚‹——£‰æ‘œŒv‘ª‚Ì“àŽ‹‹¾‰ž—p‚É‚¨‚¯‚éƒ}ƒ‹ƒ`ƒpƒX‚̉e‹¿‚ÌŒŸ“¢h, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2018, “Œ‹ž“s•¶‹ž‹æ, 2018.11.2
8. ¼‰ª—C‹L, ìŒiˆê˜Y, ‘‚琛, ’Ѻ“¿“¹, ¬ŽºF, ’†‘º˜a³, Anthony Durkin, Bruce Tromberg, ˆÀ•xŒ[‘¾, ìlË“ñ, g4ƒ^ƒbƒvCMOSƒCƒ[ƒWƒZƒ“ƒT‚ð—p‚¢‚½ƒŠƒAƒ‹ƒ^ƒCƒ€Ã–¬ƒCƒ[ƒWƒ“ƒO, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰Optics & Photonics Japan 2018, “Œ‹ž“s•¶‹ž‹æ, 2018.10.31
9. âV“¡‘‘¾˜N,‘ºã—T‘¾, ìŒiˆê˜Y, —L–{‰pL, ‰ª–{—R‹M, ¬“’O, ‰ªŽu˜Y, ‹g“c¬l, “c’†MŽ¡, ˆÀ•xŒ[‘¾,@gìlË“ñ‚ŽžŠÔ•ª‰ðƒCƒ[ƒWƒZƒ“ƒT[‚ƃtƒFƒCƒU[–@‚ð—p‚¢‚½Ž©‰ÆŒuŒõŽõ–½ŽîᇃCƒ[ƒWƒ“ƒO‚ÌŠî‘bŒŸ“¢h,“ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ï@@@@@@@@@@Optics & Photonics Japan 2018, “Œ‹ž“s•¶‹ž‹æ, 2018.10.31
10. ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ìlË“ñ, gƒ}ƒ‹ƒ`ƒ^ƒbƒvCMOSƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚鶑̃Cƒ[ƒWƒ“ƒOFŽU—EŒuŒõEŒŒ—¬h, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2018, “Œ‹ž“s•¶‹ž‹æ, 2018.11.1
11. ˆÀ•xŒ[‘¾, ìlË“ñ, g‚‹——£•ª‰ð”\ Time-of-Flight CMOS ƒCƒ[ƒWƒZƒ“ƒT Highly range-resolved Time-of-Flight CMOS range imagersh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2018, “Œ‹ž“s•¶‹ž‹æ, 2018.11.2iµ‘Òu‰‰j
12. ìlË“ñ, gɪ”‚ÌŽŸ¢‘ãƒeƒŒƒrƒWƒ‡ƒ“‚ð‚‚‚éIh, ɪ‘åŠwE“Ç”„V•·˜A‘±Žs–¯uÀ2018‘æ4‰ñ, ɪ‰ÈŒ§Ã‰ªŽs, 2018.10.6
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14. C. Chen, Y. Shirakawa, L. Tan, M-W. Seo, K.Kagawa, K. Yasutomi, T. Kosugi, S. Aoyama, N. Teranishi, N. Tsumura, S. Kawahito, gA Two]Tap NIR Lock]In Pixel CMOS Image Sensor with Background Light Cancelling Capability for Non]Contact Heart Rate Detectionh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ïî•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ïiIST)“Œ‹ž“s`‹æ, 2018.9.25
15. ‘å‘q—YŽu, ˆÀ•x Œ[‘¾, ‚àV ‘åŽu, ì Œiˆê˜Y, ìl Ë“ñ, gŽQÆŒõƒTƒ“ƒvƒŠƒ“ƒO‚É‚æ‚é TOF ‹——£ƒCƒ[ƒWƒZƒ“ƒT‚Ì‚‹——£•ª‰ð”\‰»(High range resolution of TOF sensor by reference plane sampling), ‰f‘œî•ñƒƒfƒBƒAŠw‰ï”NŽŸ‘å‰ï, Î쌧‹à‘òŽs, 2018.8.29
16. “瓇‘ñ•¶, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, ‚àV‘åŽu, ìlË“ñ, g’áƒmƒCƒY”ñ”j‰ó“Ç‚Ýo‚µ‰æ‘f\‘¢‚É‚¨‚¯‚é“d‰×“]‘—‰ü‘P(Improvement of charge transfer in a low-noise nondestructive readout pixel)h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï”NŽŸ‘å‰ï, Î쌧‹à‘òŽs, 2018.8.29
17. ’†¼ x‘¾, ˆÀ•x Œ[‘¾, Ž›¼ Mˆê, ìl Ë“ñ, g‘S‹ó–RSOIŠî”‚ð—p‚¢‚½“d‰×“]‘—Œ^ƒsƒNƒZƒ‹(Charge transfer type pixel using fully depleted SOI substrate)h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï”NŽŸ‘å‰ï, Î쌧‹à‘òŽs, 2018.8.29
18. ŽR“cq•½,‹ß“¡Œ[‘¾, ‘å‘q—YŽu, ˆÀ•xŒ[‘¾, “¹ê—FÆ, ƒ}[ƒXEƒJƒƒ‹, ‚àV‘åŽu, ìlË“ñ, gîŒ`4ƒ^ƒbƒv•Ï’²‘fŽq‚ð—L‚·‚éTOF‹——£‰æ‘œƒZƒ“ƒT‚Ì•]‰¿h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï”NŽŸ‘å‰ï, Î쌧‹à‘òŽs, 2018.8.29
19. ‘å‘q—YŽu, ˆÀ•xŒ[‘¾, ‚àV‘åŽu, ìŒiˆê˜Y, ìlË“ñ, g 3 ƒ^ƒbƒv LEFM ‚ð—p‚¢‚½‚‹——£•ª‰ð”\ TOF ƒCƒ[ƒWƒZƒ“ƒTh, COI‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.33, ɪŒ§•l¼Žs, 2018.8.8
20. C. Cao, Y. Shirakawa, L. Tan, K. Kagawa, K. Yasutomi, T. Kosugi, S. Aoyama, N. Teranishi, N. Tsumura, S. Kawahito, g NIR Lock-In Pixel CMOS Image Sensor with Background Light Cancelling Capability for Non-Contact Heart Rate Detectionh, COI‰Ä‚ÌŒ¤‹†‰ï,ƒvƒƒOƒ‰ƒ€W, pp.32, ɪŒ§•l¼Žs, 2018.8.8
21. L. Tan, K. Kagawa, S. Kawahito, N. Tsumura, gA real-time driver monitoring system using an 18-bit camerah, COI‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.32, ɪŒ§•l¼Žs, 2018.8.8
22. D. X. Lioe, M. Niwayama, M. Hakamata, K. Yasutomi, K. Kagawa, Y. Fukushi, S. Yamamoto, S. Kawahito, gA time-resolved near-infrared spectroscopy based on CMOS image sensorh, COI‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.33, ɪŒ§•l¼Žs, 2018.8.8
23. ‹{é —º‘¾, ì Œiˆê˜Y, ˆé•” Œ\Œá, Ô–x ’ms, ˆÀ•x Œ[‘¾, ìl Ë“ñ, gƒ}ƒ‹ƒ`ƒ^ƒbƒvEƒ‰ƒeƒ‰ƒ‹“dŠE“d‰×•Ï’²Ší‚ð—p‚¢‚½‚«”\TOFƒCƒ[ƒWƒZƒ“ƒTh, MIRU2018, –kŠC“¹ŽD–yŽs, 2018.8.6
24. P. S. Sivakumar, K. Kagawa, T. Takasawa, K. Yasutomi, S. Kawahito, gA Simulation of Multi-Exposure Laser Speckle Contrast Imaging using Multi-tap Charge Modulation Pixelsh, “Œ–k‘å’ÊŒ¤@ƒTƒ}[ƒZƒ~ƒi[, å‘äŽs—t‹æ, 2018.7.30
25. C. Chen, Y. Shirakawa, L. Tan, K. Kagawa, K. Yasutomi, T. Kosugi, S. Aoyama, N. Teranishi, N. Tsumura, S. Kawahito, gA Two-Tap NIR Lock-In Pixel CMOS Image Sensor with Background Light Cancelling Capability for Non-Contact Heart Rate Detectionh, “Œ–k‘å’ÊŒ¤@ƒTƒ}[ƒZƒ~ƒi[, å‘äŽs—t‹æ, 2018.7.30
26. C. Chen, Y. Shirakawa, L. Tan, M-W. Seo, K. Kagawa, K. Yasutomi, T. Kosugi, S. Aoyama, N. Teranishi, N. Tsumura, S. Kawahito, gA Two-Tap NIR Lock-In Pixel CMOS Image Sensor with Background Light Cancelling Capability for Non-Contact Heart Rate Detectionh, VLSI‰ñ˜HƒVƒ“ƒ|ƒWƒEƒ€•ñ‰ï,_ŒËŽs“å‹æ, 2018.7.10
27. ŽR“cq•½, ‹ß“¡Œ[‘¾, ‘å‘q—YŽu, ˆÀ•xŒ[‘¾, “¹ê—FÆAƒ}[ƒX@ƒJƒƒ‹, ‚àV‘åŽu, ìŒiˆê˜Y, ìlË“ñ, gîŒ`4ƒ^ƒbƒv•Ï’²‘fŽq‚ð—L‚·‚éTOF‹——£‰æ‘œƒZƒ“ƒT‚Ì•]‰¿h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, pp.1-4, “Œ‹ž“sVh‹æ, 2018.6.27
28. ‹{é—º‘¾, ‘ºã—T‘¾, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ìlË“ñ, gTime-of-Flight‹——£‰æ‘œŒv‘ª‚Ì“àŽ‹‹¾‰ž—p‚É‚¨‚¯‚éƒ}ƒ‹ƒ`ƒpƒX¬•ª‚̉e‹¿‚ÌŒŸ“¢h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, pp.5-8, “Œ‹ž“sVh‹æ, 2018.6.27
29. ‘å‘q—YŽu, ˆÀ•xŒ[‘¾, ‚àV‘åŽu, ìŒiˆê˜Y, ìlË“ñ, g3ƒ^ƒbƒvLEFM‚ð—p‚¢‚½‚‹——£•ª‰ð”\TOFƒCƒ[ƒWƒZƒ“ƒTh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, pp.9-12, “Œ‹ž“sVh‹æ, 2018.6.27
30. “瓇‘ñ•¶, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, ‚àV‘åŽu, ìlË“ñ, gƒRƒ“ƒsƒ…[ƒ^ƒrƒWƒ‡ƒ“‰ž—p‚ÉŒü‚¯‚½’áƒmƒCƒY”ñ”j‰ó“Ç‚Ýo‚µ‰æ‘f\‘¢‚ÌŒŸ“¢h,‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, pp.21-24, “Œ‹ž“sVh‹æ, 2018.6.27
31. ŒÃŠp’m–ç, ìŒiˆê˜Y, ‰«Œ´Lˆê˜N, ˆÀ•xŒ[‘¾, ìlË“ñ, gƒ}ƒ‹ƒ`ƒAƒp[ƒ`ƒƒ’´‚‘¬ƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚郌[ƒU[—U‹Nƒvƒ‰ƒYƒ}‚ÌŽžŠÔ•ª‰ðŽB‘œh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, pp.25-28, “Œ‹ž“sVh‹æ, 2018.6.27
32. Ho Hai Nam, K. Yasutomi, Sanggwon. Lee, S. Kawahito, gA backside illumination fully depleted SOI pixel detector for time-of-flight range imagingh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, pp.29-32, “Œ‹ž“sVh‹æ, 2018.6.27
33. ìlË“ñ, g‘½‘‹ŽžŠÔ•ª‰ðƒsƒNƒZƒ‹ƒCƒ[ƒWƒZƒ“ƒT‚ƃoƒCƒIƒCƒ[ƒWƒ“ƒO‚ւ̉ž—ph, “ú–{ŠwpU‹»‰ï‘æ185ˆÏˆõ‰ï‚Q‚O‚P‚W”N“x‘æ1‰ñŒ¤‹†‰ï, “Œ‹ž“s’†‰›‹æ, 2018.6.26iµ‘Òu‰‰j
34. âV“¡‘‘¾˜N, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ìlË“ñ, gŒuŒõŽõ–½ƒCƒ[ƒWƒ“ƒO‚É‚¨‚¯‚éŽü”g”—̈æƒf[ƒ^‰ðÍ‚ÆŒuŒõŽõ–½¬•ª•ª—£‚Ì—Z‡h, ‘æ12‰ñV‰æ‘œƒVƒXƒeƒ€Eî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†“¢˜_‰ï, u‰‰—\eW, pp.41-42, “Œ‹ž“s`‹æ, 2018.6.14
35. ¼‰ª—C‹L, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ìlË“ñ, g‚ŽžŠÔ•ª‰ðCMOSƒCƒ[ƒWƒZƒ“ƒT‚Æ\‘¢ŒõÆ–¾‚ð—p‚¢‚½¶‘Ì[•”Œv‘ª‚ÉŠÖ‚·‚éŠî‘bŒŸ“¢, ‘æ12‰ñV‰æ‘œƒVƒXƒeƒ€Eî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†“¢˜_‰ï, u‰‰—\eW, pp.47-48, “Œ‹ž“s`‹æ, 2018.6.14
36. ‹{é—º‘¾, ‘ºã—T‘¾, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ìlË“ñ, gŒõ”òsŽžŠÔ‚ÉŠî‚‹——£‰æ‘œŒv‘ª‚Ì“àŽ‹‹¾‰ž—p‚ƃ}ƒ‹ƒ`ƒpƒX‚̉e‹¿‚ÌŒŸ“¢h, ‘æ12‰ñV‰æ‘œƒVƒXƒeƒ€Eî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†“¢˜_‰ï, u‰‰—\eW, pp.33-34, “Œ‹ž“s`‹æ, 2018.6.14
37. ŒÃŠp’m–ç, ìŒiˆê˜Y, ‰«Œ´Lˆê˜N, ˆÀ•xŒ[‘¾, ìlË“ñ, gƒ}ƒ‹ƒ`ƒAƒp[ƒ`ƒƒ•ûŽ®’´‚‘¬ƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚郌[ƒU[—U‹Nƒvƒ‰ƒYƒ}‚ÌŽžŠÔ•ª‰ðŽB‘œh, ‘æ12‰ñV‰æ‘œƒVƒXƒeƒ€Eî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†“¢˜_‰ï, u‰‰—\eW, pp.37-38, “Œ‹ž“s`‹æ, 2018.6.14
38. ìlË“ñ, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, g‘½‘‹ŽžŠÔ•ª‰ð‚ð—p‚¢‚½ƒnƒCƒuƒŠƒbƒhŒ^Time-of-Flight‹——£‰æ‘œƒZƒ“ƒTiHybrid-Type Time-of-Flight Range Image Sensorsj, ‘æ61‰ñŒõ”gƒZƒ“ƒVƒ“ƒO‹ZpŒ¤‹†‰ïu‰‰‰ï, u‰‰˜_•¶W, pp.43-47, “Œ‹ž“sVh‹æ, 2018.6.12iµ‘Òu‰‰j
39. ìlË“ñ, gƒ}ƒ‹ƒ`ƒ^ƒbƒvŒõ“d‰×•Ï’²ƒsƒNƒZƒ‹‚ð—p‚¢‚½’´‚ŽžŠÔ•ª‰ðƒCƒ[ƒWƒZƒ“ƒTh, ‘æ9‰ñƒfƒBƒWƒ^ƒ‹ƒIƒvƒeƒBƒNƒXŒ¤‹†‰ï, ŽŽ™“‡Œ§‰‚”üŽs, 2018.5.31iµ‘Òu‰‰j
40. ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ìlË“ñƒ}ƒ‹ƒ`ƒ^ƒbƒvCMOSƒCƒ[ƒWƒZƒ“ƒT‚ð—p‚¢‚½¶‘ÌŒõƒCƒ[ƒWƒ“ƒO‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï‹à‘ò‘åŠw¼’¬ƒTƒeƒ‰ƒCƒgƒvƒ‰ƒU2018.5.25
41. ‘å‘q—YŽu, ˆÀ•xŒ[‘¾, ìlË“ñ, gTime-of-FlightƒCƒ[ƒWƒZƒ“ƒT‚Ì‚½‚ß‚Ì‘S“dŽqŽ®ƒXƒLƒ…[•â³‰ñ˜Hh, LSI‚ƃVƒXƒeƒ€‚̃[ƒNƒVƒ‡ƒbƒv, “Œ‹ž“s–Ú•‹æ, 2018.5.14
42. ìlË“ñ, gƒCƒ[ƒWƒZƒ“ƒT‚ÌÅV‹Zph, ‚Q‚O‚P‚W”N“dŽqî•ñ’ÊMŠw‰ï‘‡‘å‰ïŠé‰æˆÏˆõ‰ïŠé‰æƒVƒ“ƒ|ƒWƒEƒ€ƒ^ƒCƒgƒ‹FuƒZƒ“ƒT‚ÆAI‚Ì‹¦’²‚ª‘ñ‚ƒXƒ}[ƒgŽÐ‰ïv, “Œ‹ž“s‘«—§‹æ, 2018.3.22
43. ‹{é —º‘¾, ‘ºã—T‘¾, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ™ûa—Y, ìlË“ñ, 쓈Œ’Žk, gTOF‹——£‰æ‘œŒv‘ª‚Ì“àŽ‹‹¾‰ž—p‚É‚¨‚¯‚éƒ}ƒ‹ƒ`ƒpƒX‚̉e‹¿‚ÌŒŸ“¢h, •½¬29”N“x¶‘̈㎕HŠw‹¤“¯Œ¤‹†‹’“_¬‰Ê•ñ‰ï, pp.56, _“Þ쌧‰¡•lŽs, 2018.3.9
44. •y‰ªG•½, ˆÀ]r•v, ‘D’×Ǖ½, ’†‘º—F—m, ŽRè‹MO, “‡–{—m, ¬™’q•F, ƒWƒ…ƒ“ƒXƒ“ƒEƒN, “n•Ó‹±Žu, ‰i£³‘¥, –k“‡—˜–¾, ÂŽR‘, ìlË“ñ, g480fps‚‘¬ŽB‰eƒ‚[ƒh‚Æ120fps’áŽG‰¹ƒ‚[ƒh‚ð—L‚·‚éƒ}ƒ‹ƒ`ƒtƒ@ƒ“ƒNƒVƒ‡ƒ“‚R’iADC‚ð—p‚¢‚½2.1㎛3,300–œ‰æ‘fCMOSƒCƒ[ƒWƒZƒ“ƒT, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, vol.42, No.10, pp.17-20, “Œ‹ž“s¢“c’J‹æ, 2018.3.9
45. ŽR“cq•½, ‹îàV²l, ‚àV‘åŽu, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, ìlË“ñ, g4ƒ^ƒbƒv“d‰×•Ï’²Œ^‹——£‰æ‘œƒZƒ“ƒT‚ð—p‚¢‚½ŽldŽžŠÔ‘‹‹——£Œv‘ª•ûŽ®‚ÌŒŸ“¢, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, vol.42, No.10, pp.5-8, “Œ‹ž“s¢“c’J‹æ, 2018.3.9
46. —«’‰Œd, —«“¾V, ™ûa—Y, ’ëŽR‰ëŽk, ŒÑ“c³Žu, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, •ŸŽiNŽq, ŽR–{´“ñ, ìlË“ñ, g‚ŽžŠÔ•ª‰ðŒ^CMOSƒCƒ[ƒWƒZƒ“ƒT‚ð—p‚¢‚½ŽžŠÔ•ª‰ð‹ßÔŠO•ªŒõ–@‚ÉŠÖ‚·‚錤‹†h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, vol.42, No.10, pp.1-4, “Œ‹ž“s¢“c’J‹æ, 2018.3.9
47. ìlË“ñ, gƒCƒ[ƒWƒZƒ“ƒT‚Ì‚“x‰»‚ÌÅV“®Œüh, ŠwU130ˆÏˆõ‰ï•½¬29”N“xwŒõ‚Ì“úxƒVƒ“ƒ|ƒWƒEƒ€, “Œ‹ž“s–Ú•‹æ, 2018.3.8
48. ¼‰ª—C‹L, ìŒiˆê˜Y, ™ûa—Y, ˆÀ•xŒ[‘¾, ìlË“ñ, g‚ŽžŠÔ•ª‰ðCMOSƒCƒ[ƒWƒZƒ“ƒT‚Æ\‘¢ŒõÆ–¾‚ð—p‚¢‚½[‚³•ª‰ð¶‘ÌŒv‘ª‚ÌŠî‘b“IŒ¤‹†h, ‘æ12‰ñŠÖ“ŒŠw¶Œ¤‹†˜_•¶u‰‰‰ï, u‰‰—\eW, pp.43, _“Þ쌧‰¡•lŽs, 2018.3.6
49. âV“¡‘‘¾˜Y, ìŒiˆê˜Y, ™ûa—Y, ˆÀ•xŒ[‘¾, ìlË“ñ, gFLIM‚Ì‚½‚ß‚ÌŽü”g”—̈æƒf[ƒ^‰ðÍ‚ÆŒuŒõŽõ–½¬•ª•ª—£‚ÌŒŸ“¢, ‘æ12‰ñŠÖ“ŒŠw¶Œ¤‹†˜_•¶u‰‰‰ï, u‰‰—\eW, pp.11, _“Þ쌧‰¡•lŽs, 2018.3.6
50. –]ŒŽ•—‘¾, ìŒiˆê˜Y, ‰«Œ´Lˆê˜Y, ™ûa—Y, ’£”Ž, ‚àV‘åŽu, ˆÀ•xŒ[‘¾, ìlË“ñ, gGfps—̈æ‚ð–ÚŽw‚·‰æ‘f“àŽžŠÔˆ³kŒ^’´‚‘¬ƒRƒ“ƒsƒ…ƒe[ƒVƒ‡ƒiƒ‹CMOSƒCƒ[ƒWƒZƒ“ƒTh, ‘æ12‰ñŒvŽZƒIƒvƒeƒBƒNƒXŒ¤‹†‰ï, “Œ‹ž“s–Ú•‹æ, 2018.2.28