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1.       H. Kamehama, S. Kawahito, S. Shrestha, S. Nakanishi, K. Yasutomi, A. Takeda, T. G. Tsuru, Y. Arai, gA Low-Noise X-ray Astronomical SOI Pixel Detector Using a Pinned@Depleted Diode Structureh, Sensors 2018.18, 2017.12.23, pp.27, IF:2.677

2.       T. Arai, T. Yasue, K. Kitamura, H. Shimamoto, T. Kosugi, S-W. Jun, S. Aoyama, M-C. Hsu, Y. Yamashita, H. Sumi, S. Kawahito, gA 1.1-ƒÊm 33-Mpixel 240-fps 3D-Stacked CMOS Image Sensor with 3-Stage Cyclic-Cyclic-SAR Analog-to-Digital Convertersh, IEEE Transactions on Electron Devices, Volume 64, Issue 12, 2017.11.8, pp.4992-5000 IF:2.605

3.       K. Mars, D-X. Lioe, S. Kawahito, K. Yasutomi, K. Kagawa, T. Yamada, M. Hashimoto, gLabel-Free Biomedical Imaging Using High-Speed Lock-In Pixel Sensor, Sensors, 2017.17, 2017.11.9, pp.2581, IF:2.677

4.       M-W. Seo, S. Kawahito, gA 7ke- SD-FWC 1.2e-rms Temporal Random Noise 128~256 Time-Resolved CMOS Image Sensor with Two In-Pixel SDs for Biomedical Applicationsh, IEEE TEANSACTIONS ON BIOMEDICAL CIRCUITS AND SYSTEMS, Volume11, Issue 6, 2017.9.21, pp.1335-1343, IF: 2.937

5.       T. Wang, M-W. Seo, K. Yasutomi, S. Kawahito,h A 19-bit Column-Parallel Folding-Integration/Cyclic Cascaded ADC with a Pre-Charging Technique for CMOS Image Sensorsh, IEICE Electronics Express, Vol.14, No.2, 2017.2, IF:0.344

6.       “n•” r‹v , ¬™ ’q•F , ‘å’| _ , “‡–{ —m , ìl Ë“ñ,h3300–œ‰æ‘f 120fps CMOSƒCƒ[ƒWƒZƒ“ƒT—pƒJƒ‰ƒ€•À—ñ2’iƒTƒCƒNƒŠƒbƒNŒ^ADC‚̃fƒWƒ^ƒ‹•â³‚Ì‚¸“xE‚‘¬‰»Žè–@h, “d‹CŠw‰ï˜_•¶Ž‚diƒZƒ“ƒTEƒ}ƒCƒNƒƒ}ƒVƒ“•”–åŽj, Vol.137,No.2, pp.65-71, 2017.2

7.       ì Œiˆêû¶C–]ŒŽ •—‘¾C‰«Œ´ Lˆê˜NC™ûa—YCˆÀ•x Œ[‘¾Cìl Ë“ñ, gƒVƒŠƒRƒ“ƒCƒ[ƒWƒZƒ“ƒT[EŒõŠwEM†ˆ—‚Ì—Z‡‚É‚æ‚é’´‚‘¬ŽžŠÔ•ª‰ðŽB‘œ‚̃Rƒ‚ƒfƒBƒeƒB‰»h, OplusE, 2017”N3ŒŽ†i‘æ448†j, pp.258-263, 2017.2.25

 

 

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8.       S. Kawahito, H. Kamehama, S. Shrestha, K. Yasutomi, N. Teranish, T. G. Tsuru , A. Takeda, I. Kurachi, Y. Arai, gA SOI Pixel Detector Using Pinned Depleted Diode Structure For High-Energy-Resolution X-ray Imaging and High-Sensitivity NIR Imagingh, 2nd Workshop on SOI Pixel Detector (SOIPIX 2017), Okinawa, Japan, 2017.12.12

9.       K. Kagawa, Y. Murakami, R. Miyagi, H. Chen, E. Gratton, M-W. Seo, K. Yasutomi, S. Kawahito, gFrequency-domain analysis in fluorescence lifetime, tissue, and time-of-flight ranging with ultra-high-speed multi-tap charge modulation pixelsh, the 19th Takayanagi Kenjiro Memorial Symposium, Proceedings, pp.35-39, Shizuoka, Japan, 2017.11.22

10.    M-W. Seo, K. Yasutomi, K. Kagawa, S. Kawahito, gUltra-Low-Noise Wide-Dynamic-Range CMOS Image Sensors for Scientific Applicationsh, the 19th Takayanagi Kenjiro Memorial Symposium, Proceedings, pp.51-54, Shizuoka, Japan, 2017.11.22(invited)

11.    K. Mars, D-X. Lioe, S. Kawahito, K. Yasutomi,K. Kagawa, T. Yamada, M. Hashimoto, gLabel-Free Biomedical Imaging Using High-Speed CMOS Lock-In Pixel Sensor for Stimulated Raman Scatteringh,the 19th Takayanagi Kenjiro Memorial Symposium, Poster-34, Proceedings, pp.193-196, Shizuoka, Japan, 2017.11.21

12.    D-X. Lioe, Z. Liu, M-W. Seo, M. Niwayama, M. Hakamata, K. Yasutomi, K. Kagawa, Y. Fukushi, S. Yamamoto, S. Kawahito, gHighly Time-Resolved Near Infrared Spectroscopy Image Sensors Using a High-Speed CMOS Lock-in Pixelh, the 19th Takayanagi Kenjiro Memorial Symposium,Poster- 38, Proceedings, pp.210-213, Shizuoka, Japan, 2017.11.21

13.    S. Shresta, H. Kamehama, S. Nakanishi, K. Yasutomi, K. Kagawa, N. Teranishi, A. Takeda, T. G. Tsuru, Y. Arai, S. Kawahito, gDevelopment of Event-Driven X-ray Detector using Fully-Depleted Silicon-On-Insulator Based Technology for High Energy Imagingh, the 19th Takayanagi Kenjiro Memorial Symposium, Poster-32, Proceedings, pp.186-189, Shizuoka, Japan, 2017.11.21

14.    M. Lee, M-W. Seo, T. Takasawa, J-K. Shin, K. Yasutomi, K. Kagawa, S. Kawahito, gA Wide Dynamic Range(WDR) CMOS Image Sensor with Gated Dual Storage Diodesh, the 19th Takayanagi Kenjiro Memorial Symposium, Poster-37, Proceedings, pp.207-209, Shizuoka, Japan, 2017.11.21

15.    D-X. Lioe, Z. Liu, M-W. Seo, M. Niwayama, M. Hakamata, K. Yasutomi, K. Kagawa, Y. Fukushi, S. Yamamoto, S. Kawahito, gA High Time-resolution CMOS Image Sensor for Near Infrared Spectroscopyh, The 2nd International Symposium on Biomedical Engineering, Poster-124, pp.306-307, Tokyo, Japan, 2017.11.10

16.    P. S. Sivakumar, K. Kagawa, B. Zhang, T. Takasawa, K. Yasutomi, S. Kawahito, g Multi-tap Charge Modulation CMOS Image Sensor for@Scanning-less Laser Doppler Flowmetry Imagingh, The 2nd International Symposium on Biomedical Engineering, Poster-129, pp.316-317, Tokyo, Japan , 2017.11.10

17.    R. Miyagi, Y. Murakami , K. Kagawa, K. Yasutomi, M-W. Seo, K. Kawashima, S. Kawahito, gTime-of-flight Depth Image Acquisition Using Highly Time-resolving Charge Modulation Image Sensor and Frequency-domain Analysis for Application to Endoscopeh, The 2nd International Symposium on Biomedical Engineering, Poster-81, pp.220-221, Tokyo, Japan, 2017.11.10

18.    K. Kobayashi, T. Komuro, B. Zhang, K. Kagawa, S. Kawahito, gA Gaze-preserving Group Video Conference System using Screen-embedded Camerash, 23rd ACM Symposium on Virtual Reality Software and TechnologyiVRST2017), Gothenburg, Sweden, Lindholmen Conference Centre, 2017.11.8

19.    M-W. Seo, K. Yasutomi, K. Kagawa, S. Kawahito, gAdvanced CMOS Image Sensors for Scientific, Biomedical, and Industrial Imaging Applicationsh, 14th International SoC Design Conference(ISOCC 2017), SS4-5, pp.163, Seoul, Korea, Grand Hilton Hotel, 2017.11.7(invited)

20.    S. Kawahito, gCMOS Image Sensors for Present and Future Consumer Electronicsh, 2017 IEEE 6th Global Conference on Consumer Electronics (GCCE2017), WINC AICHI, Nagoya, 2017.10.26.(Keynote Speech, Invited)

21.    M-W. Seo, S. Kawahito, gDevelopment of a two-tap time-resolved CMOS lock-in pixel image sensor with high charge storability and low temporal noise,h Biomedical and Life Science Circuits and Systems 2017iBIOCAS 2017), Poster-7210, Proceedings, pp.648-651, Turin, ItalyPolitecnico di Torino, 2017.10.21

22.    G. Okada, K. Kagawa, S. Kawahito, N. Tsumura, gNoncontact Heart Rate Measurement Using High Sensitivity Camera in Low Light Environmenth, Twenty-fifth Color and Imaging Conference (CIC 25), Lillehammer, NormayMaihaugan Museum, 2017.9.14

23.    R. Mitsuhashi, G. Okada, K. Kurita, K. Kagawa, S. Kawahito, N. Tsumura, gTwo-Band Infrared Video-based Measurement for Non-Contact Pulse Wave Detection on Face without Visible Lightingh, Twenty-fifth Color and Imaging Conference (CIC 25), Lillehammer, NormayMaihaugan Museum, 2017.9.13

24.    T-G. Tsuru, H. Hayashi, K. Tachibana, M. Itou, S. Ohmura, H. Matsumura, H. Uchida, T. Tanaka, S. Nakashima, Y. Arai, I. Kurachi, K. Mori, A. Takeda, Y. Nishioka, N. Takebayashi, S. Yokoyama, T. Kohmura, K. Tamasawa, Y. Ozawa, T. Sato, S. Kawahito, K. Kagawa, K. Yasutomi, H. Kamehama, S. Shrestha, gKyotofs event-driven x-ray astronomical SOI pixel sensorh, SPIE Optics + Photonics 2017, San Diego, USA, 2017.8.6

25.    Z. Liu, D-X. Lioe, M-W. Seo, M. Niwayama, M. Hakamata, K. Kagawa, K. Yasutomi, Y. Fukushi, S.Yamamoto, S. Kawahito, gA Time-Resolved NIRS Experiment Using a CMOS Lock-In Pixel Image Sensor with Highly Time-Resolving Capabilityh, The 39th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBCf17), Jeju Island, Korea, 2017.7.14

26.    A. Miyamichi, A. Ono, H. Kamehama, K. Kagawa, K. Yasutomi, S. Kawahito, gPlasmonic color filter from visible to near-infrared range for image sensorh, The 11th Asia-Pacific Conference on Near-Field Optics, TaiwanNational Cheng Kung University, Taiwan, 2017.7.11.

27.    M-W. Seo, S. Kawahito, gA Deep Sub-Electron Read Noise CMOS RG-Less Pixel Image Sensor with a Novel FD Reset Methodh, 2017 Asia-Pacific Workshop on Fundamentals and Applications of Advanced Semiconductor DevicesiAWAD 2017), Gyeongju, Korea, 2017.7.3

28.    S. Kawahito, gImage Sensors for Automotive Applicationsh, The 2017 Symposium on VLSI Technology and  Circuits 2017, Kyoto, Japan, 2017.6.5 (invited)

29.    K. Yasutomi, M. W. Seo, M. Kamoto, N. Teranishi, S. Kawahito, gA 0.61 E- Noise Global Shutter CMOS Image Sensor with Two-Stage Charge Transfer Pixelsh, The 2017 Symposium on VLSI Technology and  Circuits, C19-3, pp.C248-C249, Kyoto, Japan, 2017.6.8.

30.    A. Ono, A. Miyamichi, H. Kamehama, K. Kagawa, K. Yasutomi, S. Kawahito, gMulti-band plasmonic color filters with corrugated metallic thin filmh, Applied Optics and Photonics (AOPC2017), ChinaBeijing International Convention Center, Beijing, China, 2017.6.5.(Invited)

31.    A. Ono, A. Miyamichi , H. Kamehama, K. Kagawa, K. Yasutomi , S. Kawahito, gNanostructured Metallic Color Filter for Wide-Range and Multi-Band Image Sensorh, 2017 INTERNATIONAL IMAGE SENSOR WORKSHOP, R16, Proceedings, pp.59-61, Grand Prince Hotel Hiroshima,  Hiroshima, Japan, 2017.5.30

32.    K. Kagawa, N. Teranishi, K. Yasutomi, R. Saager, M-W.ng Seo, S. Kawahito, A. Durkin, B. Tromberg, gSimulating the Performance Required for Multi-Tap Charge Modulation Pixels in Time-Resolved Biomedical Imagingh, 2017 INTERNATIONAL IMAGE SENSOR WORKSHOP, P21, Proceedings, pp.141-144, Grand Prince Hotel Hiroshima, Hiroshima, Japan, 2017.5.30"

33.    K. Yasutomi, S. Imanishi, Y. Morikawa, T. Takasawa, K. Kagawa, S. Kawahito, gA High-Resolution Time-of-Flight Range Image Sensor with a 3-Tap Lateral Electric Field Charge Modulatorh, 2017 INTERNATIONAL IMAGE SENSOR WORKSHOP, R24, Proceedings, pp.254-257, Grand Prince Hotel Hiroshima, Hiroshima, Japan, 2017.5.31

34.    S. Shrestha, H. Kamehama, K. Yasutomi, K. Kagawa,N. Teranishi, A. Takeda, T-Go Tsuru, Y. Arai, S. Kawahito, gEvent-Driven Dual-Gain Fully-Depleted SOI Based X-Ray Detector for High Energy Particle Imagingh, 2017 INTERNATIONAL IMAGE SENSOR WORKSHOP, R51, Proceedings, pp.370-373, Hiroshima, Japan, 2017.6.2

35.    S. Kawahito,h Time-Resolved CMOS Image Sensors and Their Future Prospectsh, MEMS Engineer Forum 2017, pp.32, Tokyo, Japan, 2017.4.26(Invited)

36.    M-W. Seo, Y. Shirakawa, Y. Masuda, Y. Kawata, K. Kagawa, K. Yasutomi, S. Kawahito, gA Programmable Sub-Nanosecond Time-Gated 4-Tap Lock-In Pixelh, CMOS Image Sensor for Real-Time Fluorescence Lifetime Imaging Microscopyh, 2017 IEEE@INTERNATIONAL SOLID-STATE@CIRCUITS CONFERENCEiISSCC 2017j, pp.70-71, San Francisco, USA, 2017.2.6

37.    M-W. Seo, T. Wang, S-W. Jun, T. Akahori, S. Kawahito, gA 0.44e-rms Read-Noise 32fps 0.5Mpixel High-Sensitivity RG-Less-Pixel
CMOS Image Sensor Using Bootstrapping Reseth, 2017 IEEE
@INTERNATIONAL SOLID-STATE@CIRCUITS CONFERENCEiISSCC 2017j, pp.80-81, San Francisco, USA, 2017.2.6

38.    Y. Morikawa, K. Yasutomi, S. Imanishi, T. Takasawa, K. Kagawa, N. Teranishi, S. Kawahito, gA lateral electric field charge modulator with bipolar-gates for time-resolved imagingh, Electronic Imaging 2017, Burlingame, USA, 2017.2.2

39.    H. Ishida, K. Kagawa, S. Kawahito, T. Takasawa, K. Yasutomi, B. Zhang, M-W. Seo, T. Komuro, gRTS and photon shot noise reduction based on maximum likelihood estimate with multi-aperture optics and semi-photon-counting-level CMOS image sensorsh, Electronic Imaging 2017, Burlingame, USA, 2017.2.2

40.    M-W. Seo, Y. Shirakawa, K. Kagawa, K. Yasutomi, S. Kawahito, gA high performance multi-tap CMOS lock-in pixel image sensor for biomedical applicationsh, Photonics West@2017, San Francisco, USA, 2017.1.31

41.    Y. Shirakawa, M-W. Seo, K. Yasutomi, K. Kagawa, N. Teranishi, S. Kawahito, gDesign of an 8-tap CMOS lock-in pixel with lateral electric field charge modulator for highly time-resolved imagingh, Photonics West@2017, 101080N-1-8, San Francisco, USA, 2017.1.31

42.    H. Arimoto, A. Iwata, K. Kagawa, Y. Sanomura, S. Yoshida, S. Kawahito, S. Tanaka, gSpectroscopic analysis of autofluorescence distribution in digestive organ for unstained metabolism-based tumor detectionh, Photonics West@2017, San Francisco, USA, 2017.1.30

43.    K. Kugenuma, T. Komuro, B. Zhang, K. Kagawa, S. Kawahito, hHigh-sensitivity Imaging Using a Multi-aperture Camera based on Imaging Synthesis with Disparity Compensationh, International Workshop on Advanced Image Tecnology(IWAIT 2017)Georgi Town, Pulau Pinang, Malaysia, 2017.1.9

 

 

‘“àŒû“ª”­•\                                                                           

1.      B. Zhang,  K. Kagawa, P. S. Sivakumar, A. Komazawa, K. Yasutomi, S. Kawahito, gMulti-exposure laser-speckle-contrast blood-flow imaging using 4-tap charge modulation CMOS  image sensor, ‹¤“¯ƒvƒƒWƒFƒNƒgŒ¤‹†(H29/S1) ƒRƒq[ƒŒƒ“ƒg”g‚ÉŠî‚­ŠwÛ“Iæ’[‰ÈŠw‹Zp‚Ì‘n¬, ɪŒ§•l¼Žs, 2017.12.22

2.      –]ŒŽ•—‘¾C‹{é—º‘¾CìŒiˆê˜YCûüàV‘åŽuCˆÀ•xŒ[‘¾Cƒ\ƒ~ƒ“ƒEƒ“CìlË“ñ, g1Gfps‚ð–ÚŽw‚·ˆ³kŽB‘œ‚ÆTOFh, ‹¤“¯ƒvƒƒWƒFƒNƒgŒ¤‹†(H29/S1) ƒRƒq[ƒŒƒ“ƒg”g‚ÉŠî‚­ŠwÛ“Iæ’[‰ÈŠw‹Zp‚Ì‘n¬, ɪŒ§•l¼Žs, 2017.12.22

3.      ìlË“ñ, gLƒ_ƒCƒiƒ~ƒbƒNƒŒƒ“ƒW RGB ‹y‚Ñ NIR Š´“xƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚éŠç‚©‚ç‚ÌÚG‘ÌM†Œv‘ªh, COIŽO‹’“_¬‰Ê•ñ‰ï, L“‡Žs, 2017.12.13

4.      ìl Ë“ñ, gÅV‚ÌCMOSƒCƒ[ƒWƒZƒ“ƒT‹Zph, ƒtƒHƒgƒjƒNƒX‹ZpƒtƒH[ƒ‰ƒ€H29”N“x‘æ‚R‰ñŒ¤‹†‰ï, •l¼Žs, 2017.11.29

5.      ¬–ì “ÄŽjC‹{“¹ “ÄFCì Œiˆê˜YC‹Tà_ ”Ž‹IC ˆÀ•x Œ[‘¾Cìl Ë“ñ, gCMOSƒ}ƒ‹ƒ`ƒoƒ“ƒhƒCƒ[ƒWƒZƒ“ƒTŠJ”­‚ÉŒü‚¯‚½ƒvƒ‰ƒYƒ‚ƒjƒNƒX‰ž—ph, ‘æ1‰ñ“ú–{ŒõŠw‰ïî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†ƒOƒ‹[ƒv{CMOSŒ¤‹†‰ï‰f‘œî•ñƒƒfƒBƒAŠw‰ïî•ñƒZƒ“ƒVƒ“ƒO11ŒŽŒ¤‹†‰ïuV‚µ‚¢‰ž—p‚ª‘£‚·CMOSƒCƒ[ƒWƒZƒ“ƒT‚ÌŠvVv, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.37, pp.13-15, “Œ‹ž“sVh‹æ, 2017.11.13

6.      ì Œiˆê˜YC‹{é —º‘¾C‘ºã —T‘¾Cƒ\ ƒ~ƒ“ƒEƒ“CˆÀ•x Œ[‘¾Cìl Ë“ñ, gƒ}ƒ‹ƒ`ƒ^ƒbƒv“d‰×•Ï’²CMOSƒCƒ[ƒWƒZƒ“ƒT‚ÆŽü”g”—̈æ‰ðÍ‚ð—p‚¢‚½‹——£EŒuŒõŽõ–½E¶‘ÌŒõŽU—Œv‘ªh, ‘æ1‰ñ“ú–{ŒõŠw‰ïî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†ƒOƒ‹[ƒv{CMOSŒ¤‹†‰ï‰f‘œî•ñƒƒfƒBƒAŠw‰ïî•ñƒZƒ“ƒVƒ“ƒO12ŒŽŒ¤‹†‰ïuV‚µ‚¢‰ž—p‚ª‘£‚·CMOSƒCƒ[ƒWƒZƒ“ƒT‚ÌŠvVv, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.37, pp.35-40, “Œ‹ž“sVh‹æ, 2017.11.13

7.      ˆË“c ‘ñ–ç, ’·Œ´ ˆê, ’JŒû —ψê˜Y, ì Œiˆê˜Y, ˆÀ•x Œ[‘¾ , ìl Ë“ñ, gƒ}ƒ‹ƒ`ƒ^ƒbƒvCMOƒCƒ[ƒWƒZƒ“ƒT‚ð—p‚¢‚½ ƒ_ƒCƒiƒ~ƒbƒNÆ“x·ƒXƒeƒŒƒI–@, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2017, 2aDS1, “Œ‹ž“s•¶‹ž‹æ, 2017.11.2

8.      Γc —zŽ÷, ì Œiˆê˜Y, ¬Žº F, ’Ѻ “¿“¹, ’£ ”Ž, ƒ\ ƒ~ƒ“ ƒEƒ“, ‚àV ‘åŽu, ˆÀ•x Œ[‘¾, ìl Ë“ñ, g’áÆ“xŠÂ‹«‚ł̶‘̉摜Œv‘ª‚ÉŒü‚¯‚½ƒ}ƒ‹ƒ`ƒAƒp[ƒ`ƒƒƒJƒƒ‰‚ÌŠm—¦“IƒmƒCƒY’ጸh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2017, 2aDS2, “Œ‹ž“s•¶‹ž‹æ, 2017.11.2

9.      ‰ª“c Œ·Ž÷, ì Œiˆê˜Y, ìl Ë“ñ, ’Ѻ “¿“¹, g’áÆ“xŠÂ‹«‰º‚É‚¨‚¯‚é‚Š´ƒJƒƒ‰‚ð—p‚¢‚½”ñÚGS”Œv‘ªh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2017, 1aD3, “Œ‹ž“s•¶‹ž‹æ, 2017.11.1

10.    ‹{é —º‘¾, ‘ºã —T‘¾, ì Œiˆê˜Y, ˆÀ•x Œ[‘¾, ’·Œ´ ˆê, ƒ\ ƒ~ƒ“ ƒEƒ“, ìl Ë“ñ, g‚ŽžŠÔ•ª‰ð“d‰×•Ï’²ƒCƒ[ƒWƒZƒ“ƒT‚ÆŽü”g”—̈æ‰ðÍ‚ð—p‚¢‚½Œõ”òsŽžŠÔ‹——£‰æ‘œŒv‘ªh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2017, 1aD2, “Œ‹ž“s•¶‹ž‹æ, 2017.11.1

11.    –]ŒŽ •—‘¾, ‹{é —º‘¾, ì Œiˆê˜Y, ‚àV ‘åŽu, ˆÀ•x Œ[‘¾ , ƒ\ ƒ~ƒ“ ƒEƒ“, ìl Ë“ñ, g’´‚‘¬ƒ}ƒ‹ƒ`ƒAƒp[ƒ`ƒƒCMOSƒCƒ[ƒWƒZ ƒ“ƒT‚ð—p‚¢‚½ˆ³kŒ^Œõ”òsŽžŠÔ‹——£‰æ‘œŽB‰eh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰Optics & Photonics Japan 2017, 1aD1, “Œ‹ž“s•¶‹ž‹æ, 2017.11.1

12.    ì Œiˆê˜Y, ¼‰ª —C‹L, Rolf Saager, Mohammad Torabzadeh, Anthony Durkin, BruceTromberg, ƒ\ ƒ~ƒ“ ƒEƒ“, ˆÀ•x Œ[‘¾, ìl Ë“ñ, g‹óŠÔ Žü”g”—̈涑̃Cƒ[ƒWƒ“ƒO‚Ö‚ÌŽž•ª‰ðŽB‘œ‚Ì“±“üh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ï, Optics & Photonics Japan 2017, 1pA12, “Œ‹ž“s•¶‹ž‹æ, 2017.11.1

13.    ‘ºã —T‘¾, ì Œiˆê˜Y , Hongtao Chen, Enrico Gratton, Bruce Tromberg, ƒ\ ƒ~ƒ“ ƒEƒ“, ˆÀ•x Œ[‘¾, ìl Ë“ñ, g”g’·E‹——£2ŽŸŒ³ƒ}ƒbƒv‚ÌŽžŠÔŽü”g”—̈æ‰ðÍ‚æ‚鶑̎U—E‹zŽûŒv‘ªh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ï, Optics & Photonics Japan 2017, 1pA11, “Œ‹ž“s•¶‹ž‹æ, 2017.11.1

14.    ŽO‹´ —º‘¾, ‰ª“c Œ·Ž÷, ŒI“c KŽ÷, ì Œiˆê˜Y, ìl Ë“ñ , Chawan Koopipat, ’Ѻ “¿“¹, g‚Qƒoƒ“ƒh‹ßÔŠO“®‰æ‘œ‚ð—p‚¢‚½ˆÃŠ‚É‚¨‚¯‚é”ñÚG–¬”gŒv‘ªh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2017, 1pA13, “Œ‹ž“s•¶‹ž‹æ, 2017.10.31

15.    D. Miyazaki, T. Ebata, K. Arimori, F. Mochizuki, K. Kagawa, S. Kawahito, gHigh-frame-rate image capturing for time-of-flight range imager based on exposure coding with a multi-aperture imaging systemh, “ú–{ŒõŠw‰ï”NŽŸŠwpu‰‰‰ïOptics & Photonics Japan 2017 , 31aOD6, “Œ‹ž“s•¶‹ž‹æ, 2017.10.31

16.    ìlË“ñ, gŽŸ¢‘ã‚Ì“dŽq‚Ì–ÚiƒCƒ[ƒWƒZƒ“ƒTj‚ÌŠJ”­‚Æ“W–]h, •½¬29”N •l¼H‹Æ‰ïÓìŽx•”‘‰ï, _“Þ쌧“¡‘òŽs, 2017.10.28.

17.    ìlË“ñ, gŽŸ¢‘ã‚Ì“dŽq‚Ì–ÚiƒCƒ[ƒWƒZƒ“ƒTj‚ÌŠJ”­‚Æ“W–]h, •½¬29”N •l¼H‹Æ‰ï“È–ØŽx•”‘‰ï, “È–ØŒ§‰F“s‹{Žs 2017.10.14.

18.    ìlË“ñ, gSOI‹Zp‚ð—˜—p‚µ‚½’áƒmƒCƒYE‚ŽžŠÔ•ª‰ð”\ƒCƒ[ƒWƒZƒ“ƒT, Œ¤‹†‰ïuSOI—ÊŽqƒCƒ[ƒWŒŸoŠí‚ÌV“WŠJ‚ÉŒü‚¯‚ÄvƒXƒ‰ƒCƒh”ñŒöŠJ, “Œ‹ž“s•¶‹ž‹æ, 2017.10.10

19.    ìŒiˆê˜Y, ‹{é—º‘¾, ‘ºã—T‘¾, ˆÀ•xŒ[‘¾, ’·Œ´@ˆê, ƒ\ ƒ~ƒ“ƒEƒ“, ìlË“ñ, gŽžŠÔŽü”g”‰ðÍ‚Æ‚ŽžŠÔ•ª‰ðCMOSƒCƒ[ƒWƒZƒ“ƒT‚ð‘g‚݇‚킹‚½TOF‹——£‰æ‘œŒv‘ªh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.32, pp.27-30, “Œ‹ž“s`‹æ, 2017.9.25

20.    ˆÀ•xŒ[‘¾, ìlË“ñ, gTime-of-Flight‹——£ŽB‘œ‘fŽq‚ÌŠJ”­“®Œüh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.32, pp.17-23, “Œ‹ž“s`‹æ, 2017.9.25

21.    ”’ì —Y–ç, ûa—Y, ˆÀ•x Œ[‘¾, ì Œiˆê˜Y, Ž›¼ Mˆê, ìl Ë“ñ, gƒoƒCƒIƒƒfƒBƒJƒ‹ƒAƒvƒŠƒP[ƒVƒ‡ƒ“‚Ì‚½‚ß‚Ì8 ƒ^ƒbƒv“d‰×•Ï’²‰æ‘f‚ÉŠÖ‚·‚錤‹†An 8-tap Time Resolved CMOS Lock-In Pixel Imager for Biomedical Applicationsh, ‘æ55‰ñ“ú–{¶•¨•¨—Šw‰ï”N‰ï, ¶•¨•¨—Vol.57(‘æ55‰ñ”N‰ï—\eWjpp.S225, ŒF–{Žs’†‰›‹æ, 2017.9.20

22.    Œ´“céD‘å, ’ß„, “c’†F–¾, “à“c—T”V, ¼‘º‰pW, —§‰ÔŽ—T, —ÑG‹P, •“cÊŠó, X_“ñ, ¼‰ª—S‰î, •—ÑL–¾, ‰¡ŽR¹^, •Ÿ“cV•½, VˆäN•v, ŽOD•qŠì, ‘q’mˆè¶, K‘ºF—R, ”‹–ì_ˆê, ªŠÝN‰î, ‘å–쌰Ži, –ø“cŒhŒá, ìlË“ñ, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ‹Tà_”Ž‹I, Sumeet Shrestha, gSOI ‹Zp‚ð—p‚¢‚½VŒ^XüŽB‘œ•ªŒõŠí‚ÌŠJ”­24 : — –ÊÆŽËŒ^XüSOI ƒsƒNƒZƒ‹ŒŸoŠí‚Ì“îX ü«”\•]‰¿h, “ú–{“V•¶Šw‰ï2017”NH‹G”N‰ï, u‰‰—\eW, –kŠC“¹ŽD–yŽs, 2017.9.11

23.    —ÑG‹P, ’ß„, “c’†F–¾, “à“c—T”V, ¼‘º‰pW, —§‰ÔŽ—T, Œ´“céD‘å, •“cÊŠó, X_“ñ, ¼‰ª—S‰î, •—ÑL–¾, ‰¡ŽR¹^, •Ÿ“cV•½, VˆäN•v, ŽOD•qŠì, ‘q’mˆè¶, K‘ºF—R,”‹–ì_ˆê, ªŠÝN‰î, ‘å–쌰Ži, –ø“cŒhŒá, ìlË“ñ, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ‹Tà_”Ž‹I, Sumeet Shrestha, gSOI ‹Zp‚ð—p‚¢‚½VŒ^X üŽB‘œ•ªŒõŠí‚ÌŠJ”­25: ‘åŒ^X üSOI ƒsƒNƒZƒ‹ŒŸoŠí‚̃Cƒxƒ“ƒg‹ì“®“Ç‚Ýo‚µ‚Ì•]‰¿h, “ú–{“V•¶Šw‰ï2017”NH‹G”N‰ï, u‰‰—\eW, –kŠC“¹ŽD–yŽs, 2017.9.11

24.    –]ŒŽ•—‘¾, ìŒiˆê˜Y, ‰«Œ´Lˆê˜N, ƒ\ƒ~ƒ“ƒEƒ“, ‚àV‘åŽu, ˆÀ•xŒ[‘¾, ìlË“ñ, gŒõŠwEƒfƒoƒCƒXEM†ˆ—‚Ì—Z‡‚É‚æ‚é‰æ‘f“àˆ³kŒ^’´‚‘¬CMOSƒCƒ[ƒWƒZƒ“ƒTh, ‘æ18‰ñî•ñƒtƒHƒgƒjƒNƒXŒ¤‹†ƒOƒ‹[ƒvŒ¤‹†‰ïiH‡hjuî•ñƒtƒHƒgƒjƒNƒX‚©‚猩‚½‹ãB^‹ãB‚©‚猩‚½î•ñƒtƒHƒgƒjƒNƒXv, u‰‰—\eW, pp.15-19, •Ÿ‰ªŒ§•Ÿ‰ªŽs, 2017.9.9

25.    ˆ°—t —TŽ÷C™ ûa—YC”’ì —Y–çCìl Ë“ñC“¡Šª ^, gŽžŠÔ•ª‰ðƒCƒ[ƒWƒ“ƒO‚É‚æ‚éVaƒoƒCƒIƒZƒ“ƒT‚Ì‚Š´“x‰»Sensitivity enhancement of V-trench biosensors by time-resolved imagingh, ‘æ78‰ñ‰ž—p•¨—Šw‰ï H‹GŠwpu‰‰‰ïu‰‰—\eW, pp.11-261, •Ÿ‰ªŽs, 2017.9.6

26.    M-W. Seo, S. KawahitoDevelopment of ultra-low -noise CMOS image sensors,  COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v@2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.19, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

27.    L. Tan, K. Kagawa, S. Kawahito, N. TsumuraNon-contact heart rate measurement and emotion estimation using 18-bit high sensitivity RGB camerah, COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.19, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

28.    S. Lee, K. Yasutomi, H-H. Nam, M. Morita, K. Kagawa, S. Kawahito, gA High-Near-Infrared-Sensitivity Time-of-Flight Image Sensor for Long-Range LiDAR Applicationh, COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.19, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

29.    —«  ’‰Œd, —«  “¾V  ûa—Y, ’ëŽR  ‰ëŽkŒÑ“c  ³Žu, ì  Œiˆê˜Y, ˆÀ•x  Œ[‘¾•ŸŽi  NŽq, ŽR–{  ´“ñ, ìl  Ë“ñ, g‚ŽžŠÔ•ª‰ðŒ^CMOSƒCƒ[ƒWƒZƒ“ƒT‚ð—p‚¢‚½ƒ‰ƒbƒg”]‚ÌŽžŠÔ•ª‰ðNIRS‘ª’èh, COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.19, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

30.      —L‹P, ˆÀ•x  Œ[‘¾, ‚àV  ‘åŽu, ì  Œiˆê˜Y, Ž›¼  Mˆê, ìl  Ë“ñ, g55ƒÊm‹——£•ª‰ð”\‚ð’B¬‚µ‚½TOF‹——£‰æ‘œƒZƒ“ƒTh, COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.19-20, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

31.    ”’ì  —Y–ç,   ûa—Y, ˆÀ•x  Œ[‘¾, ì  Œiˆê˜Y, Ž›¼  Mˆê, ìl  Ë“ñ, gŽžŠÔ•ª‰ðƒoƒCƒIƒCƒ[ƒWƒ“ƒO‚Ì‚½‚߂̃‰ƒeƒ‰ƒ‹“dŠE§Œä8ƒ^ƒbƒv“d‰×•Ï’²‰æ‘f‚ÌÝŒv‹y‚Ñ•]‰¿Œ‹‰Êh, COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.20, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

32.    ‹îàV  ²l, ŽR“c  q•½, ‚àV  ‘åŽu, ÂŽR‘, ˆÀ•x  Œ[‘¾ì  Œiˆê˜Y, ìlË“ñ, gLEFM‘fŽq‚ð—p‚¢‚½‘½dŽžŠÔ‘‹TOF‹—‰æ‘œƒZƒ“ƒT‚Ì“Á«•]‰¿h, COIu¸_“I‰¿’l‚ª¬’·‚·‚銴«ƒCƒmƒx[ƒVƒ‡ƒ“‹’“_v2017”N“x‰Ä‚ÌŒ¤‹†‰ï, ƒvƒƒOƒ‰ƒ€W, pp.20, ˆ¤’mŒ§‰ªèŽs, 2017.8.9

33.    ìŒiˆê˜YCƒ\ƒ~ƒ“ƒEƒ“CˆÀ•xŒ[‘¾CìlË“ñ, gŽžŠÔ•ª‰ðCMOSƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚鶑̉摜Œv‘ª‚ÌV“WŠJh, ‹¤“¯ƒvƒƒWƒFƒNƒgŒ¤‹†(H29/S1)ƒRƒq[ƒŒƒ“ƒg”g‚ÉŠî‚­ŠwÛ“Iæ’[‰ÈŠw‹Zp‚Ì‘n¬`“Œ–k‘åŠw-ɪ‘åŠw‡“¯ƒTƒ}[ƒZƒ~ƒi[`, å‘äŽs—t‹æ2017.7.21

34.    S. Lee, H-H. Nam, M. Morita, K. Yasutomi, K. Kagawa, S. Kawahito, gA Fully-Depleted SOI Based Time-of-Flight Image Sensor for Long-Range LiDAR Applicationh, ‹¤“¯ƒvƒƒWƒFƒNƒgŒ¤‹†(H29/S1)ƒRƒq[ƒŒƒ“ƒg”g‚ÉŠî‚­ŠwÛ“Iæ’[‰ÈŠw‹Zp‚Ì‘n¬`“Œ–k‘åŠw-ɪ‘åŠw‡“¯ƒTƒ}[ƒZƒ~ƒi[`h, å‘äŽs—t‹æ, 2017.7.21

35.    Γc —zŽ÷, ì Œiˆê˜Y, ûa—Y, ¬Žº F, ’£ ”Ž, ‚àV ‘åŽu, ˆÀ•x Œ[‘¾, ìl Ë“ñ, g¶‘̉摜Œv‘ª‚ÉŒü‚¯‚½‚Š´“xƒ}ƒ‹ƒ`ƒAƒp[ƒ`ƒƒƒJƒƒ‰‚É‚æ‚é“Œv“IƒmƒCƒYœ‹Žh, ‹¤“¯ƒvƒƒWƒFƒNƒgŒ¤‹†(H29/S1)ƒRƒq[ƒŒƒ“ƒg”g‚ÉŠî‚­ŠwÛ“Iæ’[‰ÈŠw‹Zp‚Ì‘n¬`“Œ–k‘åŠw-ɪ‘åŠw‡“¯ƒTƒ}[ƒZƒ~ƒi[`, å‘äŽs—t‹æ, 2017.7.21

36.    “瓇‘ñ•¶C‚àV‘åŽuCˆÀ•xŒ[‘¾CìŒiˆê˜YCìlË“ñ, gŒvŽZ‹@ƒCƒ[ƒWƒ“ƒO‚ÉŒü‚¯‚½’áƒmƒCƒY”ñ”j‰ó“Ç‚Ýo‚µ‰æ‘f\‘¢‚ÌŠî‘bŒŸ“¢h, ‘æ 11 ‰ñŒvŽZƒIƒvƒeƒBƒNƒXŒ¤‹†‰ï, u‰‰—\eW, pp.4, “Œ‹ž“s–Ú•‹æ, 2017.7.5

37.    ìlË“ñ, ‹Tà_”Ž‹I, Sumeet Shrestha, ’†¼x‘¾, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, Ž›¼Mˆê•“cÊŠó, ’ß„, VˆäN•v, ‘q’mˆè¶, g‚Š´“xƒsƒNƒZƒ‹—ÊŽqƒfƒBƒeƒNƒ^BPSPIX‚ÌŽŽì‚Æ•]‰¿h, VŠwp—̈挤‹†u‚RŽŸŒ³”¼“±‘ÌŒŸoŠí‚ÅØ‚è‘ñ‚­V‚½‚È—ÊŽqƒCƒ[ƒWƒ“ƒO‚Ì“WŠJv‘æ8‰ñŒ¤‹†‰ïA”­•\Ž‘—¿W, pp.1-12, pp.59-60, ‹{èŽs, 2017.6.29

38.    ’†¼x‘¾, ‹Tà_”Ž‹I, Sumeet Shereatha, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, Ž›¼Mˆê, •“cÊŠó, ’ß„, VˆäN•v, ìlË“ñ, gBPSPIX(Back Gate Pinning SOI Pixel)‚ÌŠî–{“Á«•]‰¿h, VŠwp—̈挤‹†u‚RŽŸŒ³”¼“±‘ÌŒŸoŠí‚ÅØ‚è‘ñ‚­V‚½‚È—ÊŽqƒCƒ[ƒWƒ“ƒO‚Ì“WŠJv‘æ8‰ñŒ¤‹†‰ï,
”­•\Ž‘—¿W, pp.1-3, pp.117-118, ‹{èŽs, 2017.6.29

39.    —Ñ G‹P, ’ß„, “c’†F–¾, “à“c—T”V, ¼‘º‰pW, —§‰ÔŽ—T, Œ´“céD‘å, •“cÊŠó, X_“ñ, ¼‰ª —S‰î, •—ÑL–¾, ‰¡ŽR¹^, •Ÿ“cV•½, VˆäN•v, ŽOD•qŠì, ‘q’mˆè¶, K‘ºF—R, ”‹–ì_ˆê, ªŠÝN‰î, ‘å–쌰Ži, –ø“cŒhŒá, ìlË“ñ, ìŒiˆê˜Y, ˆÀ•xŒ[‘¾, ‹Tà_”Ž‹I, Sumeet Shrestha, XRPIX6D,6H «”\”äŠr, VŠwp—̈挤‹†u‚RŽŸŒ³”¼“±‘ÌŒŸoŠí‚ÅØ‚è‘ñ‚­V‚½‚È—ÊŽqƒCƒ[ƒWƒ“ƒO‚Ì“WŠJv‘æ8‰ñŒ¤‹†‰ï, ”­•\Ž‘—¿W, pp.1-5, pp.101-102, ‹{èŽs, 2017.6.29

40.    Œ´“céD‘åA’ß„A“c’†F–¾A“à“c—T”VA¼‘º‰pWA—§‰ÔŽ—TA—ÑG‹P A•“cÊŠóAX_“ñA¼‰ª—S‰îA•—ÑL–¾A‰¡ŽR¹^A•Ÿ“cV•½AVˆäN•vAŽOD•qŠìA‘q’mˆè¶ AK‘ºF—RA”‹–ì_ˆêAªŠÝN‰îA‘å–쌰ŽiA–ø“cŒhŒáAìlË“ñAìŒiˆê˜YAˆÀ•xŒ[‘¾A‹Tà_”Ž‹IASumeet Shrestha, g— –ÊÆŽËŒ^ X ü SOI ƒsƒNƒZƒ‹ŒŸoŠí‚Ì“î X ü«”\•]‰¿h, VŠwp—̈挤‹†u‚RŽŸŒ³”¼“±‘ÌŒŸoŠí‚ÅØ‚è‘ñ‚­V‚½‚È—ÊŽqƒCƒ[ƒWƒ“ƒO‚Ì“WŠJv‘æ8‰ñŒ¤‹†‰ï, ”­•\Ž‘—¿W, pp.1-4, pp.115-116, ‹{èŽs, 2017.6.29

41.    ²“¡—Sl, –]ŒŽ•—‘¾, ìŒiˆê˜Y, ƒ\ ƒ~ƒ“ ƒEƒ“, ‚àV‘åŽu, ˆÀ•xŒ[‘¾, ìlË“ñ, g‚P‚O‰­–‡–ˆ•b‚ð–ÚŽw‚·‘œ–ʃ}ƒ‹ƒ`ƒAƒp[ƒ`ƒƒ•ûŽ®ŽžŠÔˆ³kŒ^CMOSƒCƒ[ƒWƒZƒ“ƒT‚ÌŠJ”­h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, vol.41, No.19, pp.9-12, “Œ‹ž“sVh‹æ, 2017.6.23

42.    ’†¼x‘¾, ‹Tà_”Ž‹I, Sumeet Shreatha, ˆÀ•xŒ[‘¾EìŒiˆê˜Y, Ž›¼Mˆê, •“cÊŠó, ’ß@„, VˆäN•v, ìlË“ñ, gŠ®‘S‹ó–RŒ^SOIƒsƒNƒZƒ‹ƒCƒ[ƒWƒZƒ“ƒT‚ÌŠ´“x•]‰¿h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñvol.41, No.19, pp.17-20, “Œ‹ž“sVh‹æ, 2017.6.23

43.    ŽR“cq•½, ‹î‘ò²l, ‚àV‘åŽu, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, ìlË“ñ, g’Pˆê“d‰×•Ï’²‘fŽqŒ^TOFƒsƒNƒZƒ‹‚Ì“Á«‰ü‘PE•]‰¿h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ï, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, vol.41, No.19, pp.21-24, “Œ‹ž“sVh‹æ, 2017.6.23

44.    ìŒiˆê˜YCƒ\ ƒ~ƒ“ƒEƒ“CˆÀ•xŒ[‘¾C ìlË“ñ, g‚ŽžŠÔ•ª‰ðCMOSƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚鎞‹óŠÔE•ªŒõ¶‘̃Cƒ[ƒWƒ“ƒO‚̉”\«h,ç—t‘åŠwí—ª“Id“_Œ¤‹†‹­‰»ƒvƒƒOƒ‰ƒ€uƒ}ƒ‹ƒ`ƒ‚[ƒ_ƒ‹Œv‘ªˆãHŠwv u‰‰‰ï, ç—tŽsˆî–Ñ‹æ, 2017.6.15

45.    ¬—Ñ ˆêŠö, ¬Žº F, ’£ ”Ž, ì Œiˆê˜Y, ìl Ë“ñ, gƒXƒNƒŠ[ƒ“–„‚ßž‚݃Jƒƒ‰‚ð—p‚¢‚½Ž‹üÄŒ»ƒrƒfƒI‰ï‹cƒVƒXƒeƒ€h, ‘æ23‰ñ‰æ‘œƒZƒ“ƒVƒ“ƒOƒVƒ“ƒ|ƒWƒEƒ€iSSII 2017), ‰¡•lŽs¼‹æ, 2017.6.7

46.    ìlË“ñ, gŽŸ¢‘ã‚Ì“dŽq‚Ì–ÚiƒCƒ[ƒWƒZƒ“ƒTj‚ÌŠJ”­‚Æ“W–]h, •½¬29”N •l¼H‹Æ‰ï“Œ‹žŽx•”‘‰ï, pp.13, “Œ‹ž“s`‹æ, 2017.5.27(µ‘Òu‰‰)

47.    ì Œiˆê˜Y, ûa—Y, ˆÀ•x Œ[‘¾, ìl Ë“ñ, g’´‚‘¬“d‰×•Ï’²CMOSƒCƒ[ƒWƒZƒ“ƒT‚É‚æ‚鎞‹óŠÔ¶‘̉摜Œv‘ª‚̉”\«h, COMPUTER VISION AND IMAGE MEDIA 2017”N5ŒŽi‘æ207‰ñjŒ¤‹†‰ï, –¼ŒÃ‰®ŽsçŽí‹æ, 2017.5.11

48.    M-W. Seo, T. Wang, S-W. Jun, T. Akahori, S. Kawahito, gA 0.44e-rms Read-Noise 32fps 0.5Mpixel High-Sensitivity RG-Less-Pixel CMOS Image Sensor Using Bootstrapping Reseth, ‘æ172‰ñ ŽŸ¢‘ã‰æ‘œ“ü—̓rƒWƒ‡ƒ“ƒVƒXƒeƒ€•”‰ï’è—á‰ï, “Œ‹ž“sVh‹æ, 2017.4.19

49.    ˆÀ•xŒ[‘¾, ìlË“ñ, g‚‹——£•ª‰ð”\CMOSƒCƒ[ƒWƒZƒ“ƒT‚Æ‚»‚̉ž—ph, ¶‘̈㎕HŠw‹¤“¯Œ¤‹†‹’“_¬‰Ê•ñ‰ï, “Œ‹ž“sç‘ã“c‹æ, 2017.3.24

50.    ìlË“ñ, gŽ©“®‰^“]‚É‹‚ß‚ç‚ê‚éƒCƒ[ƒWƒZƒ“ƒT‹Zph, ‘æ64‰ñ‰ž—p•¨—Šw‰ït‹GŠwpu‰‰‰ï, ‰¡•lŽs, 2017.3.14

51.    M-W. Seo, Y. Shirakawa, Y. Masuda, Y. Kawata, K. Kagawa, K. Yasutomi, S. Kawahito, gA High SNR Multi-Tap Lock-In Pixel CMOS Image Sensorsh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ïiISTj‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.10, pp.27-30, “Œ‹ž“s¢“c’J‹æ, 2017.3.10

52.    M-W. Seo, T. Wang, S-W. Jun, T. Akahori, S. Kawahito, gA Low Read Noise High Conversion Gain CMOS Image Sensors using Reset-Gate-Less Pixelh, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ïiISTj‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.10, pp.35-38, “Œ‹ž“s¢“c’J‹æ, 2017.3.10

53.    ”’ì—Y–ç, ™@ûa—Y, ˆÀ•xŒ[‘¾, ìŒiˆê˜Y, Ž›¼Mˆê, ìlË“ñ, g‚ŽžŠÔ•ª‰ðƒCƒ[ƒWƒ“ƒO‚Ì‚½‚߂̃‰ƒeƒ‰ƒ‹“dŠE§Œä8ƒ^ƒbƒv“d‰×•Ï’²‰æ‘f‚ÌÝŒv‹y‚ÑŒŸ“¢h, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï@î•ñƒZƒ“ƒVƒ“ƒOŒ¤‹†‰ïiISTj, ‰f‘œî•ñƒƒfƒBƒAŠw‰ï‹Zp•ñ, Vol.41, No.10, pp.23-26, “Œ‹ž“s¢“c’J‹æ, 2017.3.10

54.    ™ûa—Y, ˆÀ•xŒ[‘¾, ìlË“ñ, gŽŸ¢‘ã‚«”\E‚‹@”\ƒCƒ[ƒWƒ“ƒOh, ˆê”ÊŽÐ’c–@l“ú–{H‹Æ‹ZpU‹»‹¦‰ïŒ¤‹†•”‰ïiJTTASjŽŸ¢‘ã‰æ‘œ“ü—̓rƒWƒ‡ƒ“EƒVƒXƒeƒ€•”‰ïuŽŸ¢‘ãƒCƒ[ƒWƒZƒ“ƒT‚ÆV‹Zp‚Ì“WŠJv, “Œ‹ž“sVh‹æ, 2017.1.23

55.    ìlË“ñ, gƒAƒiƒƒOEƒ~ƒbƒNƒXƒVƒOƒiƒ‹ÝŒvh, “Œ‹ž‘åŠwVDEC Ý—§20Žü”N‹L”O‰ï, pp.14-18, “Œ‹ž“s•¶‹ž‹æ, 2017.1.20(µ‘Òu‰‰)

56.    S. Kawahito, M-W. Seo, gCMOS-based biomedical imaging devices with ultra-low-noise imaging techniquesh, u’è—ʶ•¨Šw‚̉ïv‘攪‰ñ”N‰ï, ‰ªèŽs, 2017.1.8(µ‘Òu‰‰)