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Disambiguation of "Yasutomi, Keita"

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Design, implementation and evaluation of a TOF range image sensor using multi-tap lock-in pixels with cascaded charge draining and modulating gates.

, , , , , , , , and . IMSE, page 1-6. Society for Imaging Science and Technology, (2016)

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Abou Keita

Thierno Keita

Keita Ono

Mady Koly Keita

Moussa Balla Keita

 

Other publications of authors with the same name

A Dual-Mode 303-Megaframes-per-Second Charge-Domain Time-Compressive Computational CMOS Image Sensor., , , , , , , , , and . Sensors, 22 (5): 1953 (2022)7.5 A 0.3mm-resolution Time-of-Flight CMOS range imager with column-gating clock-skew calibration., , , , , and . ISSCC, page 132-133. IEEE, (2014)An indirect time-of-flight measurement technique for sub-mm range resolution using impulse photocurrent response., , , , , and . IMSE, volume 9022 of SPIE Proceedings, page 90220W. SPIE, (2014)A Low-Noise High Intrascene Dynamic Range CMOS Image Sensor With a 13 to 19b Variable-Resolution Column-Parallel Folding-Integration/Cyclic ADC., , , , , , , , and . IEEE J. Solid State Circuits, 47 (1): 272-283 (2012)4.3 A programmable sub-nanosecond time-gated 4-tap lock-in pixel CMOS image sensor for real-time fluorescence lifetime imaging microscopy., , , , , , and . ISSCC, page 70-71. IEEE, (2017)A 15b power-efficient pipeline A/D converter using non-slewing closed-loop amplifiers., , , , and . CICC, page 117-120. IEEE, (2008)A CMOS imager using focal-plane pinhole effect for confocal multibeam scanning microscopy., , , , , and . Sensors, Cameras, and Systems for Industrial and Scientific Applications, volume 8298 of SPIE Proceedings, page 829807. SPIE, (2012)A 38µm Range Precision Time-of-Flight CMOS Range Line Imager with Gating Driver Jitter Reduction Using Charge-Injection Pseudo Photocurrent Reference., , , , , and . ISSCC, page 100-102. IEEE, (2022)7.4 A 413×240-pixel sub-centimeter resolution Time-of-Flight CMOS image sensor with in-pixel background canceling using lateral-electric-field charge modulators., , , , , and . ISSCC, page 130-131. IEEE, (2014)A Time-of-Flight Range Sensor Using Four-Tap Lock-In Pixels with High near Infrared Sensitivity for LiDAR Applications., , , , and . Sensors, 20 (1): 116 (2020)