Shinzo Koyama
Panasonic (Japan)(JP)Panasonic (China)(CN)
Publications by Year
Research Areas
Advanced Optical Sensing Technologies, CCD and CMOS Imaging Sensors, Advanced Fluorescence Microscopy Techniques, Ferroelectric and Piezoelectric Materials, Infrared Target Detection Methodologies
Most-Cited Works
- → A Day and Night Vision MOS Imager With Robust Photonic-Crystal-Based RGB-and-IR(2008)63 cited
- → Overview and Future Challenge of Ferroelectric Random Access Memory Technologies(2007)41 cited
- → 5.2 A 1200×900 6µm 450fps Geiger-Mode Vertical Avalanche Photodiodes CMOS Image Sensor for a 250m Time-of-Flight Ranging System Using Direct-Indirect-Mixed Frame Synthesis with Configurable-Depth-Resolution Down to 10cm(2020)32 cited
- → Modeling and Analysis of Capacitive Relaxation Quenching in a Single Photon Avalanche Diode (SPAD) Applied to a CMOS Image Sensor(2020)13 cited
- → A 250 m Direct Time-of-Flight Ranging System Based on a Synthesis of Sub-Ranging Images and a Vertical Avalanche Photo-Diodes (VAPD) CMOS Image Sensor(2018)12 cited
- → 5.6 A 400×400-Pixel 6μm-Pitch Vertical Avalanche Photodiodes CMOS Image Sensor Based on 150ps-Fast Capacitive Relaxation Quenching in Geiger Mode for Synthesis of Arbitrary Gain Images(2019)12 cited
- → A 220 M-Range Direct Time-of-Flight 688 × 384 CMOS Image Sensor with Sub-Photon Signal Extraction (SPSE) Pixels Using Vertical Avalanche Photo-Diodes and 6 KHz Light Pulse Counters(2018)9 cited
- → Multiocular image sensor with on-chip beam-splitter and inner meta-micro-lens for single-main-lens stereo camera(2016)8 cited
- → A 3D vision 2.1Mpixel image sensor for single-lens camera systems(2013)7 cited
- A 1200×900 6μm 450fps Geiger-Mode Vertical Avalanche Photodiodes CMOS Image Sensor for a 250m Time-of-Flight Ranging System Using Direct-Indirect-Mixed Frame Synthesis with Configurable-Depth-Resolution Down to 10cm(2020)