![]() ![]() His current research interests are smart CMOS image sensors for biomedical applications and retinal prosthetic devices. In 1998, he joined Graduate School of Materials Science, Nara Institute of Science and Technology (NAIST), Nara, Japan as Associate Professor. From 1992 to 1993, he was a visiting scientist in Optoelectronics Computing Systems Center, University of Colorado at Boulder. In 1983, he joined Mitsubishi Electric Corporation, Hyogo, Japan. degrees in applied physics, all from the University of Tokyo, Japan, in 1981, 1983, and 1992, respectively. Jun Ohta received the B.E., M.E., and Dr. D Fundamental characteristics of MOS capacitors. 5.3.4 Smart CMOS sensor for optical and electrochemical imaging. 5.3.3 Potential imaging combining MEMS technology. 5.3.2 Smart CMOS image sensor with ISFET. 5.3.1 Smart CMOS image sensor with multi-modal functions. 5.2 Information and communication applications. 4.8 Dedicated arrangement of pixel and optics. 4.7.4 Digital processing for target tracking. 4.7.3 Resistive network and other analog processing for target. 4.7.1 Maximum detection for target tracking. 4.5.3 Method of two accumulation regions. 4.2.4 Geiger mode APD for a smart CMOS image sensor. 3.7.3 Color realization using nonstandard structures. 3.7 Structures other than standard CMOS technologies. 3.6.2 Extending the detection wavelength. 2.10 Comparison between pixel architecture. 2.4.3 Behavior of photo-generated carriers in PD. 2.4.1 Potential change in accumulation mode. 2.3 Photodetectors for smart CMOS image sensors. 2.2.3 Sensitivity and quantum efficiency. 1.3 Brief history of smart CMOS image sensors. Revised and expanded to include the state of the art of smart image sensorsġ Introduction.Discusses a wide variety of applications of smart CMOS image sensors including biotechnology and optical wireless communication.Covers the fundamentals and applications including smart materials, smart imaging, and various applications.Expansion of smart materials, smart imaging and applications, including biotechnology and optical wireless communication, are included. Several appendices supply a range of information on constants, illuminance, MOSFET characteristics, and optical resolution. Various applications of smart CMOS image sensors are also discussed. Also included are the functions and materials of smart CMOS image sensors and present examples of smart imaging. The book describes the fundamentals of CMOS image sensors and optoelectronic device physics, and introduces typical CMOS image sensor structures, such as the active pixel sensor (APS). Revised and expanded for this new edition, Smart CMOS Image Sensors and Applications, Second Editionis the only book available devoted to smart CMOS image sensors and applications. ![]()
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