Special symbols
Technology involving patent rights held by Keio University. For further information, please inquire at the KLL Desk.
Research Project at Keio Innovation Foundry (KIF) as one of Keio University Faculty of Science and Technology 75th Anniversary Commemorative Project.
Electronics
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Electronics Information and Communication Development of a Technology Computer Aided Design (TCAD) tool for electronic devices
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| Professor ITOH, Kohei Department of Applied Physics and Physico-informatics |
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TCAD Research and Development Center of Keio University develops a process and device simulator based on physical and chemical modeling. Demonstration of TCAD tool as well as recent R&D achievements are presented.
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Electronics Materials Spintronics Research Center
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| Professor ITOH, Kohei Department of Applied Physics and Physico-informatics Professor NOZAKI, Yukio Department of Physics Associate Professor ANDO, Kazuya Department of Applied Physics and Physico-informatics |
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Spintronics Research Center of Keio University specializes in quantum spintronics research in the framework of the Spintronics Research Network of Japan operated together with U. Tokyo, Tohoku U. and Osaka U. Recent advancements in quantum spintronics research are presented.
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Electronics Mechanics Control System for Welfare Devices
-Human Motion Analysis and Control-  |
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| Professor MURAKAMI, Toshiyuki Research Associate NOZAKI, Takahiro Department of System Design Engineering |
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Optimal control design of support devices for human motion is considered. This makes it possible to improve the reliability of the support devices. Also it is expected to be extended to the operation skills of human. As one of application examples, avoidance control of falling down motion is shown.
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Electronics Biomedical Small-size and Low-energy Sensor Systems Detecting
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| Professor UCHIDA, Ken Professor KURODA, Tadahiro Professor ISHIKURO, Hiroki Department of Electronics and Electrical Engineering |
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Small-size and low-power sensor systems where nano-materials are utilized will be introduced. The sensors detect gaseous molecules as well as volatile organic compounds (VOC). Because of low-energy properties, it can be integrated in mobile devices such as smart phone and will be utilized to monitor health conditions of users.
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Electronics Micro Sensor Platform
for Flexible Combination of Sensors   |
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| Professor KURODA, Tadahiro Department of Electronics and Electrical Engineering |
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A key for IoT systems is to get and analyze various sensing data in real-time. Our Micro Sensor Platform is targeting a small sensor node of network with flexible sensor combination and smart analysis of sensing data.
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Electronics Materials Diamond quantum sensor for highly-sensitive detection of magnetic field and current
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| Associate Professor HAYASE, Junko Professor ITOH, Kohei Department of Applied Physics and Physico-informatics |
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We develop highly-sensitive quantum sensor using electric spins in diamond for detection of ultraweak magnetic field and current. Our quantum sensor can be applied to nano-device/battery sensing and bio-imaging.
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Electronics General Purpose Arm
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| Research Associate NOZAKI, Takahiro Professor MURAKAMI, Toshiyuki Professor OHNISHI, Kouhei Department of System Design Engineering |
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We introduce a newly developed robotic manipulator “general purpose arm.” This manipulator works as an avatar of an operator, as it can generate human-like strong, dexterous, and adaptive motions.
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Electronics Research on computer system technology for CFD using reconfigurable LSI
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| Professor AMANO, Hideharu Department of Information and Computer Science |
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FPGA is a reconfigurable LSI. Because of its superior power consumption, it is attracting attention as an acceleration technique for numerical calculation instead of GPU. In this research, collaborating with the Japan Aerospace Exploration Agency (JAXA), we are working on research to improve the performance of satellite engine numerical analysis technology using FPGA.
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Electronics Information and Communication Optical functional devices fabricated with
CMOS compatible process  |
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| Associate Professor TANABE, Takasumi Department of Electronics and Electrical Engineering |
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As the operating frequency of integrated circuit becomes higher, the increasing power consumption needed for data transmittance in the chip is becoming a problem. Photonics technologies that may enable to transmit data on silicon chip is receiving attention. We developed silicon photonic crystals that allow light to confine in silicon chip, by using CMOS compatible technologies.
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