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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.
Creativity Initiative Zone
Creativity Initiative Research
- Global Smart Society Creation Project -
- Global Smart Society Creation Project -
Keio University has been selected by the Ministry of Education, Culture, Sports, Science and Technology (MEXT) for the 2014 Top Global University Project as one of Japan’s top universities providing a world-class level of research and education (Type A). Under this project, Keio will contribute to the world by taking advantage of its own strength at 3 cluster areas; “Longevity”, “Security” and “Creativity”. We here present Global Smart Society Creation Project under Creativity Initiative.
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Society & Environment Sustainable design of architecture and city
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| Professor IKAGA, Toshiharu Department of System Design Engineering |
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Based on the sustainable design, we are conducting research to clarify and evaluate building and urban environment to realize maintaining health, intellectual productivity improvement, low carbon, business life continuity by survey on actual situations, subject experiments, statistical information, etc.
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Society & Environment Information and Communication Systems and Control Theoretic Approach to Super Smart City
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| Professor NAMERIKAWA, Toru Department of System Design Engineering |
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The control theoretic and systems and control engineering approaches for the urban infrastructures and energy management systems building toward “super-smart city” will be presented.
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Electronics Information and Communication Cyber-Physical ICT:
Integrated Communication and Control Technologies  |
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| Associate Professor KUBO, Ryogo Department of Electronics and Electrical Engineering |
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In the next-generation IoT (Internet of Things) and M2M (machine-to-machine) networks, low-latency communication and high-precision control technologies are required. We present the concept of smart sensor-actuator networks supporting the IoT/M2M infrastructure from the viewpoint of communications and control engineering.
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Other Fields Building space with robot
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| Professor MITA, Akira Department of System Design Engineering |
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The building space with a robot does many services, but it is not too convenient, sometimes it intentionally proposes an exercise or a cooking to support a healthy lifestyle. This space watches over the increasing number of elderly persons living alone.
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Other Fields Wave System
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| Associate Professor KATSURA, Seiichiro Department of System Design Engineering |
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We succeeded in realization of wave control of a mechanical system by a modeling methodology based on distributed parameter system. Using a delay element, it is possible to construct a stable system without complicated controllers.
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Information and Communication Trustworthy self-driving car platform
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| Professor YAMANAKA, Naoaki Department of Information and Computer Science |
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We aim to realize a trustworthy network platform for controlling self-driving cars. Each of cars belongs to three base stations, and computing resource for self-driving migrates among network edges without connection interruptions according to the rapid car movement.
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Information and Communication Smart Community Implementation
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| Professor NISHI, Hiroaki Department of System Design Engineering |
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Actual local implementation of smart community is introduced by illustrating the Smart Town project cooperated with a local government. In this project, special common data platform integrate and manage various smart community data by providing fine-grain authentification method. By using the platform, secure and flexible local community services can be provided.
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