Toru Furusawa

Toru Furusawa

  • Automotive Edge Computing technologies

  • Department

    • InfoTech IS,
      Information and Communication Planning Div.
  • Biography

    • 2018-

      Engaged in research, development and standardization of Edge Computing technologies for connected vehicles

    • 2009-
      2018

      Engaged in research and development at NTT Communications, took part in a project for the open-source software projects under Open Networking Foundation

    • 2009

      Completed the Master's program in Information and Communication Engineering at the Graduate School of Information Science and Technology, The University of Tokyo

    • 2007

      Graduated from the Department of Information and Communication Engineering, Faculty of Engineering, The University of Tokyo

  • Publication List/Conference presentation

    Paper

    • Cooperative Load Balancing of Neighboring Edge Clouds with LISP, IEEE, IEEE ICNC 2024

    • Cooperative Load Balancing of Neighboring Edge Clouds with LISP, The Institute of Electronics, Information and Communication Engineers (IEICE), Technical Committee on Network Systems (2023 March)

    • Implementation and Evaluation of Latency-based Dynamic Edge Offloading of Containerized Applications for Connected Cars, Information Processing Society of Japan, IPSJ Transactions on Digital Practice, 2022

    • Service Mesh Controller for Cooperative Load Balancing among Neighboring Edge Servers, IEEE, 2022 IEEE International Symposium on Local and Metropolitan Area Networks (LANMAN), 2022

    • A Cooperative Load Balancing Method for Edge Computing Resources Using Kubernetes and Service Mesh, IPSJ SIG Internet and Operation Technology Technical Report (#53), 2021

    Conference presentation

    • Expectations and Initiatives for Edge Computing in the CASE Era, NANO OPT Media, Inc., Interop Tokyo 2022

    • A Service Mesh Controller for Cooperative Load Balancing of Neighboring Edge Servers, The Institute of Electronics, Information and Communication Engineers (IEICE), Technical Committee on Network Systems (2022 March)

    • Latency-based Dynamic Edge Offloading Framework of Containerized Applications for Connected Cars, Technical Committee on Network Systems, 2021