We are interested in research areas on next generation cyber infrastructure, spanning computer networks, operating systems, network security and distributed applications. Our current interests include (but are not limited to):

  • 5G and Beyond 5G Mobile Networking
  • AI/Machine Learning Empowered Networking
  • Ultra-Low Latency Communication
  • Internet of Things (IoT)
  • Network Softwarization
  • Network Applications
  • Software Defined Networking (SDN)
  • Network Functions Virtualization (NFV)
  • Multi-Access Edge Computing (MEC)
  • Network Security

Research on Next Generation Cyber Infrastructure “Beyond5G”

We conduct research and development of information infrastructure technology and applied technology (VR / AR / MR, remote monitoring control, autonomous cooperative control, etc.) of Beyond 5G aiming for realization around 2030 in the future. In addition to further improving communication quality such as large capacity, low latency, and massive machine type communications that are the characteristics of 5th generation mobile communication (5G), we carry out research and development of ultra-low power consumption of information communication, dramatical improvement in safety and reliability, autonomy of predicting and automatically repairing disruptions by machine learning and AI, and expandability to undeveloped areas such as non-terrestrial and oceanic telecommunications. In addition, by making full use of “democratization of information communication” such as in Local 5G, in which general businesses obtain radio frequency band licenses, customize information communications to solve social issues, and conduct research and development of next-generation cyber infrastructure driven from social issues and “bottom-up requirements and specifications”.

Construction of flexible cyber infrastructure by softwarization

We research on “network virtualization technology” that integrates information science and communication engineering and allows many communication functions to coexist independently, “network softwarization” that configures network devices with software such as SDN that realizes centralized control and NFV that builds functions on virtual machines, and “network slicing” that divides programmable resources such as bandwidth, calculation, and storage resources that build communication infrastructure into independent sets called “slices” using virtualization technology, and executes the implemented network functions without interference with each other. In addition, we conduct research on “super-intelligence networks” as an application, where a telecommunication network autonomously cooperates with “zero touch” beyond human intelligence and experience, builds an optimal network converging wired and wireless, and automatically detects and predicts failures.

Regional revitalization utilizing the next-geneartion cyber infrastructure

We conduct research on promotion of regional revitalization by collecting and analyzing huge amounts of real-time data by making full use of 5G / local 5G with the characteristics of large capacity, low latency, and massive machine type communications, and by means of IoT / AI / machine learning. We conclude a social cooperation agreement with the region, accelerate technical exchanges and academic exchanges related to informatics, information communication technology, and use the region as a field for demonstration experiments of information communication technology to accelerate research that contributes to industrial promotion and resolution of regional issues. For example, we will promote the latest information communication application services such as remote monitoring / remote control/ remote sensing, environmental sensing using 5G / IoT, DX (digital transformation) of the primary industry, and data utilization that makes full use of machine learning and promote economic development by resolving regional challenges, promoting industry, and creating new value.

Fundamental human social activities are supported by mutual communication. Due to the COVID-19 situation, it has been revealed that there is no doubt about the significance of the role of information communication for the continuation of social activities. I would like to proceed with research with motivated students, interested in the construction and application of next-generation cyber infrastructure that integrates cyberspace with the real world (physical space) and plays a central role in a knowledge-intensive society and in contributing to society through creating innovative technologies.


Beyond5G へのサイバーインフラの進化



情報科学と通信工学を融合し、様々な通信機能を多数独立に共存させる「ネットワーク仮想化技術」、ソフトウェアによる集中制御を 実現するSDNや、機能を仮想化マシン上に構築するNFVなどのソフトウェアにてネットワーク機器を構成する「ネットワークソフトウェア化」、通信基盤を構成する帯域・計算・記憶資源など、プログラム可能な資源を、仮想化技術を用いて独立の集合”スライス”に分割し、実装された機能を互いに非干渉に実行可能とする「ネットワークスライシング技術」の研究を行う。 また応用として、人間の知性や経験を超越して、ゼロタッチで自律的に連携したり、有線・無線を超えた最適なネットワークの構築をしたり、障害を自動検知・予測したりする自律創発性を有する「超知性ネットワーク」の研究を行う。



人間の基本的な社会活動は相互のコミュニケーションに支えられている。 コロナ禍で社会活動の継続において情報通信の果たす役割の重要性は疑う余地がなくなっている。 サイバー空間を現実世界(フィジカル空間)と一体化させ、知識集約型社会の中核的な役割を担う次世代サイバーインフラの構築や応用に興味があり、革新的な技術を創成し、社会に貢献する意欲のある学生と共に研究を進めたい。「絵に描いた餅」と言われることを恐れず、「誰も見たことがない餅を描ける創造力」を発揮して欲しい。

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