Faculty Members / Research Areas
Professor
IKEDA Makoto
Professor
Hongo Campus
Intelligent Information Processing, Sensing, and Hardware Security
Hardware is an root of intelligent information processing in cyber space, and seeking more intelligent, faster, lower power and more safer operations. Sensing is a gateway into cyber space from physical world, and authenticity and confidentiality of acquired information is a key for safety in cyber space. We are working on intelligent information processing, sensing and hardware security to fulfilling ever increasing requirements.
IKEDA Makoto
Professor
Intelligent Information Processing, Sensing, and Hardware Security
Hardware is an root of intelligent information processing in cyber space, and seeking more intelligent, faster, lower power and more safer operations. Sensing is a gateway into cyber space from physical world, and authenticity and confidentiality of acquired information is a key for safety in cyber space. We are working on intelligent information processing, sensing and hardware security to fulfilling ever increasing requirements.
KAWAHARA Yoshihiro
Professor
Hongo Campus
Digital fabrication and wireless power transfer for Internet of Things
Looking ahead to the next era of the Internet of Things, we are working on AI-based digital fabrication technology, wireless power transfer technology, robotics, and sensing technology with the aim of realizing a world in which sensor and actuator functions are naturally integrated everywhere.
KAWAHARA Yoshihiro
Professor
Digital fabrication and wireless power transfer for Internet of Things
Looking ahead to the next era of the Internet of Things, we are working on AI-based digital fabrication technology, wireless power transfer technology, robotics, and sensing technology with the aim of realizing a world in which sensor and actuator functions are naturally integrated everywhere.
KUDOH Tomohiro
Professor
Kashiwa Campus
Towards a true fusion of networking and computing - Information infrastructure to support the utilization of real-world data -
A Cyber Physical System, which is a system that integrates the physical and virtual worlds, requires an information infrastructure, and it is necessary to control and utilize computing and network resources in collaboration. For example, in the interaction between the real world and the metaverse, the challenge is how to use the computing resources, such as edge devices, clouds, and MEC (Multi-Access Edge Computing), and the networks that connect them to provide stress-free feedback of real-world data. We are researching information infrastructure technology to support the utilization of such real-world data.
KUDOH Tomohiro
Professor
Towards a true fusion of networking and computing - Information infrastructure to support the utilization of real-world data -
A Cyber Physical System, which is a system that integrates the physical and virtual worlds, requires an information infrastructure, and it is necessary to control and utilize computing and network resources in collaboration. For example, in the interaction between the real world and the metaverse, the challenge is how to use the computing resources, such as edge devices, clouds, and MEC (Multi-Access Edge Computing), and the networks that connect them to provide stress-free feedback of real-world data. We are researching information infrastructure technology to support the utilization of such real-world data.
TAKEUCHI Ken
Professor
Hongo Campus
Data Centric Computing (AI / Computation in Memory / Quantum Computer)
Takeuchi Lab is extensively studying brain-like data-centric computing and Computation in memory (CiM) that combines data processing and memory. We foster students who understand application and social implementation and then co-design different fields from LSI hardware, software, and machine learning for AI era.
TAKEUCHI Ken
Professor
Data Centric Computing (AI / Computation in Memory / Quantum Computer)
Takeuchi Lab is extensively studying brain-like data-centric computing and Computation in memory (CiM) that combines data processing and memory. We foster students who understand application and social implementation and then co-design different fields from LSI hardware, software, and machine learning for AI era.
TAKENAKA Mitsuru
Professor
Hongo Campus
Si photonics for next-generation AI/IoT deviecs
We are conducting research on silicon photonics for electronic-photonic integrarted circuits By combining silicon photonics with III-V compound semiconductors, germanium, 2D materials and so on, we investigate programmable photonic integrated circuits for deep learning, optical interconnect LSI, and mid-infrared integrated circuits. Our goal is to achieve innovative computing that does not rely on Moore's Law.
TAKENAKA Mitsuru
Professor
Si photonics for next-generation AI/IoT deviecs
We are conducting research on silicon photonics for electronic-photonic integrarted circuits By combining silicon photonics with III-V compound semiconductors, germanium, 2D materials and so on, we investigate programmable photonic integrated circuits for deep learning, optical interconnect LSI, and mid-infrared integrated circuits. Our goal is to achieve innovative computing that does not rely on Moore's Law.
NAKAJIMA Kengo
Professor
Hongo Campus
ポストムーア時代のアプリケーション・アルゴリズムへ向けて
スパコンを駆使した大規模シミュレーションによる計算科学は理論・実験に続く「第3の科学」と呼ばれています。当研究室では、スパコン上での大規模シミュレーションを支える数理的基盤の研究開発をScience-Modeling-Algorithm-Software-Hardware(SMASH)の幅広い観点から実施し、「第3の科学」の発展に貢献します。
NAKAJIMA Kengo
Professor
ポストムーア時代のアプリケーション・アルゴリズムへ向けて
スパコンを駆使した大規模シミュレーションによる計算科学は理論・実験に続く「第3の科学」と呼ばれています。当研究室では、スパコン上での大規模シミュレーションを支える数理的基盤の研究開発をScience-Modeling-Algorithm-Software-Hardware(SMASH)の幅広い観点から実施し、「第3の科学」の発展に貢献します。
HANAWA Toshihiro
Professor
Kashiwa Campus
Paving the Way to Next-Generation Supercomputers
The supercomputer is also attracting attention as a platform that realizes large -scale machine learning in addition to conventional simulations. By coordinating these, you can achieve more advanced applications. To do so, we need to optimize all kinds of processing, such as communication and file input and output, and aim to develop next -generation supercomputer fundamental technology through these more advanced fusion and cooperation.
HANAWA Toshihiro
Professor
Paving the Way to Next-Generation Supercomputers
The supercomputer is also attracting attention as a platform that realizes large -scale machine learning in addition to conventional simulations. By coordinating these, you can achieve more advanced applications. To do so, we need to optimize all kinds of processing, such as communication and file input and output, and aim to develop next -generation supercomputer fundamental technology through these more advanced fusion and cooperation.
HIROSE Akira
Professor
Hongo Campus
Neural Networks and Wireless Networks: See/feel/speak with radio-wave sensitive eyes and artificial intelligence (AI)
*Investigation of information processing principles in the brain from an electronic information engineering perspective, *Research on new information and signal processing technology by combining symbol processing and pattern processing, *Development of flexible electromagnetic/light measurement techniques, imaging and communication methods, and *Realization of useful systems and devices.
HIROSE Akira
Professor
Neural Networks and Wireless Networks: See/feel/speak with radio-wave sensitive eyes and artificial intelligence (AI)
*Investigation of information processing principles in the brain from an electronic information engineering perspective, *Research on new information and signal processing technology by combining symbol processing and pattern processing, *Development of flexible electromagnetic/light measurement techniques, imaging and communication methods, and *Realization of useful systems and devices.
FUKUDA Seisuke
Professor
Sagamihara Campus
Spacecraft/satellite systems and sensor signal processing
We are conducting a wide range of research, from very close to actual projects to future elemental technologies, regarding technology related to satellite and spacecraft systems with background in electronic engineering, and signal processing technology for radar and image sensing.
FUKUDA Seisuke
Professor
Spacecraft/satellite systems and sensor signal processing
We are conducting a wide range of research, from very close to actual projects to future elemental technologies, regarding technology related to satellite and spacecraft systems with background in electronic engineering, and signal processing technology for radar and image sensing.
MINEMATSU Nobuaki
Professor
Hongo Campus
Assistive technology for speech communication using computers that can talk with, listen to, and support users
Speech-to-text (speech recognition) and text-to-speech (speech synthesis) are working well even on smartphones. In our laboratory, using these speech technologies, we are developing frameworks that can aid humans to realize high-quality speech communication with other humans or with machines. By acquiring various kinds of knowlege such as acoustic phonetics, cognitive science, linguistics, and brain sciences as well as speech technologies, we are trying to improve the QoL of individuals who are communicating orally with others.
MINEMATSU Nobuaki
Professor
Assistive technology for speech communication using computers that can talk with, listen to, and support users
Speech-to-text (speech recognition) and text-to-speech (speech synthesis) are working well even on smartphones. In our laboratory, using these speech technologies, we are developing frameworks that can aid humans to realize high-quality speech communication with other humans or with machines. By acquiring various kinds of knowlege such as acoustic phonetics, cognitive science, linguistics, and brain sciences as well as speech technologies, we are trying to improve the QoL of individuals who are communicating orally with others.
MORIKAWA Hiroyuki
Professor
Hongo Campus
Digital Innovation: Transforming Society, Industry, Economy, and Local Communities
As digital technology revolutionizes society, we are researching 5G/Beyond 5G/6G, the Internet of Things (IoT), cloud robotics, wireless communication & power supply, and information society design. We invite you to collaborate with us and explore these exciting new frontiers with fresh ideas.
MORIKAWA Hiroyuki
Professor
Digital Innovation: Transforming Society, Industry, Economy, and Local Communities
As digital technology revolutionizes society, we are researching 5G/Beyond 5G/6G, the Internet of Things (IoT), cloud robotics, wireless communication & power supply, and information society design. We invite you to collaborate with us and explore these exciting new frontiers with fresh ideas.
Project Professor
KAMEZAKI Mitsuhiro
Project Professor
Hongo Campus
Interface and Interaction Design between Humans and Highly Intelligent Machines/Systems
Our group promotes interdisciplinary research called "Smart Mechanano System (SMS)," which is based on the interface (media) design between huamans and highly intellignet machines/systems.
KAMEZAKI Mitsuhiro
Project Professor
Interface and Interaction Design between Humans and Highly Intelligent Machines/Systems
Our group promotes interdisciplinary research called "Smart Mechanano System (SMS)," which is based on the interface (media) design between huamans and highly intellignet machines/systems.
HAMADA Mototsugu
Project Professor
Hongo Campus
Lowpower Integrated Circuits and Systems
We are researching low -powered processors and communication systems, which are responsible for information technology in the IoT/AI era.
HAMADA Mototsugu
Project Professor
Lowpower Integrated Circuits and Systems
We are researching low -powered processors and communication systems, which are responsible for information technology in the IoT/AI era.
Associate Professor
OISHI Takeshi
Associate Professor
Komaba Campus
Spatiotemporal modeling and representation of real world
We are developing technologies for 3D modeling, recognition, and analysis of the real world using optical sensor devices such as LiDAR and cameras to realize autonomous mobility for robots and self-driving vehicles.
OISHI Takeshi
Associate Professor
Spatiotemporal modeling and representation of real world
We are developing technologies for 3D modeling, recognition, and analysis of the real world using optical sensor devices such as LiDAR and cameras to realize autonomous mobility for robots and self-driving vehicles.
OGAWA Takefumi
Associate Professor
Kashiwa Campus
Interaction of Humans, Things, and Events
We are involved in various research projects aimed at enriching people's daily lives by utilizing augmented reality and virtual reality technologies. Our research themes share a common keyword - "connect". We are working on developing "communication support" and "groupware" to facilitate connections between people, "interfaces" to bridge the gap between people and computers, and "interaction technologies" to enable connections between people and data. Our goal is to create mechanisms that facilitate new experiences by enabling humans, objects, and events to interact with each other.
OGAWA Takefumi
Associate Professor
Interaction of Humans, Things, and Events
We are involved in various research projects aimed at enriching people's daily lives by utilizing augmented reality and virtual reality technologies. Our research themes share a common keyword - "connect". We are working on developing "communication support" and "groupware" to facilitate connections between people, "interfaces" to bridge the gap between people and computers, and "interaction technologies" to enable connections between people and data. Our goal is to create mechanisms that facilitate new experiences by enabling humans, objects, and events to interact with each other.
KOBAYASHI Daisuke
Associate Professor
Sagamihara Campus
Startled Computers: Space makes semiconductors surprised
In Sci-Fi movies, androids are often depicted as having cold and emotionless character. We may have such impression because most of computers rely on digital processing in which everything is flatly divided into "1" or "0", but—would you believe it?—they are easily surprised and often get upset. It is caused by a strike of tiny invisible particles, fragments of exploding stars a.k.a cosmic rays, but the shock is significant. The shock makes a computer chip surprised and lose its memory, control, and even its fundamental ability to boot up. So, what will you do next?
KOBAYASHI Daisuke
Associate Professor
Startled Computers: Space makes semiconductors surprised
In Sci-Fi movies, androids are often depicted as having cold and emotionless character. We may have such impression because most of computers rely on digital processing in which everything is flatly divided into "1" or "0", but—would you believe it?—they are easily surprised and often get upset. It is caused by a strike of tiny invisible particles, fragments of exploding stars a.k.a cosmic rays, but the shock is significant. The shock makes a computer chip surprised and lose its memory, control, and even its fundamental ability to boot up. So, what will you do next?
SAITO Daisuke
Associate Professor
Hongo Campus
Real-data-oriented Speech Information Processing and Media Information Processing
Saito Laboratory is studying and developing speech information processing, and conducting research on multimedia information processing based on the developed techniques. In particular, in recent years, we have been working on research on complex phenomena such as multiple singing, and analysis about the relationship between appearance of robots and their voice. As a research stance, we aim to create new technologies based on mathematical backgrounds and handle a wide range of media.
SAITO Daisuke
Associate Professor
Real-data-oriented Speech Information Processing and Media Information Processing
Saito Laboratory is studying and developing speech information processing, and conducting research on multimedia information processing based on the developed techniques. In particular, in recent years, we have been working on research on complex phenomena such as multiple singing, and analysis about the relationship between appearance of robots and their voice. As a research stance, we aim to create new technologies based on mathematical backgrounds and handle a wide range of media.
SATO Masahiro
Associate Professor
Hongo Campus
Phyisics and smart AI-aided electrical and electronic materials design
To achieve carbon neutrality in a materials limited world, we are designing new electrical and electronic materials with the aid of the laws of nature and artificial intelligence. By understanding the underlying phyisics of high electric field phenomena, we propose novel approaches for tailoring the material properties.
SATO Masahiro
Associate Professor
Phyisics and smart AI-aided electrical and electronic materials design
To achieve carbon neutrality in a materials limited world, we are designing new electrical and electronic materials with the aid of the laws of nature and artificial intelligence. By understanding the underlying phyisics of high electric field phenomena, we propose novel approaches for tailoring the material properties.
SHIMOKAWABE Takashi
Associate Professor
Hongo, Kashiwa Campus
Large-scale simulation on supercomputers
Physical simulations are used in various fields of computational science and computational engineering, such as meteorology, space, and manufacturing. Research and development of computational methods, algorithms, and software technologies are necessary to realize large-scale simulations using next-generation supercomputers. Our research interests include fluid computation, GPU computation, AMR, acceleration methods, machine learning, and dynamic load balancing.
SHIMOKAWABE Takashi
Associate Professor
Large-scale simulation on supercomputers
Physical simulations are used in various fields of computational science and computational engineering, such as meteorology, space, and manufacturing. Research and development of computational methods, algorithms, and software technologies are necessary to realize large-scale simulations using next-generation supercomputers. Our research interests include fluid computation, GPU computation, AMR, acceleration methods, machine learning, and dynamic load balancing.
NAKAMURA Ryo
Associate Professor
Kashiwa Campus
Network and Software for Society
Networks transporting data and software managing data exchanges have become indispensable in every aspect of modern society. The Internet is a prime example. Modern information services require connecting multiple computers via networks and performing distributed processing. We conduct research on networks and software that support the ever-evolving information systems, meet diverse requirements, achieve high performance, and ensure reliability.
NAKAMURA Ryo
Associate Professor
Network and Software for Society
Networks transporting data and software managing data exchanges have become indispensable in every aspect of modern society. The Internet is a prime example. Modern information services require connecting multiple computers via networks and performing distributed processing. We conduct research on networks and software that support the ever-evolving information systems, meet diverse requirements, achieve high performance, and ensure reliability.
NAKAYAMA Masaya
Associate Professor
Kashiwa Campus
Wide -area distributed processing
In our laboratory, we deal with research issues about network infrastructure technology and also including applied technology for collecting, processing, and utilizing information from connected devices.
NAKAYAMA Masaya
Associate Professor
Wide -area distributed processing
In our laboratory, we deal with research issues about network infrastructure technology and also including applied technology for collecting, processing, and utilizing information from connected devices.
NATSUAKI Ryo
Associate Professor
Hongo Campus
Measure the world with active sensing
"Observation using microwaves" is our research topic. We can observe the target from distant in any time and weather condition. We are studying the dynamic deformation of the Earth using satellite borne radar system.
NATSUAKI Ryo
Associate Professor
Measure the world with active sensing
"Observation using microwaves" is our research topic. We can observe the target from distant in any time and weather condition. We are studying the dynamic deformation of the Earth using satellite borne radar system.
NARUSUE Yoshiaki
Associate Professor
Hongo Campus
Exploring Wireless Technologies Empowering the Future
We are researching and developing next-generation wireless technologies and field-oriented computing to realize "Zero-Configuration CPS," which aims to design, build, and operate cyber-physical systems (CPS) with minimal human costs.
NARUSUE Yoshiaki
Associate Professor
Exploring Wireless Technologies Empowering the Future
We are researching and developing next-generation wireless technologies and field-oriented computing to realize "Zero-Configuration CPS," which aims to design, build, and operate cyber-physical systems (CPS) with minimal human costs.
YATANI Koji
Associate Professor
Hongo Campus
Reshaping User Experience with Novel Interactive Systems
Our research focuses on user interfaces, particularly the development of novel applications enabled by information technology. We also investigate how interactive systems influence people's activities and decision-making.
YATANI Koji
Associate Professor
Reshaping User Experience with Novel Interactive Systems
Our research focuses on user interfaces, particularly the development of novel applications enabled by information technology. We also investigate how interactive systems influence people's activities and decision-making.
Lecturer
KOSUGE Atsutake
Lecturer
Hongo Campus
Energy-efficient high-performance VLSI systems for next-generation large AI models
We study energy-efficient high-performance VLSI systems including (1) energy-efficient domain specific processors and (2) 2.5D/3D chip stacking technology.
KOSUGE Atsutake
Lecturer
Energy-efficient high-performance VLSI systems for next-generation large AI models
We study energy-efficient high-performance VLSI systems including (1) energy-efficient domain specific processors and (2) 2.5D/3D chip stacking technology.