ILS2024 Time Table

Dec.2th - 5th
ToranomonHills & Online (partial)
All ILS2024 Power Matching account holders are welcome to attend for free!

Open

4th Dec. 10:00 - 5th Dec. 18:00
Toranomon Hills 5F Hall A1
  • University and National Research Institute Booths
NEDO connect

  • University and National Research Institute Booths
NEDO-recommended university and national research laboratories will be showcasing the results of their research and development.
A total of 10 laboratories will participate over the two days (5 laboratories will be rotated each day)! They will introduce research and development in fields such as decarbonization, ICT, semiconductors, robotics, and life sciences.
December 4th (Wed) Exhibitors
\ NOW ON STAGE /

Kindai University

Quantification of cell culturing for the digital transformation thereof

Kindai University

Quantification of cell culturing for the digital transformation thereof

Animal cell culture is gaining attention in medical and food applications, but the instability of cells is a challenge. A key factor is unclear, unquantified handling methods. This study measures the culture process, including manual work time, risk assessment, and improvements for stable operation to reduce risks.
Life Sciences / Drug Discovery / Medical Devices / Regenerative Medicine
\ NOW ON STAGE /

Graduate School of Science and Engineering, Saitama University

Innovative Circuit Breaker for Cost-Effective, Safe Renewable Energy Systems

Graduate School of Science and Engineering, Saitama University

Innovative Circuit Breaker for Cost-Effective, Safe Renewable Energy Systems

We have developed a new circuit breaker to accelerate the installation of renewable energy sources integrated into DC systems. This circuit breaker uses a new method that interrupts overcurrent current before its peak. This circuit breaker is a groundbreaking product that makes it possible to achieve both low cost and safety, which was not possible with conventional circuit breakers.
Renewable Energy / Decarbonization / SDGs / Smart Grid
\ NOW ON STAGE /

Powerelectronics Laboratory, University of TSUKUBA

Series Power Flow Controller - Small voltage & extremely low loss

Powerelectronics Laboratory, University of TSUKUBA

Series Power Flow Controller - Small voltage & extremely low loss

Japan’s aging power infrastructure, designed years ago, is starting to show its limitations, such as challenges in selling electricity generated from renewable sources. Introducing a meshed transmission and distribution network would enable more efficient local power consumption. Power flow controllers are key to stabilizing such a network. By using low-voltage, ultra-low-loss series converters, we can achieve an intelligent power grid.
Renewable Energy / Decarbonization / SDGs / Smart Grid
\ NOW ON STAGE /

AIS Lab., Shinshu University

Deformable object manipulation by intelligent robots

AIS Lab., Shinshu University

Deformable object manipulation by intelligent robots

We propose an approach based on our experience in the field of intelligent robotics to automate tasks related to deformable objects (cables, fabrics, etc.). In particular, the combination of simulations of deformable object manipulation and new robotic hardware will enable us to provide integrated solutions utilizing a digital twin environment.
\ NOW ON STAGE /

OgiwaraGroup GifuUniversity

Chemical Upcycling of Polyesters

OgiwaraGroup GifuUniversity

Chemical Upcycling of Polyesters

December 5th (Thu) Exhibitors
\ NOW ON STAGE /

Kobe University

Rare metal-free thermoelectric elements as power sources for IoT sensors

Kobe University

Rare metal-free thermoelectric elements as power sources for IoT sensors

Rare metal-free thermoelectric elements meet the power supply needs of IoT sensors.
ICT / Next-Generation Communications / IoT / M2M
\ NOW ON STAGE /

Mototake Lab., Graduate School of Social Data Science, Hitotsubashi University

Product development support through collaboration between AI and humans

Mototake Lab., Graduate School of Social Data Science, Hitotsubashi University

Product development support through collaboration between AI and humans

XAI that collaborates with humans will shift from AI that predicts to AI that understands, enabling material development from small amounts of data and the creation of added value such as safety and security in fields such as medicine and autonomous driving. For example, by introducing XAI that collaborates with humans into material development, we will be able to realize unprecedented digital twins, such as the estimation of complex material structures that have not been extracted from measurement data such as X-ray spectroscopy, and the material formation process involving chemical reactions.
Other
\ NOW ON STAGE /

Graduate School of Environmental Studies, Tohoku University

Obtaining CO2 as a carbon source from the air and exhaust gases around the world in an energy-efficient manner

Graduate School of Environmental Studies, Tohoku University

Obtaining CO2 as a carbon source from the air and exhaust gases around the world in an energy-efficient manner

Production and sales of killer modules that realize energy-saving DAC and CCU
Renewable Energy / Decarbonization / SDGs / Smart Grid
\ NOW ON STAGE /

National Institute of Advanced Industrial Science and Technology, Device Technology Research Institute

Ultra-high performance planar-type electron source capable of operating in low vacuum and low voltage

National Institute of Advanced Industrial Science and Technology, Device Technology Research Institute

Ultra-high performance planar-type electron source capable of operating in low vacuum and low voltage

By using cutting-edge atomic layer materials, we have developed an electron source that operates at a low voltage of 10 V, a low vacuum of 10 Pa, and in even liquids, which was previously impossible, and achieves high-energy monochromatic and high-current density electron emission.
Semiconductors / Precision Machinery / Electronic Components / Batteries
\ NOW ON STAGE /

National Institute for Materials Science

Diamond field-effect transistor

National Institute for Materials Science

Diamond field-effect transistor

The development of low-loss power semiconductor devices is important for the realization of a decarbonized society. Diamond, which has excellent semiconductor properties, is a promising material for a low-loss power device. We aim to contribute to the realization of a decarbonized and sustainable society by developing high-performance diamond semiconductor devices.

Close