Aiming to be a Global Open Innovation Hub
centered on Japanese universities
-Campus Create Co., Ltd―
Those who are looking for advanced technology seeds researched and developed by universities and companies
This is a part of the technology seeds we introduce. If you are interested in the utilization and details of the technology seeds, please feel free to contact us.We will check your request and coordinate with seeds offering partner.
Development of Metal Myoelectric Hand Prothesis with Lightweight and Robust Optimal Design generated by Generative Design
MOREShunta Togo, The University of Electrocommunciations
IT, Manufacturing, Medical Engineering Collaboration / Life Sciences
We have developed a lightweight and robust metal myoelectric prosthetic hand using an optimization design tool called Generative Design. As a result, we were able to achieve the lightest weight while maintaining the robustness required for ...
Neural network algorithm that evaluates and outputs image quality with the same precision as human subjectivity
MOREProf. Tetsuya Shimamura, Graduate school of Science and Engineering, Saitama University
IT
Up to today, the evaluation of image quality was performed by statistically processing and quantifying the subjective assessments of a large number of people, which requires many work processes. In our laboratory, we have developed an algor...
Speech processing technology capable of extracting clear voice even in noisy environments with time variation
MOREProf. Tetsuya Shimamura, Graduate school of Science and Engineering, Saitama University
IT
There are various noises in the everyday environment. Although noise removal technologies have advanced, it has been difficult to remove noise that has a large time change. In our laboratory, we have developed new noise reduction/removal te...
Robot using artificial muscles simulating peristaltic movement of earthworms and its application to pipe inspection, high viscous fluid pumping, and excavation
MOREProf. Taro Nakamura, Department of Science and Engineering, Chuo University
Manufacturing, Medical Engineering Collaboration / Life Sciences
Earthworms move through narrow spaces by peristaltic movements. In Nakamura group, we are developing a robot that simulates the peristaltic movement of an earthworm by using our original artificial muscles as its constituent parts which "co...
Axial fiber-reinforced artificial muscles with more than 8-fold larger output density than Mckibben type ones that realize low cost and high durability
MOREProf. Taro Nakamura, Department of Science and Engineering, Chuo University
Manufacturing, Medical Engineering Collaboration / Life Sciences
Pneumatic rubber artificial muscles are one of the actuators that can obtain power by injecting fluid such as air into elastic material like rubber, and Mckibben type artificial muscle is a typical example. In Nakamura group, we have develo...
The combination of measurement wavelengths can be freely selected. Multispectral camera
MOREHokkaido Satellite Co., Ltd.
IT, Manufacturing, Medical Engineering Collaboration / Life Sciences, Other
It's a venture company in university. We have developed a multispectral camera to extract and analyze the reflection spectrum of any (6bands) (+ RGB : 3 bands) in a wide range of wavelengths from visible to near-infrared (350 nm to 1050 nm)...
Ultra small spectrometer which is applicable to near-infrared region by using MEMS processes
MOREGraduate School of Information Technology, University of Electro-Communications Associate Professor Kan Tetsuro, Intelligent Machinery Engineering Department
Manufacturing, Nano technology, Other
We are researching a small spectrometer using MEMS processes. The wavelength band of the object depends on design, and can be spectroscopically divided into 20 nm resolution at the near-infrared range of 1200 nm to 1500 nm, for example....
Sheet-supported platinum catalyst suitable for reuse, reduction, and recycling
MOREMaki Shojiro, Associate Professor of Center of Neuroscience and Biomedical Engineering, Graduate School of Informatics and Engineering, Department of Engineering Science, The University of Electro-Communications
Environment / Organic chemistry / Inorganic chemistry
This is a catalyst technology that supports platinum for sheet-like metal, polymer, carbon, etc. (1) Repeatable use (reuse), 2) reduction of catalyst consumption (reduce), 3) easy recovery and reactivation (recycle), 4) easy mass production...
Polymer-sheet supported palladium hydride catalyst
MOREMaki Shojiro, Associate Professor of Center of Neuroscience and Biomedical Engineering, Graduate School of Informatics and Engineering, Department of Engineering Science, The University of Electro-Communications
Environment / Organic chemistry / Inorganic chemistry
We are studying new hydrogenation catalysts using palladium. 1)Hydrogenation without hydrogenolysis reaction, 2) partial hydrogen addition with a selectable number of substitutions, 3) repeatable use (reuse), 4) reduction (reuse) of ca...
Luminescent material for a highly-sensitive in vivo imaging that can visualize to a depth of 5-6cm from the epidermis
MOREMaki Shojiro, Associate Professor of Center of Neuroscience and Biomedical Engineering, Graduate School of Informatics and Engineering, Department of Engineering Science, The University of Electro-Communications
Medical Engineering Collaboration / Life Sciences
In recent years, "Bioimaging", which can observe the development process of disease in real-time by using fluorescent agents (bioprobes) to illuminate intracellular proteins, has been attracting attention. In this study, we developed a lumi...