Hearing through Light: Enhancing Listening Benefits of Hearing Assistive Devices with Optical Microphones and Deep Learning Technology
Hearing aids are vital tools for individuals with hearing impairment, yet they face challenges in noisy environments and during distant conversation conditions. This project aims to overcome these limitations by integrating optical microphones with deep learning techniques. Experimental validation demonstrates significant enhancements in listening efficacy for hearing aid users in such scenarios, paving the way for new research directions in speech signal sensing technology.
Degradable Implantable Flexible Microelectrode Patch with High-Resolution Electrical Stimulation, Electrophysiological Signal Sensing, and Cellular Regenerative Therapy
A Wearable and Self-powered Multifunctional Module for Active Infectio n Prevention, Accelerated Wound Healing and Noninvasive Healing Moni toring
①The potential of Fukuoka Prefecture’s semiconductor industry ②High Quality Audio Device Series MUSES ③Optical Touchless Sensor"
Development of novel cannabinoid CB1receptor antagonists with high oral absorption and no central adverse effects for the treatment of cardiovascular diseases
Technology maturity:Prototype
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!