The traditional prognosis and recovery from stroke rely mostly on the judgment of professional personnel without objective and real-time monitoring technology. With the rapid growth of the digital healthcare market, the industry urgently needs to develop remote or home-based rehabilitation technology. This technology is based on conductive fibers, developing flexible conductive wires and electromyographic electrodes that comply with the medical electrical requirements such as ANSI/AAMI EC53 and ANSI/AAMI EC12. At the same time, a 2-in-1 accurate motion detection garment is developed, which underwent biocompatibility testing and can be washed 100 times repeatedly. Unlike traditional motion detection devices, this garment can simultaneously provide feedback on the user's muscle and joint activity information and enhance training enjoyment through AR. In the future, in addition to home rehabilitation, it can also be extended to accurate sports, games, and professional training applications.
Name:
Phone:02-22670321#3409
Address:No.6, Chengtian Rd., Tucheng Dist., New Taipei City 23674, Taiwan (R.O.C.)
M623603
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A deep learning-powered novel artificial intelligence algorithm and syste m to assist in the identification of pneumoperitoneum on abdominal com puted tomography
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
Demonstration of a Superior Deep-UV Surface-Enhanced Resonance Ram an Scattering (SERRS) Substrate and Single-Base Mutation Detection in O ligonucleotides
Technology maturity:Trial production
Exhibiting purpose:Technology transactions、Patent transactions、Product promotion、Display of scientific results
Trading preferences:Exclusive license/assignment、Technical license/cooperation
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