An User-Friendly Brain Computer Interface Integrated Holistic Rehabilitation System
Stroke leads to death and disability, traditional rehabilitation is limited by poor cardiopulmonary function. A comprehensive rehabilitation system combining brain-machine interfaces, real-time physiological monitoring, exoskeletons, and dynamic reduced-weight walking can enhance cardiopulmonary function, promote active participation, and accelerate recovery. Real-time monitoring ensures safety, improves brain function, enhances rehabilitation outcomes, and reduces family and social burdens.
A Wearable and Self-powered Multifunctional Module for Active Infectio n Prevention, Accelerated Wound Healing and Noninvasive Healing Moni toring
Artificial Intelligence Acute Kidney Injury Prediction: Real-time Inference and Interactive Critical Care System
Demonstration of a Superior Deep-UV Surface-Enhanced Resonance Ram an Scattering (SERRS) Substrate and Single-Base Mutation Detection in O ligonucleotides
Development of novel cannabinoid CB1receptor antagonists with high oral absorption and no central adverse effects for the treatment of cardiovascular diseases
Technology maturity:Trial production
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!