Ultrasonic haptic and artificial intelligence based non-contact interaction pathology system
Compared with the current digital pathology platform, this system can use MR glasses for imaging, and introduce ultrasonic haptic feedback technology to provide a noncontact control system, which can prevent the infection by touch. The system control is intuitive and have a higher degree of freedom to import into application. In addition, compared to other pathology platforms, our AI pathology analysis platform can more accurately detect and segment the lesion regions of liver tumors. The AI analysis results can assist doctors to diagnose liver diseases.
Next-generation wideband surface acoustic wave communication components based on thin-film lithium niobate on insulator technology
3D Printed Prosthetic Arm using Eye-Tracking and Artificial Intelligence Visual Recognition Technology
High mobility materials, process, stacked channels, and thermal circuit simulation; Ferroelectric X:HfO2 for Negative Capacitance and POC(Proof-of-Concept) Applications; Atomic layer technologies for
World-class ultra-precision optical processing technology and the non-contact floating display application
Technology maturity:Experiment stage
Exhibiting purpose:Display of scientific results
Trading preferences:Negotiate by self
Coming soon!