Automated Monitoring System for Biomechanical Postural Assessment
This technology offers an automated analysis software that can assess postures onsite and in real-time. It can provide reader-friendly reports using a standard digital camera and monitor human postures in real-time.
Autonomous Vehicle Platoons Robust Against Communication and Sensor Failure
Platoons of autonomous vehicles controlled by a centralized adaptive cruise control are vulnerable to disruptions in communications between cars, and unreliable sensing information of the vehicles around them. By building methods to simulate a centralized command during communication loss, and to establish safety margins based on still-reliable sensor information during a sensor failure, a platoon of vehicles can guarantee safety in even emergency situations while suffering communication and sensor loss.
Collaborative Care for the Behavioral Health Care Manager (CoCM)
DIVE: Data Intensive Visualization Engine
Document Assessment and Review Tool (DART) (WERT)
Glessuw
Guiding Good Choices® (GGC)
Preventing Addiction Related Suicide (PARS) Web
Recording Channels for Biopotential Signals
Bidirectional Brain-Computer Interface research is limited by the need for device architectures thar can facilitate scientific inquiry into human brain function. This technology offers a digital register to record channels in combination with techniques to enable a multiplexing Bidirectional Brain-Computer interface.
Residency Matching Optimization
The algorithm of matching residency programs with medical students has remained unchanged for decades. By considering the preferences of both parties and computing a globally optimal pairing, this technology improves residency match results while increasing the efficiency of the process.
Rosetta™
Spectral-Ripple Resolution Assessment for Cochlear Implant Users
Systems and Methods for Deep Brain Stimulation Using Beta Burst Feedback
Existing implantable neurostimulators treat a variety of neurological disorders via open-loop stimulation and are typically non-rechargeable where invasive surgery is necessary to replace the device. To addresses this concern, this technology is an open-loop brain stimulator with real-time communication. This device offers a long battery life, limiting invasive surgery and provides a new method for calculating deep brain stimulation.