Laboratory-based vibrotactile biofeedback systems are impractical for use in home balance rehabilitation regimens due to their cost, size and complexity. Wider, easier, and cheaper use of vibrotactile feedback devices can be achieved by exploiting the newest technologies.
LEARN MOREPassengers in autonomous vehicles are more likely to feel symptoms of motion sickness than in other forms of public transportation. Our study culminates with the development of methodologies for mitigating motion sickness, informing the future design of autonomous vehicles.
LEARN MOREWearable biofeedback devices have been shown to improve balance in young and older adults and individuals with balance impairments. We have performed a series of studies to quantify how individuals use and respond to vibrotactile biofeedback and will use the results to inform the design of future biofeedback systems.
LEARN MOREThe use of vibrotactile SA has been demonstrated to be effective in reducing the real-time body sway in various populations including young adults, older adults, individuals with vestibular disorders, individuals with Parkinson’s Disease and individuals with Stroke.
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