By setting the standard for neural input in the XR ecosystem, Wearable Devices is shaping the future of seamless, natural user experiences across some of the world’s fastest-growing tech markets.

Faculty and students at RIT are conducting research in several areas of human computer interaction, including accessibility and inclusion, eye-tracking and visual perception, human-aware artificial ...

Wearable Devices develops Large MUAP Models for personalized gestures. LMMs aim to redefine human-device interaction in XR platforms. Live on Wednesday June 18: 3 Summer "Power Patterns" Are About to ...

In an era dominated by voice-controlled devices, voice assistants have transformed how we interact with technology. These AI-driven systems, which leverage natural language processing (NLP), allow ...

By setting the standard for neural input in the XR ecosystem, Wearable Devices is shaping the future of seamless, natural user experiences across some of the world’s fastest-growing tech markets.

Through a $5 million grant from the National Institute on Disability, Independent Living and Rehabilitation Research, the ...

Engineers at the University of Massachusetts Amherst have developed artificial neurons that can communicate directly with ...

Assistive technologies are no longer confined to physical aids or specialized hardware. The study identifies a broad ...

The newly allowed patent advances Wearable Devices' neural gesture technology, unlocking seamless pinch-to-zoom, volume control, and object manipulation in mid-air Yokneam Illit, Israel, May 22, 2025 ...

Through interdisciplinary research, community revitalization, and inclusive, interactive computing, the Center for Human-Computer Interaction + Design (HCI+D) — a collaboration between Northwestern ...