Restoring communication through high-bandwidth neural interfaces and large language model integration.
Our approach focuses on decoding articulatory kinematics rather than abstract phonemes alone. By mapping neural activity from the sensorimotor cortex directly to speech synthesis parameters, we aim to restore naturalistic communication for patients with locked-in syndrome.
"The goal is not just text output, but the recovery of the user's authentic voice and prosody." [1]
A non-invasive, text-based communication interface designed for rapid deployment. NeuraTxT utilizes high-density surface EMG combined with predictive language models to allow seamless text entry without physical typing.
Next-generation visual cortex stimulation for direct image projection. MindsEye bypasses the optical nerve to deliver low-resolution visual phosphenes directly to the visual cortex, enabling rudimentary sight for the blind.
