Neuroengineering: Sensory Feedback and Prosthetic Control
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Delves into the world of neural interfaces, focusing on the implementation of invasive and non-invasive electrodes and the evolution of electrode technologies.
Explores neuroprostheses for sensory systems, including auditory, vestibular, vision, and tactile applications, addressing the challenges of artificial vision.
Focuses on the development of 'eSee-Shells', chronic multimodal neural interface devices using transparent, inkjet-printed electrocorticography (ECoG) arrays.
Explores motor neuroprosthetics, covering peripheral nervous system, motor decoding, robotic hands, and sensory feedback through advanced techniques and implantable systems.
