Wireless networks of implantable microscale devices are being explored as a means of recording and stimulation of neural activity for various therapeutic applications. Beyond the …
Intracortical braincomputer interfaces (iBCIs) that record from microelectrode arrays (MEAs) provide high spatial and temporal resolution access to human cortical activity. Current iBCIs for human …
Abstract of A Novel NearInfrared Diffuse Optical Spectroscopy System for Stroke Prediction and Diagnosis on the Neck, by Ning Zhang, Degree ScM, Brown University, May …
This thesis aims to contribute to the practical deployment of a new type of multichannel subdermal wireless EEG system under development at the Nurmikko Lab …
Neuroprosthesis research aims to enable communication between the brain and external assistive devices while restoring lost functionality such as occurs from stroke, spinal cord injury …
Neural Prosthetics are devices that are able to record brain activity and use it to manipulate the environment in a meaningful way. These devices have …
This study focuses on the development of implantable biosensor microdevices for future brain-machine interfaces. Ensembles of spatially distributed sub-mm size devices, “neurograins, were designed to …
Deep brain stimulation (DBS) is an effective treatment for the mid/late stage Parkinson’s disease (PD), which significantly reduces the dopamine medication and improves motor symptoms. …
Semiconductor lasers are the prime example of compact coherent light-emitters having developed into mature technologies with ubiquitous presence in applications across much of the optical …
Current brain-computer interface (BCI) systems lack the ability to provide naturalistic sensory feedback, which is crucial for achieving full motor restoration in individuals with tetraplegia. …