Advances in our understanding of brain function, along with the development of neural
interfaces that allow for the monitoring and activation of neurons, have paved the way for …

Speech brain–computer interfaces (BCIs) have the potential to restore rapid communication
to people with paralysis by decoding neural activity evoked by attempted speech into text, or …

Implanted brain–computer interfaces (iBCIs) translate brain activity recorded intracranially
into commands for virtual or physical machines to restore or rehabilitate motor, sensory or …

Objective. Individuals with neurological disease or injury such as amyotrophic lateral
sclerosis, spinal cord injury or stroke may become tetraplegic, unable to speak or even …

Neural prostheses have the potential to improve the quality of life of individuals with
paralysis by directly map** neural activity to limb-and computer-control signals. We …

Brain-computer interfaces (BCIs) promise to restore independence for people with severe
motor disabilities by translating decoded neural activity directly into the control of a …

Objective. Brain–computer interfaces (BCIs) can enable individuals with tetraplegia to
communicate and control external devices. Though much progress has been made in …

Speaking is a sensorimotor behavior whose neural basis is difficult to study with single
neuron resolution due to the scarcity of human intracortical measurements. We used …

Objective. The Utah array is widely used in both clinical studies and neuroscience. It has a
strong track record of safety. However, it is also known that implanted electrodes promote …

The offline" replay" of neural firing patterns underlying waking experience, previously
observed in non-human animals, is thought to be a mechanism for memory consolidation …