Showing 4 results for Restoration
Proposals to the Neural Engineering System Design program (DARPA-BAA-16-09) are due April 14, 2016. The program seeks to develop implantable neural interfaces to connect the human brain with the digital world.
for Interface Stability over Time (HIST) effort identifies leading mechanisms
of interface degradation and failure. HIST teams are also developing new
invasive and non-invasive histology methods to assess
neural-recording-interface status and performance, accurate predictive models
of interface performance, and methods to reduce the time required to assess and
develop robust interfaces.
The Reliable Central-Nervous-System (CNS)
Interfaces (RCI) effort seeks to demonstrate CNS interfaces that dramatically
extend their performance and lifetime. RCI includes strategies for reliably
recording motor-control information from a variety of sources, such as
single-unit action potentials, local field potentials, electrocorticography
(ECoG) and electroencephalography (EEG). This effort focuses on developing
amputee-relevant behavioral-testing methods to accurately evaluate the
reliability of CNS-interface systems prior to testing in the intended patient
The Reliable Peripheral Interfaces (RPI) effort seeks to
demonstrate peripheral-nervous-system (PNS) interfaces that can reliably extract
motor-control information for intuitive control of high-performance upper-limb
prosthetics. This effort includes a variety of PNS-interface approaches such as
nerve cuffs, penetrating electrode arrays, regenerative interfaces,
tissue-engineered biological constructs, non-penetrating devices, invasive
electromyography (EMG) and sensory-input (stimulation) systems.