Results 301 to 310 of about 2,074,887 (343)
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Journal of Visualized Experiments, 2019
This work describes a methodological framework that can be used to explicitly and implicitly characterize the sense of agency developed over the neural-machine interface (NMI) control of sensate virtual or robotic prosthetic hands.
Jonathon S. Schofield +5 more
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This work describes a methodological framework that can be used to explicitly and implicitly characterize the sense of agency developed over the neural-machine interface (NMI) control of sensate virtual or robotic prosthetic hands.
Jonathon S. Schofield +5 more
semanticscholar +1 more source
Development of an Implanted Neural Prostheses
2011To research and design a type of implantable functional electrical stimulator for restoring the injured peripheral nervous system. The crucial circuits of the implantable neural prosthesis were designed based on the digital signal processor TMS320VC54x and programmable logic device XC95144XL, corresponding program were developed and an experiment was ...
Hongyun Liu, Weidong Wang, Zhengbo Zhang
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Implantable biomedical microsystems for neural prostheses
IEEE Engineering in Medicine and Biology Magazine, 2005In the following article, the technologies to fabricate polyimide-based thin and flexible substrates with monolithically integrated electrode arrays and printed circuit boards (PCB) for hybrid electronic assemblies as well as an assembling technique that connects bare electronic dice with flexible PCBs are presented.
Stieglitz, Thomas +2 more
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[Neural engineering and neural prostheses].
Zhongguo yi liao qi xie za zhi = Chinese journal of medical instrumentation, 2007The motivation of the brain-computer interface (BCI) research and its potential applications are introduced in this paper. Some of the problems in BCI-based medical device developments are also discussed.
Shang-Kai, Gao +4 more
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2007
The use of technology to compensate for neurological deficit or disease has long captured the imagination of researchers in neural engineering. Although the field of neural engineering, by name, is relatively young, over the past 30 years many researchers from the traditional engineering fields have devoted major portions of their careers to the ...
Philip R. Troyk, Stuart F. Cogan
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The use of technology to compensate for neurological deficit or disease has long captured the imagination of researchers in neural engineering. Although the field of neural engineering, by name, is relatively young, over the past 30 years many researchers from the traditional engineering fields have devoted major portions of their careers to the ...
Philip R. Troyk, Stuart F. Cogan
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Silicon microsystems for neuroscience and neural prostheses
IEEE Engineering in Medicine and Biology Magazine, 2005Silicon-based microsystems are being developed to interface with the central nervous system (CNS) at the cellular level. Dense three-dimensional (3-D) microelectrode arrays with as many as several hundred sites permit acute and semichronic single-unit recording and stimulation, while on-chip circuitry for site selection, amplification, and multiplexing
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Bioelectrodes for Neural Prostheses
MRS Proceedings, 1985ABSTRACTNeural prostheses which are commercially available include cochlear implants for treating certain forms of deafness and urinary bladder evacuation prostheses for individuals with spinal cord disorders. In the future we can anticipate improvements in bioelectrodes and biomaterials which should permit more sophisticated devices such as visual ...
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Control of neural prostheses for grasping and reaching
Medical Engineering & Physics, 2002In recent years several neural prostheses have been developed and tested as orthoses or as therapeutic systems for hemiplegic and tetraplegic subjects aiming to improve the upper extremities function. The use of neural prostheses demonstrated that the targeted group of subjects could significantly benefit from functional electrical stimulation that is ...
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Evaluation of electrode array material for neural prostheses
Neurosurgery, 1979Matrix support materials for brain surface electrodes used in neuroprosthetic applications were evaluated after chronic subdural implantation over the parietal cortex of the cat. Four types of array fabricated with Silastic, Dacron mesh, or platinum wire annuli were implanted for periods ranging from 5 weeks to 1 year. We evaluated the arrays by access
L A, Bullara +4 more
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