Results 111 to 120 of about 127,745 (142)
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Toward Energy Efficient Neural Interfaces
IEEE Transactions on Biomedical Engineering, 2009This letter presents progress toward an energy efficient neural data acquisition transponder for brain-computer interfaces. The transponder utilizes a four-channel time-multiplexed analog front-end and an energy efficient short-range backscattering RF link to transmit digitized wireless data.
Chung-Ching, Peng +2 more
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Nanomaterials at the neural interface
Current Opinion in Neurobiology, 2018Interfacing the nervous system with devices able to efficiently record or modulate the electrical activity of neuronal cells represents the underlying foundation of future theranostic applications in neurology and of current openings in neuroscience research.
Denis, Scaini, Laura, Ballerini
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2010
The control interface is the primary component of a Brain-Computer Interface (BCI) system that provides user interaction. The control interface supplies cues for performing mental tasks, reports system status and task feedback, and often displays representations of the user’s brain signals.
Melody Moore Jackson, Rudolph Mappus
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The control interface is the primary component of a Brain-Computer Interface (BCI) system that provides user interaction. The control interface supplies cues for performing mental tasks, reports system status and task feedback, and often displays representations of the user’s brain signals.
Melody Moore Jackson, Rudolph Mappus
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Bioelectronics and Neural Interfaces
2021Advances in electrode design are key to enabling wide-ranging applications in bioelectronics and neural interfaces. The use of bioelectronics in the treatment of brain diseases and neural prosthetics to improve quality of life for chronic conditions is an exciting area of research, with wide-ranging impact for global health.
W. Tong, U. Aregueta Robles, A. Gelmi
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Neural interfaces by hydrogels
Extreme Mechanics Letters, 2019Abstract Hydrogel neural interface mimics the living environment of neurons mechanically, chemically, and electrically, incurs much less immunochemical rejection than commonly used metallic electrodes (platinum and silver). It readily records local field potentials and individual spikes in vivo.
Hao Sheng +13 more
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Nanocomposites for Neural Interfaces
MRS Proceedings, 2006ABSTRACTWe have fabricated micro-probes consisting of gold microelectrode sites (500 μm long and 12 μm wide) modified with conductive polymers and carbon nanotubes to achieve intimate contact with the nervous system. The fabrication process includes photolithography, electroplating and micromachining techniques. In order to obtain a high quality neural
Tanja Kmecko +4 more
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NIH Neural Interfaces Workshop
Expert Review of Medical Devices, 2006Arresting disabling tremor, allowing paralyzed individuals to reach and grasp, and enabling the deaf to hear are only a few examples of how neural prostheses are improving the lives of individuals ...
Alexis M Kuncel, Warren M Grill
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Journal of Neural Engineering, 2009
The possibility of an effective connection between neural tissue and computers has inspired scientists and engineers to develop new ways of controlling and obtaining information from the nervous system. These applications range from `brain hacking' to neural control of artificial limbs with brain signals.
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The possibility of an effective connection between neural tissue and computers has inspired scientists and engineers to develop new ways of controlling and obtaining information from the nervous system. These applications range from `brain hacking' to neural control of artificial limbs with brain signals.
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2018
Establishing direct communication with the brain through physical interfaces is a fundamental strategy to investigate brain function. Starting with the patch-clamp technique in the seventies, neuroscience has moved from detailed characterization of ionic channels to the analysis of single neurons and, more recently, microcircuits in brain neuronal ...
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Establishing direct communication with the brain through physical interfaces is a fundamental strategy to investigate brain function. Starting with the patch-clamp technique in the seventies, neuroscience has moved from detailed characterization of ionic channels to the analysis of single neurons and, more recently, microcircuits in brain neuronal ...
openaire +2 more sources
2011
With innovative developments in Computer Science, e.g. Pervasive Computing, Affective/Cognitive Computing, and their amazing applications, the Human Computer Interaction (HCI) has been impacted by some emerging research and technologies, such as, Brain–Computer Interface (BCI), Electrocenphlogram Interface (EEGI), Neural Human–Computer Interface (NHCI ...
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With innovative developments in Computer Science, e.g. Pervasive Computing, Affective/Cognitive Computing, and their amazing applications, the Human Computer Interaction (HCI) has been impacted by some emerging research and technologies, such as, Brain–Computer Interface (BCI), Electrocenphlogram Interface (EEGI), Neural Human–Computer Interface (NHCI ...
openaire +1 more source