Results 201 to 210 of about 42,441 (259)
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The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 2005
The problem of interfacing microsystems to neurons or brain has led to exciting developments in the fields of micro/nanotechnologies and integrated circuitry and systems. Neurons have been patterned using micro/nanotechnologies to form structural and functional networks.
A, Sarje, N, Thakor
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The problem of interfacing microsystems to neurons or brain has led to exciting developments in the fields of micro/nanotechnologies and integrated circuitry and systems. Neurons have been patterned using micro/nanotechnologies to form structural and functional networks.
A, Sarje, N, Thakor
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Высокие технологии и инновации в науке: сборник избранных статей Международной научной конференции (Санкт-Петербург, Май 2022), 2022
Авторы описывают принципы работы нейроинтерфейсов и перспективные области, в которых проводятся исследования на данный момент. The authors describe the principles of operation of neurointerfaces and the promising areas in which research is currently being conducted.
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Авторы описывают принципы работы нейроинтерфейсов и перспективные области, в которых проводятся исследования на данный момент. The authors describe the principles of operation of neurointerfaces and the promising areas in which research is currently being conducted.
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2019
Peripheral nervous system, widely spread in the whole body, is the important bridge for the transmission of neural signals. Signals from the central nervous system (brain and spinal cord) are transmitted to different parts of the body by the peripheral nerves, while along the way they also feedback all kinds of sensory information.
Peng, Zhang +9 more
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Peripheral nervous system, widely spread in the whole body, is the important bridge for the transmission of neural signals. Signals from the central nervous system (brain and spinal cord) are transmitted to different parts of the body by the peripheral nerves, while along the way they also feedback all kinds of sensory information.
Peng, Zhang +9 more
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Nature Electronics, 2020
Devices such as keyboards and touchscreens allow humans to communicate with machines. Neural interfaces, which can provide a direct, electrical bridge between analogue nervous systems and digital man-made systems, could provide a more efficient route to future information exchange. Here we review the development of electronic neural interfaces.
Milin Zhang +3 more
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Devices such as keyboards and touchscreens allow humans to communicate with machines. Neural interfaces, which can provide a direct, electrical bridge between analogue nervous systems and digital man-made systems, could provide a more efficient route to future information exchange. Here we review the development of electronic neural interfaces.
Milin Zhang +3 more
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Semiconductor-neural interfaces
Proceedings of the Second Joint 24th Annual Conference and the Annual Fall Meeting of the Biomedical Engineering Society] [Engineering in Medicine and Biology, 2002Continued advances in the design of prosthetic devices will demand increasingly smaller and more precise connections. We are developing a single cell device capable of specific molecular interactions using semiconductor quantum dots (qdots). The qdots are placed in direct proximity to individual cellular receptors using biorecognition molecules.
J.O. Winter +5 more
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2019
The technological ability to capture electrophysiological activity of populations of cortical neurons through chronic implantable devices has led to significant advancements in the field of brain-computer interfaces. Recent progress in the field has been driven by developments in integrated microelectronics, wireless communications, materials science ...
Farah, Laiwalla, Arto, Nurmikko
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The technological ability to capture electrophysiological activity of populations of cortical neurons through chronic implantable devices has led to significant advancements in the field of brain-computer interfaces. Recent progress in the field has been driven by developments in integrated microelectronics, wireless communications, materials science ...
Farah, Laiwalla, Arto, Nurmikko
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Implantable microscale neural interfaces
Biomedical Microdevices, 2007Implantable neural microsystems provide an interface to the nervous system, giving cellular resolution to physiological processes unattainable today with non-invasive methods. Such implantable microelectrode arrays are being developed to simultaneously sample signals at many points in the tissue, providing insight into processes such as movement ...
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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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