Physical principles for scalable neural recording

Physical principles for scalable neural recording

Simultaneously measuring the activities of all neurons in a mammalian brain at millisecond resolution is a challenge beyond the limits of existing techniques in neuroscience. Entirely new approaches may be required, motivating an analysis of the fundamental physical constraints on the problem. We ou...

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Main Authors: Marblestone, Adam Henry (Author), Zamft, Bradley M. (Author), Shapiro, Mikhail G. (Author), Cybulski, Thaddeus R. (Author), Glaser, Joshua I. (Author), Amodei, Dario (Author), Stranges, P. Benjamin (Author), Kalhor, Reza (Author), Seo, Dongjin (Author), Alon, Elad (Author), Maharbiz, Michel M. (Author), Carmena, Jose M. (Author), Rabaey, Jan M. (Author), Church, George M. (Author), Kording, Konrad P. (Author), Dalrymple, David Allen (Contributor), Maguire, Yael G. 1975- (Author), Boyden, Edward (Author)
Other Authors: Massachusetts Institute of Technology. Department of Biological Engineering (Contributor), Massachusetts Institute of Technology. Department of Brain and Cognitive Sciences (Contributor), Massachusetts Institute of Technology. Media Laboratory (Contributor), Program in Media Arts and Sciences (Massachusetts Institute of Technology) (Contributor), Boyden, Edward Stuart (Contributor)
Format: Article
Language:English
Published: Frontiers Research Foundation, 2013-12-16T19:30:01Z.
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