@inproceedings{160c9257f24946688fd984398236160b,
title = "A wireless neural interface for chronic recording",
abstract = "A primary goal of the Integrated Neural Interface Project (INIP) is to develop a wireless, implantable device capable of recording neural activity from 100 micromachined electrodes. The heart of this recording system is a low-power integrated circuit that amplifies 100 weak neural signals, detects spikes with programmable threshold-crossing circuits, and returns these data via digital radio telemetry. The chip receives power, clock, and command signals through a coil-to-coil inductive link. Here we report that the isolated integrated circuit successfully recorded and wirelessly transmitted digitized electrical activity from peripheral nerve and cortex at 15.7 kS/s. The chip also simultaneously performed accurate on-chip spike detection and wirelessly transmitted the spike threshold-crossing data. We also present preliminary successful results from full system integration and packaging.",
author = "Harrison, \{Reid R.\} and Kier, \{Ryan J.\} and Sohee Kim and Loren Rieth and Warren, \{David J.\} and Ledbetter, \{Noah M.\} and Clark, \{Gregory A.\} and Florian Solzbacher and Chestek, \{Cynthia A.\} and Vikash Gilja and Paul Nuyujukian and Ryu, \{Stephen I.\} and Shenoy, \{Krishna V.\}",
year = "2008",
doi = "10.1109/BIOCAS.2008.4696890",
language = "English",
isbn = "9781424428793",
series = "2008 IEEE-BIOCAS Biomedical Circuits and Systems Conference, BIOCAS 2008",
pages = "125--128",
booktitle = "2008 IEEE-BIOCAS Biomedical Circuits and Systems Conference, BIOCAS 2008",
note = "2008 IEEE-BIOCAS Biomedical Circuits and Systems Conference, BIOCAS 2008 ; Conference date: 20-11-2008 Through 22-11-2008",
}