Austin / Providemce / Neuroport / Winston-Salem / Easton / Lyon / Seattle / Boston / New York / Providence / /
Company
FABRICATION REQUIREMENTS / MicroConnex Inc. / Analog Devices / Hamamatsu Inc. / IBM / Authorized / IEEE Authorized / DESIGN / /
Country
France / Korea / Finland / United States / /
Currency
USD / / /
Facility
Department of Veterans Affairs Medical Center / Lafayette College / Brain Science Institute / University of Texas / University of California / Princeton University / Washington University / National Institute of Health / Childrens Hospital of Boston / University of Chicago / Brown University / Womens Hospital / Seoul National University / /
IndustryTerm
Wireless multichannel biopotentials / human applications / high efficiency photovoltaic energy converter / neural control applications / external electronics / extracranial imaging techniques / implantable neuroengineering applications / 3D neuroprosthetic devices / digital processing / microphone array technology / implantable wireless neural sensor / implantable wireless platform / low power digital controller chip / wireless system / preamplifier chip / monolithic front-end recording device / active electronics / rack-mounted electronics module / neural recording applications / assistive and therapeutic devices / microelectrode/microelectronic device / physiologic saline solution / sample devices / external support electronics / assistive devices / wireless telemetry / prosthetic devices / preamplifier-multiplexer chips / biomedical applications / real-time neural decoding / active signal acquisition electronics / wireless lowpower neural recording / signal processing / power/telemetry wireless system / eventual human patient applications / microelectronic device / microelectronic devices / preamplifier-multiplexer chip / metal strip spiral coil / electrode array flip-chip / electronics / implantable microelectronic device / online reliability / implantable neuroprosthesic applications / neural system electronics / microelectrode/microelectronic hybrid device / implantable wireless / /
Organization
the University of Chicago / Chicago / National Research Council / office of Naval Research / Washington University / St. Louis / Institutional Animal Care and Use Committee / Princeton University / Optical Society of America / and Member / Seoul National University / Seoul / ASIC / Department of Neurosurgery / American Physical Society / American Academy of Arts and Sciences / Lafayette College / Department of Neuroscience / University of Texas / Harvard Medical School / National Institute of Health / L. Herbert Ballou University / Max Planck/Reemstma Foundation / National Science Foundation / Brown University / Division of Engineering / University of California / Berkeley / Childrens Hospital of Boston / Womens Hospital / Brain Science Institute / Rehabilitation Research and Development Service / Wake Forest School of Medicine / Department of Veterans Affairs Medical Center / Stanford / /
Person
K. Song / J. Mislow / V. Nurmikko / C. Lay / Christopher W. Bull / S. Suner / N. G. Hatsopoulos / A. P. Deangelis / Yoon-Kyu Song / L. R. Hochberg / A. V. Nurmikko / John P. Donoghue / H. Xu / Farah Laiwalla / M. R. Fellows / J. P. Donoghue / B. Philip / N. Rao / John D. Simeral / L. Paninski / C. Vargas-Irwin / Max Planck / C. A. Chestek / V / M. D. Serruya / B. W. Connors / A. Branner / J. Zhang / A. H. Caplan / L. Hochberg / R. D. Penn / John Mislow / D. Chen / C. W. Bull / M. Saleh / J. L. McKay / William R. Patterson / J. D. Simeral / /
Position
head / head to the signal acquisition / representative / co-author / head of macaque monkeys / Director / digital controller / Professor of Engineering and Physics / Assistant Professor / Lecturer / Research Engineer / controller / /
ProvinceOrState
Washington / Missouri / Rhode Island / California / Texas / New Jersey / Illinois / Pennsylvania / North Carolina / Massachusetts / /
IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, VOL. 17, NO. 4, AUGUST[removed]Active Microelectronic Neurosensor Arrays for Implantable Brain Communication Interfaces