IBM / Nike / MIT Media Laboratory / Media Laboratory / M. Toda / Fascinations Corp. / Face International Corp. / K. Park / Mechanical Engineers Press / /
Country
United States / / /
Event
Business Partnership / /
Facility
MIT Media Laboratory / Space Power Institute / Auburn University / bridge D1 / Massachusetts Institute of Technology / /
IndustryTerm
wearable systems / duty-cycle applications / well-proven technology / cm spring steel / powered electronics / wearable electronic devices / low-power applications / tag systems / piezoelectric systems / energy loss / energy density / average net energy transfers / magnetic devices / rubber / low-voltage carrier / subsequent electronics / energy / excess energy / mechanical energy / potential applications / energy storage / surface-mount technology / shoe-powered systems / gather energy / considerable energy / power-conditioning electronics / piezoelectric devices / electronics / sufficient energy / piezoelectric technologies / less energy / car alarms / hydraulic systems / wearable computing / impedance devices / diagram showing power conditioning electronics / few more elegant solutions / wearable devices / tag electronics / environmental energy sources / steel / power conditioning electronics / /
Organization
Auburn University / Space Power Institute / MIT / Massachusetts Institute of Technology / Sensor Products Division of Measurement Specialties / ASIC / Media Lab / MIT Media Lab / National Aeronautics and Space Administration / Department of Physics and Media Laboratory / /
Person
Joseph Paradiso / Kyung Park / Minoru Toda / Clyde Kendall / Neil Gershenfeld / /
Position
representative / /
ProvinceOrState
Virginia / Pennsylvania / Nova Scotia / Massachusetts / /