Santos / Kobe / Orlando / San Francisco / Barcelona / M. Cutkosky / Raleigh / Taipei / Leg Output Flexure / Tokyo / Kyoto / Lucerne / Cambridge / Lausanne / Sendai / St. Louis / /
microrobotic applications / high-voltage power electronics / stainless steel points / external electronics / energy density design / high energy density / energy density piezoelectric bimorph actuators / onboard electronics / energy density / granular media / sensor processing / inefficient electronics / compact energy sources / energy recovery / chemical toxicity / high energy density power source / high energy density piezoelectric actuators / required electronics / energy requirements / chemical etching / electronics / electrically-insulating fiberglass reinforcements / compact solution / microrobot technologies / onboard high voltage electronics / fabrication technologies / /
Organization
Harvard University / National Science Foundation / Harvard / Wyss Institute for Biologically Inspired Engineering / IEEE Industrial Electronics Society / Ecole Polytechnique F´ed´erale de Lausanne / School of Engineering and Applied Sciences / Department of Defense / /