University of Washington / Wyss Institute / Harvard University / /
IndustryTerm
microrobotic applications / energy source / self-contained energy sources / high energy density piezoelectric actuators / onboard electronics package / wireless operation / stainless steel connectors / energy densities / continuous wireless recharging / radiated electromagnetic energy / onboard electronics / energy density piezoelectric bimorph cantilevers / energy density / electronics / complement state-of-the-art battery technology / manufacturing paradigm / energy / actuated using optimal energy density piezoelectric bimorph cantilevers / /
OperatingSystem
L3 / /
Organization
University of Washington / NSF Engineering Research Center for Sensorimotor Neural Engineering / School of Engineering and Applied Sciences / Harvard University / National Science Foundation / Harvard / Wyss Institute for Biologically Inspired Engineering / IEEE Industrial Electronics Society / Collaborative Technology Alliance / Department of Computer Science and Engineering / /
Person
Benjamin H. Waters / Benjamin Goldberg / Pierre-Marie Meyitang / Brody Mahoney / B. H. Waters / Onur Ozcan / Andrew Baisch / Joshua R. Smith / Michael Karpelson / J. R. Smith / B. Mahoney / / /
Position
HAMR-VP / conductor / attenuated forward / /
ProgrammingLanguage
MATLAB / RC / /
PublishedMedium
Journal of Micromechanics and Microengineering / /