Orlando / San Francisco / Boston / Zurich / Rome / Atlanta / Chicago / /
Company
Esilicon / Carpick Research Group / Micro Electro Mechanical Systems / Dow Corning / /
Country
Switzerland / Italy / United States / /
Currency
pence / / /
Facility
Stevens Institute of Technology / University of Pennsylvania / /
IndustryTerm
microrobotic applications / metal part / microfluidic systems / sub-pixel visual tracking algorithm / microfluidic applications / force sensing device / multi-degree-of-freedom capacitive force sensor using fibre-chip / made using microfabrication technology / complicated drive electronics / automatic nanomanipulation systems / micromanipulation systems / Image processing / manipulation tool / electronics / complicated manufacturing process / protein printing / easier manufacturing / /
OperatingSystem
L3 / /
Organization
Keck Foundation / National Science Foundation / Lab on a Chip / Stevens Institute of Technology / Congress / INTRODUCTION Force / I. INTRODUCTION Force / University of Pennsylvania / Philadelphia / Wolf Nanofabrication Lab / Pattern Analysis and Machine Intelligence / /
Person
S. Gupta / Joe Grogan / S. Marshall / B. Mukundakrishnan / V / F. Carrillo / Gianluca Piazza / G. Marshall / M. Balooch / L. Pruitt / David J. Cappelleri / Graham Wabiszewski / /
Position
D.J. / /
ProgrammingLanguage
FL / /
ProvinceOrState
Pennsylvania / Florida / California / Massachusetts / /
PublishedMedium
IEEE Transactions on Pattern Analysis and Machine Intelligence / Lab on a Chip / Applied Physics Letters / Journal of Micromechanics and Microengineering / /
Technology
multi-degree-of-freedom capacitive force sensor using fibre-chip / sub-pixel visual tracking algorithm / Biotechnology / generally made using microfabrication technology / lithography / Image processing / photolithography / laser / Microelectromechanical Systems / Lab on a Chip / cell manipulation / /
Two-Dimensional, Vision-Based µN Force Sensor for Microrobotics David J. Cappelleri, Gianluca Piazza and Vijay Kumar