Paderborn / Seattle / Dallas / Newton / New York / Atlanta / Cambridge / Lincoln / Performance / /
Company
dSpace GmbH / G. Anderson Aerospace Medical Research Laboratory / Advanced Manufacturing / ASME Dynamic Systems / IEEE Transactions / Man-Machine Systems / Intelligent Systems / /
Country
Germany / France / United States / Korea / / /
Facility
Rensselaer Polytechnic Institute / Boston University / University of Versailles / Stanford University / Reed College / Kangwon National University / Pierce Hall / Seoul National University / Harvard University / /
IndustryTerm
signal requiring complex processing / human sensory information processing / vibrotactile devices / Experiment protocol / tactile device / multichannel vibrotactile device / oil operations / freedom input device / force substitution devices / vibrotactile systems / electronics / final device / human sensory processing / vibrotactile device / energy transfer / human processing / /
Organization
Teleoperated Assembly / Harvard University / Seoul National University / National Science Foundation / Department of Aerospace and Mechanical Engineering / MIT / Division of Engineering and Applied Sciences / Kangwon National University / Congress / Rensselaer Polytechnic Institute / Stanford University / Boston University / Boston / BACKGROUND Force / Reed College / Boston University / /
Person
Robert D. Howe / Robert Howe / Thomas Debus / Tae-Jeong Jang / Pierre Dupont / Keum-Shik Hong / /
Position
Editor / Model DS1103 / unmodified master controller / Corresponding author / design engineer / simple proportional-derivative controller / digital angular position feedback controller / controller / Associate Professor / /
Microsoft Word[removed]R09 _Tae-Jeong Jang__H.doc