David J. Sturman
- AMERICAN ACADEMY OF ORTHOPEDIC SURGEONS. 1988. Joint Motion: Method of Measuring and Recording. Churchill Livingstone, New York.Google Scholar
- BROOKS, F P.J. 1977. The computer 'scientmt' as a toolsmith studms in interactive computer graphms, m Informatmn Processing, vol 77 North Holland Publishing, Amsterdam, 625 634Google Scholar
- BUXTON, W. 1990. Tutorial notes, no. 26. In CHI'90 ACM, New YorkGoogle Scholar
- BUXTON, W. 1983 Lexical and pragmatic considerations of input structures Comput Oraph. 17, 1, 31 37 Google ScholarDigital Library
- CARD, S K, MACKINLAY, J D., .~g ROBERTSON, G.G. 1990 The demgn space of input devices In Proceedzngs of CHF90. ACM, New York. Google ScholarDigital Library
- CUTKOSKY, M. R, AND WRIGHT, P. K. 1986. Modeling manufacturing' grips and correlagons with the design of robotic hands. In Proceedings of the IEEE Internatmnal Conference on Robotics and Automatzon, vol 3, IEEE, New York, 1533 1539.Google Scholar
- FOI,EY, J D., AND WALl,ACE, V L. 1974 The art of natural graphic man-machine conversation. Proc. IEEE 62, 4 (Apri}L 462-471Google Scholar
- MISHRA, B , AND SILVER, N. 1989. Some discussion of stahc gripping and its staMhty IEEE Trans. Syst. M~n Qvbcrnetics 194 (duly/Aug~lSt/, 783 796Google Scholar
- P^o, L. AND SPEETER, T. H 1989, Transformation of human hand potations for robotic hand control In Proccedzngs of the IEEE Internatmnaf Conference on Robotzcs and Automatzon, vol 3, IEEE, New York, 1758 1763Google Scholar
- STURMAN, D J 1992. Whole-hand input Ph.D dissertation, Media Lab, Massachusetts Inst. of Technology, Cambridge, Mass. Google ScholarDigital Library
- ZELTZER, D., PIEPER, S., AND STURMAN, D. 1989. An integrated graphical simulation platform In Proceechnga' of Orctphm.~ Inter/hce '89Google Scholar
Index Terms
- A design method for “whole-hand” human-computer interaction
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