George W. Fitzmaurice
Shumin Zhai
Mark H. Chignell
- ADELSTEiN, B. D.. JOHNSTON, E R., ANO ELLIS, S R 1992. A testbed fi~r characterizing dynamic response of virtual enwronment spatial sensors. In Proceedzzzg.~ o/ the ACM 5th Azznz~al ,~vznposzu,z ,m User Interface So/~war~ and Techzzolo~y ACM, New York, 15 22]] Google Scholar
Digital Library
- ARTHUR, K W., BO{)TH, K. S., AND WARE, C 1993. Evaluating 3D task perfbrmance for fish tank virtual worlds ACM Trans. Inf ,~y.st 11, 3. This issue]] Google ScholarDigital Library
- ASi'k}NSIE)N TECIiNt;LOGY CORP 1992. The A,s'censzon Bzrd. Burlington, Vt]]Google Scholar
- BIICR, E A 1990 Snap-drag~ng in three-dimensions, 1990 Symposmm on Interactive 3D Graphics Compzlt Graph. 24, 2 (Mar), 193-204.]] Google ScholarDigital Library
- BISHOP, G., AND FUCHS, H. 1992. Research directions m virtual environments: Report of' an NSF Inwtatlonal Workshop. Comput. Graph. 26', 3, 153 177.]] Google ScholarDigital Library
- BROOKS, F. P., JR., OUH-YONG, M., BATTER, J. J., AND KILPATRICK, P. J. 1990. Project GROPE haptic display for scientific visualization. Comput. Graph. 24, 4 (Aug.), 177 185.]] Google ScholarDigital Library
- BRYSON, S., AND LEViT, C. 1992. The virtual wind tunnel. Comput. Graph. Appl. 12, 4 (July).]] Google ScholarDigital Library
- CARD, S. K., ROaERTSON, G. G., AND MACKINLAY, J. D. 1991. The information visualizer, an information workspace. In Proceedi~zgs of CHI'91. ACM, New York, 181 188.]] Google ScholarDigital Library
- CHIGNELL, M., POBLETE, F., AND ZUBEREC, S. 1993. An exploration in the design space of three dimensional hierarchies. In Proceedings of the Annual Meeting of the Human Factors and El~o~omzcs Society. To be published.]]Google ScholarCross Ref
- CRuz-NEIRA, C., SANDIN, D. J., AND DEFANTI, T.A. 1993. Surround-screen projection-based virtual reality: The design and implementation of the CAVE. In Proceedtngs of SIGGRAPH '93. ACM, New York.]] Google ScholarDigital Library
- Eu,ls, S. R., III. 1991. Nature and origins of virtual environments: A bibliographical essay. Comput. Syst. Eng. 2, 4, 321-347.]]Google ScholarCross Ref
- FISHER, S., M(2GREEX~~, M., HUMPHRIES, J., AND ROBINETT, W. 1986. Virtual environment display system. In Proceedings o/the 1986 Workshop o7~Interactive 3D Graphics. ACM, New York, 77 87.]] Google ScholarDigital Library
- FiTZMAURICE, G.W. 1993. Situated information spaces and spatially aware palmtop computers. Commun. ACM 36, 7 (July), 38 49.]] Google ScholarDigital Library
- FURNASS, G.G. 1986. Generalized fisheye views. In Proceedings of CHI '86. ACM, New York, 16 23.]] Google ScholarDigital Library
- FURNESS, T. A., III. 1986 The super cockpit and its human factors challenges. In Proceedi~gs of the Human Factors Society 30th Annual Meeting. Human Factors Society, 48 52.]]Google Scholar
- G~BSON, J.J. 1950. The Perception of the Visttal World. Houghton Mifflin Company, Boston, Mass.]]Google Scholar
- HEROT, C. 1980. Spatial management of data. ACM Trans Database Syst. 5, 4 (Dec.), 493-514.]] Google ScholarDigital Library
- HO?KINS, D. 1991. The design and implementation of pie menus. Dr. Dobb's J. 16, 12 (Dec.), 16-26.]] Google ScholarDigital Library
- KRUC~ER, M. 1991. Artiftcial Reality. Vo} II. Addison-Wesley, Reading, Mass.]]Google Scholar
- KURTENBACH, G., SELLEN, A., AND BUXTON, W. 1993. An empirical evaluation of some articulatory and cognitive aspects of "marking menus." J. Human-Cornput. Interacttm~ 8, 2 (Jan.).]]Google Scholar
- MACKINLAY, J., CARD, S. K., AND ROBERTSON, G.G. 1990. A semantic analysis of the design space of input devices. J. Human-Comput. Interactzon 5, 2 3~ 145 190.]]Google Scholar
- McKENNA, M. 1992. Interactive viewpoint control and three-dimensional operations. In Proceedzngs of the 1992 ACM Symposzum on Interactlve 3D Graphics. (Special issue of Comput. Grc~ph., 53 56.)]] Google ScholarDigital Library
- ROBERTSON, G. G., MACKINLAY, J. D., AND CARD, S.K. 1991. Cone trees: Animated 3D visualizations of hierarchical information. In Proceedings of CHI'91. ACM, New York, 189 202.]] Google ScholarDigital Library
- SUTHERLAND, I. 1968. A head-mounted three dimensional display. In Proceedings of the Fall Joznt Computer Con{erence. Thompson Books, Washin~om D.C., 757 764.]]Google Scholar
- TACHI, S., ARAI, H., AND MAEDA, T. 1990. Tele-existence master slave system for remote manipulation (II). In Proceedtngs of the 29th Cm~ference on Deczslon and Control. IEEE, New York.]]Google Scholar
- WALLACH, H., AND O'CONNELL, D. H. 1953. The kinetic depth effect. J. Exp Psychol. 45, 205-217.]]Google ScholarCross Ref
- WARE, C., AND OSBORNE, S. 1990. Exploration and virtual camera control in virtual three dimensional environments. In the 1990 Symposzum on Ilzteractzve 3D Graphics. Comput. Graph. 24, 2, 175 183.]] Google ScholarDigital Library
- WARE, C., AND SI,~PP, L. 1991. Using velocity control to navigate 3-D graphical environments: A comparison of three interfaces. In Proceedtngs of the Human FGctors Soczety, 35th Annual Meeting. Human Factors Society, 300 304.]]Google Scholar
- WICKENS, C.D. 1992. Virtual reality and education. In Proceedtngs oflEEE SMC Conference. IEEE, New York, 842 847.]]Google Scholar
- IAO, Y., AND MiLtlRAM, i~. 1992. V~suahsat~on of large networks m 3-D space: Issues m implementation and expenmenta} evaluahon. In Proceedmg,~ of the 1992 CAS Colz/~,rence Vol. 1. IBM Canada Ltd. Laboratory, Center for Advanced Studies, Toronto, 247 258]] Google ScholarDigital Library
- ZEI TZER, D. 1992. Autonomy, interaction, and presence. Presence TeIeop. Vzrtual Envzr 1, 1 (Winter), 127-132.]]Google Scholar
- ZHAI, S., AND MILGRAM, P 1991. A te}erobotic vlrtua} control system In Proceedtngrs of Cooperative Intelligent Robotics in Space II SPIE, vol. 1612. Boston, Mass. 311-320.]]Google Scholar
- ZHAr, S, MILORAM, P., AND DRAStiC, D. 1993. An evaluation of four 6 degree-of-freedom input techniques. In InterCHI'93, ACM Co~erence on Human Factors zn Computer Sy.~tems (Amsterdam, The Netherlands, Apr ). ACM, New York.]] Google ScholarDigital Library
Index Terms
- Virtual reality for palmtop computers
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