- 1.R. Azuma and G. Bishop. Improving Static and Dynamic Registration in an Optical See-through HMD. In SIGGRAPH 94 Conference Proceedings, ACM Annual Conference Series, Orlando, FL, August 1994. Google ScholarDigital Library
- 2.D.K. Bhatnagar, Position Trackers for Head Mounted display Systems: A Survey. University of North Carolina, Chapel Hill TR93-O1 O, March 1993. Google ScholarDigital Library
- 3.R. G. Brown and P. Y. C. Hwang. Introduction to Random Signals and Applied Kalman Filtering, 2nd ed. New York: John Wiley & Sons, 1992.Google Scholar
- 4.S. Emura and S. Tachi. Compensation of Time Lag Between Actual and Virtual Spaces by Multi-Sensor Integration. In Proc. IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems (MFI 94), pp. 463--469.Google Scholar
- 5.B.T. Fang. Trilateration and Extension to Global Positioning System Navigation. Journal of Guidance, Control and Dynamics, 9(6), Nov.-Dec. 1986.Google Scholar
- 6.S. K. Feiner, A. C. Webster, T. E. Krueger III, B. MacIntyre, and E. J. Keller. Architectural Anatomy. Presence, 4(3): 318-325, Summer 1995.Google ScholarDigital Library
- 7.F.J. Ferrin. Survey of Helmet Tracking Technologies. In Proc. SPIE, vol. 1456, pages 86-94, April 1991.Google Scholar
- 8.J.F. Figueroa. Ranging Errors Caused by Angular Misalignment Between Ultrasonic Transducer Pairs. Journal of the Acoustical Society of America, 87(3), Mar. 1990.Google Scholar
- 9.E. Foxlin and N. Durlach. An Inertial Head-Orientation Tracker with Automatic Drift Compensation for use with HMD's. In Proc. Virtual Reality Software & Technology 94, G. Singh, S. K. Feiner, and D. Thalmann, Eds. Singapore: World Scientific, pages 159-174, August 1994. Google ScholarDigital Library
- 10.E. Foxlin. A Complementary Separate-Bias Kalman Filter for Inertial Head-Tracking. In Proc. IEEE VRAIS 96. IEEE Computer Society Press, March-April 1996.Google Scholar
- 11.E. Foxlin, M. Harrington, and Y. Altshuler. Miniature 6- DOF Inertial System for Tracking HMDs. In Proc. SPIE Helmet and Head-Mounted Displays III, vol. 3362, Orlando, April, 1998.Google ScholarCross Ref
- 12.W. H. Foy. Position-Location Solutions by Taylor Series Estimation. IEEE Transactions on Aerospace and Electronic Systems, 12(2), Mar. 1976.Google Scholar
- 13.K.C. Ho and Y.T. Chan. Solution and Performance Analysis of Geolocation by TDOA. IEEE Transactions on Aerospace and Electronic Systems, 29(4), Oct. 1993.Google Scholar
- 14.D. Kim, S. Richards, T. Caudell. An Optical Tracker for Augmented Reality and Wearable Computers. In Proc. IEEE VRAIS 97, p.p. 146-151, IEEE Computer Society Press. Google ScholarDigital Library
- 15.U. H. List. Nonlinear Prediction of Head Movements for Helmet-Mounted Displays. Air Force Human Resources Laboratory, Technical Paper AFHRL 83-45Google Scholar
- 16.D. Manolakis. Efficient Solution and Performance Analysis of 3-D Position Estimation by Trilateration. IEEE Trans. on Aerospace and Electronic Systems, 32(4), Oct. 1996.Google Scholar
- 17.K. Meyer, H. L. Applewhite, and F. A. Biocca. A Survey of Position Trackers. Presence: 1(2), pp. 173--200, 1992. Google ScholarDigital Library
- 18.J. Nash. Wiring the Jet Set. Wired Magazine, Oct. 1997.Google Scholar
- 19.J. Seagull and M. Beauer. A Field Usability Evaluation of a Wearable System In Proc. International Symposium on Wearable Computers, Oct. 1997 Google ScholarDigital Library
- 20.H. Sowizral and D. Barnes. Tracking Position and Orientation in a Large Volume. In Proc. IEEE VRAIS 93, p.p. 132- 139. IEEE Computer Society Press. Google ScholarDigital Library
- 21.A. State, M. A. Livingston, W. F. Garrett, G. Hirota, M. C. Whitton, E. D. Pisano, and H. Fuchs. Technologies for Augmented Reality Systems: Realizing Ultrasound-Guided Needle Biopsies. In SIGGRAPH 96 Conference Proceedings, ACM Annual Conference Series, pages 439-446. Google ScholarDigital Library
- 22.M. Ward, R. Azuma, R. Bennet, S. Gottschalk, H. Fuchs. A Demonstrated Optical Tracker with Scalable Work Area for Head-Mounted Display Systems. In Proc. 1992 Symposium on Interactive 3D Graphics, Cambridge, MA, March 1992. Google ScholarDigital Library
- 23.G. Welch and G. Bishop. Single-Constraint-at-a-Time Tracking. In SIGGRAPH 97 Conference Proceedings, ACM Annual Conference Series.Google Scholar
Index Terms
- Constellation: a wide-range wireless motion-tracking system for augmented reality and virtual set applications
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