REFERENCES 1. Abidi, M. <strong>and</strong> Ch<strong>and</strong>ra, T., 1990, “Pose Estimation <strong>for</strong> Camera Calibration <strong>and</strong> L<strong>and</strong>mark Tracking.” Proceedings of IEEE International Conference on <strong>Robot</strong>ics <strong>and</strong> Automation, Cincinnati, OH, May 13-18, pp. 420-426. 2. Abidi, M. <strong>and</strong> Gonzalez, R., Editors, 1992, Data Fusion in <strong>Robot</strong>ics <strong>and</strong> Machine Intelligence. Academic Press Inc., San Diego, CA.Acuna, M.H. <strong>and</strong> Pellerin, C.J., 1969, “A Miniature Two- Axis Fluxgate Magnetometer.” IEEE Transactions on Geoscience Electronics, Vol. GE-7, pp 252-260. 3. Adams, M.D., 1992, “Optical Range Data Analysis <strong>for</strong> Stable Target Pursuit in <strong>Mobile</strong> <strong>Robot</strong>ics.” Ph.D. Thesis, <strong>Robot</strong>ics Research Group, University of Ox<strong>for</strong>d, U.K. 4. Adams, M. et al., 1994, “Control <strong>and</strong> Localisation of a Post Distributing <strong>Mobile</strong> <strong>Robot</strong>.” 1994 International Conference on Intelligent <strong>Robot</strong>s <strong>and</strong> Systems (IROS '94), Munich, Germany, Sept. 12-16, pp. 150-156. 5. Adams, M., 1995, “A 3-D Imaging Scanner <strong>for</strong> <strong>Mobile</strong> <strong>Robot</strong> Navigation.” Personal Communication. Contact: Dr. Martin Adams, Institute of <strong>Robot</strong>ics, Leonhardstrasse 27, ETH Centre, CH-8092, Switzerl<strong>and</strong>. Ph.: +41-1-632-2539. E-mail: adams@ifr.ethz.ch. 6. Adams, M.D. <strong>and</strong> Probert, P.J., 1995, “The Interpretation of Phase <strong>and</strong> Intensity Data from A.M.C.W. Light Detection <strong>Sensors</strong> <strong>for</strong> Reliable Ranging.” Accepted <strong>for</strong> publication in the IEEE International Journal of <strong>Robot</strong>ics Research, April. 7. Adrian, P., 1991, “Technical Advances in Fiber-Optic <strong>Sensors</strong>: Theory <strong>and</strong> Applications.” <strong>Sensors</strong>, Sept.pp. 23-45. 8. Agent, A., 1991, “The Advantages of Absolute Encoders <strong>for</strong> Motion Control.” <strong>Sensors</strong>, April, pp. 19-24. 9. Allen, D., Bennett, S.M., Brunner, J., <strong>and</strong> Dyott, R.B., 1994, “A Low Cost Fiber-optic Gyro <strong>for</strong> L<strong>and</strong> Navigation.” Presented at the SPIE Annual Meeting, San Diego, CA, July. 10. Arkin, R.C., 1989, “Motor-Schema-Based <strong>Mobile</strong> <strong>Robot</strong> Navigation.” International Journal of <strong>Robot</strong>ics Research, Vol. 8., No. 4, Aug., pp. 92-112. 11. Aronowitz, F., 1971, “The Ring Laser Gyro,” Laser Applications, Vol. 1, M. Ross, ed., Academic Press. 12. Arradondo-Perry, J., 1992, “GPS World Receiver Survey.” GPS World, January, pp. 46-58. 13. Atiya, S. <strong>and</strong> Hager, G., 1993, “Real-time Vision-based <strong>Robot</strong> Localization.” IEEE Transactions on <strong>Robot</strong>ics <strong>and</strong> Automation, Vol. 9, No. 6, pp. 785-800. 14. Aviles, W.A. et al., 1991, “Issues in <strong>Mobile</strong> <strong>Robot</strong>ics: The Unmanned Ground Vehicle Program Teleoperated Vehicle (TOV).” Proceedings of the SPIE - The International Society <strong>for</strong> Optical Engineering, Vol: 1388 p. 587-97. 15. Avolio, G., 1993, “Principles of Rotary Optical Encoders.” <strong>Sensors</strong>, April, pp. 10-18.
References 237 16. Ayache N. <strong>and</strong> Faugeras, O.D., 1987, “Building a Consistent 3-D Representation of a <strong>Mobile</strong> <strong>Robot</strong> Environment by Combining Multiple Stereo Views.” Proc. Internaltional Joint Conference on Aritificial Intelligence, pp. 808-810. 17. Baines, N. et al., 1994, “<strong>Mobile</strong> <strong>Robot</strong> <strong>for</strong> Hazardous Environments.” Unpublished paper. Atomic Energy of Canada, Ltd., Sheridan Research Park, 2251 Speakman Drive, Mississauga, Ontario, L5K 1B2, Canada, 416-823-9040. 18. Baker, A., 1993, “Navigation System Delivers Precision <strong>Robot</strong> Control.” Design News, Dec. 20, p. 44. 19. Banzil, G., et. al., 1981, “A Navigation Subsystem Using Ultrasonic <strong>Sensors</strong> <strong>for</strong> the <strong>Mobile</strong> st <strong>Robot</strong> Hilare.” Proceedings of 1 Conference on <strong>Robot</strong> Vision <strong>and</strong> Sensory Control, Strat<strong>for</strong>d/Avon, U.K., April 13. 20. Barrett, C.R., Nix, W.D., <strong>and</strong> Tetelman, A.S., 1973, “The Principles of Engineering Materials.” Prentice Hall, Englewood Cliffs, NJ. 21. Barshan, B. <strong>and</strong> Durrant-Whyte, H.F., 1993, “An Inertial Navigation System <strong>for</strong> a <strong>Mobile</strong> <strong>Robot</strong>.” Proceedings of the 1993 IEEE/RSJ International Conference on Intelligent <strong>Robot</strong>ics <strong>and</strong> Systems, Yokohama, Japan, July 26-30, pp. 2243-2248. 22. Barshan, B. <strong>and</strong> Durrant-Whyte, H.F., 1994, “Orientation Estimate <strong>for</strong> <strong>Mobile</strong> <strong>Robot</strong>s Using Gyroscopic In<strong>for</strong>mation.” 1994 International Conference on Intelligent <strong>Robot</strong>s <strong>and</strong> Systems (IROS '94). Munich, Germany, Sept. 12-16, pp. 1867-1874. 23. Barshan, B. <strong>and</strong> Durrant-Whyte, H.F., 1995, “Inertial Navigation Systems <strong>Mobile</strong> <strong>Robot</strong>s.” IEEE Transactions on <strong>Robot</strong>ics <strong>and</strong> Automation, Vol. 11, No. 3, June, pp. 328-342. 24. Bauer, R. <strong>and</strong> Rencken, W. D., 1995, "Sonar Feature Based Exploration." Proceedings of the IEEE/RSJ/GI International Conference on Intelligent <strong>Robot</strong>s <strong>and</strong> Systems (IROS'95), Pittsburgh, Pennsylvania, August 5-9,, pp. 148-153. 25. Benayad-Cherif, F., Maddox, J., <strong>and</strong> Muller, L., 1992, “<strong>Mobile</strong> <strong>Robot</strong> Navigation <strong>Sensors</strong>.” Proceedings of the 1992 SPIE Conference on <strong>Mobile</strong> <strong>Robot</strong>s, Boston, MA, Nov. 18-20, pp. 378-387. 26. Bennett, S. <strong>and</strong> Emge, S.R., 1994, “Fiber-optic Rate Gyro <strong>for</strong> L<strong>and</strong> Navigation <strong>and</strong> Plat<strong>for</strong>m Stabilization.” Presented at <strong>Sensors</strong> Expo '94, Clevel<strong>and</strong>, OH, Sept. 20. 27. Betke, M <strong>and</strong> Gurvits, L., 1994, “<strong>Mobile</strong> <strong>Robot</strong> Localization Using L<strong>and</strong>marks.” 1994 International Conference on Intelligent <strong>Robot</strong>s <strong>and</strong> Systems (IROS’94). Munich, Germany, Sept. 12-16, pp.135-142. 28. Beyer, J., Jacobus, C., <strong>and</strong> Pont, F., 1987, “Autonomous Vehicle Guidance Using Laser Range Imagery.” SPIE Vol. 852, <strong>Mobile</strong> <strong>Robot</strong>s II, Cambridge, MA, Nov, pp. 34-43. 29. Biber, C., Ellin, S., <strong>and</strong> Shenk, E., 1987, “The Polaroid Ultrasonic Ranging System.” Audio th Engineering Society, 67 Convention, New York, NY, Oct.-Nov. 30. Binger, N. <strong>and</strong> Harris, S.J., 1987, “Applications of Laser Radar Technology.” <strong>Sensors</strong>, April, pp. 42-44.
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