0066_frame_C19  Page 117  Wednesday, January 9, 2002  5:32 PM









                       Borenstein, J., Koren, Y., “Real-time obstacle avoidance for fast mobile robots in cluttered environments,”
                           IEEE International Conference on Robotics and Automation, Vol. CH2876-1, Cincinnati, OH, pp.
                           572–577, May, 1990.
                       Burreson, B., “Magnetic proximity switches in severe environments,” Sensors, pp. 28–36, June, 1989.
                       Burt, P.J., Anadan, P., Hanna, K., van der Wal, G., “A front end vision processor for unmanned vehicles,”
                           Advanced Image Processing Group, David Sarnoff Research Center, Princeton, NJ, April, 1992.
                       Burt, P.J., Anadan, P., Hanna, K., van der Wal, G., Bassman, R., “A front end vision processor for vehicle
                           navigation,” International Conference on Intelligent Systems, pp. 653–662, Feb., 1993.
                       Carr, W.W., “Eddy current proximity sensors,” Sensors, pp. 23–25, Nov., 1987.
                       Chen, Y.D., Ni, J., Wu, S.M., “Dynamic calibration and compensation of a 3-D lasar radar scanning
                           system,”  IEEE International Conference on Robotics and  Automation,  Atlanta, GA,  Vol. 3, pp.
                           652–664, May, 1993.
                       Damuck, N., Perrotti, J., “Getting the most out of your inductive proximity switch,” Sensors, pp. 25–27,
                           Aug., 1993.
                       Depkovich, T., Wolfe, W., “Definition of requirements and components for a robotic locating system,”
                           Final Report MCR-83-669, Martin Marietta Denver Aerospace, Denver, CO, Feb., 1984.
                       Everett, H.R., “A multi-element ultrasonic ranging array,” Robotics Age, pp. 13–20, July, 1985.
                       Everett, H.R., DeMuth, D.E., Stitz, E.H., “Survey of collision avoidance and ranging sensors for mobile
                           robots,” Technical Report 1194, Naval Command Control and Ocean Surveillance Center, San Diego,
                           CA, Dec., 1992.
                       Figueroa, F., Barbieri, E.,  “Increased measurement range via frequency division in ultrasonic phase
                           detection methods,” Acustica, Vol. 73, pp. 47–49, 1991a.
                       Figueroa, J.F., Barbieri, E., “An ultrasonic ranging system for structural vibration measurements,” IEEE
                           Transactions on Instrumentation and Measurement, Vol. 40, No. 4, pp. 764–769, Aug., 1991b.
                       Figueroa, J.F., Lamancusa, J.S., “A method for accurate detection of time of arrival: analysis and design
                           of an ultrasonic ranging system,” Journal of the Acoustical Society of America, Vol. 91, No. 1, pp.
                           486–494, Jan., 1992.
                       Fernando Figueroa and Evangelos Doussis, “A hardware-level method to improve the range and accuracy
                           of an ultrasonic ranging system,” Acustica, Vol. 78, No. 4, pp. 226–232, May, 1993.
                       Flueckiger, N., “Inductive proximity sensors: theory and applications,” Sensors, pp. 11–13, May, 1992.
                       Gatzios, N.E., Ben-Ari, H., “Proximity control primer,” Sensors, pp. 47–49, April, 1986.
                       Gustavson, R.L., Davis, T.E., “Diode-laser radar for low-cost weapon guidance,” SPIE, Vol. 1633, Laser
                           Radar VII, Los Angeles, CA, pp. 21–32, Jan., 1992.
                       Hall, D.J., “Robotic sensing devices,” Report No. CMU-RI-TR-84-3, Carnegie-Mellon University, Pittsburgh,
                           PA, March, 1984.
                       Hamlin, “The versatile magnetic proximity sensor,” Sensors, pp. 16–22, May, 1988.
                       Hammond, W., “Vehicular use of ultrasonic systems,” Technical Report, Cybermotion, Salem, VA, May, 1994.
                       Hebert, M., Krotkov, E., “3-D measurements from imaging laser radars: how good are they?” International
                           Conference on Intelligent Robots and Systems, pp. 359–364, 1991.
                       Hines, R., “Hall effect sensors in Paddlewheel Flowmeters,” Sensors, pp. 32–33, Jan., 1992.
                       Jarvis, R.A., “A perspective on range finding techniques for computer vision,” IEEE Transactions on Pattern
                           Analysis and Machine Intelligence, Vol. PAMI-1, No. 2, pp. 122–139, March, 1983a.
                       Jarvis, R.A., “A laser time-of-flight range scanner for robotic vision,” IEEE Transactions on Pattern Analysis
                           and Machine Intelligence, Vol. PAMI-5, No. 5, pp. 505–512, Sep., 1983b.
                       Kent, E.W., et al., “Real-time cooperative interaction between structured light and reflectance ranging
                           for robot guidance,” Robotica, Vol. 3, pp. 7–11, Jan.–March, 1985.
                       Kerr, J.R., “Real time imaging rangefinder for autonomous land vehicles,” SPIE, Vol. 1007, Mobile Robots
                           III, pp. 349–356, Nov., 1988.
                       Kilough, S.M., Hamel,  W.R.,  “Sensor capabilities for the HERMIES experimental robot,” American
                           Nuclear Society, Third Topical Meeting on Robotics and Remote Systems, Charleston, SC, CONF-
                           890304, Section 4-1, pp. 1–7, March, 1989.


                       ©2002 CRC Press LLC