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Bibliography
[134] Simhon, S., Dudek, G., “A Global Topological Map Formed by Local Metric
Maps,” in Proceedings of the 1998 IEEE/RSJ International Conference on Intelli-
gent Robots and Systems (IROS’98), Victoria, B.C., Canada, October 1998.
[135] Simmons, R., “The Curvature Velocity Method for Local Obstacle Avoidance,” in
Proceedings of the IEEE International Conference on Robotics and Automation,
Minneapolis, April 1996.
[136] Smith, R., Self, M., Cheeseman, P., “Estimating Uncertain Spatial Relationships in
Robotics,” Autonomous Robot Vehicles, I. J. Cox and G. T. Wilfong (editors),
Springer-Verlag, 1990, pp. 167–193.
[137] Sordalen, O.J., Canudas de Wi,t C., “Exponential Control Law for a Mobile Robot:
Extension to Path Following,” IEEE Transactions on Robotics and Automation,
9:837–842, 1993.
[138] Steinmetz, B.M., Arbter, K., Brunner, B., Landzettel, K., “Autonomous Vision-
Based Navigation of the Nanokhod Rover,” in Proceedings of i-SAIRAS 6th Inter-
national Symposium on Artificial Intelligence, Robotics and Automation in Space,
Montrea1, June 18–22, 2001.
[139] Stentz, A., “The Focussed D* Algorithm for Real-Time Replanning,” in Proceed-
ings of IJCAI-95, August 1995.
[140] Stevens, B.S., Clavel, R., Rey, L., “The DELTA Parallel Structured Robot, Yet
More Performant through Direct Drive,” in Proceedings of the 23rd International
Symposium on Industrial Robots, Barcelona, October 1992, pp. 485–493.
[141] Takeda, H., Facchinetti, C., Latombe, J.C., “Planning the Motions of a Mobile
Robot in a Sensory Uncertainty Field.” IEEE Transactions on Pattern Analysis and
Machine Intelligence, 16:1002–1017, 1994.
[142] Thrun, S., Burgard, W., Fox, D., “A Probabilistic Approach to Concurrent Mapping
and Localization for Mobile Robots.” Autonomous Robots, 31:1–25. 1998.
[143] Thrun, S., et al., “Monrovia: A Second Generation Museum Tour-Guide Robot,” in
Proceedings of the IEEE International Conference on Robotics and Automation
(ICRA'99), Detroit, May 1999.
[144] Thrun, S., Fox, D., Burgard, W. Dellaert, F., “Robust Monte Carlo Localization for
Mobile Robots,” Artificial Intelligence, 128:99–141, 2001.
[145] Thrun, S., Gutmann, J.-S., Fox, D., Burgard, W., Kuipers, B., “Integrating Topolog-
ical and Metric Maps for Mobile Robot Navigation: A Statistical Approach,” in Pro-
ceedings of the National Conference on Artificial Intelligence (AAAI),1998.
[146] Tomasi, C., Shi, J., “Image Deformations Are Better Than Optical Flow.” Mathe-
matical and Computer Modelling, 24:165–175, 1996.
[147] Tomatis, N., Nourbakhsh, I., Siegwart, R., “Hybrid Simultaneous Localization and
Map Building: A Natural Integration of Topological and Metric.” Robotics and
Autonomous Systems 44, 3–14, 2003.
[148] Tzafestas, C.S., Tzafestas, S.G., “Recent Algorithms for Fuzzy and Neurofuzzy Path
Planning and Navigation of Autonomous Mobile Robots,” Systems-Science, 25:25–
39, 1999.
[149] Ulrich, I., Borenstein, J., “VFH*: Local Obstacle Avoidance with Look-Ahead Ver-
ification,” in Proceedings of the IEEE International Conference on Robotics and
Automation, San Francisco, May 24–28, 2000.
