[Başar, T. and Olsder, G. (1982). Dynamic Noncooperative Game Theory, Academic Press, New York, NY.]Search in Google Scholar
[Balkcom, D. and Mason, M. (2002). Time optimal trajectories for bounded velocity differential drive vehicles, International Journal of Robotics Research21(3): 219–232.10.1177/027836402320556403]Search in Google Scholar
[Bandyopadhyay, T., Li, Y., Ang, M. and Hsu, D. (2006). A greedy strategy for tracking a locally predictable target among obstacles, Proceedings of the International Conference on Robotics and Automation, ICRA 2006, Orlando, FL, USA, pp. 2342–2347.]Search in Google Scholar
[Becker, C., Gonz´alez-Ba˜nos, H., Latombe, J. and Tomasi, C. (1995). An intelligent observer, Proceedings of the International Symposium on Experimental Robotics, ISER 1995, Stanford, CA, USA, pp. 153–160.]Search in Google Scholar
[Bhattacharya, S. and Hutchinson, S. (2010). On the existence of Nash equilibrium for a two player pursuit-evasion game with visibility constraints, International Journal of Robotics Research29(7): 831–839.10.1177/0278364909354628]Search in Google Scholar
[Chung, T. (2008). On probabilistic search decisions under searcher motion constraints, Proceedings of the International Workshop on the Algorithmic Foundations of Robotics, WAFR 2008, Guanajuato, Mexico, pp. 501–516.]Search in Google Scholar
[Fabiani, P., González, H., Latombe, J. and Lin, D. (2002). Tracking an unpredictable target among occluding obstacles under localization uncertainties, Robotics and Autonomous Systems38(1): 31–48.10.1016/S0921-8890(01)00170-1]Search in Google Scholar
[González, H., Lee, C. Y. and Latombe, J. C. (2002). Real-time combinatorial tracking of a target moving unpredictably among obstacles, Proceedings of the International Conference on Robotics and Automation, ICRA 2002, Washington, DC, USA, pp. 1683–1690.]Search in Google Scholar
[Guibas, L., Latombe, J., LaValle, S. M., Lin, D. and Motwani, R. (1999). A visibility-based pursuit-evasion problem, International Journal of Computational Geometry and Applications9(4–5): 471–494.10.1142/S0218195999000273]Search in Google Scholar
[Hájek, O. (1965). Pursuit Games, Academic Press, New York, NY.]Search in Google Scholar
[Hespanha, J., Prandini, M. and Sastry, S. (2000). Probabilistic pursuit-evasion games: A one-step Nash approach, Proceedings of the 39th International Conference on Decision and Control, Los Angeles, CA, USA, pp. 2272–2277.]Search in Google Scholar
[Hollinger, G., Singh, S., Djugash, J. and Kehagias, A. (2009). Efficient multi-robot search for a moving target, International Journal of Robotics Research28(2): 201–219.10.1177/0278364908099853]Search in Google Scholar
[Isaacs, R. (1965). Differential Games: A Mathematical Theory With Applications to Warfare and Pursuit, Control and Optimization, Academic Press, New York, NY.]Search in Google Scholar
[Isler, V., Kannan, S. and Khanna, S. (2005). Randomized pursuit-evasion in a polygonal environment, IEEE Transactions on Robotics21(5): 864–875.10.1109/TRO.2005.851373]Search in Google Scholar
[Jung, B. and Sukhatme, G. (2002). Tracking targets using multiple robots: The effect of environment occlusion, Autonomous Robots13(3): 191–205.10.1023/A:1020598107671]Search in Google Scholar
[Kowalczuk, Z. and Czubenko, M. (2011). Intelligent decision-making system for autonomus robots, International Journal and Applied Mathematics and Computer Science21(4): 671–684, DOI: 10.2478/v10006-011-0053-7.10.2478/v10006-011-0053-7]Search in Google Scholar
[LaValle, S.M. (2006). Planning Algorithms, Cambridge University Press, New York, NY.10.1017/CBO9780511546877]Search in Google Scholar
[LaValle, S.M., González, H., Becker, C. and Latombe, J. (1997). Motion strategies for maintaining visibility of a moving target, Proceedings of the International Conference on Robotics and Automation, ICRA 1997, Albuquerque, NM, USA, pp. 731–736.]Search in Google Scholar
[Merz, A. (1971). The Homicidal Chauffeur: A Differential Game, Ph.D. thesis, Stanford University, Stanford, CA.]Search in Google Scholar
[Murrieta-Cid, R., Monroy, R., Hutchinson, S. and Laumond, J.-P. (2008). A complexity result for the pursuit-evasion game of maintaining visibility of a moving evader, Proceedings of the International Conference on Robotics and Automation, ICRA 2008, Pasadena, CA, USA, pp. 2657–2664.]Search in Google Scholar
[Murrieta-Cid, R., Muppirala, T., Sarmiento, A., Bhattacharya, S. and Hutchinson, S. (2007). Surveillance strategies for a pursuer with finite sensor range, International Journal of Robotics Research26(3): 233–252.10.1177/0278364907077083]Search in Google Scholar
[Murrieta-Cid, R., Ruiz, U., Marroquin, J., Laumond, J. and Hutchinson, S. (2011). Tracking an omnidirectional evader with a differential drive robot, Autonomous Robots31(4): 345–366.10.1007/s10514-011-9246-z]Search in Google Scholar
[Murrieta-Cid, R., Tovar, B. and Hutchinson, S. (2005). A sampling-based motion planning approach to maintain visibility of unpredictable targets, Autonomous Robots19(3): 285–300.10.1007/s10514-005-4052-0]Search in Google Scholar
[O’Kane, J. (2008). On the value of ignorance: Balancing tracking and privacy using a two-bit sensor, Proceedings of the International Workshop on the Algorithmic Foundations of Robotics, WAFR 2008, Guanajuato, Mexico, pp. 235–249.]Search in Google Scholar
[Parker, L. (2002). Distributed algorithms for multi-robot observation of multiple targets, Autonomous Robots12(3): 231–255.]Search in Google Scholar
[Prodan, I., Olaru, S., Stoica, C. and Niculescu, S.-I. (2013). Predictive control for trajectory tracking and decentralized navigation of multi-agent formations, International Journal of Applied Mathematics and Computer Science23(1): 91–102, DOI: 10.2478/amcs-2013-0008.10.2478/amcs-2013-0008]Search in Google Scholar
[Ruiz, U. and Murrieta-Cid, R. (2012). A homicidal differential drive robot, Proceedings of the International Conference on Robotics and Automation, ICRA 2012, St. Paul, MN, USA, pp. 3218–3225.]Search in Google Scholar
[Ruiz, U., Murrieta-Cid, R. and Marroquin, J. (2013). Time-optimal motion strategies for capturing an omnidirectional evader using a differential drive robot, IEEE Transactions on Robotics29(5): 1180–1196.10.1109/TRO.2013.2264868]Search in Google Scholar
[Sachs, S., LaValle, S. and Rajko, S. (2004). Visibility-based pursuit-evasion in an unknown planar environment, International Journal of Robotics Research23(1): 3–26.10.1177/0278364904039610]Search in Google Scholar
[Schwartz, J.T. and Sharir, M. (1983). On the piano movers’ problem. I: The case of a two-dimensional rigid polygon body moving amidst polygonal barriers, Communications on Pure and Applied Mathematics36(3): 345–398.]Search in Google Scholar
[Skrzypczyk, K. (2005). Control of a team of mobile robots based on non-cooperative equilibria with partial coordination, International Journal of Applied Mathematics and Computer Science15(1): 89–97.]Search in Google Scholar
[Suzuki, I. and Yamashita, M. (1992). Searching for a mobile intruder in a polygonal region, SIAM Journal on Computing21(5): 863–888.10.1137/0221051]Search in Google Scholar
[Tekdas, O. and Yang, W.and Isler, V. (2010). Robotic routers: Algorithms and implementation, International Journal of Robotics Research29(1): 110–126.10.1177/0278364909105053]Search in Google Scholar
[Tovar, B. and LaValle, S. (2008). Visibility-based pursuit-evasion with bounded speed, International Journal of Robotics Research27(11–12): 1350–1360.10.1177/0278364908097580]Search in Google Scholar
[Vidal, R., Shakernia, O., Jin, H., Hyunchul, D. and Sastry, S. (2002). Probabilistic pursuit-evasion games: Theory, implementation, and experimental evaluation, IEEE Transactions on Robotics and Automation18(5): 662–669.10.1109/TRA.2002.804040]Search in Google Scholar