J. Anderson and J. Baltes
[1] J. Baltes, E. Sklar, & J. Anderson, Teaching with RoboCup,Proc. 2004 AAAI Spring Symp. on Accessible Hands-on AIand Robotics, Stanford University, Stanford, CA, March 2004,146–152. [2] RoboCup official website: http://www.robocup.org. [3] Federation of International Robot-Soccer Association:http://www.fira.net. [4] J. Baltes, 4 stooges, in A. Birk, S. Coradeschi, & S. Tadokoro(Eds.), RoboCup 2001: Robot Soccer World Cup V (Berlin:Springer-Verlag, 2002), 559–562. [5] P. Furgale, J. Baltes, & J. Anderson, Real-time vision-based pattern tracking without predefined colours, 3rd Int.Conf. on Computational Intelligence, Robotics and Automation(CIRAS-05), Singapore, December 2005. [6] J. Baltes, Open-source robocup vision server, http://robocup-video.sourceforge.net. [7] J. Anderson, J. Baltes, D. Livingston, & E. Sklar, Toward anundergraduate league for robocup, in D. Polani, B. Browning,A. Bonarini, & Kazuo Yoshida (Eds.), RoboCup 2003: RobotSoccer World Cup VII (Berlin: Springer-Verlag, 2004), 670–677. [8] R. Murphy, Introduction to AI robotics (Cambridge, MA: MITPress, 2000). [9] A. Balluchi, A. Bicchi, A. Balestrino, & G. Casalino, Pathtracking control for Dubin’s car, Proc. IEEE Int. Conf. onRobotics and Automation, Minneapolis, MN, April 1996, pp3123–3128. [10] M. Egerstedt, X. Hu, & A. Stotsky, Control of a car-like robotusing a dynamic model, Proc. IEEE Conf. on Robotics andAutomation, Leuven, Belgium, 1998, 3273–3278. doi:10.1109/ROBOT.1998.680943 [11] R.C. Arkin, Behavior-based robotics (Cambridg, MA: MITPress, 1998). [12] J. Baltes & R. Otte, A fuzzy logic controller for car-like mobilerobots, Proc. IEEE Int. Symp. on Computational Intelligencein Robotics and Automation, Monterey, CA, November 1999,89–94. doi:10.1109/CIRA.1999.809952 [13] J.S. Albus, A new approach to manipulator control: Thecerebellar model articulation controller, Journal of DynamicSystems, Measurement, and Control, 97, 1975, 220–227. [14] J. Baltes & Y. Lin, Path-tracking control of non-holonomiccar-like robots using reinforcement learning, in M. Veloso, E.Pagello, & H. Kitano (Eds.), RoboCup-99: Robot Soccer WorldCup III (New York: Springer-Verlag, 2000), 162–173. [15] J.-C. Latombe, Robot motion planning (Boston: Kluwer, 1991). [16] A. Zelinsky, A mobile robot exploration algorithm, IEEETrans. of Robotics and Automation, 8(6), 1992, 707–717. doi:10.1109/70.182671 [17] Z. Kedem, H. Fuchs, & B. Naylor, On visible surface generationby a priori tree structures, Proc. SIGGRAPH ’80, Seattle,WA, 1980, 124–133. doi:10.1145/800250.807481 [18] J. Baltes & J. Anderson, Flexible binary space partitioningfor robotic rescue, Proc. IEEE/RSJ Int. Conf. on IntelligentRobots and Systems (IROS), Las Vegas, October 2003, pp.3144–3149. doi:10.1109/IROS.2003.1249640 [19] R. Brooks, A robust layered control system for a mobile robot,IEEE Journal of Robotics and Automation, 2(1), 1986. [20] E.H. Ostergaard, Evolving complex robot behavior, Master’sthesis, Department of Computer Science, University of Aarhus,Aarhus, Denmark, May 2000. [21] D. Floreano, Evolutionary robotics in behavior engineeringand artificial life, in T. Gomi (Ed.), Evolutionary Robotics,vol. 2 (Ottawa, Canada: AAI Books, 1998). [22] M. Bratman, D. Israel, & M. Pollack, Plans and resource-bounded practical reasoning, Computational Intelligence, 4(4),1988, 349–355. doi:10.1111/j.1467-8640.1988.tb00284.x [23] K. Goldberg (Ed.), The robot in the Garden: Telerobotics andtelepistemology in the age of the Internet (Cambridge, MA:MIT Press, 2000).
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