X Tabellenverzeichnis
XI LITERATUR [1] DEAN, T., AND BODDY, M. An Analysis of Time-Dependent Planning. AAAI-88 Proceedings (1988), 49–54. [2] DIJKSTRA, E. W. A Note on Two Problems in Connexion with Graphs. Numerische Mathematik 1 (1959), 269–271. [3] DOUGLAS, D. H., AND PEUCKER, T. K. Algorithms for the Reduction of the Number of Points required to represent a digitized Line or its Caricature. Cartographica: The International Journal for Geographic Information and Geovisualization 10, 2 (Oct. 1973), 112–122. [4] DUBINS, L. E. On Curves of Minimal Length with a Constraint on Average Curvature, and with Prescribed Initial and Terminal Positions and Tangents. American Journal of Mathematics 79, 3 (1957), 497–516. [5] ECKERMANN, E. Die Achsschenkellenkung und andere <strong>Fahrzeug</strong>-Lenksysteme. Deutsches Museum, 1998. [6] FERGUSON, D., LIKHACHEV, M., AND STENTZ, A. A Guide to Heuristic-based Path Planning. American Association for Artificial Intelligence (2005). [7] FRAICHARD, T., AND SCHEUER, A. From Reeds and Shepp’s to Continuous-Curvature Paths. IEEE Transactions on Robotics 20, 6 (Dec. 2004), 1025–1035. [8] FURTUNA, A. A., BALKCOM, D. J., CHITSAZ, H., AND KAVATHEKAR, P. Generalizing the dubins and reeds-shepp cars: Fastest paths for bounded-velocity mobile robots. 2008 IEEE International Conference on Robotics and Automation (May 2008), 2533–2539. [9] HART, P. E., NILSSON, N. J., AND RAPHAEL, B. A formal basis for the heuristic determination of minimum cost paths. IEEE Transactions of Systems Science and Cybernetics ssc-4 (1968), 100–107. [10] HE, H., ZHANG, Y., AND LIU, H. A Method Used To Dynamic Scene Management Based On Octree. Computer Graphics, Imaging and Visualisation (CGIV 2007), Cgiv (Aug. 2007), 16–21. [11] HERNÁNDEZ, C., BAIER, J., URAS, T., AND KOENIG, S. Position Paper : Incremental Search Algorithms Considered Poorly Understood. IEEE Transaction on Robotics and Automation 21, 3 (2005). [12] HORN, B. K. P. The Curve of Least Energy. ACM Transactions on Mathematical Software 9, 4 (1983), 441–460. [13] HORVITZ, E. Problem-Solving Design: Reasoning about Computational Value, Tradeoffs, and Resources. Proceedings of the Second Annual NASA Research Forum (1987), 1–18. [14] HOWARD, T. M., GREEN, C. J., KELLY, A., AND FERGUSON, D. State Space Sampling of Feasible Motions for High-Performance Mobile Robot Navigation in Complex Environments. Journal of Field Robotics 25 25, 1 (2008), 325–345.