Wheel slip-sinkage and its prediction model of lunar rover

WANG Shao-chun, DENG Zong-quan, HU Ming, GAO Hai-bo. Dynamic model building and simulation for mechanical main body of lunar lander [J]. Journal of Central South University of Technology, 2005, 12(3): 329–334.

YOSHIDA K, HIROSHI H. Motion dynamics of a rover with slip-based traction model [C]// Proceedings of IEEE International Conference on Robotics and Automation. Piscataway: IEEE Robotics and Automation Society, 2002: 3155-3160.

APOSTOLOPOULOS D S. Analytical configuration of wheeled robotics locomotion [R]. Pittsburghers: Robotics Institute of Carnegie Mellon University, 2001.

MICHAUD S, RICHTER L, THUER T, GIBBESCH A, HUELSING T. Rover chassis evaluation and design optimization using the RCET [C]// Proceedings of the 9th ESA Workshop on ASTRA. Noordwijk: European Space Agency, 2006: 1–8.

PATEL N, ELLERY A, ALLOUIS E, SWEETING M, RICHTER L. Rover mobility performance evaluation tool (RMPET): A systematic tool for rover chassis evaluation via application of Bekker theory [C]// Proceedings of the 8th ESA Workshop on ASTRA. Noordwijk: European Space Agency, 2004: 251–258.

SOHL G, JAIN A. Wheel-terrain contact modeling in the ROAMS planetary rover simulation [C]// Proceedings of IDETC’05 ASME International Design Engineering Technical Conference and Computers and Information in Engineering Conference. New York: American Society of Mechanical Engineers, 2005: 1–9.

PIERRE L, ROLAND S. Wheel torque control in rough terrain: Modeling and simulation [C]// Proceedings of IEEE International Conference on Robotics and Automation. Piscataway: IEEE Robotics and Automation Society, 2005: 867–872.

HUTANGKABODEE S, ZWEIRI Y H, SENEVIRATNE L D, ALTHOEFER K. Performance prediction of a wheeled vehicle on unknown terrain using identified soil parameters [C]// Proceedings of IEEE International Conference on Robotics and Automation. Piscataway: IEEE Robotics and Automation Society, 2006: 3356–3361.

IAGNEMMA K, KANG S, SHIBLY H, DUBOWSKY S. Online terrain parameter estimation for wheeled mobile robots with application to planetary rovers [J]. IEEE Transactions on Robotics, 2004, 20(5): 921–927.

ISHIGAMI G, MIWA A, NAGATANI K, YOSHIDA K. Terramechanics-based model for steering maneuver of planetary exploration rovers on loose soil [J]. Journal of Field Robotics, 2007, 24(3): 233–250.

IAGNEMMA K, DUBOWSKY S. Traction control of wheeled robotic vehicles with application to planetary rovers [J]. International Journal of Robotics Research, 2004, 23(10): 1029–1040.

ISHIGAMI G, NAGATANI K, YOSHIDA K. Path planning for planetary exploration rovers and its evaluation based on wheel slip dynamics [C]// Proceedings of IEEE International Conference on Robotics and Automation. Piscataway: IEEE Robotics and Automation Society, 2007: 2361–2366.

BEKKER M G. Introduction to terrain-vehicle [M]. Michigan: The University of Michigan Press, 1969.

WONG J Y, REECE A R. Prediction of rigid wheel performance based on analysis of soil-wheel stresses, part I: Performance of driven rigid wheels [J]. Journal of Terramechanics, 1967, 4(1): 81–98.

WONG J Y. Theory of ground vehicles [M]. 3rd ed. New York: John Wiley & Sons, 2001.

YOSHIDA K, ISHIGAMI G. Steering characteristics of a rigid wheel for exploration on loose soil [C]// Proceedings of IEEE International Conference on Intelligent Robots and Systems, Piscataway: IEEE Robotics and Automation Society, 2004: 3995–4000.

SHIBLY H, IAGNEMMA K, DUBOWSKY S. An equivalent soil mechanics formulation for rigid wheels in deformable terrain, with application to planetary exploration rovers [J]. Journal of Terramechanics, 2005, 42: 1–13.

BROOKS C A, IAGNEMMA K, DUBOWSKY S. Visual wheel sinkage measurement for planetary rover mobility characterization [J]. Autonomous Robotics, 2006, 21: 55–64.

BAUER R, LEUNG W, BARFOOT T. Experimental and simulation results of wheel-soil interaction for planetary rovers [C]// Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems. Piscataway: IEEE Robotics and Automation Society, 2005: 586–591.

TAO Jian-guo, QUAN Qi-quan, DENG Zong-quan, WANG Lin. Analysis of wheel-soil interaction of rolling wheels with different diameters on a lunar rover [J]. Journal of Harbin Engineering University, 2007, 28(10): 1144–1149. (in Chinese)

ZHUAN Ji-de. Computational vehicle terramechanics [M]. Beijing: China Machine Press, 2002. (in Chinese)

JANOSI Z, HANAMOTO B. Analytical determination of drawbar pull as a function of slip for tracked vehicle in deformable soils [C]// Proceeding of the 1st International Conference of ISTVES. Torino: International Society for Terrain-Vehicle Systems, 1961: 707–726.