Collision avoidance with Optimal Control was calculated the first time in history based on Pontryagin maximum principle. It was a small step for me, a big step for mankind. NASA file PDF: Search NASA document from this NASA search
POST-GRADUATE SCHOOL PUBLICATION AND PRESENTATION
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NASA JSC Space Operations Automation and Robotics Conference, Houston, TX, USA, 1990, Conference Proceedings page 455. SIAM Conference on Control, San Francisco, CA, USA 1989. AUTOFACT Robots 14 Conference, Detroit, MI, USA, 1990, Conference Proceedings page 10-1. International Journal of Robotics and Automation 1988 NASA SBIR proposal 90's Venture Capital Business Plan proposal with U.S. Small Business Administration 90's
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Abstract Collision-free optimal motion and trajectory planning for robotic manipulators are solved by a method of sequential gradient restoration algorithm. Numerical examples of a two degree-of-freedom (DOF) robotic manipulator are demonstrated to show the excellence of the optimization technique and obstacle avoidance scheme. The obstacle is put on the midway, or even further inward on purpose, of the previous no-obstacle optimal trajectory. For the minimum-time purpose, the trajectory grazes by the obstacle and the minimum-time motion successfully avoids the obstacle. The minimum-time is longer for the obstacle avoidance cases than the one without obstacle. The obstacle avoidance scheme can deal with multiple obstacles in any ellipsoid forms by using artificial potential fields as penalty functions via distance functions. The method is promising in solving collision-free optimal control problems for robotics and can be applied to any DOF robotic manipulators with any performance indices and mobile robots as well. Since this method generates optimum solution based on Pontryagin Extremum Principle, rather than based on assumptions, the results provide a benchmark against which any optimization techniques can be measured. ---- US Citizen name after naturalization and marriage: Wong, Jason; Birth name and school name: phonetic translation: Wang, Jyhshing, Jack |