不确定性运动规划

Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146) Pub Date : 1998-05-16 DOI:10.1109/ROBOT.1998.677044

Hong Zhang, Vijay R. Kumar, J. Ostrowski

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引用次数: 78

摘要

我们提出了机器人在障碍物和其他机器人存在下运动规划的一般框架。我们利用变分演算和最优化方法在不确定性条件下求出最优的开环和闭环方案。这些计划是基于具有与障碍的位置和形状相关的定值不确定性的世界模型。开环平面图是通过一种有效的方法生成的，该方法允许对标称运动计划进行连续细化，并随着附加信息的可用性而适应更精细的粒度水平。闭环计划是基于给定传感器模型的控制策略。最优计划是在最坏情况下表现最好的控制策略。我们讨论了如何将开环和闭环计划视为二人零和非合作博弈框架下的最优策略。

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Motion planning with uncertainty

We present a general framework for motion planning of robots in the presence of obstacles and other robots. We use variational calculus and optimization to find optimal open loop and closed loop plans in the presence of uncertainty. The plans are based on world models with set-valued uncertainty associated with the positions and shape of the obstacles. The open loop plans are generated by an efficient method that allows successive refinements of a nominal motion plan and accommodates finer levels of granularity as additional information becomes available. The closed loop plans are control policies that are based on given sensor models. The optimal plan is a control policy that performs the best in the worst-case situation. We discuss how the open loop and closed loop plans can be viewed as optimal strategies in the framework of two-person, zero-sum, non-cooperative games.

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来源期刊

Proceedings. 1998 IEEE International Conference on Robotics and Automation (Cat. No.98CH36146)

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