A new range-sensor based globally convergent navigation algorithm for mobile robots
I. Kamon, Ehud Rivlin, Elon Rimon
- 发表年份
- 2002
- 引用次数
- 140
摘要
We present TangentBug, a new range-sensor based navigation algorithm for two degrees-of-freedom mobile robots. The algorithm combines local reactive planning with globally convergent behaviour. For the local planning, TangentBug uses the range data to compute a locally shortest path based on a novel structure, termed the local tangent graph (LTG). The robot uses the LTG for choosing the locally optimal direction while moving towards the target. The robot also uses the LTG in its other motion mode, where it follows an obstacle boundary. In this mode the robot uses the LTG for making local short-cuts and testing a leaving condition which allows the robot to resume its motion towards the target. We analyze the convergence and performance properties of TangentBug. We also present simulation results, showing that TangentBug consistently performs better than the classical VisBug algorithm. Moreover, TangentBug produces paths that in simple environments approach the globally optimal path as the sensor's maximal detection range increases.
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