Title :
Development of a motion planning system for an agricultural mobile robot
Author :
Makino, Tsutomu ; Yokoi, Hiroshi ; Kakazu, Yukinori
Author_Institution :
Hokkaido Univ., Sapporo, Japan
Abstract :
Describes the development of a motion planning system which plans an optimal work path for an autonomous agricultural vehicle on farm land. The system consists of two parts: a global path planning component and a local motion planning component. The global path planning component works to acquire an optimal work path for a whole field. In this case, the optimal work path is the lowest traveling cost from a start point to a goal point. The local motion planning component acquires the optimal path and plans an optimal control policy on a headland. In this motion planning, an optimal solution is a path with a low traveling cost and soil compaction. These components are implemented with the following algorithms: simulated annealing, Tabu search, genetic algorithm, and reinforcement learning. We solve the optimal path problems on a headland using computer simulation
Keywords :
agriculture; digital simulation; genetic algorithms; learning (artificial intelligence); mobile robots; optimal control; path planning; simulated annealing; Tabu search; agricultural mobile robot; autonomous agricultural vehicle; farm land; global path planning; headland; local motion planning; lowest traveling cost; motion planning system; optimal control policy; optimal path; optimal work path; reinforcement learning; soil compaction; Compaction; Computational modeling; Cost function; Land vehicles; Mobile robots; Optimal control; Path planning; Remotely operated vehicles; Simulated annealing; Soil;
Conference_Titel :
SICE Annual, 1999. 38th Annual Conference Proceedings of the
Conference_Location :
Morioka
Print_ISBN :
4-907764-13-8
DOI :
10.1109/SICE.1999.788679
