摘要
To realize nonferrous metals deposit mining remotely with mobile robot under unknown environment, parallel evolutionary computing and 3 tier load balance were proposed to overcome the efficiency problem of online evolutionary computing. A system of polar coordinates can be established on remote mining robot with the polar point of current position and the polar axis from the current point to goal point. With the polar coordinate system path planning of remote mining robot can be computed in a parallel way. From the results of simulations and analysis based on agent techniques, good computing quality can be guaranteed for remote mining robot, such as efficiency, optimization and robustness.
To realize nonferrous metals deposit mining remotely with mobile robot under unknown environment, parallel evolutionary computing and 3 tier load balance were proposed to overcome the efficiency problem of online evolutionary computing. A system of polar coordinates can be established on remote mining robot with the polar point of current position and the polar axis from the current point to goal point. With the polar coordinate system path planning of remote mining robot can be computed in a parallel way. From the results of simulations and analysis based on agent techniques, good computing quality can be guaranteed for remote mining robot, such as efficiency, optimization and robustness.
出处
《中国有色金属学会会刊:英文版》
CSCD
2003年第4期948-952,共5页
Transactions of Nonferrous Metals Society of China
基金
Projects(699740 43 ,60 2 3 40 3 0 )supportedbytheNationalNaturalScienceFoundationofChina
关键词
采矿机器人
遥控
负荷平衡
并行计算
遗传算法
remote mining robot
parallel evolutionary computing
navigation
efficiency
