机床与液压
機床與液壓
궤상여액압
MACHINE TOOL & HYDRAULICS
2013年
3期
74-76
,共3页
机器人%免疫克隆算法%免疫PID
機器人%免疫剋隆算法%免疫PID
궤기인%면역극륭산법%면역PID
Robot%Immune clone algorithm%Immune PID
对高速运动机器人智能运动控制方法进行深入研究.搭建了6自由度机器人实验平台,在此基础上,提出了改进的免疫克隆算法,构建免疫PID控制器,对机器人进行实时运动控制.最后,对提出的运动控制方法进行实验分析.结果表明,所构建的免疫PID控制器,动态性能好,跟踪精度高(±0.08 mm 以内),能满足机器人高速运动控制的要求,从而为机器人的高速运动控制提供一种新的思路.
對高速運動機器人智能運動控製方法進行深入研究.搭建瞭6自由度機器人實驗平檯,在此基礎上,提齣瞭改進的免疫剋隆算法,構建免疫PID控製器,對機器人進行實時運動控製.最後,對提齣的運動控製方法進行實驗分析.結果錶明,所構建的免疫PID控製器,動態性能好,跟蹤精度高(±0.08 mm 以內),能滿足機器人高速運動控製的要求,從而為機器人的高速運動控製提供一種新的思路.
대고속운동궤기인지능운동공제방법진행심입연구.탑건료6자유도궤기인실험평태,재차기출상,제출료개진적면역극륭산법,구건면역PID공제기,대궤기인진행실시운동공제.최후,대제출적운동공제방법진행실험분석.결과표명,소구건적면역PID공제기,동태성능호,근종정도고(±0.08 mm 이내),능만족궤기인고속운동공제적요구,종이위궤기인적고속운동공제제공일충신적사로.
@@@@The deep research on the robot motion intelligent control method under a high speed has been made. Firstly,the ex-perimental platform for 6-DOF robot was set up,and on this basis,the improved immune clone algorithm was proposed,and the im-mune proportional integral differential (PID)controller was set up,which was applied to the robot motion control in real time. In the end,analysis of several experiments was done to the proposed motion control method. The results show that the immune PID controller has better dynamic performance and higher tracking precision,which is less than ± 0. 08 mm. The control strategy can meet the need of robot motion control in high speed,thereby provides a new method to high speed motion control of robot.
