作　　者： ; ; ; ; ;

机构地区： 中国科学院沈阳自动化研究所机器人学国家重点实验室

出　　处： 《高技术通讯》 2013年第10期1053-1060,共8页

摘　　要： 为研究可重构轮手一体机器人的越障性能,描述了机器人轮手复合越障过程,基于旋量理论建立了单模块可重构轮手一体移动机器人翻越台阶型障碍的动力学模型。对影响机器人电机力矩的三个因素——台阶高度、手臂长度和机器人运动参数进行了仿真,对越障过程中的稳定性进行了分析,得到了机器人的稳定工作域,最后通过实验得到机器人极限越障高度,为机器人结构的优化和越障性能的提升提供了理论依据。 To study the obstacle negotiation capacity of reconfigurable wheel-manipulator robots, the combined wheel-ma- nipulator obstacle negotiation process was described, and based on the screw theory, the dynamic formulation of stair-climbing on a slope for reconfigurable wheel-manipulator robots was established by using the virtual mechanism method. Because of the diversity of configuration and the flexibility of motion, the dynamic formulation using conven- tional approaches is complex, moreover, it is difficult to expansion to multiple modules. Whereas adopting the screw theory, concise and unified description of complex mechanisms can be derived, and the Jacobian matrix is easily ob- tained by exponential product formula. Three factors affecting the motor torque mainly, such as stair height, arm length and kinematic parameters, were simulated, and the stability in the obstacle-negotiation process was analyzed and the result of stable working range was obtained. The maximum stair-height that the robot can negotiate was achieved by simulation and experiment.

关 键 词： 旋量 可重构轮手一体机器人 越障 动力学

领　　域： [自动化与计算机技术] [自动化与计算机技术]