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关节混合空间控制下的冗余绳驱并联机器人绳力分布特性分析

FORCE-DISTRIBUTION ANALYSIS FOR REDUNDANT CABLE-DRIVEN PARALLEL ROBOTS UNDER HYBRID JOINT-SPACE INPUT

  • 摘要: 绳驱并联机器人是由绳索代替刚性杆件的一类特殊机器人, 其中绳索具有只能承受拉力而不能承受压力的特点, 冗余绳驱并联机器人的绳力分配问题是一个难点. 在关节混合空间控制中, 将冗余的绳索组合采用绳力控制, 而其余绳索进行绳长控制. 因为不同的绳索组合可能导致不同的控制效果, 本研究旨在解决关节混合空间控制条件下, 力控绳索组合的选择问题. 以二冗余绳驱并联机器人为例, 通过向量空间基变换方法, 实现了冗余绳驱系统绳力在拉力索张力空间的表达. 基于拉力索张力空间, 计算了绳力控制绳索组合的对称最大误差带, 用于找到合适的绳索组合用于力控. 使用多体动力学仿真手段, 对关节混合空间的控制效果和对称最大误差带解析解计算方法的正确性进行了模拟验证. 在同时考虑绳长和绳力控制误差的条件下, 发现当选择不合适的绳索组合时, 绳力误差会被显著放大, 说明了本文针对绳力分布特性分析的意义. 本文提出的对称最大误差带概念同时也为关节混合空间控制策略下的绳力控制器设计提供指导.

     

    Abstract: Cable-driven parallel robots (CDPRs) represent a class of particular parallel robots whose rigid links are replaced by cables, where cable can only generate pull force and cannot be compressed. The force distribution in cables is one of the core problems for redundant CDPRs. The hybrid joint-space control strategy, where the chosen redundant cables are force-controlled, whereas the remaining ones are length-controlled in the joint space, is the main type of control strategy discussed in this paper. Because different cable combinations may lead to different control effects. This study provides the selection criteria for the target force-controlled cable combination in the hybrid-input control strategy. The cable tensions in the space with tension vectors as basis for two redundancies for cable-driven parallel robots were expressed based on the equivalent transformation method of vector space basis. The acceptable cable force errors limit proposed in this paper (CFEL) were defined and calculated based on the cable tensions in the space with tension vectors to find appropriate cable combinations for the force control. To validate the analysis of the force-distribution characteristics, a hybrid-input control trajectory planning strategy was developed using multibody dynamics simulations, based on a suspended cable configuration with layouts including two redundancies, while considering the interference of cable length and cable forces. In addition, a fix-pose simulation case via hybrid-input control strategy was performed to validate accuracy of the proposed calculation method for the CFEL. Finally, we found that cable combinations play an essential role for force control as the force control errors may be significantly magnified in cable combinations with high force-distribution sensitivity characteristics. The simulation results illustrate the significance of the analysis in this paper. What’s more, the concept of CFEL proposed in this paper provides guidance for the design of cable force controllers under the control strategies of hybrid joint-space input.

     

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