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Design and Optimization of Wheel-legged Robot:Rolling-Wolf 被引量:13
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作者 LUO Yang LI Qimin LIU Zhangxing 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2014年第6期1133-1142,共10页
Though the studies of wheel-legged robots have achieved great success, the existing ones still have defects in load distribution, structure stability and carrying capacity. For overcoming these shortcomings, a new kin... Though the studies of wheel-legged robots have achieved great success, the existing ones still have defects in load distribution, structure stability and carrying capacity. For overcoming these shortcomings, a new kind of wheel-legged robot(Rolling-Wolf) is designed. It is actuated by means of ball screws and sliders, and each leg forms two stable triangle structures at any moment, which is simple but has high structure stability. The positional posture model and statics model are built and used to analyze the kinematic and mechanical properties of Rolling-Wolf. Based on these two models, important indexes for evaluating its motion performance are analyzed. According to the models and indexes, all of the structure parameters which influence the motion performance of Rolling-Wolf are optimized by the method of Archive-based Micro Genetic Algorithm(AMGA) by using Isight and Matlab software. Compared to the initial values, the maximum rotation angle of the thigh is improved by 4.17%, the maximum lifting height of the wheel is improved by 65.53%, and the maximum driving forces of the thigh and calf are decreased by 25.5% and 12.58%, respectively. The conspicuous optimization results indicate that Rolling-Wolf is much more excellent. The novel wheel-leg structure of Rolling-Wolf is efficient in promoting the load distribution, structure stability and carrying capacity of wheel-legged robot and the proposed optimization method provides a new approach for structure optimization. 展开更多
关键词 wheel-leg multi-objective optimization rolling-wolf hybrid locomotion ROBOT
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一种新型轮腿式机器人设计与分析 被引量:18
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作者 罗洋 李奇敏 温皓宇 《中国机械工程》 EI CAS CSCD 北大核心 2013年第22期3018-3023,共6页
设计了一种结构简单、承载能力强、越障性能好的新型轮腿式机器人——rolling-wolf。该机器人采用滚珠丝杠驱动轮腿运动,有效改善了以往轮腿式机器人的力学性能,提高了系统的承载能力以及轮腿机构的稳定性。首先将所设计的rolling-wolf... 设计了一种结构简单、承载能力强、越障性能好的新型轮腿式机器人——rolling-wolf。该机器人采用滚珠丝杠驱动轮腿运动,有效改善了以往轮腿式机器人的力学性能,提高了系统的承载能力以及轮腿机构的稳定性。首先将所设计的rolling-wolf和普通关节式轮腿机器人的力学特性进行了对比分析,分析结果表明rolling-wolf轮腿机构在力学特性上具有优越性。然后建立了rolling-wolf的运动学模型,并使用MATLAB对三种不同结构的rolling-wolf的轮腿运动包络域进行了求解。最后,根据对不同结构的rolling-wolf运动特性分析结果,选择了具有最佳运动特性的轮腿机构,完成了机器人整体结构设计。 展开更多
关键词 轮腿 机器人 结构设计 rolling-wolf
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