A Multi-Objective Evolutionary Approach to Optimize the Morphology of a Six Articulated-Wheeled Robot

机译：一种优化六个铰接式轮转机器人形态的多目标进化方法

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This paper proposed a multi-objective evolutionary algorithm (MOEA) in designing the morphology of a six articulated-wheeled robot (SAWR) which has the ability to perform climbing motion. The first objective is to minimize the morphology design while the second objective is to maximize the performance of the SAWR in performing the climbing motion. Results show that the proposed MOEA is capable to produce a set of Pareto optimal solutions from the smallest SAWR with poor performance to the largest SAWR with robust performance. The Pareto set of optimal solutions provide users a choice of solutions for trade-off between the two objectives.

机译：本文提出了一种在设计六个铰接式轮式机器人（SAWR）的形态方面的多目标进化算法（MOEA），其具有执行攀爬运动的能力。第一个目标是最小化形态设计，而第二个目标是最大化锯的性能在执行攀爬运动时。结果表明，拟议的MOEA能够从最小的SAWR生产一套Pareto最佳解决方案，其性能不佳，最大的锯材具有稳健性能。 Pareto的最佳解决方案集提供了用户选择两个目标之间的权衡解决方案。

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《International Conference on Artificial Intelligence with Applications in Engineering and Technology》|2014年||共6页
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Lim S.H.; Teo J.;
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中图分类计算技术、计算机技术;
关键词
Collision avoidance; Evolutionary computation; Legged locomotion; Morphology; Wheels; Multi-objective evolutionary algorithm; hybrid mobile robot; optimized hybrid mobile robot;

机译：碰撞避免;进化计算;腿运动;形态;轮子;多目标进化算法;混合移动机器人;优化的混合移动机器人;

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A Multi-Objective Evolutionary Approach to Optimize the Morphology of a Six Articulated-Wheeled Robot

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