Converting Motion between Different Types of Humanoid Robots Using Genetic Algorithms

Mari Nishiyama, H. Iba
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引用次数: 2

Abstract

The imitation between different types of robots remains an unsolved task for a long time. The assignment of the correct angles to each joint is critical for robot motion. However, different robots have different structures, thus this discrepancy causes a difficulty when converting a motion to another type of robot. For solving this problem, we propose a GA-based method that can find the conversion matrix needed to map joint angles of one robot to another. There are two objectives to consider when creating an imitation; reducing the difference between the ideal imitation and the converted imitation and keeping the stability. Three experiments were conducted; a stable experiment, an unstable experiment and a double learning experiment. As a result, the double experiment showed a high concordance rate of 93.5%, the highest stability and the fastest speed of all experiments. These results show great promise for the proposed method as a way to realize motion imitation between different types of robots.
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基于遗传算法的不同类型人形机器人运动转换
不同类型机器人之间的相互模仿一直是一个未解决的问题。为每个关节分配正确的角度对机器人的运动至关重要。然而,不同的机器人具有不同的结构,因此这种差异在将运动转换为另一种类型的机器人时造成困难。为了解决这一问题,我们提出了一种基于遗传算法的方法,该方法可以找到将一个机器人的关节角映射到另一个机器人所需的转换矩阵。在创建模仿时需要考虑两个目标;减小理想仿品与转换仿品之间的差异,保持稳定性。进行了三个实验;一个稳定实验,一个不稳定实验和一个双重学习实验。结果表明,双实验的一致性高达93.5%,是所有实验中稳定性最高、速度最快的。这些结果显示了该方法作为一种实现不同类型机器人之间运动模仿的方法的巨大前景。
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