双足机器人模糊插值自适应全向行走方法

Haobin Shi, Xuesi Li, Huahui Chen, Shixiong Wang
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引用次数: 0

摘要

全向行走是双足机器人的重要组成部分。然而,双足机器人行走规划中存在的模型复杂、稳定性低、灵活性低等问题,引起了许多研究者的兴趣。本文提出了一种基于模糊插值的自适应全向行走方法(OW-FI),用于快速稳定的全向行走。设计了一种基于改进Hermite插值的直线行走和旋转分离的全向行走新方法,简化了行走模型,实现了良好的关键帧数据选择。基于运动学的行走变换模型,构建了位姿与作动器角速度的映射关系。为了实现稳定的自适应行走,提出了一种模糊的行走参数调节方法,对全向行走的步长和转速进行模糊控制。仿真和实验结果表明,该方法具有较好的适应性和稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Adaptive Omni-directional Walking Method with Fuzzy Interpolation for Biped Robots
Omni-directional walking is an important part for biped robots. Whereas, the problems of complex model, low stability, low flexibility, etc., existing in walking planning of biped robots, attract interests of many researchers. This paper proposes an adaptive omni-directional walking method with fuzzy interpolation (OW-FI) applied to a fast-stable omni-directional walking. A new separated omni-directional walking method consisting of straight walking, based on the improve Hermite interpolation, and rotation is designed to simplify the walking model and achieve a good key frame data selection. The mapping relationship between poses and actuators’ angular speeds is then constructed by walking transforming model based on kinematics. In order to implement a stable and adaptive walking, a fuzzy approach to walking parameters adjustment is presented, where the step length and rotational speed of omni-directional walking are controlled fuzzily. The results of simulations and experiments demonstrate that the proposed method has better properties in adaptability and stability than the competing methods.
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