多步爬行主动轮式蛇形机器人的步态分析

2019 4th International Conference on Robotics and Automation Engineering (ICRAE) Pub Date : 2019-11-01 DOI:10.1109/ICRAE48301.2019.9043828

Divyanshu Sahu, R. Kodi, Sartaj Singh

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引用次数: 0

摘要

由于其灵活性、模块化设计和高度铰接式的身体结构，蛇形机器人已经成为在灾害易发地区、狭窄空间、不平坦地形和不适合人类的危险环境中进行搜索和救援行动的热门选择。这些机器人所要求的一个显著特征是能够一次爬上多个台阶。生物蛇可以根据楼梯的轮廓无缝地改变自己的形状，以爬上多个台阶，本文提出了一种“台阶变形步态”，使所设计的蛇机器人能够一次爬多个台阶。本文的步态分析一步一步地展示了步态的实现过程。同时，提出了一种步态环化技术，使超冗余系统的多步攀爬问题在实时仿真环境中更直观、更容易理解和实现。联合仿真结果验证了所提出的步态。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Gait Analysis of Multi-Step Climbing Active Wheeled Snake Robot

Snake robots have been a popular choice for search and rescue operations in disaster-prone areas, cramped spaces, uneven terrain and in hazardous environments unfit for humans due to their flexibility, modular design and highly articulated body structure. One of the salient features required by these robots is the ability to climb multiple steps at a time. Inspired by biological snakes which can seamlessly change their shape according to the contour of stairs for climbing multiple steps, this paper proposes a ‘Step Morphing Gait’ which would enable the proposed snake robot design to ascend multiple steps at a time. Gait analysis in this paper shows the step by step procedure of how the gait is implemented. Also, a looping technique in this gait is developed which makes the problem of climbing multiple steps for hyper redundant systems intuitively easier to understand and implement in realtime simulated environment. Co-simulation results validate the proposed gait.

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来源期刊

2019 4th International Conference on Robotics and Automation Engineering (ICRAE)

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