Terramechanics-based performance enhancement of the wide robotic wheel on the soft terrains, Part I: wheel shape optimization

2017 5th RSI International Conference on Robotics and Mechatronics (ICRoM) Pub Date : 2017-10-01 DOI:10.1109/ICROM.2017.8466134

S. Ebrahimi, A. Mardani

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引用次数: 6

Abstract

the first part of this paper presents an approach for characterization of the essential terra mechanic and dynamic parameters of the wide robotic wheels moving on soft soil using the soil contact model (SCM) method. This method will be used in a complex optimization algorithm based on the direct search approach to find the optimized shape of the wheels whereby the rovers can properly steer and move. The sinkage of the wheel, the lateral and longitudinal interaction forces, the pressure distribution and some new measures such as effective radius will be investigated as the optimization cost functions to achieve the elite shapes. According to the results of this optimization, the complete spatial dynamics of a four-wheeled rover will be extracted in part II of this paper. Using the optimized wheels, the rover will be empowered to rove on the rough and soft soil or sand. Indeed, the main idea of the part I of this paper is to dynamically optimize the shape of the super wide wheels according to the terra mechanic principles of the wheel-soil interaction.

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基于地形力学的宽阔机器人车轮在软地形上的性能增强，第一部分:车轮形状优化

本文第一部分提出了一种利用土壤接触模型(SCM)方法表征在软土地基上移动的大型机器人车轮的基本大地力学和动力学参数的方法。该方法将用于基于直接搜索法的复杂优化算法中，以找到最优的车轮形状，使漫游者能够正确地转向和移动。将车轮下沉、横向和纵向相互作用力、压力分布以及有效半径等新措施作为优化成本函数进行研究，以获得最佳形状。根据优化结果，本文的第二部分将提取四轮漫游车的完整空间动力学。使用优化的车轮，探测器将被授权在粗糙和柔软的土壤或沙子上漫游。实际上，本文第一部分的主要思想是根据车轮-土壤相互作用的土力学原理对超宽车轮的形状进行动态优化。

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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2017 5th RSI International Conference on Robotics and Mechatronics (ICRoM)

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