基于地形力学的水下轮式机器人牵引力控制

OCEANS'10 IEEE SYDNEY Pub Date : 2010-05-24 DOI:10.1109/OCEANSSYD.2010.5603859

Tjasa Boh, J. Billingsley, R. Bradbeer, P. Hodgson

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引用次数: 4

摘要

贝克运动理论长期以来一直是计算和预测陆地轮式和履带式车辆土壤-轮胎相互作用的领先应用理论。虽然这一理论适用于陆地系统，但没有证据表明它也适用于水下系统。此外，在海洋基质中测量所需土壤参数的复杂性使其难以应用。本文探讨了基于滑动的Bekker定理的方法，并提出了一个旨在验证该定理在水下应用的实验。

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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Terramechanics based traction control of underwater wheeled robot

The Bekker Theory of Locomotion has long been the leading applied theory when it comes to calculating and predicting soil-tyre interaction for terrestrial wheeled and tracked vehicles. Whilst the theory is applicable for terrestrial systems, there is no evidence to suggest it also applies under water. Furthermore, the complications of measuring the required soil parameters in marine substratum makes it difficult to apply. This paper explores the slip-based approach to the Bekker theorem and suggests an experiment designed to validate this theorem for underwater applications.

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OCEANS'10 IEEE SYDNEY

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