Tip force tracking control based on the tendon-sheath transmission model and 3D reconstruction of a long slender rescue robot

2016 IEEE 14th International Workshop on Advanced Motion Control (AMC) Pub Date : 2016-04-22 DOI:10.1109/AMC.2016.7496391

Jia Li, Xingsong Wang, Ruru Xi

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引用次数: 4

Abstract

Tendon-sheath actuated mechanism is widely adopted in many applications such as robot hands and surgical devices due to its small size, simple structure and light weight. However, there exist a lot of factors including the compliance and friction between the tendon and sheath which may contribute to the nonlinearity of the tendon-sheath system. In addition, the absence of sensors at distal end also sets a limit to the application of tendon-sheath. In this paper, a tendon-sheath-driven robot for searching and rescuing is introduced and the transmission models of tendon-sheath system are proposed. 3D reconstruction of tendon-sheath system is utilized for the identification of parameters involved in the model. Two methods are presented according to whether the sensor information at distal end can be obtained or not. In order to make up for the nonlinearity of the system, the sliding control method is adopted. Despite of the lack of feedback information, a combination of inverse compensation and sliding mode control is put forward. Furthermore, a set of experiments are carried out in order to validate our proposed models and methods.

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基于肌腱鞘传递模型的细长救援机器人尖端力跟踪控制及三维重构

腱鞘驱动机构具有体积小、结构简单、重量轻等优点，广泛应用于机械手、手术器械等领域。然而，肌腱-鞘系统的非线性存在许多因素，包括肌腱与鞘之间的柔度和摩擦。此外，远端传感器的缺失也限制了肌腱鞘的应用。介绍了一种肌腱鞘驱动的搜救机器人，提出了肌腱鞘系统的传动模型。利用肌腱鞘系统的三维重建来识别模型中涉及的参数。根据能否获取远端传感器信息，提出了两种方法。为了弥补系统的非线性，采用了滑动控制方法。针对反馈信息不足的问题，提出了逆补偿与滑模控制相结合的方法。此外，还进行了一组实验来验证我们提出的模型和方法。

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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2016 IEEE 14th International Workshop on Advanced Motion Control (AMC)

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