Visual servoing of a parallel robot system

2007 European Control Conference (ECC) Pub Date : 2007-10-01 DOI:10.1109/WISP.2007.4447643
L. Ángel, J. M. Sebastián, A. Traslosheros, F. Roberti, R. Carelli
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引用次数: 5

Abstract

This paper describes the visual control of a parallel robot called “RoboTenis”. The system has been designed and built in order to carry out tasks in three dimensions and dynamical environments, thus the system is capable to interact with objects which move up to 1m/s. The control strategy is composed by two intertwined control loops: The internal loop is faster and considers the information from the joins, its sample time is 0.5 ms. Second loop represents the visual servoing system which is external loop to the first mentioned, second loop represents the study purpose, that it is based in the prediction of the object velocity which is obtained form visual information and its sample time is 8.3 ms. Lyapunov stability analysis, system delays and saturation components has been taken into account.
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并联机器人系统的视觉伺服
本文描述了一种名为RoboTenis的并联机器人的视觉控制。该系统的设计和构建是为了在三维和动态环境中执行任务,因此该系统能够与移动速度高达1米/秒的物体进行交互。控制策略由两个相互交织的控制回路组成:内回路速度更快,考虑了连接的信息,其采样时间为0.5 ms。第二个回路代表视觉伺服系统,它是前面提到的外部回路,第二个回路代表研究目的,它是基于从视觉信息中获得的物体速度的预测,其采样时间为8.3 ms。李雅普诺夫稳定性分析、系统延迟和饱和分量已被考虑在内。
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2007 European Control Conference (ECC)
2007 European Control Conference (ECC)
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