基于模糊小脑模型关节控制器的两轴转台视觉伺服控制

2012 4th International Conference on Intelligent Human-Machine Systems and Cybernetics Pub Date : 2012-08-26 DOI:10.1109/IHMSC.2012.110

Zhou Chuang, Cheng Xiaotian, Hu Fang

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引用次数: 1

摘要

在视觉伺服控制系统中，视觉回路的设计是实现精确跟踪的关键环节。为了提高跟踪精度，我们讨论了一种基于模糊小脑模型关节控制器(fcmac)的控制策略。该控制器包括一个基本比例调节器和一个FCMAC控制器。这两个块通过自适应在线学习律来调整网络的权值，共同近似视觉映射模型。通过将二维图像特征空间映射到三维运动空间，可以通过视觉信息直接实现转台的控制任务。将该方法应用于两轴转台跟踪动态目标，实验结果表明，该方法能较好地逼近视觉映射模型。该视觉系统在精度和鲁棒性方面均表现出良好的性能。

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Visual Servo Control of a Two-axis Turntable Based on Fuzzy Cerebellar Model Articulation Controller

In visual servo control system, the design of visual loop is a key link to precise tracking. To improve tracking accuracy, we discuss a FCMAC-based (fuzzy cerebellar model articulation controller) control strategy. The controller includes a basic proportional regulator and a FCMAC controller. The two blocks work together to approximate the visual-mapping model through an adaptive online learning law to adjust the weights of the network. By mapping the 2-D image characteristic space to the 3-D kinematic space, we can achieve the control task of a turntable directly through visual information. Applying the proposed method to a two-axis turntable to track a dynamic object, experimental result indicates that FCMAC is capable of accurately approximating visual-mapping model. The visual system shows a good performance in both accuracy and robustness.

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2012 4th International Conference on Intelligent Human-Machine Systems and Cybernetics

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