基于自适应神经pid控制和鲁棒卡尔曼滤波的工业机器人动态路径跟踪

2023 9th International Conference on Automation, Robotics and Applications (ICARA) Pub Date : 2023-02-10 DOI:10.1109/ICARA56516.2023.10125681

Jianyu Tang, Tao Zhou, E. Zakeri, Tingting Shu, W. Xie

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引用次数: 2

摘要

提出了一种基于摄影测量传感器和自适应神经pid (ANPID)控制的工业机器人精确动态路径跟踪方法。首先，利用摄影测量传感器(C-Track立体摄像机)检测机器人末端执行器的姿态。它通过鲁棒卡尔曼滤波来降低信号中的噪声。然后，将滤波后的信号送入ANPID，利用自适应多层感知器神经网络(amlnn)在线调整其增益。采用在线最陡下降优化方法。代价函数是系统状态误差的最小均方差。在FANUC M-20iA机器人上的实验结果表明，该方法的跟踪精度达到±0.08mm和±0.04°，优于PID等传统方法(跟踪误差分别为±0.2mm和±0.1°)[4]。

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Photogrammetry-based Dynamic Path Tracking of Industrial Robots Using Adaptive Neuro-PID Control Method and Robust Kalman Filter

This paper proposes a novel accurate dynamic path tracking (DPT) method for industrial robots based on photogrammetry sensors and an adaptive neuro-PID (ANPID) control method. First, the pose of the robot's end-effector is detected by the photogrammetry sensor (C-Track stereo camera). It passes through a robust Kalman filter to reduce the noise in the signals. Then, the filtered signals are fed to the ANPID, whose gains are tuned online using an adaptive multi-layer perceptron neural network (AMLPNN). The steepest descent optimization method is adopted online. The cost function is the least mean square of the system states errors. Experimental results on FANUC M-20iA robot show the tracking accuracy reaches ±0.08mm and ±0.04deg, which exhibits the superiority of the proposed method over the conventional methods such as PID (tracking error±0.2mm and ±0.1deg) [4].

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来源期刊

2023 9th International Conference on Automation, Robotics and Applications (ICARA)

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