Contour following control of two-axis servomechanism using CMAC and ILC

Abstract: In addition to positioning control, contour following control is also an important application of two-axis servomechanisms such as X-Y tables. Therefore, the reduction of contour following error so as to improve contour following accuracy is one of the important research topics for two-axis servomechanisms. Generally, the assessment of contour following accuracy is based on two error indices tracking error and contour error. Although the reduction of tracking error can lead to the improvement of contour follow… Show more

“…Since the accuracy of contour following significantly affects the quality of product, it is not surprising that many existing studies have been devoted to developing control schemes that can reduce tracking error and/or contour error so as to improve contour following accuracy [1]. Many existing literatures have pointed out that friction, external disturbance, and dynamics incompatibility among different axes are three of the major factors that may lead to deterioration in contour following accuracy for multi-axis motion stages [2]. Note that friction and dynamics incompatibility among different axes generally come from the mechanism design and material of the motion stage.…”

“…Many industrial manufacturing processes are required to perform contour following motions [1][2][3][4][5][6]. Generally speaking, tracking error and contour error are two of the commonly used performance indices for assessing contour following accuracy.…”

Improvement of Contour Following Control Using Cross Coupled Control and Adaptive Disturbance Compensation

“…Since the accuracy of contour following significantly affects the quality of product, it is not surprising that many existing studies have been devoted to developing control schemes that can reduce tracking error and/or contour error so as to improve contour following accuracy [1]. Many existing literatures have pointed out that friction, external disturbance, and dynamics incompatibility among different axes are three of the major factors that may lead to deterioration in contour following accuracy for multi-axis motion stages [2]. Note that friction and dynamics incompatibility among different axes generally come from the mechanism design and material of the motion stage.…”

“…Many industrial manufacturing processes are required to perform contour following motions [1][2][3][4][5][6]. Generally speaking, tracking error and contour error are two of the commonly used performance indices for assessing contour following accuracy.…”

Improvement of Contour Following Control Using Cross Coupled Control and Adaptive Disturbance Compensation

A future concern of iterative learning control : A survey