Adaptive regulation for motion control of magnetic tape storage systems

R. A. Callafon
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Abstract

Knowledge of the dynamics of the servo actuator can be used to estimate the disturbances present in a digital servo system of a magnetic tape storage system. It is shown how the actuator dynamics can be used to parametrize perturbations on the control algorithm to minimize the effects of periodic disturbance via adaptive regulation. The approach relies on a fractional representation of the actuator dynamic model and a parametrization of the servo controller that preserves convexity of the minimization of the effects of the disturbances. Motion control experiments of a servo actuator in a Linear Tape Open (LTO) drive operating under feedback with noisy and periodic components in the position error signal measurements will be used to illustrate the effectiveness of the adaptive regulation for the LTO drive under varying disturbance conditions. The results show the possibility to implement a motion control system with adaptive regulation that cancels periodic disturbances with multiple harmonic components.
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磁带存储系统运动控制的自适应调节
伺服驱动器的动力学知识可用于估计磁带存储系统的数字伺服系统中存在的扰动。说明了如何利用作动器动力学对控制算法的扰动进行参数化,通过自适应调节使周期性扰动的影响最小化。该方法依赖于执行器动态模型的分数表示和伺服控制器的参数化,以保持扰动影响最小化的凸性。通过在位置误差信号测量中带有噪声和周期分量的反馈下,对线性带式开口驱动器中的伺服执行器进行运动控制实验,说明了在不同干扰条件下线性带式开口驱动器自适应调节的有效性。结果表明,实现一种具有自适应调节的运动控制系统是可能的,该系统可以消除含有多个谐波分量的周期性干扰。
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