液压电梯速度跟踪系统的新模型及滑模控制

Daohang Sha , Vladimir B. Bajic , Huayong Yang
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引用次数: 61

摘要

建立了一种新的液压电梯动力学模型。它包括一个改进的动态摩擦模型。将该液压电梯动力学模型应用于一种新的基于输入输出的离散自适应滑模控制算法中,该算法由积分作用、非线性输出反馈和可调滑模组成。该算法的特点是在线更新超平面系数和积分增益,以改善控制回路的行为。与应用于液压电梯系统的最优调谐PID控制器相比,新控制器对模型不确定性、未知外部干扰和运行条件变化具有更强的鲁棒性,并且具有更好的速度跟踪特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
New model and sliding mode control of hydraulic elevator velocity tracking system

A new model of hydraulic elevator dynamics has been developed. It includes an improved dynamic friction model. This hydraulic elevator dynamics model is used in a new input–output based discrete adaptive sliding mode control algorithm comprised of an integral action, a nonlinear output feedback, and an adjustable sliding mode. The characteristic feature of the algorithm is an on-line update of the hyperplane coefficients and the integral gain to enable improved control loop behavior. Compared with the optimally tuned PID controller applied to a hydraulic elevator system, the new controller exhibits an increased robustness with regard to model uncertainties, unknown external disturbances and changes in the operation conditions, as well as much better velocity tracking characteristics.

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