Statistically Oriented Optimal Control and Disturbance Prediction for Piezoelectric Semi-Active Vibration Suppression

IF 4.9 2区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Control Systems Technology Pub Date : 2024-10-02 DOI:10.1109/TCST.2024.3463333

Mizuki Abe;Koyo Mishima;Yushin Hara;Keisuke Otsuka;Kanjuro Makihara

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引用次数: 0

Abstract

This study proposes a novel predictive input optimization and disturbance prediction strategy for semi-active vibration control using a piezoelectric transducer, leveraging the statistically oriented prediction and optimization scheme and Gaussian process (GP) enhanced disturbance prediction. Here, semi-active switching, which manipulates the piezoelectric charge, is executed to suppress vibration. State-dependent discontinuity of the semi-active input trajectory owing to the switching makes it challenging to formulate a prediction-based optimization strategy in conventional methods. Incorporating the dynamical model of disturbance is also crucial to compensate for those undesired effects effectively. The proposed GP-enhanced disturbance predictor, which combines the empirical model and GP regression, provides the disturbance trajectory over a finite time horizon. The empirical model approximates the periodic disturbance with known frequencies, while the GP regression model handles other unknown components, enabling the predictor to function under different conditions. Furthermore, the predicted disturbance trajectory is applied for control optimization, allowing the controller to determine the optimal control input trajectory that compensates for future disturbances. The proposed strategy employs the tree-based scheme to formulate a prediction and optimization algorithm that determines the optimal semi-active input trajectory. Further, it includes a statistically oriented switching criterion that reduces the computational costs by selecting the trajectory to be predicted. This criterion utilizes kernel density estimation to learn the probability density function of suppression performance, allowing the controller to adaptively select trajectories to predict online while not excluding promising ones. The effectiveness of the proposed statistically oriented predictive switching vibration control with tree-based formulation and optimization (S-PSTFO) strategy was validated through experiments, demonstrating superior suppression performance over the conventional method.

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面向统计的压电半主动振动抑制最优控制与干扰预测

本研究利用统计导向的预测和优化方案和高斯过程（GP）增强的扰动预测，提出了一种用于压电传感器半主动振动控制的预测输入优化和扰动预测策略。在这里，半主动开关，操纵压电电荷，执行抑制振动。由于切换引起的半主动输入轨迹的状态依赖不连续，使得传统方法难以制定基于预测的优化策略。引入扰动的动力学模型对于有效补偿这些不良影响也至关重要。所提出的GP增强干扰预测器结合了经验模型和GP回归，提供了有限时间范围内的干扰轨迹。经验模型近似于已知频率的周期性扰动，而GP回归模型处理其他未知成分，使预测器能够在不同条件下发挥作用。此外，将预测的干扰轨迹应用于控制优化，使控制器能够确定补偿未来干扰的最优控制输入轨迹。该策略采用基于树的方案制定预测和优化算法，确定最优半主动输入轨迹。此外，它还包括一个面向统计的切换准则，通过选择要预测的轨迹来减少计算成本。该准则利用核密度估计来学习抑制性能的概率密度函数，允许控制器自适应地选择轨迹进行在线预测，同时不排除有希望的轨迹。通过实验验证了基于树的建模与优化（S-PSTFO）策略的有效性，表明其抑制性能优于传统方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Control Systems Technology 工程技术-工程：电子与电气

CiteScore

10.70

自引率

2.10%

发文量

218

审稿时长

6.7 months

期刊介绍： The IEEE Transactions on Control Systems Technology publishes high quality technical papers on technological advances in control engineering. The word technology is from the Greek technologia. The modern meaning is a scientific method to achieve a practical purpose. Control Systems Technology includes all aspects of control engineering needed to implement practical control systems, from analysis and design, through simulation and hardware. A primary purpose of the IEEE Transactions on Control Systems Technology is to have an archival publication which will bridge the gap between theory and practice. Papers are published in the IEEE Transactions on Control System Technology which disclose significant new knowledge, exploratory developments, or practical applications in all aspects of technology needed to implement control systems, from analysis and design through simulation, and hardware.