Actuator multiplicative and additive simultaneous faults estimation using a qLPV proportional integral unknown input observer

IF 3.9 4区计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS International Journal of Adaptive Control and Signal Processing Pub Date : 2024-06-06 DOI:10.1002/acs.3859

P. Gasga, M. Bernal, S. Gómez-Peñate, F.R. López-Estrada, G. Valencia-Palomo, I. Santos-Ruiz

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Abstract

This paper introduces a technique for simultaneous estimation of additive and multiplicative faults in the actuators of nonlinear systems represented by quasi-linear parameter varying (qLPV) models based on a proportional-integral unknown input observer. The qLPV model, structured with a tensor product, allows for optimized flexibility of the observer gain. A distinguishing aspect of our method is the novel approach to nonlinearity, which is not only recast as a convex sum but also in the input vector. The study comprehensively analyses the robustness and convergence conditions through Lyapunov stability evaluation. A robust $H_{\infty}$ performance criterion is incorporated to minimize the influence of measurement noise and disturbances. As a result, a set of linear matrix inequalities are obtained. Two examples are examined to demonstrate the practical applicability and efficacy of the proposed method, highlighting the observer's performance under the actuator faults.

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利用 qLPV 比例积分未知输入观测器估算致动器乘法和加法同步故障

本文介绍了一种基于比例积分未知输入观测器的技术，用于同时估计由准线性参数变化（qLPV）模型表示的非线性系统执行器中的加法和乘法故障。qLPV 模型采用张量积结构，可优化观测器增益的灵活性。我们方法的一个显著特点是采用了新颖的非线性方法，不仅将非线性重铸为凸和，还将其重铸为输入矢量。研究通过 Lyapunov 稳定性评估全面分析了鲁棒性和收敛条件。研究采用了鲁棒性能标准，以尽量减少测量噪声和干扰的影响。因此，得到了一组线性矩阵不等式。通过对两个实例的研究，证明了所提方法的实际应用性和有效性，并强调了观测器在执行器故障下的性能。

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来源期刊

International Journal of Adaptive Control and Signal Processing 工程技术-工程：电子与电气

CiteScore

5.30

自引率

16.10%

发文量

163

审稿时长

5 months

期刊介绍： The International Journal of Adaptive Control and Signal Processing is concerned with the design, synthesis and application of estimators or controllers where adaptive features are needed to cope with uncertainties.Papers on signal processing should also have some relevance to adaptive systems. The journal focus is on model based control design approaches rather than heuristic or rule based control design methods. All papers will be expected to include significant novel material. Both the theory and application of adaptive systems and system identification are areas of interest. Papers on applications can include problems in the implementation of algorithms for real time signal processing and control. The stability, convergence, robustness and numerical aspects of adaptive algorithms are also suitable topics. The related subjects of controller tuning, filtering, networks and switching theory are also of interest. Principal areas to be addressed include: Auto-Tuning, Self-Tuning and Model Reference Adaptive Controllers Nonlinear, Robust and Intelligent Adaptive Controllers Linear and Nonlinear Multivariable System Identification and Estimation Identification of Linear Parameter Varying, Distributed and Hybrid Systems Multiple Model Adaptive Control Adaptive Signal processing Theory and Algorithms Adaptation in Multi-Agent Systems Condition Monitoring Systems Fault Detection and Isolation Methods Fault Detection and Isolation Methods Fault-Tolerant Control (system supervision and diagnosis) Learning Systems and Adaptive Modelling Real Time Algorithms for Adaptive Signal Processing and Control Adaptive Signal Processing and Control Applications Adaptive Cloud Architectures and Networking Adaptive Mechanisms for Internet of Things Adaptive Sliding Mode Control.