Maher Al‐Greer scite author profile

This paper introduces a novel technique for online system identification. Specific attention is given to the parameter estimation of dc-dc switched-mode power converters; however, the proposed method can be applied to many alternative applications where efficient and accurate parameter estimation is required. The proposed technique is computationally efficient, based on a dichotomous coordinate descent algorithm, and uses an infinite impulse response adaptive filter as the plant model. The system identification technique reduces the computational complexity of existing recursive least squares algorithms. Importantly, the proposed method is also able to identify the parameters quickly and accurately, thus offering an efficient hardware solution that is well suited to real-time applications. Simulation analysis and validation based on experimental data obtained from a prototype synchronous dc-dc buck converter is presented. Results clearly demonstrate that the estimated parameters of the dc-dc converter are a very close match to those of the experimental system. The approach can be directly embedded into adaptive and self-tuning digital controllers to improve the control performance of a wide range of industrial and commercial applications.Index Terms-Adaptive filter, dichotomous coordinate descent (DCD), infinite impulse response (IIR) adaptive filter, recursive least squares (RLS), switch mode dc-dc power converter, system identification.

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Real-Time Parameter Estimation of DC–DC Converters Using a Self-Tuned Kalman Filter

Ahmeid

Armstrong

Gadoue

et al. 2017

IEEE Trans. Power Electron.

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Abstract-To achieve high-performance control of modern dcdc converters, using direct digital design techniques, an accurate discrete model of the converter is necessary. In this paper, a new parametric system identification method, based on a Kalman filter (KF) approach is introduced to estimate the discrete model of a synchronous dc-dc buck converter. To improve the tracking performance of the proposed KF, an adaptive tuning technique is proposed. Unlike many other published schemes, this approach offers the unique advantage of updating the parameter vector coefficients at different rates. The proposed KF estimation technique is experimentally verified using a Texas Instruments TMS320F28335 microcontroller platform and synchronous step-down dc-dc converter. Results demonstrate a robust and reliable real-time estimator. The proposed method can accurately identify the discrete coefficients of the dc-dc converter. This paper also validates the performance of the identification algorithm with time-varying parameters, such as an abrupt load change. The proposed method demonstrates robust estimation with and without an excitation signal, which makes it very well suited for real-time power electronic control applications. Furthermore, the estimator convergence time is significantly shorter compared to many other schemes, such as the classical exponentially weighted recursive least-squares method.

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Adaptive PD+I Control of a Switch-Mode DC–DC Power Converter Using a Recursive FIR Predictor

Al‐Greer

Armstrong

Giaouris

2011

IEEE Trans. on Ind. Applicat.

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Advances on System Identification Techniques for DC–DC Switch Mode Power Converter Applications

Al‐Greer

Armstrong

Ahmeid

et al. 2019

IEEE Trans. Power Electron.

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System identification is fundamental in many recent state-of-the-art developments in power electronic such as modelling, parameter tracking, estimation, self-tuning and adaptive control, health monitoring, and fault detection. Therefore, this paper presents a comprehensive review of parametric, non-parametric, and dual hybrid system identification for DC-DC Switch Mode Power Converter (SMPC) applications. The paper outlines the key challenges inherent with system identification for power electronic applications; speed of estimation, computational complexity, estimation accuracy, tracking capability, and robustness to disturbances and time varying systems. Based on literature in the field, modern solutions to these challenges are discussed in detail. Furthermore, this paper reviews and discusses the various applications of system identification for SMPCs; including health monitoring and fault detection.

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System identification of PWM dc-dc converters during abrupt load changes

Al‐Greer

Armstrong

Giaouris

2009

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Maher Al‐Greer

Active Online System Identification of Switch Mode DC–DC Power Converter Based on Efficient Recursive DCD-IIR Adaptive Filter

Real-Time Parameter Estimation of DC–DC Converters Using a Self-Tuned Kalman Filter

Adaptive PD+I Control of a Switch-Mode DC–DC Power Converter Using a Recursive FIR Predictor

Advances on System Identification Techniques for DC–DC Switch Mode Power Converter Applications

System identification of PWM dc-dc converters during abrupt load changes

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Maher Al‐Greer

Active Online System Identification of Switch Mode DC–DC Power Converter Based on Efficient Recursive DCD-IIR Adaptive Filter

Real-Time Parameter Estimation of DC–DC Converters Using a Self-Tuned Kalman Filter

Adaptive PD+I Control of a Switch-Mode DC&#x2013;DC Power Converter Using a Recursive FIR Predictor

Advances on System Identification Techniques for DC–DC Switch Mode Power Converter Applications

System identification of PWM dc-dc converters during abrupt load changes

Contact Info

Product

Resources

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Adaptive PD+I Control of a Switch-Mode DC–DC Power Converter Using a Recursive FIR Predictor