From PID to ADRC and back: Expressing error‐based active disturbance rejection control schemes as standard industrial 1DOF and 2DOF controllers

Stankovic, Momir; Ting, He; Madonski, Rafal

doi:10.1002/asjc.3373

Asian Journal of Control

2024

DOI: 10.1002/asjc.3373

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From PID to ADRC and back: Expressing error‐based active disturbance rejection control schemes as standard industrial 1DOF and 2DOF controllers

Momir Stankovic,

He Ting,

Rafal Madonski

Abstract: In this paper, we uncover a new connection between standard proportional‐integral (PI), proportional‐integral‐derivative (PID) controllers and active disturbance rejection control (ADRC), from which we establish formal conditions of equivalence between the two control schemes. Using the equivalence, we devise a step‐by‐step procedure of transitioning from PI/PID to error‐based ADRC. We also show how to go from one degree‐of‐freedom (1DOF) to two degree‐of‐freedom (2DOF) ADRC while retaining a standard 2DOF PI/… Show more

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2024

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Cited by 2 publications

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Lyapunov stability analysis and FIL implementation for boundary‐based hybrid controller in boost converter

Patel,

Shah

2024

Adv Control Appl

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This paper presents a comprehensive stability analysis of the boundary‐based hybrid control (BBHC) algorithm designed for boost converter. The stability assessment is carried out utilizing multiple Lyapunov functions, addressing both continuous conduction mode (CCM) and discontinuous conduction mode (DCM) operation. The boost converter is modeled as a hybrid automaton to capture its dynamic behavior accurately. Through rigorous Lyapunov stability analysis, this study demonstrates the effectiveness of the BBHC algorithm in ensuring stable operation of the boost converter across various operating modes. Additionally, the proposed control algorithm's validation is conducted using the FPGA‐in‐the‐loop (FIL) technique, highlighting its efficiency and robustness in real‐world applications. This research contributes valuable insights into the design and implementation of stable control strategies for boost converter, emphasizing the practical utility of the BBHC algorithm with FIL for enhanced performance and reliability in power electronics systems.

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Lyapunov stability analysis and FIL implementation for boundary‐based hybrid controller in boost converter

Patel,

Shah

2024

Adv Control Appl

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High-Order Active Disturbance Rejection Controller for High-Precision Photoelectric Pod

Yin,

Song,

Zhu

et al. 2024

Applied Sciences

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With the rapid development of the information age, the need for high-resolution reconnaissance and surveillance is becoming more and more urgent. It is necessary to develop photoelectric pods with a high-precision stabilization function, which isolate the influence of external disturbance and realize the tracking of maneuvering targets. In this paper, the internal frame stabilization loop control technique is studied. Firstly, the mathematical models of the current loop are established. Secondly, the friction model, parametric model, and mechanical resonance model of the system are identified. Finally, a fourth-order tracking differentiator and a fifth-order extended state observer are designed. Through simulation verification, the stability performance of HO-ADRC, increasing by 145.17%, is better than that of PID. In terms of disturbance suppression and noise removal ability, HO-ADRC is also better than PID.

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From PID to ADRC and back: Expressing error‐based active disturbance rejection control schemes as standard industrial 1DOF and 2DOF controllers

Cited by 2 publications

References 27 publications

Lyapunov stability analysis and FIL implementation for boundary‐based hybrid controller in boost converter

Lyapunov stability analysis and FIL implementation for boundary‐based hybrid controller in boost converter

High-Order Active Disturbance Rejection Controller for High-Precision Photoelectric Pod

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