Performance analysis of PID controller and fuzzy logic controller for DC-DC boost
converter

Daraz, Amil; Basit, Abdul; Zhang, Guoqiang

doi:10.1371/journal.pone.0281122

Cited by 3 publications

(1 citation statement)

References 26 publications

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“…They employed an optimal control approach [ 8 ] to minimize the tracking error of the ball. The results demonstrated that Fuzzy PID [ 9 – 11 ] exhibits superior performance and algorithmic efficiency compared to traditional PID. A more complex problem is addressed by utilizing the sliding mode controller [ 12 ].…”

Section: Introductionmentioning

confidence: 99%

Stabilization and tracking control of underactuated ball and beam system using metaheuristic optimization based TID-F and PIDD2–PI control schemes

Zafar,

Malik,

Ali

et al. 2024

PLoS ONE

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In this paper, we propose two different control strategies for the position control of the ball of the ball and beam system (BBS). The first control strategy uses the proportional integral derivative-second derivative with a proportional integrator PIDD2-PI. The second control strategy uses the tilt integral derivative with filter (TID-F). The designed controllers employ two distinct metaheuristic computation techniques: grey wolf optimization (GWO) and whale optimization algorithm (WOA) for the parameter tuning. We evaluated the dynamic and steady-state performance of the proposed control strategies using four performance indices. In addition, to analyze the robustness of proposed control strategies, a comprehensive comparison has been performed with a variety of controllers, including tilt integral-derivative (TID), fractional order proportional integral derivative (FOPID), integral–proportional derivative (I-PD), proportional integral-derivative (PI-D), and proportional integral proportional derivative (PI-PD). By comparing different test cases, including the variation in the parameters of the BBS with disturbance, we examine step response, set point tracking, disturbance rejection analysis, and robustness of proposed control strategies. The comprehensive comparison of results shows that WOA-PIDD2-PI-ISE and GWO-TID-F- ISE perform superior. Moreover, the proposed control strategies yield oscillation-free, stable, and quick response, which confirms the robustness of the proposed control strategies to the disturbance, parameter variation of BBS, and tracking performance. The practical implementation of the proposed controllers can be in the field of under actuated mechanical systems (UMS), robotics and industrial automation. The proposed control strategies are successfully tested in MATLAB simulation.

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Section: Introductionmentioning

confidence: 99%

Stabilization and tracking control of underactuated ball and beam system using metaheuristic optimization based TID-F and PIDD2–PI control schemes

Zafar,

Malik,

Ali

et al. 2024

PLoS ONE

Self Cite

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Design of an Adaptive Robust PI Controller for DC/DC Boost Converter Using Reinforcement-Learning Technique and Snake Optimization Algorithm

Ghamari,

Hajihosseini,

Habibi

et al. 2024

IEEE Access

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Modelagem matemática, projeto e controle preditivo de um conversor boost

Soares,

Diehl,

Evald

2024

VETOR

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Os conversores boost são amplamente utilizados para elevar a tensão de saída a um nível superior à tensão de entrada de diversos sistemas. Esses conversores são comumente utilizados em baterias para automóveis elétricos, frenagem regenerativa de motores de corrente contínua, quadrirrotores, carregadores solares, amplificadores de áudio de potência e diversos outros dispositivos. Para tal, este dispositivo armazena energia no campo magnético de um indutor e, em seguida, transfere essa energia para um capacitor de tal forma que a tensão do capacitor pode aumentar além da tensão da fonte que forneceu energia ao indutor. Porém, para obter uma tensão desejada na saída, é fundamental utilizar um controlador confiável para realizar a regulação desse sistema. Este artigo apresenta a modelagem matemática, projeto de dimensionamento de acordo com especificações estabelecidas e controle preditivo de um conversor boost. A estratégia de controle utilizada para regular a tensão deste conversor é um controlador deadbeat, o qual possui uma estrutura simples, porém provê rápida resposta ao sistema em malha fechada. Os resultados de simulação numérica demonstram a superioridade do controlador preditivo em relação a um controlador proporcional-integral-derivativo.

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Performance analysis of PID controller and fuzzy logic controller for DC-DC boost converter

Cited by 3 publications

References 26 publications

Stabilization and tracking control of underactuated ball and beam system using metaheuristic optimization based TID-F and PIDD2–PI control schemes

Stabilization and tracking control of underactuated ball and beam system using metaheuristic optimization based TID-F and PIDD2–PI control schemes

Design of an Adaptive Robust PI Controller for DC/DC Boost Converter Using Reinforcement-Learning Technique and Snake Optimization Algorithm

Modelagem matemática, projeto e controle preditivo de um conversor boost

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