Experimental Evaluation of Optimal Tuning for PID Parameters in an AVR System

Foroutan, Farshid; Tootoonchian, F.

doi:10.24200/sci.2021.56239.4617

Cited by 4 publications

(2 citation statements)

References 53 publications

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“…The similar achievement is also envisaged under the effect of load disturbances [2]. To achieve such performance, a proper controller designed technique [3][4][5][6][7][8][9][10] in a suitable structure is required. Many authors [11][12][13] have proposed techniques to obtained the desired performance for NCSTR by considering the various dynamical models in single loop configuration.…”

Section: Introductionmentioning

confidence: 90%

Design of Parallel Cascade Controller for Nonlinear Continuous Stirred Tank Reactor

Siddiqui

2024

Preprint

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This work presents an approach to control the temperature of a nonlinear continuous stirred tank reactor (NCSTR) through parallel cascade control structure (PCCS). For the first time, PCCS is used to control the temperature of NCSTR by (1) modelling the dynamic behavior of CSTR with a recirculating jacket heat transfer system into a third order unstable transfer function and (2) using the model matching technique to synthesize the controller parameters. The controller of the secondary loop of PCCS is designed to achieve enhanced regulatory performance whereas, the primary loop controller is designed for better setpoint tracking. The closed loop performance of the proposed method is evaluated by carrying out simulation on the differential equation of the NCSTR and comparing it with other structures such as series cascade control structure (CCS) and parallel control structure (PCS). The response shows that the proposed method provides satisfactory performance in both the environment nominal, perturbed and noisy conditions.

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Section: Introductionmentioning

confidence: 90%

Design of Parallel Cascade Controller for Nonlinear Continuous Stirred Tank Reactor

Siddiqui

2024

Preprint

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“…These controllers serve as hubs, facilitating real-time adjustments to maintain voltage stability, enabling remote monitoring, fault detection, and automatic shutdown during emergencies, and enhancing the overall system dependability. A range of controllers, from the standard proportional-integral-derivative (PID) to more advanced variants like the PID Acceleration (PIDA), fractional-order PID (FOPID), and PID with a second-order derivative (PIDD 2 ), offer diverse attributes to meet the specific requirements of AVR control [11][12][13][14][15][16][17][18].…”

Section: Introductionmentioning

confidence: 99%

A Novel Balanced Arithmetic Optimization Algorithm-Optimized Controller for Enhanced Voltage Regulation

Ekinci,

Çetin,

Izci

et al. 2023

Mathematics

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This work introduces an innovative approach that unites a PIDND2N2 controller and the balanced arithmetic optimization algorithm (b-AOA) to enhance the stability of an automatic voltage regulator (AVR) system. The PIDND2N2 controller, tailored for precision, stability, and responsiveness, mitigates the limitations of conventional methods. The b-AOA optimizer is obtained through the integration of pattern search and elite opposition-based learning strategies into the arithmetic optimization algorithm. This integration optimizes the controller parameters and the AVR system’s response, harmonizing exploration and exploitation. Extensive assessments, including evaluations on 23 classical benchmark functions, demonstrate the efficacy of the b-AOA. It consistently achieves accurate solutions, exhibits robustness in addressing a wide range of optimization problems, and stands out as a promising choice for various applications. In terms of the AVR system, comparative analyses highlight the superiority of the proposed approach in transient response characteristics, with the shortest rise and settling times and zero overshoot. Additionally, the b-AOA approach excels in frequency response, ensuring robust stability and a broader bandwidth. Furthermore, the proposed approach is compared with various state-of-the-art control methods for the AVR system, showcasing an impressive performance. These results underscore the significance of this work, setting a new benchmark for AVR control by advancing stability, responsiveness, and reliability in power systems.

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Analysis of the performance of PID-based new-generation metaheuristic algorithms for automatic voltage regulation system

Sun

2023

Proceedings of the 2023 7th International Conference on Computer Science and Artificial Intelligence

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Experimental Evaluation of Optimal Tuning for PID Parameters in an AVR System

Cited by 4 publications

References 53 publications

Design of Parallel Cascade Controller for Nonlinear Continuous Stirred Tank Reactor

Design of Parallel Cascade Controller for Nonlinear Continuous Stirred Tank Reactor

A Novel Balanced Arithmetic Optimization Algorithm-Optimized Controller for Enhanced Voltage Regulation

Analysis of the performance of PID-based new-generation metaheuristic algorithms for automatic voltage regulation system

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