Reactive power management by using a modified differential evolution algorithm

Kar, Manoj Kumar; Kumar, Sanjay; Singh, Arun Kumar; Panigrahi, Sibarama

doi:10.1002/oca.2815

Cited by 24 publications

(8 citation statements)

References 50 publications

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“…The proposed strategy had a poor performance in terms of settling time. Liu et al in [11] suggested a H ∞ -μ synthesis-based control strategy to minimize the frequency deviation for an isolated MG. Because of the complexity of this approach, a numbers of optimization algorithms have been proposed by researchers, including GA [12], PSO [13], BOA algorithm [14] and DE [15] to address the LFC problem.…”

Section: Introductionmentioning

confidence: 99%

A metaheuristic algorithm for regulating virtual inertia of a standalone microgrid incorporating electric vehicles

Mishra,

Maharana,

Kar

et al. 2024

The Journal of Engineering

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Modern electrical networks, particularly microgrids, have seen a sharp rise in acquiring non‐conventional sources. The inertia of the microgrid decreases drastically because RESs have been used in place of traditional synchronous generators. The reduced inertia negatively impacts the dynamics and performance of the microgrid with RESs, which decreases the microgrid's stability, especially in operation on an island. The primary purpose of this research study is to enhance the dynamic security of an island microgrid by merging an electric vehicle with a frequency control technique based on virtual inertia control. A Proportional Integral Derivative Filter Constant (PIDFN) controller optimally created using the Modified Differential Evolution (MDE) method served as the foundation for control in the virtual inertia control loop. The effectiveness of the MDE‐based PIDFN controller was examined considering the diverse operational scenarios are compared and contrasted with those of traditional methods Differential Evolution (DE) and Teaching Learning Based Optimization (TLBO)‐based PIDFN controllers. Real‐time wind and solar power statistics and random load fluctuations were incorporated to provide realistic simulation settings. The outcomes demonstrate that the MDE‐based PIDFN controller performs better in reference frequency tracking and reducing frequency disturbances than the other optimization strategies.

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Section: Introductionmentioning

confidence: 99%

A metaheuristic algorithm for regulating virtual inertia of a standalone microgrid incorporating electric vehicles

Mishra,

Maharana,

Kar

et al. 2024

The Journal of Engineering

Self Cite

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“…Because metaheuristic methods are stochastic in nature, therefore, statistical analysis on the generated data is required to draw definitive conclusions. As a result, WSRT [41,42] is applied to the obtained results (at a 95% confidence level) to identify the inferiority (−), superiority (+), or equivalency ( ≈ ) of a technique in contrast to the suggested MGWOA approach. Table 3 presents the WSRT results.…”

Section: Performance Analysis Of Mgwoa Approachmentioning

confidence: 99%

Design and Analysis of FOPID-Based Damping Controllers Using a Modified Grey Wolf Optimization Algorithm

Kar

Kumar

Singh

et al. 2022

International Transactions on Electrical Energy Systems

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This study proposes a novel modified grey-wolf optimization algorithm (MGWOA) to enhance power system stability. The power system stabilizer and static synchronous series compensator (SSSC) are used as damping controllers. Additionally, fractional-order PID (FOPID) controller is used to handle the system nonlinearities and thus achieve better performance. The control parameters are tuned using the proposed MGWOA method which has been verified on unimodal and multimodal functions. Single-machine infinite bus (SMIB) and multimachine power system (MMPS) are taken as case studies to analyze the efficacy of the proposed controller. Minimization of rotor speed deviation is considered an objective function. The results obtained from the MGWOA-tuned FOPID-based damping controllers are compared with those obtained using recently developed efficient and competitive heuristic algorithms. It was observed that the MGWOA method is well-suited for damping low-frequency oscillations. Furthermore, statistical analysis is performed on the obtained results to justify the superiority of the MGWOA method. The simulation results suggest that the MGWOA exhibits superior performance characteristics when applied to a real power system.

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“…Intelligent optimization algorithms are inspired by biological intelligence or natural phenomena that the behavior of some social species in nature, such as foraging and reproduction, is simulated and abstracted into quantifiable key indicators of mathematical models, and can deal with combinatorial and complex optimization problems. [7][8][9] Intelligent algorithms can be specified into four categories: nature-like optimization, evolutionary algorithm, plant growth simulation algorithm, and swarm intelligence optimization.…”

Section: Introductionmentioning

confidence: 99%

A modified reptile search algorithm for parametric estimation of fractional order model of lithium battery

Ding

Huang

Hao

et al. 2023

Optim Control Appl Methods

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In this paper, a Levy reptile search algorithm (LRSA) is proposed to improve the global search capability and convergence speed of reptile search algorithm which has advantages in solving single‐modal, multi‐modal and composite problems. Firstly, circle chaotic mapping is introduced to make the initial distribution of population more uniform and diversified. Secondly, Levy flight strategy is employed in the global search, which can improve the accuracy and convergence speed. In order to test and verify the optimization performance of the LRSA, 12 benchmark functions are tested and compared with four other intelligent optimization algorithms. It can be seen that LRSA is effective and advantageous in average convergence speed. In addition, the proposed LRSA is applied to a fractional order model identification of lithium battery with a very small error (less than 2%). The experimental results show that the LRSA can effectively estimate the parameters of the fractional order model and aid to state of charge and state of health estimation.

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Reactive power management by using a modified differential evolution algorithm

Cited by 24 publications

References 50 publications

A metaheuristic algorithm for regulating virtual inertia of a standalone microgrid incorporating electric vehicles

A metaheuristic algorithm for regulating virtual inertia of a standalone microgrid incorporating electric vehicles

Design and Analysis of FOPID-Based Damping Controllers Using a Modified Grey Wolf Optimization Algorithm

A modified reptile search algorithm for parametric estimation of fractional order model of lithium battery

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