Tree Growth Based Optimization Algorithm for Parameter Extraction of Different Models of Photovoltaic Cells and Modules

Diab, Ahmed A. Zaki; Sultan, Hamdy M.; Aljendy, Raseel; Al-Sumaiti, Ameena Saad; Shoyama, Masahito; Ali, Ziad M.

doi:10.1109/access.2020.3005236

Cited by 59 publications

(22 citation statements)

References 79 publications

(165 reference statements)

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“…UPLO and LOUP values in calculating the bounds required objective function enhanced its estimating capability with faster convergence. Proposed coyote optimization algorithm (COA), 57 improved differential evolutionary algorithm (IDEA), 188 and tree growth algorithm (TGA) 189 was proposed to evaluate the parameters of SDM, DDM, and TDMs and considered RMSE as a efficiency-defining factor. The COA compared its results with ABC, STBLO, OBWOA and the RMSE attained with SDM, DDM, and TDM in COA method were 7.7547 Â 10 À 4, 7.64801 Â 10 À 4, and 7.59756 Â 10 À 4, respectively; wherein the TGA algorithm produced 9.280171173 Â 10 À 04,…”

Section: Jaya Algorithmmentioning

confidence: 99%

Review on parameter estimation techniques of solar photovoltaic systems

Venkateswari

Rajasekar

2021

Int Trans Electr Energ Syst

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Beyond meeting power demand, switching to solar energy especially solar photovoltaic (PV) offers many advantages like modularity, minimal maintenance, pollution free, and zero noise. Yet, its cell modeling is critical in design, simulation analysis, evaluation, and control of solar PV system; most importantly to tap its maximum potential. However, precise PV cell modeling is complicated by PV nonlinearity, presence of large unknown model parameter, and absence of a unique method. Since number of model parameters involved is directly related to model accuracy, and efficiency; determination of its values assume high priority. Besides, application of meta-heuristic algorithms via numerical extraction is popular as it suits for any PV cell/module types and operating conditions. However, existence of many algorithms have drawn attention toward assessment of each method based on its merits, demerits, suitability/ability to parameter estimation problem, and complexity involved. Hence, few authors reviewed the subject of PV model parameter estimation.But existing reviews focused on comparative analysis of analytical and metaheuristic approaches, analysis of models, and application of meta-heuristic methods for model parameter extraction. Thus, lack a comprehensive analysis on methods based on different objective function, assessment on

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Section: Jaya Algorithmmentioning

confidence: 99%

Review on parameter estimation techniques of solar photovoltaic systems

Venkateswari

Rajasekar

2021

Int Trans Electr Energ Syst

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“…In comparison with DDM, the PV module consumes more execution time as it is required to extract more parameters than DDM. The difference between the cost functions in the two models is relatively small [47]. In the following subsections, the equivalent circuit model of SDM, DDM, and PV module models will be shown.…”

Section: Equivalent Circuit Model Of Pv Cell/modulementioning

confidence: 99%

A Novel Solution Methodology Based on a Modified Gradient-Based Optimizer for Parameter Estimation of Photovoltaic Models

et al. 2021

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In this paper, a modified version of a recent optimization algorithm called gradient-based optimizer (GBO) is proposed with the aim of improving its performance. Both the original gradient-based optimizer and the modified version, MGBO, are utilized for estimating the parameters of Photovoltaic models. The MGBO has the advantages of accelerated convergence rate as well as avoiding the local optima. These features make it compatible for investigating its performance in one of the nonlinear optimization problems like Photovoltaic model parameters estimation. The MGBO is used for the identification of parameters of different Photovoltaic models; single-diode, double-diode, and PV module. To obtain a generic Photovoltaic model, it is required to fit the experimentally obtained data. During the optimization process, the unknown parameters of the PV model are used as a decision variable whereas the root means squared error between the measured and estimated data is used as a cost function. The results verified the fast conversion rate and precision of the MGBO over other recently reported algorithms in solving the studied optimization problem.

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“…A triple-phase teaching-learning-based optimization (TPTLBO) [24], Coyote Optimization Algorithm (COA) [25], an interval branch and bound algorithm [26] Tree Growth Algorithm (TGA) [27], are applied to extract the parameters of different PV models of the three models. shuffled complex evolution (SCE) [28] technique was developed for only extracting the intrinsic parameters of the PVTDM.…”

Section: Introductionmentioning

confidence: 99%