Design of Fractional Particle Swarm Optimization Gravitational Search Algorithm for Optimal Reactive Power Dispatch Problems

Khan, Noor Habib; Wang, Yong; Tian, De; Raja, Muhammad Asif Zahoor; Jamal, Raheela; Yasir, Muhammad

doi:10.1109/access.2020.3014211

Cited by 48 publications

(23 citation statements)

References 60 publications

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“…So MWNN is the best choice to solve such complicated models using the global and local search terminologies GAIPA. In future, MWNN-GAIPA can be implemented to solve the fluid dynamic nonlinear systems, biological nonlinear systems, singular higher order differential systems, fractional processing, direction of arrival estimation, power and eneggy systems [53][54][55][56][57][58][59][60][61][62].…”

Section: Discussionmentioning

confidence: 99%

Design of Morlet Wavelet Neural Network for Solving a Class of Singular Pantograph Nonlinear Differential Models

et al. 2021

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The aim of this study is to design a layer structure of feed-forward artificial neural networks using the Morlet wavelet activation function for solving a class of pantograph differential Lane-Emden models. The Lane-Emden pantograph differential equation is one of the important kind of singular functional differential model. The numerical solutions of the singular pantograph differential model are presented by the approximation capability of the Morlet wavelet neural networks (MWNNs) accomplished with the strength of global and local search terminologies of genetic algorithm (GA) and interior-point algorithm (IPA), i.e., MWNN-GAIPA. Three different problems of the singular pantograph differential models have been numerically solved by using the optimization procedures of MWNN-GAIPA. The correctness of the designed MWNN-GAIPA is observed by comparing the obtained results with the exact solutions. The analysis for 3, 6 and 60 neurons are also presented to check the stability and performance of the designed scheme. Moreover, different statistical analysis using forty number of trials is presented to check the convergence and accuracy of the proposed MWNN-GAIPA scheme.

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Section: Discussionmentioning

confidence: 99%

Design of Morlet Wavelet Neural Network for Solving a Class of Singular Pantograph Nonlinear Differential Models

et al. 2021

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“…The consideration of the control variables in the first scenario is 13 and it contains six generators connected at the buses 2, 5, 8, 11 and 13 while the slack bus is connected at bus 1, the range of the generators (Vgt) are between [0. for the current scenario is set in per unit as S = P + jQ = 2.832+ j1.262 pu [78].…”

Section: A Minimazation Of Power Line Losses Tested On Ieee 30 Standard (13 Control Variables)mentioning

confidence: 99%

“…The Table II disclosed the optimal outcomes from the different algorithms such as; HSA [67], DE [65], R-DE [28], MFO [28], GWO [68], FODPSO-EE [66], FPSOGSA [78] are compared to the proposed FPSOGSA-Entropy algorithm for optimal reactive power dispatch problem. The reduction in power line losses % are given in Table III The Fig.…”

Section: A Minimazation Of Power Line Losses Tested On Ieee 30 Standard (13 Control Variables)mentioning

confidence: 99%

Application of Shannon Entropy Implementation Into a Novel Fractional Particle Swarm Optimization Gravitational Search Algorithm (FPSOGSA) for Optimal Reactive Power Dispatch Problem

et al. 2021

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Optimal reactive power dispatch (ORPD) intended for reducing the real power losses of the transmission scheme remains one of the supreme concerns for the research community to explore the competence of power schemes. Numerous systems have been deliberate to increase the performance of the optimization method in tunning the operational variables as well as explored through estimating the final results. The research offering a novel approach based on the entropy evolution technique implemented into Fractional PSOGSA algorithm to solve the optimal reactive power dispatch problem. To alleviate the drawback of PSOGSA the fractional and entropy techniques are implemented into the algorithm which enhanced memory effect, stability and robustness of the algorithm. The novel design of FPSOGSA-Entropy is further tested for the optimal reactive power dispatch problems on IEEE-30 and IEEE-57 bus standards to find the two objective functions; minimization of power line losses and voltage deviation. The superior performance of the proposed FPSOGSA-Entropy is further verified with the results of simple FPSOGSA for both single and multiple runs through comparative analysis study with state of art counterparts for each scenario of optimal reactive power dispatch problems.

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“…e factors affecting the generation of Newton iterative graphics mainly include the type of the iterative function and the value of the parameters p and q and the selected Newton iterative graphics part in the design of fractal art graphics. 6 Complexity rough experiments and analysis and summary, some regular trends of Newton iterative graph changes can be grasped, and Newton iterative graphs with special texture effects can be generated.…”

Section: E Influence Of Iterative Function and Parameter Changes On The Generation Of Newton Iterative Graphmentioning

confidence: 99%

“…In foreign countries, the research on fractal art is mainly based on scientists, and artists' attention to this field is not very common [5]. e research of fractal art has always had its own system and development history, which is particularly prominent in design education [6]. Reason education has been mentioned in art education for a long time, and geometry is even regarded as one of the foundations of art design teaching [7].…”

Section: Introductionmentioning

confidence: 99%

Improved Newton Iterative Algorithm for Fractal Art Graphic Design

Chen

Zheng

2020

Complexity

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Fractal art graphics are the product of the fusion of mathematics and art, relying on the computing power of a computer to iteratively calculate mathematical formulas and present the results in a graphical rendering. The selection of the initial value of the first iteration has a greater impact on the final calculation result. If the initial value of the iteration is not selected properly, the iteration will not converge or will converge to the wrong result, which will affect the accuracy of the fractal art graphic design. Aiming at this problem, this paper proposes an improved optimization method for selecting the initial value of the Gauss-Newton iteration method. Through the area division method of the system composed of the sensor array, the effective initial value of iterative calculation is selected in the corresponding area for subsequent iterative calculation. Using the special skeleton structure of Newton’s iterative graphics, such as infinitely finely inlaid chain-like, scattered-point-like composition, combined with the use of graphic secondary design methods, we conduct fractal art graphics design research with special texture effects. On this basis, the Newton iterative graphics are processed by dithering and MATLAB-based mathematical morphology to obtain graphics and then processed with the help of weaving CAD to directly form fractal art graphics with special texture effects. Design experiments with the help of electronic Jacquard machines proved that it is feasible to transform special texture effects based on Newton's iterative graphic design into Jacquard fractal art graphics.

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Design of Fractional Particle Swarm Optimization Gravitational Search Algorithm for Optimal Reactive Power Dispatch Problems

Cited by 48 publications

References 60 publications

Design of Morlet Wavelet Neural Network for Solving a Class of Singular Pantograph Nonlinear Differential Models

Design of Morlet Wavelet Neural Network for Solving a Class of Singular Pantograph Nonlinear Differential Models

Application of Shannon Entropy Implementation Into a Novel Fractional Particle Swarm Optimization Gravitational Search Algorithm (FPSOGSA) for Optimal Reactive Power Dispatch Problem

Improved Newton Iterative Algorithm for Fractal Art Graphic Design

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