求解经济电力调度问题的差分进化算法

IF 1.1 Q2 MATHEMATICS, APPLIED

Numerical Algebra Control and Optimization Pub Date : 2021-01-01 DOI:10.3934/naco.2021042

Pooja

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引用次数: 1

摘要

在电力系统中，经济电力调度问题(EPP)是一个很有影响的优化问题，是一个高度非凸非线性的优化问题。在当前的研究中，差分进化(NDE)的一个新版本被用来解决这个特殊的问题。NDE算法利用自适应控制参数和单一种群结构两个精英特征，增强了局部和全局搜索能力，有效利用了时间和空间。这些概念的综合作用提高了差分进化算法的性能，但不影响解的质量，并平衡了差分进化算法的开发和探索能力。通过对具有功率平衡和发电等约束以及非光滑成本函数的电力系统问题的三个基准案例进行评估，验证了差分进化算法的效率，并与其他优化算法进行了比较。数值结果表明，NDE在所有基准情况下都表现良好，并在收敛速度和效率之间保持平衡。

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A novel differential evolution algorithm for economic power dispatch problem

In power systems, Economic Power dispatch Problem (EPP) is an influential optimization problem which is a highly non-convex and non-linear optimization problem. In the current study, a novel version of Differential Evolution (NDE) is used to solve this particular problem. NDE algorithm enhances local and global search capability along with efficient utilization of time and space by making use of two elite features: selfadaptive control parameter and single population structure. The combined effect of these concepts improves the performance of Differential Evolution (DE) without compromising on quality of the solution and balances the exploitation and exploration capabilities of DE. The efficiency of NDE is validated by evaluating on three benchmark cases of the power system problem having constraints such as power balance and power generation along with nonsmooth cost function and is compared with other optimization algorithms. The Numerical outcomes uncovered that NDE performed well for all the benchmark cases and maintained a trade-off between convergence rate and efficiency.

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来源期刊

Numerical Algebra Control and Optimization MATHEMATICS, APPLIED-

CiteScore

3.10

自引率

0.00%

发文量

期刊介绍： Numerical Algebra, Control and Optimization (NACO) aims at publishing original papers on any non-trivial interplay between control and optimization, and numerical techniques for their underlying linear and nonlinear algebraic systems. Topics of interest to NACO include the following: original research in theory, algorithms and applications of optimization; numerical methods for linear and nonlinear algebraic systems arising in modelling, control and optimisation; and original theoretical and applied research and development in the control of systems including all facets of control theory and its applications. In the application areas, special interests are on artificial intelligence and data sciences. The journal also welcomes expository submissions on subjects of current relevance to readers of the journal. The publication of papers in NACO is free of charge.