应用于经济负荷调度问题的一种高效进化算法

Proceedings of the 2015 Third International Conference on Computer, Communication, Control and Information Technology (C3IT) Pub Date : 2015-02-01 DOI:10.1109/C3IT.2015.7060129

S. Hazra, P. Roy, A. Sinha

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引用次数: 15

摘要

针对具有阀点效应的连续非光滑成本函数和多种约束条件下的多燃料选择的经济负荷调度问题，提出了一种基于对立化学反应优化(OCRO)的优化方法。为了加快收敛速度和改善仿真结果，将基于对抗的学习(OBL)与基本的CRO算法相结合。OCRO研究的是化学反应中化学键的形成和断裂。为了展示所提出的对抗性CRO算法的潜力，该算法已应用于两个不同的测试系统，即具有多种燃料选择的10台发电机系统和具有阀点效应和系统传输损耗的40台机组系统。通过与其他现有技术的比较，发现该方案优于文献中现有的其他技术。该方法被认为是解决实际电力系统中ELD问题的一种有前途的替代方法。

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An efficient evolutionary algorithm applied to economic load dispatch problem

An efficient optimization procedure based on oppositional chemical reaction optimization (OCRO) is proposed for the solution of economic load dispatch (ELD) problem with continuous and non-smooth cost function having valve point effect and multi-fuel options with various constraints. To accelerate the convergence speed and improve the simulation results, opposition based learning (OBL) is incorporated with the basic CRO algorithm. OCRO deals with the formation and breaking of chemical bonds in a chemical reaction. To show the potential of the proposed oppositional CRO algorithm, it has been applied to two different test systems namely, a 10-generator system along with multiple fuel options and 40 unit system having valve-point effects and transmission loss in the system. Comparing with the other existing techniques, the current proposal is found better than other techniques available in the literature. The proposed method is considered to be a promising alternative approach for solving the ELD problems in practical power system.

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Proceedings of the 2015 Third International Conference on Computer, Communication, Control and Information Technology (C3IT)

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