高适应度群体(HFP)与遗传算法求解单位承诺

2017 International Conference on Computer, Communications and Electronics (Comptelix) Pub Date : 2017-07-01 DOI:10.1109/COMPTELIX.2017.8003953

A. S. Rajawat, M. Sharma, V. Sharma

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引用次数: 0

摘要

本文通过在遗传算法(GA)的全局最优解附近或等于全局最优解处播种最优初始高适应度种群(HFP)，提出了一种改进的最优单元承诺(UC)的求解方法。为了更好地指导HFP中剩余的有限最小化选项，提出了一种简单的遗传突变方案，该方案产生有约束的满意种群，处理典型的旋转储备/时间约束，并增加遗传算法的多样性选项，使其接近全局最优。在10-100台机组的1天调度周期系统中验证了算法的性能。测试结果表明，在遗传算法迭代开始之前，解非常接近或接近初始种群所达到的最优值。结果表明，该方案在迭代次数、成本和计算时间等方面优于其他传统方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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High fitness population (HFP) with GA solution for solving unit commitment

This paper presents an improved solution to optimal unit commitment (UC) by seeding best initial high fitness population (HFP) near or equal to global optimum solution to Genetic algorithm (GA). To direct the limited minimization option left in HFP in better way, easy GA mutation scheme is proposed that produces constrained satisfied populations, handle typical spinning reserve/time constraints and increases diversity option for GA to work near global optimum. The proposed algorithm performance is verified for systems of one-day scheduling period for 10–100 generating units. The test results reveal solution very near or close to optimum value achieved in initial population before the GA iteration starts. Result demonstrate the superiority of proposed scheme in term of number of iteration, cost and computation time then any other conventional methods / other computing techniques.

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2017 International Conference on Computer, Communications and Electronics (Comptelix)

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