首页> 外文OA文献 >Hybrid algorithm of differential evolution and evolutionary programming for optimal reactive power flow

【2h】

Hybrid algorithm of differential evolution and evolutionary programming for optimal reactive power flow

机译：最优无功潮流的差分进化与进化规划混合算法

页面导航

摘要
著录项
引文网络
相似文献
相关主题

摘要

Differential evolution (DE) is a promising evolutionary algorithm for solving the optimal reactive power flow (ORPF) problem, but it requires relatively large population size to avoid premature convergence, which will increase the computational time. On the other hand, evolutionary programming (EP) has been proved to have good global search ability. Exploiting this complementary feature, a hybrid algorithm of DE and EP, denoted as DEEP, is proposed in this study to reduce the required population size. The hybridisation is designed as a novel primary-auxiliary model to minimise the additional computational cost. The effectiveness of DEEP is verified by the serial simulations on the IEEE 14-, 30-, 57-bus system test cases and the parallel simulations on the IEEE 118-bus system test case.

机译：差分进化（DE）是解决最佳无功潮流（ORPF）问题的有前途的进化算法，但是它需要相对较大的族群大小以避免过早收敛，这会增加计算时间。另一方面，进化规划（EP）已被证明具有良好的全局搜索能力。利用这一互补特征，本研究提出了DE和EP的混合算法，称为DEEP，以减少所需的人口规模。杂交设计为新颖的主辅模型，以最大程度地减少额外的计算成本。 DEEP的有效性通过在IEEE 14、30、57总线系统测试用例上的串行仿真和在IEEE 118总线系统测试用例上的并行仿真得到验证。

著录项

作者
Chung CY; Liang CH; Wong KP; Duan XZ;
展开▼
作者单位

展开▼
年度 2010
总页数
原文格式 PDF
正文语种 eng
中图分类

相似文献

外文文献
中文文献
专利

1. Hybrid algorithm of differential evolution and evolutionary programming for optimal reactive power flow [J] . Chung C.Y., Liang C.H., Wong K.P., Generation, Transmission & Distribution, IET . 2010,第1期

机译：最优无功潮流的差分进化与进化规划混合算法
2. Optimal reactive power planning using evolutionary algorithms: a comparative study for evolutionary programming, evolutionary strategy, genetic algorithm, and linear programming [J] . Lee K.Y., Yang F.F. IEEE Transactions on Power Systems . 1998,第1期

机译：使用进化算法的无功优化计划：进化规划，进化策略，遗传算法和线性规划的比较研究
3. Optimal reactive power planning using evolutionary algorithms: acomparative study for evolutionary programming, evolutionary strategy,genetic algorithm, and linear programming [J] . Lee K.Y., Yang F.F. IEEE Transactions on Power Systems . 1998,第1期

机译：使用进化算法的最优无功规划：进化规划，进化策略，遗传算法和线性规划的比较研究
4. Power System Optimal Reactive Power Dispatch Using Hybrid Evolutionary Programming [C] . . 2005

机译：基于混合进化规划的电力系统最优无功调度
5. Optimal Power Flow and Network Loadability Using Feedback-Based Self-Adaptive Differential Evolution and Multiobjective Algorithms [D] . Alharbi, Fares Theyab A. 2018

机译：基于反馈的自适应差分进化和多目标算法的最优潮流和网络负荷
6. Optimal power flow using hybrid firefly and particle swarm optimization algorithm [O] . Abdullah Khan, Hashim Hizam, Noor Izzri bin Abdul Wahab, 2020

机译：使用混合萤火虫和粒子群优化算法的最佳功率流量
7. Parallel optimal reactive power flow based on cooperative co-evolutionary differential evolution and power system decomposition [O] . Liang CH, Chung CY, Wong KP, 2007

机译：基于协同协进化差分进化和电力系统分解的并行最优无功潮流

Hybrid algorithm of differential evolution and evolutionary programming for optimal reactive power flow

摘要

著录项

引文网络

相似文献

相关主题

期刊订阅