Power Flow Constrained Unit Commitment Problem Using Improved Shuffled Frog Leaping Algorithm

机译：电流约束单元承诺问题采用改进的混洗蛙跳跃算法

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This paper presents the application of improved SFLA to solve the unit commitment problem including operational and power flow constraints to ensure system security. The SFLA combines both memetic and social behavior of genetic PSO techniques. It includes both deterministic and random techniques for effective use of the search space. The introduction of cognitive component speeds up the local search process by widening the search space. In this proposed model the optimal power flow is carried out for every frog to obtain the minimal operating cost generator scheduling while satisfying the operational and network constraints. Gaussian random noises are introduced for hourly load variations. The proposed algorithm has been applied for IEEE 6 bus and IEEE 30 bus test systems for 24 h. The proposed algorithm is simulated using MATLAB'11 software and the results are quite encouraging because of its excellent convergence.

机译：本文提出了改进的SFLA来解决单位承诺问题，包括运营和电流限制，以确保系统安全性。 SFLA结合了遗传PSO技术的迭代和社会行为。它包括用于有效使用搜索空间的确定性和随机技术。认知组件的引入通过加宽搜索空间来加速本地搜索过程。在该提出的模型中，对每个青蛙进行最佳功率流动，以获得最小的操作成本发生器调度，同时满足操作和网络约束。为每小时负载变化引入高斯随机噪声。所提出的算法已应用于IEEE 6总线和IEEE 30总线测试系统，用于24小时。使用MATLAB'11软件模拟所提出的算法，结果非常令人鼓舞，因为其良好的收敛性。

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《International conference on power electronics and renewable energy systems》|2015年||共11页
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J. Mary Anita; I. Jacob Raglend;
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Shuffled frog leaping algorithm; Frogs; Unit commitment; Economic dispatch; Local search; Integer coded unit commitment; Cognitive component; Optimal power; Optimal power flow; Newton Raphson;

机译：减少青蛙跳跃算法;青蛙;单位承诺;经济调度;本地搜索;整数编码单位承诺;认知组件;最优功率;最佳功率流;牛顿拉文;

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1. Multi Objective Combined Emission Constrained Unit Commitment Problem Using Improved Shuffled Frog Leaping Algorithm [J] . J. MARY ANITA, I. JACOB RAGLEND, D. P. KOTHARI WSEAS Transactions on Systems . 2014,第Pta2期

机译：改进的蛙跳蛙算法实现多目标组合约束单元承诺问题
2. An Improved Shuffled Frog Leaping Algorithm Approach for Unit Commitment Problem [J] . Safwan Al Salaimeh, Amer Abu Zaher Australian Journal of Basic and Applied Sciences . 2011,第12期

机译：单元承诺问题的一种改进的改组蛙跳算法
3. Optimal location of facts devices for solving multi-objective optimal power flow (OPF) using improved shuffled leaping frog algorithm [J] . K. Ravi, M. Rajaram Scientific Research and Essays . 2012,第40期

机译：使用改进的洗牌跳蛙算法求解多目标最优潮流（OF）的事实设备的最优位置
4. Power Flow Constrained Unit Commitment Problem Using Improved Shuffled Frog Leaping Algorithm [C] . J. Mary Anita, I. Jacob Raglend International conference on power electronics and renewable energy systems . 2015

机译：改进的蛙跳蛙跳算法求解潮流约束单元承诺问题
5. Improving Deterministic Reserve Requirements for Security Constrained Unit Commitment and Scheduling Problems in Power Systems. [D] . Wang, Fengyu. 2015

机译：改进电力系统中安全约束单元承诺和调度问题的确定性后备要求。
6. An Effective Hybrid Cuckoo Search Algorithm with Improved Shuffled Frog Leaping Algorithm for 0-1 Knapsack Problems [O] . Yanhong Feng, Gai-Ge Wang, Qingjiang Feng, 2014

机译：一种改进的改进蛙跳算法的混合杜鹃搜索算法解决0-1背包问题
7. Shuffled frog leaping algorithm optimization for AC--DC optimal power flow dispatch [O] . Abolfazl RAHIMINEJAD, Arash ALIMARDANI, Behrooz VAHIDI, 2014

机译：AC - DC最佳功率流量调度随机跨越青蛙跳跃算法优化

Power Flow Constrained Unit Commitment Problem Using Improved Shuffled Frog Leaping Algorithm

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