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基于PSO-GA算法的电力系统机组组合研究 被引量:5

PSO-GA algorithms for unit commitment of power system
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摘要 机组组合优化问题是一个大规模、多约束、非线性的混合整数规划问题,因此求解非常困难。粒子群优化(PSO)算法是一类随机全局优化技术,它通过粒子间的相互作用发现复杂搜索空间中的最优区域。PSO算法的优势在于操作简单,可调参数少易于实现而又功能强大。该文采用二进制粒子群优化方法解决机组状态组合问题,用遗传算法结合启发式技术解决经济分配问题,并对最小开停机时间及启停费用进行了处理,使得运算速度大大加快。方法的可行性在10台机组系统中检验。模拟结果表明文章所提出的算法具有收敛速度快及解的质量高等优点。 Unit commitment(UC) is a large scale, muhi-constraints and non-linear hybrid integer programming problems. Particle swarm optimization is a stochastic global optimization technique. It finds optimal regions of complex search spaces through the interaction of individuals in a population of particles. Particle swarm optimization has become the hotspot of evolutionary computation because of its simpleness for implementation, excellent performance and few parameters need to be tuned. The start-up of unit can be solved by the BPSO method, and the economic dispatch(ED) problem can be solved by the GA algorithm uniting heuristic method for the minimization of the production cost. At the same time, the paper proposes a new method on transition and minimum up/down time. The feasibility of the proposed method is demonstrated for 10 unit systems. The simulation results show that the proposed method possesses high convergence speed and high quality solutions.
作者 蒋秀洁 吴永华 杨敏
机构地区 三峡大学电气信息学院 孝昌县供电公司
出处 《继电器》 CSCD 北大核心 2006年第5期34-38,共5页 Relay
关键词 机组组合 电力系统 离散粒子群优化算法 遗传算法 unit commitment power system discrete particle swarm optimization algorithms genetic algorithms
分类号 TM715 [电气工程—电力系统及自动化]
  • 相关文献

参考文献14

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二级参考文献24

  • 1Tomonobu Senjyu, Hirohito Yamashiro, Katsumi Uezato,et al. A Fast Technique for Unit Commitment Problem by Extended Priority List [J]. IEEE Trans on Power Systems.2003,18 (2): 882-888.
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共引文献150

同被引文献77

引证文献5

二级引证文献121

继电器
2006年 第5期

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