搜索资源列表
yacha1.rar
- 基于最优流的配电网络重构程序,潮流计算用前推回代法,Flow based on optimal distribution network reconfiguration process, before the trend of the calculation back on behalf of law
yichuansuanfa
- 基于遗传算法的配电网络重构程序。用Visual C++ 编写,很经典。-Based on genetic algorithm for distribution network reconfiguration procedures. Using Visual C++ to prepare, it is classic.
33system
- 33节点的配电网重构程序,基于粒子群算法。相当快速。但是需要再修改源码才可以重新生成数据。-33 node distribution network reconfiguration procedures, based on particle swarm optimization. Pretty fast. But the need to modify the source code before they can re-generate the data.
decode
- 应用遗传算法进行配电网故障后恢复重构,采用二进制编码对重构后结果进行解码的程序-After the application of genetic algorithms reconstruct distribution network fault recovery, using binary encoding to decode the results after reconstruction program
network-reconfiguration
- 一种基于和声搜索算法的配电网重构算法,并在IEEE33节点上进行算例的验证。-Harmony search algorithm based distribution network reconfiguration algorithms and validate numerical example in IEEE33 node.
DNP5
- 计算配电网是否满足的辐射状约束,可以作为配电网重构的其中一个约束。-Calculated radial distribution network meets the constraints
sggg
- 配电网重 构,配电网重 构,配电网重 构,配电网重 构,配电网重构,-Distribution network reconfiguration
2
- 配电网采用二进制粒子群算法进行重构,同时使用普通粒子群算法对接入的DG注入功率进行优化(The distribution network adopts binary particle swarm algorithm to refactor, and the DG injection power is optimized by using the general particle swarm algorithm)
scop
- 用于配电网的重构的混合整数二阶锥规划,利用yamilp工具箱,同时利用了cplex/mosek等求解器求解,配电网示例网架结构较简单。(The mixed integer two order cone programming is used in the distribution network reconfiguration, and the yamilp toolbox is used. At the same time, the cplex/mosek solver is used to
综合程序所有计算结果和数据
- 用于配电网重构的粒子群算法。用了好久整理的(Particle swarm optimization for distribution network reconfiguration)
33jiedianyichuansuanfa
- 用于配电网重构的遗传算法,用了很久整理的(Genetic algorithm for distribution network reconfiguration)
论文粒子群算法的程序和迭代收敛图
- 用于配电网重构的粒子群算法,可以给大家参考(Particle swarm optimization for distribution network reconfiguration)
IEEE33
- 用于配电网重构的粒子群算法,可以供大家参考(Particle swarm optimization for distribution network reconfiguration)
IEEE33DG
- 用于配电网重构的遗传算法,可以供大家参考(Genetic algorithm for distribution network reconfiguration)
qiantuihuidai
- 实现前推回代潮流计算,可以用于配电网重构的目标函数,加入迭代次数限制,以验证完全可用。(The realization of forward backward and forward power flow calculation can be used in the objective function of distribution network reconfiguration, and the iteration number is added to verify that it is c
配电网粒子群算法
- 基于粒子群算法,直流潮流计算实现配电网网架结构重构(Reconfiguration of distribution network structure)
Network reconstruction
- 仿真配电网IEEE33节点,创建群粒子,然后判断是否为环路,利用粒子群算法对网络网络重构。(Simulate the IEEE33 node of the distribution network, create group particles, and then judge whether it is a loop, and use the particle swarm algorithm to reconstruct the network network.)
基于最优流的配电网络重构程序
- 提出了一种基于改进最优流和遗传算法的配电网重构算法.该算法先利用配电网的同胚图将重构问题的全局寻优空间划分为若干子空间,然后利用改进最优流法寻找子空间内的最优解,之后再利用遗传算法搜索全局最优解所在的子空间,从而实现在局部最优解中寻找全局最优解.(A distribution network reconfiguration algorithm based on improved optimal flow and genetic algorithm is proposed. First, the
粒子优化群算法进行配电网络重构
- 配电网网络重构是配电系统极为重要的优化手段.以配电网网损最低为目标函数,结合约束条件确定配电网静态重构的数学模型,提出基于环路编码、分环替代的策略对配电网重构问题进行求解,最后结合IEEE-33节点算例,证明提出的算法,在降低搜索空间,提高寻优成功率和增加寻优效率上都有突出表现.(Distribution network reconfiguration is a very important means of optimization in distribution system. Taking
33节点系统重构程序实现
- 33节点潮流计算,用于IEEE-33节点配电网系统重构程序的实现(33-node power flow calculation for the implementation of IEEE-33-node distribution network system reconstruction program)