本文采用禁忌算法进行配电网络重构。
In this paper, TS algorithm is used to realize the network reconfiguration.
配电网络重构是一个复杂的非线性组合优化问题。
Distribution network reconfiguration is a complex and nonlinear combinatorial optimization problem.
介绍了一种配电网络重构的方法——改进最小节点电压法。
A new method of distribution network configuration, improved minimum nodal voltage method, is presented.
介绍了一种配电网络重构的方法——改进最小节点电压法。
A new method of distribution network configuration, improved minimum nodal voltage method, is presented in this paper.
损失最小化的配电网络重构是一个复杂的,大型的组合优化问题。
Distribution network reconfiguration for loss minimization is a complex, large-scale combinatorial optimization problem.
提出了一种基于最短路算法和最小节点电压法的配电网络重构方法。
The paper proposes one method of distribution network reconfiguration based on shortest path algorithm and minimum node voltage algorithm.
配电网络重构和电容器优化配置是进行配电网络优化的两大重要手段。
Distribution network reconfiguration and capacitor optimal placement are the two main methods to optimize the distribution network.
本文首先详细地描述了一种网损最小的配电网络重构算法——支路交换法。
The branch exchange algorithm is one of the methods concerning distribution network reconfiguration to reach loss reduction.
最后,设计了一套配电网重构的实验装置,在这个平台上分别实现了上述两种目标函数的配电网络重构。
At last, a experimental device for distribution network reconfiguration is designed, through which we respectively realized the reconfiguration based on above two objective functions.
建立了配电网络重构的图的多划分模型,提出了基于图的谱划分的算法,用于求解大规模配电网络的馈线间重构问题。
This paper proposes a novel spectral partitioning algorithm, viz. recursive spectral bisection, for weighted graph partitioning that models large scale distribution feeder reconfiguration problem.
配电网络重构是在满足各种运行约束条件下,以网损最小或供电可靠性最高为目标,它是一个典型的非线性整数组合优化问题,常规的数学优化方法难以求解。
The purpose of distribution network reconfiguration is to obtain the minimum network loss and the maximum reliability while meeting all kinds of operational restrictions.
针对配电网络结构和运行特点,提出一种计及安全约束和实际运行约束的支路互换算法,以实现网络优化重构。
An algorithm of branch interchange for realizing of power distribution network optimum reconfiguration is given in this paper, which takes the safety restrain and practical restrain into account.
网络重构和电容器投切是配电自动化的两个重要内容,是配电网降低网损、安全经济运行的重要措施。
Network reconfiguration and capacitor switching are two important measures to decrease network loss and ensure safe and economic operation in power distribution automation.
该算法可以灵活地用于配电网综合规划问题的求解,其子算法也可用于馈线路径规划问题及配电网网络重构问题的求解。
The methodology can be used to solve the integration planning problem of distribution network as well as the route planning of feeder and reconfiguration of distribution network flexibly.
本文还分析了影响配电网可靠性的原因,提出了改善的措施和方法,尤其是采用网络重构的方法来提高可靠性。
Based on it, the reasons that affect the distribution network reliability and the methods that improve it are analyzed and network reconfiguration approach is introduced for reliability improving.
如果能结合配电网络结构的特点进行算法设计,那么在网络重构中将会得到更好的应用。
GA has many speciality in network reconfiguration, it will get more applications in network reconfiguration if it can combine with the distribution system peculiarity.
利用补偿原理对配电网网络重构的最优流模式算法进行改进,以减少潮流计算次数,降低计算量。
This article reports an improved optimal flow pattern algorithm based on compensation principle for distribution network reconfiguration for loss minimization.
利用补偿原理对配电网网络重构的最优流模式算法进行改进,以减少潮流计算次数,降低计算量。
An improved optimal flow pattern algorithm for the network reconfiguration to minimize line losses is presented.
配电网重构随着网络规模的扩大,也存在“维数灾”现象。
Distribution network reconfiguration has the "curse of dimensionality" problem as the network scale expansion.
配电网重构随着网络规模的扩大,也存在“维数灾”现象。
Distribution network reconfiguration has the "curse of dimensionality" problem as the network scale expansion.
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