The algorithm provides a powerful method for network reconfiguration.
改进后的遗传算法为配电网重构问题提供了一个有力的工具。
In this paper, TS algorithm is used to realize the network reconfiguration.
本文采用禁忌算法进行配电网络重构。
Network reconfiguration is a multi-objective nonlinear combinatorial optimization problem.
网络重构是一个多目标非线性组合优化问题。
So, study the real - time network reconfiguration has the realistic meaning with importance.
因此,研究实时的配电网重构具有重要的现实意义。
Distribution network reconfiguration is a complex and nonlinear combinatorial optimization problem.
配电网络重构是一个复杂的非线性组合优化问题。
So, study the real-time distribution network reconfiguration has the realistic meaning with importance.
因此,研究实时的配电网重构具有重要的现实意义。
The new algorithm is used in IEEE typical network reconfiguration calculation for testing its feasibility.
将该算法应用于IEEE典型算例的网络重构计算,对其进行可行性验证。
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。
An improved optimal flow pattern algorithm for the network reconfiguration to minimize line losses is presented.
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。
The main methods of distribution network optimization are distribution network reconfiguration and capacitor switching.
配电网重构和电容器优化投切是配电网优化的主要措施。
Distribution network reconfiguration for loss minimization is a complex, large-scale combinatorial optimization problem.
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。
The branch exchange algorithm is one of the methods concerning distribution network reconfiguration to reach loss reduction.
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。
Binary Particle Swarm Optimization (BPSO) is applied to solve the problem of distribution network reconfiguration in this paper.
在优化算法上,采用了二进制粒子群算法来进行配电网重构最优方案的搜索。
Distribution network reconfiguration and capacitor optimal placement are the two main methods to optimize the distribution network.
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。
Starting from the core algorithm, the article discussed the distribution network reconfiguration under different objective functions.
本文从中心算法入手,讨论了在不同的目标函数下的配电网重构问题。
Distribution network reconfiguration is a multi - objective , multi - constraint, discrete nonlinear combinatory optimization problem.
配电网重构是一个多目标、 多约束、离散的非线性组合优化问题。
The paper proposes one method of distribution network reconfiguration based on shortest path algorithm and minimum node voltage algorithm.
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。
Usually, the static network reconfiguration applying to the planning field is not competent for the operation problem under continuous time.
通常,静态网络重构只能应用于规划领域,很难胜任具有多个连续时间段落变化特点的运行领域。
Power system restoration; Over-voltage prediction; Node importance; Ant Colony algorithm; Skeleton - network reconfiguration; Load recovery.
电力系统恢复;过电压预测;节点重要性;蚁群算法;网架重构;负荷恢复。
The electrical network reconfiguration of shipboard power system (SPS) is one of the most important methods to restore power supply and improve survivability.
舰船电力系统(SPS)的网络重构是恢复系统故障、提高舰船生命力的重要途径之一。
A method based on improved binary particle swarm optimization (PSO) is proposed for distribution network reconfiguration with the objective of load balancing.
提出了基于改进的二进制粒子群优化算法、以均衡负荷为目标的配电网重构方法。
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。
Network reconfiguration is not only an important method in circulate and control of distribution system, but also an important part of distribution management system.
网络重构是配电系统运行和控制的重要手段,也是配电管理系统的重要组成部分。
GA has many speciality in network reconfiguration, it will get more applications in network reconfiguration if it can combine with the distribution system peculiarity.
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。
The purpose of distribution network reconfiguration is to obtain the minimum network loss and the maximum reliability while meeting all kinds of operational restrictions.
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。
Network reconfiguration and capacitor switching are two important measures to decrease network loss and ensure safe and economic operation in power distribution automation.
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。
At last, a experimental device for distribution network reconfiguration is designed, through which we respectively realized the reconfiguration based on above two objective functions.
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.
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。
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