搜索资源列表
ieee30
- This standard IEEE 30 bus test system data in matlab m file.-This is standard IEEE 30 bus test system data in matlab m file.
ORPD
- 基于粒子群算法的无功优化MATLAB源代码,IEEE30节点,希望对大家有帮助-Particle swarm algorithm with reactive power optimization, more practical, we want to help, 14 nodes
powerlossmin
- 本算例为电力系统IEEE30节点以支路有功功率损耗最小为目标的优化算法,采用原对偶内点法对其进行优化。-the minest of powerloss
case30
- IEEE300节点系统的matpower格式数据文件,解压后即可使用-IEEE30-node matpower format data files in the system, after decompression can be used
no2
- 电力系统IEEE30节点的节点阻抗矩阵的形成程序,采用的是支路追加法-Power system IEEE30 node node impedance matrix formation program, using the branch addition method
MCS
- 基于matlab含风电配电网的潮流计算配有ieee30节点配电网-Power flow calculation based on MATLAB wind power distribution network
N-R powerflow
- 使用牛顿-拉夫逊法计算网络潮流包括IEEE14 IEEE30 IEEE50等
U30
- 采用MATLAB编制的IEEE30节点潮流计算(IEEE30 nodal power flow calculation using MATLAB)
IEEE30节点
- 用MATLAB实现基于牛顿拉尔逊法的30节点的电力系统潮流计算(Realization of power flow calculation of 30 node power system based on Newton Raphson method with MATLAB)
MATLAB source code
- 基于粒子群算法的无功优化MATLAB源代码,IEEE30节点(MATLAB source code for reactive power optimization based on particle swarm optimization (PSO), IEEE30 node)
IEEE33
- 用于电力系统有功负荷,无功负荷、节点电压等潮流计算(For power system flow calculation.)
case30
- 用于计算IEEE30的潮流,内含模型参数(Power flow calculation,parameters are all included)
多目标 IEEE30
- 以具体30节点标准系统为例,运用粒子群算法进行仿真计算(Taking the specific 30 node standard system as an example, the particle swarm optimization algorithm is applied to the simulation calculation.)
新建 WinRAR 压缩文件管理器
- 用于潮流计算的经典节点完整数据,可以用原始数据编程,也可以导入matlab直接进行潮流计算(Complete data of classical nodes for power flow calculation can be programmed with raw data or imported into Matlab to calculate power flow directly.)
半动态法节点优化
- 可实现ieee30节点编号的优化,以及利用稀疏技术存储(It can optimize IEEE 30 node number and store it with sparse technology)
潮流计算程序
- matlable中的ieee30节点潮流计算(IEEE 30-node power flow calculation in Matlable)