资源列表
power_wind_dfig
- MATLAB模型,双馈风电机组基于最大功率跟踪,低风速超速控制,中风速高风速变桨距控制(DFIG MATLABThe wind turbine and the doubly-fed induction generator (WTDFIG) are shown in the figure called The Wind Turbine and the Doubly-Fed Induction Generator System. The AC/DC/AC converter is divided i
fangzhen chengxv
- 仿真轴承故障的振动信号,显示时域波形和频域波形。(Vibration signals of bearing faults are simulated and time domain waveforms and frequency domain waveforms are displayed.)
PMSM_MTPA_flux_weak_SVPWM_feedforward_2015rb
- 基于MTPA和弱磁控制的永磁同步电机的矢量控制(Vector Control of Permanent Magnet Synchronous Motor Based on MTPA and Flux Weakening Control)
Fourteen_bus
- IEEE14节点MATLAB simulink 仿真(Simulation of IEEE 14-node MATLAB simulink)
数据集
- 本文件为常见聚类算法测试数据集 ,UCI上常用的聚类算法数据集(This document is a common clustering algorithm test data set.)
direct
- 用比幅法测向测向,并进行误差分析,通过4个天线进行测向(Direction finding and direction finding by amplitude comparison method and error analysis are carried out.)
云模型matlab程序
- 云模型matlab程序设计,包含例子,只需修改数据。(Cloud model Matlab programming, including examples, only need to modify the data.)
透镜成像模拟
- 基于物理光学透镜成像原理,利用MATLAB语言编写了仿真程序,制作了GUI界面。(Based on the imaging principle of physical optical lens, the simulation program is written in MATLAB language, and the GUI interface is made.)
matlab
- 运用谱反演原理和模拟退火算法研究水平层状介质的几何和电性参数的联合反演问题。首先,根据谱反演原理,详细推导了地层反射系数序列的计算公式以及反演所需的目标函数,并根据探地雷达波的特点,将计算公式和目标函数中的反射系数序列的奇偶分量用几何和电性参数替代,从而确立了地层几何和电性参数联合反演的思路。然后,结合经典的模拟退火算法和本文中反演问题的特点,提出了改进的模拟退火算法,并将改进后的模拟退火算法应用到谱反演中,从而得到了求解本文问题的反演解法。最后,建立多层地下介质模型并得到理想反射波数据和加噪后
feixingqi
- 四旋翼无人机内环姿态控制、外环位置控制simulink仿真(Simlink simulation of inner-loop attitude control and outer-loop position control for Four-rotor UAV)
gapso
- 在求解装备的资源约束型装配线一类平衡问题时,借助遗传算法和粒子群算法,并对遗传算法和粒子群算法进行改进,利用matlab程序进行优化求解。(The type 1 assembling line balancing problem for certain equipment is sovled with modified genetic-particle swarm optimization algorithm by using matlab languge.)
simulation
- 在求解装备的资源约束型装配线一类平衡问题时,借助遗传粒子群算法进行优化求解,并对遗传粒子群算法进行改进,利用matlab程序进行优化求解。本次结果是进行仿真的结果。(When solving the resource-constrained assembly line balance problem of equipment, the genetic particle swarm optimization algorithm is used to optimize the solution, a