资源列表
UKEF_SOC
- UKEF无迹扩展卡尔曼滤波方法估计动力电缆SOC的模型,在MATLAB/SIMULINK环境下运行-UKEF unscented extended Kalman filter method to estimate power cable SOC model, run under MATLAB/SIMULINK environment
M_Document
- 利用遗传算法计算单层石墨烯上表面波的色散关系-using GA to calculate the spacial relationship of surface plasmon wave on graphene
MFDFA
- 用MFDFA方法做多重分形谱分析,在数学、金融、证券、股市、地震研究、生物数学等诸多方面有用。-Do multi-fractal spectrum analysis through MFDFA method,it s useful in mathematics, finance, securities, stocks, seismic studies, mathematical biology and other aspects.
rvctools
- 程序包用于分析机器人的运动学和动力学,功能强大的MATLAB仿真程序。-Kinematics and dynamics analysis package for robots, powerful MATLAB simulation program.
K-modes
- k-modes聚类算法,其中包含F1-measure、聚类纯度和聚类准确率等评价指标,还有一个测试数据集,直接点击main即可-K- modes clustering algorithms, including purity of F1- measure, clustering and clustering accuracy uation index, and a set of test data, click the main directly
mvdr与drec算法测试
- 通过对旁瓣干扰角度与快拍数进行改进已测试二者性能
gsjcpivm
- FMCW调频连续波雷达的测距测角,各种资源分配算法实现,是本科毕设的题目,多目标跟踪的粒子滤波器,是学习PCA特征提取的很好的学习资料,合成孔径雷达(SAR)目标成像仿真。-FMCW frequency modulated continuous wave radar range and angular measurements, Various resource allocation algorithm, The title of the commercial is undergraduate
OFDM-blind-receiver
- OFDM盲识别仿真的接收端,对OFDM信号进行符号持续时间,循环长度和子载波数量的估计-OFDM blind identification, simulation of the receiving end of OFDM signal symbol duration, cycle length and the subcarrier number of estimates
DG_PSO
- 利用PSO算法求解分布式电源的选址定容问题,并考虑了分布式电源的随机性-Randomness of the PSO algorithm DG locating and sizing issues and considered the DG
hosvd
- 一个很好的matlab源代码——HOSVD,HOSVD算法是通过对张量进行Tucker decomposition后,找出其tensor core,最后对其进行SVD分解。-A good matlab source code SVD, HOSVD algorithm is passed on tensor Tucker decomposition, find out the tensor core, and finally its SVD decomposition.
kuka_test2
- 实现了六自由度机械臂末端探点的多项式插值方式的轨迹规划- Polynomial interpolation method to achieve the six degrees of freedom manipulator end point of the probe trajectory planning
AP_conformalarray.m
- 运用交替投影算法进行波束优化,可控制主瓣宽度及副瓣电平-The alternating projection algorithm is used to optimize the beam, which can control the width of the main lobe and the sidelobe level