搜索资源列表
cvx.rar
- 一种用于计算线性规划方面的工具包,可以利用它计算bp算法,a toolbox for linear programming, such as basis pursuit
matlab-moshishibie
- 模式识别代码,包括各种有用的基础代码,用于matlab运行,很有用的。-Pattern recognition code, including the basis for a variety of useful code for matlab to run, very useful.
future_home_code
- This the sorce code in Visual Basic 6 for the future home, controlhome appliances on time basis.-This is the sorce code in Visual Basic 6 for the future home, controlhome appliances on time basis.
3333
- 是计算流体力学水质学习的好程序,具有通用性,适合在此基础上修改使用,肯定对你有用。-Computational fluid dynamics study is a good quality program, versatile, suitable for use on this basis, changes will certainly be useful to you.
dct_cs
- 采用BP算法来实现压缩感知的信号重构示例。BP算法由线性规划来实现,稀疏基为DCT基,信号为语音信号-an example of using BP algorithm for signal reconstruction in compressed sensing. BP algorithm is implemented by linear programming, sparse basis is the DCT basis, the signal used is speech
RBF_OLS
- 此程序是神经网络中径向基函数的OLS算法,在MATLAB中实现。用一个2-n-1结构的RBF网对SISO系统进行建模,网络的两个输入为u(k-1)和y(k-1),输出为 y(k)。令y(0)=0,按飞线性系统产生200个样本,其中前100个样本用于训练,后100个样本用于测试。-This program is the radial basis function neural network of OLS algorithm is implemented in MATLAB. With a 2-n
rbf2
- 径向基函数的matlab原程序,并附有实例以及相关学习文档-Radial basis function matlab original program, together with examples and documentation related to learning
hpc-lib-interduce
- 科学计算常用的基础并行求解软件库介绍PDF-Common basis for scientific computing parallel solving software library introduced PDF
RBF
- 完全用C++实现的RBF(径向基函数)算法,可以用于实际工作和学习中-Entirely in C++ implementation of the RBF (Radial Basis Function) algorithm, can be used for practical work and learning
pos-study-
- :将研究区域划分成许多具有固定长、宽、高且密度均匀的长方体,利用重力的可叠加性,计算了观测点重力异 常,在此基础上形成重力异常的目标函数。把长方体的密度作为参数,采用蚁群算法进行密度反演试验。结果表明该方法 具有一定的科学性和实用性。-: The study area is divided into a number with a fixed length, width, height and density, uniform rectangular, stackable nature
2psk
- 可以仿真出2PSK的误码性能,并以此为基础可以仿真出MPSK的误码性能-2PSK can simulate the error performance, and on this basis can be simulated BER performance of MPSK
seismic_forward
- 地震正演程序,在已有的数值地质模块基础上采用正演模拟公式来对地震波在地下的传播进行模拟,相对描述出地下地层岩性情况。-Seismic forward procedure, the values have been adopted on the basis of geological block formula for forward modeling of seismic wave propagation simulation in the ground, and the relative d
MotorKalman
- 步进电机的MATLAB仿真程序,采用了卡尔曼滤波,对定子电流进行估计,并估算出转子的位置和速度-Continuous time extended Kalman filter simulation for two-phase step motor,Estimate the stator currents, and the rotor position and velocity, on the basis of noisy measurements of the stator currents.
1D-MT
- 大地电磁一维正演程序是电磁法的基础编程,首先设置地电断面然后通过正演模拟电磁场在大地中的传播形式来得到地下地质体的电阻率情况,从而得到地下地质体情况。-One-dimensional magnetotelluric forward modeling process is the basis of electromagnetic program, first set the geoelectric section and then forward modeling electromagnetic
3_list
- 三: 针对带表头结点的单链表,试编写下列函数。 (1) 定位函数Locate:在单链表中寻找第i个结点。若找到,则函数返回第i个结点的地址;若找不到,则函数返回NULL。 (2) 求最大值函数max:通过一趟遍历在单链表中确定值最大的结点。 (3) 统计函数number:统计单链表中具有给定值x的所有元素。 (4) 建立函数create:根据一维数组a[n]建立一个单链表,使单链表中各元素的次序与a[n]中各元素的次序相同,要求该程序的时间复杂性为O(n)。 (5) 整理函数
OpenBTSProject
- OpenBTS 是基于软件的 GSM 接入口,它提供标准的GSM兼容的移动手机,不需使用现成的电话提供商的 [OpenBTS Logo] OpenBTS Logo 接口,来拨打现有电话系统的接口。OpenBTS[1]是以第一个基于开源软件的工业标准的GSM协议栈而闻名。-OpenBTS is a Unix application that uses a software radio to present a GSM air interface to standard 2G G
Daubechies
- 此程序实现构造Daubechies小波基,求解小波尺度函数离散整数点的值和实现尺度函数经伸缩后的离散值采用双尺度方程求解小波基函数-The Program for Daubechies wavelet construction, solving the discrete wavelet scaling function and implementation of an integer point value after scaling function by the expansion of d
k-means
- 基于K-means聚类算法的社团发现方法 先定义了网络中节点关联度,并构建了节点关联度矩阵, 在此基础上给出了一种基于 K-means聚类算法的复杂网络社团发现方法。 以最小关联度原则选取新的聚类中心, 以最大关联度原则进行模式归类,直到所有的节点都划分完为止, 最后根据模块度来确定理想的社团数-K-means clustering algorithm based on the association discovery To define a network node cor
rbf_3
- 三种聚类方法的径向基程序,用matlab编写,希望对你有一点帮助-Radial basis of three clustering procedures, using matlab write, I hope you have a little help
libsvm_guide
- 介绍台大林智仁开发的svm工具箱,很基础很好!-Describes the development of National Taiwan University, Lin Zhiren svm toolbox, it is the basis of good!