一个UWB发送与接收端仿真程序,文件为M File
上传时间: 2014-12-06
上传用户:xiaodu1124
this directory contains the following: * The acdc algorithm for finding the approximate general (non-orthogonal) joint diagonalizer (in the direct Least Squares sense) of a set of Hermitian matrices. [acdc.m] * The acdc algorithm for finding the same for a set of Symmetric matrices. [acdc_sym.m](note that for real-valued matrices the Hermitian and Symmetric cases are similar however, in such cases the Hermitian version [acdc.m], rather than the Symmetric version[acdc_sym] is preferable. * A function that finds an initial guess for acdc by applying hard-whitening followed by Cardoso s orthogonal joint diagonalizer. Note that acdc may also be called without an initial guess, in which case the initial guess is set by default to the identity matrix. The m-file includes the joint_diag function (by Cardoso) for performing the orthogonal part. [init4acdc.m]
标签: approximate directory algorithm the
上传时间: 2014-01-17
上传用户:hanli8870
WB_BPSK_Analysis.rar:BPSK modulation and link analysis of UWB monocycle and doublet waveforms.Revised 1/2/05-JC.This m file plots the time and frequency waveforms for BPSK 1st and 2nd derivative equations used in UWB system analysis.
标签: WB_BPSK_Analysis modulation and monocycle
上传时间: 2016-11-12
上传用户:邶刖
Hearing test. It using music card to test left and right ear seperately. It contains graphic iterface[*.fig] and m-file. It works fine with 6.5 version of Matlab.
标签: test seperately contains Hearing
上传时间: 2017-03-24
上传用户:源码3
自己编写的QPSK调制与解调,内含matlab-figure-file、matlab-m-file和得出的jpg格式图形!
上传时间: 2013-11-26
上传用户:kiklkook
自己编写的OOK调制与解调,内含matlab-figure-file、matlab-m-file和得出的jpg格式图形!
上传时间: 2017-08-02
上传用户:水中浮云
自己编写的BPSK调制与解调,内含matlab-figure-file、matlab-m-file和得出的jpg格式图形!
上传时间: 2013-12-23
上传用户:330402686
自己编写的BFSK调制与解调,内含matlab-figure-file、matlab-m-file和得出的jpg格式图形!
上传时间: 2013-12-23
上传用户:q123321
自己编写的BDPSK调制与解调,内含matlab-figure-file、matlab-m-file和得出的jpg格式图形!
上传时间: 2014-01-02
上传用户:sclyutian
Matlab 画三维立体图形 The aim of geom3d library is to handle and visualize 3D geometric primitives such as points, lines, planes, polyhedra... It provides low-level functions for manipulating 3D geometric primitives, making easier the development of more complex geometric algorithms. Some features of the library are: - creation of various shapes (3D points, 3D lines, planes, polyhedra...) through an intuitive syntax. Ex: createPlane(p1, p2, p3) to create a plane through 3 points. - derivation of new shapes: intersection between 2 planes, intersection between a plane and a line, between a sphere and a line... - functions for 3D polygons and polyhedra. Polyhedra use classical vertex-faces arrays (face array contain indices of vertices), and support faces with any number of vertices. Some basic models are provided (createOctaedron, createCubeoctaedron...), as well as some computation (like faceNormal or centroid) - manipulation of planar transformation. Ex.: ROT = createRotationOx(THETA); P2 = transformPoint3d(P1, ROT); - direct drawing of shapes with specialized functions. Clipping is performed automatically for infinite shapes such as lines or rays. Ex: drawPoint3d([50 50 25; 20 70 10], 'ro'); % draw some points drawLine3d([X0 Y0 Z0 DX DY DZ]); % clip and draw straight line Some functions require the geom2d package. Additional help is provided in geom3d/Contents.m file, as well as summary files like 'points3d.m' or 'lines3d.m'.
标签: Matlab 画三维立体图形
上传时间: 2015-11-02
上传用户:A1321