代码搜索:Generates
找到约 10,000 项符合「Generates」的源代码
代码结果 10,000
www.eeworm.com/read/198548/7928448
m movcw4at.m
function M=movcw4at(N,Np);
%MOVCW4AT Four atoms rotating, analyzed by the Choi-Williams distribution.
% M=MOVCW4AT(N,Np) generates the movie frames illustrating the passage
% from the spectrogram to
www.eeworm.com/read/198545/7929147
m chisqr.m
function r = chisqr(m,n,v)
%CHISQR Random deviates from the chi-square distribution.
% CHISQR(M,N,V) generates an MxN matrix of random deviates from
% the chi-squared distribution on V degrees of f
www.eeworm.com/read/197875/7964748
c alg33.c
#include
#include
#include
/*
* generates:
elements: 1 3 4 5 7 8 9
partial sum of elements:
1 4 8 13 20 28 37
partial sum of elements using tim
www.eeworm.com/read/197875/7964752
c alg37.c
#include
#include
#include
#include
/* generates:
original vector sequence:
0 1 0 2 0 3 0 4 0 5
vector after remove, without applying e
www.eeworm.com/read/197875/7964772
c alg8.c
#include
#include
#include
#include
/* generates:
array element sequence after sort:
12 15 17 19 20 22 23 26 29 35 40 51
equal_range result
www.eeworm.com/read/197875/7964783
c alg4.c
#include
#include
#include
#include
/* generates:
0 1 1 3 5 8 13
shifting array sequence left by 1:
1 1 3 5 8 13 13
shifting vector
www.eeworm.com/read/197649/7982956
m nspunfilt.m
function [h,xs,w] = nspunfilt(data,nyy,t0,t1)
% The function NSPUNFILT generates the HHT spectrum
% of data(n,k) in time-frequency space, where
% n specifies the length of time series, and
% k
www.eeworm.com/read/197649/7982966
m nspeunfilt.m
function [h,xs,w] = nspeunfilt(data,nyy,t0,t1)
% The function NSPEUNFILT generates an improved HHT spectrum
% of data(n,k) in time-frequency space, where
% n specifies the length of time series,
www.eeworm.com/read/197649/7982986
m sawt.m
function z=sawt(t)
% The function SAWT generates a triangle saw tooth function.
%
% Calling sequence-
% z=sawt(t)
%
% Input-
% t - column vector data t(n)
% Output-
% z - column vector da
www.eeworm.com/read/297900/7986063
m amrect.m
function y = amrect(N,t0,T);
%AMRECT Generate rectangular amplitude modulation.
% Y = AMRECT(N,T0,T) generates a rectangular amplitude modulation
% centered on a time T0, and with a spread proportion