代码搜索:Raspberry Pi
找到约 10,000 项符合「Raspberry Pi」的源代码
代码结果 10,000
www.eeworm.com/read/196069/8116542
m ex031200.m
n = -5:10; x = sin(pi*n/2);
k = -100:100; w = (pi/100)*k; % frequency between -pi and +pi
X = x * (exp(-j*pi/100)).^(n'*k); % DTFT of x
% signal decomposition
[xe,xo,m] = evenodd(x,n);
www.eeworm.com/read/396243/8118349
m ex0114.m
function x = ex0114(t,D)
global D
%D=1;
t(find(t == 0)) = eps;%zuixiaozhengshu
x = sin(pi*t/D)./(pi*t/D);
www.eeworm.com/read/295931/8133451
c 1cpdv.c
#include "math.h"
void cpdv(pr,pi,m,qr,qi,n,sr,si,k,rr,ri,l)
int m,n,k,l;
double pr[],pi[],qr[],qi[],sr[],si[],rr[],ri[];
{ int i,j,mm,ll;
double a,b,c,d,u,v;
void cmul(doubl
www.eeworm.com/read/295890/8135214
m xianzhen.m
N=12;zpb=40.5%主旁瓣
q=chbe(N,zpb)
c=1500;
f0=1500;
fs=50000;
nfft=512;
A=2;
d=0.4;
n=1:nfft;
w=2*pi*f0;
s=zeros(5,nfft);
y=[];
for x=-pi/2:pi/180:pi/2
tao=d*sin(x)/c;
for i=1:N
www.eeworm.com/read/295890/8135221
m xianzhen.m
N=12;zpb=40.5%主旁瓣
q=chbe(N,zpb)
c=1500;
f0=1500;
fs=50000;
nfft=512;
A=2;
d=0.4;
n=1:nfft;
w=2*pi*f0;
s=zeros(5,nfft);
y=[];
for x=-pi/2:pi/180:pi/2
tao=d*sin(x)/c;
for i=1:N
www.eeworm.com/read/295890/8135228
asv xianzhen.asv
N=12;zpb=40.5%主旁瓣
q=chbe(N,zpb)
c=1500;
f0=1500;
fs=50000;
nfft=512;
A=2;
d=0.4;
n=1:nfft;
w=2*pi*f0;
s=zeros(5,nfft);
y=[];
for x=-pi/2:pi/180:pi/2
tao=d*sin(x)/c;
for i=1:N
www.eeworm.com/read/195671/8136203
java cylinder.java
public class Cylinder{ //圆柱体
private double r; //半径
private double h; //高
public static final double PI=3.14;
public Cylinder(double r,double h){this.r=r;this.h=h;}
public double
www.eeworm.com/read/295753/8142211
pro sin.pro
pro sin
x=findgen(100)
y=sin(6*!pi/100.*x)/exp(x/50)
plot,y
end
www.eeworm.com/read/195529/8145419
cpp gtrigtable.cpp
/*
Copyright (C) 2006, Mike Gashler
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Softw
www.eeworm.com/read/333652/12666989
m chap3_11f.m
function [y]=func(x1,x2,x3)
for l1=1:1:3
gs1=-[(x1+pi/6-(l1-1)*pi/6)/(pi/12)]^2;
u1(l1)=exp(gs1);
end
for l2=1:1:3
gs2=-[(x2+pi/6-(l2-1)*pi/6)/(pi/12)]^2;
u2(l2)=exp(gs2);
end