代码搜索:plotting

找到约 1,607 项符合「plotting」的源代码

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热门代码: main.c GPIO I2C SPI UART timer interrupt ADC PWM LED
www.eeworm.com/read/445823/7589617

m ip_01_04.m

% MATLAB script for Illustrative Problem 4, Chapter 1. echo on n=[-20:1:20]; % Fourier series coefficients of x(t) vector x=.5*(sinc(n/2)).^2; % sampling interval ts=1/40; % time vector t=[-.
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www.eeworm.com/read/442444/7651673

m ip_02_07.m

% MATLAB script for Illustrative Problem 2.7. echo on N=256; % number of samples deltaf=0.1; % frequency separation f=[0:deltaf:(N/2)*deltaf, -(N/2-1)*deltaf:deltaf:-d
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www.eeworm.com/read/442444/7651681

m ip_02_05.m

% MATLAB script for Illustrative Problem 5, Chapter 2. echo on % first part Sx1=[ones(1,32)]; Rx1=ifft(Sx1,32); % second part Sx2=[ones(1,16),zeros(1,224),ones(1,16)]; Rx2=ifft(Sx2,256); % pl
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www.eeworm.com/read/442441/7651691

m ip_01_04.m

% MATLAB script for Illustrative Problem 4, Chapter 1. echo on n=[-20:1:20]; % Fourier series coefficients of x(t) vector x=.5*(sinc(n/2)).^2; % sampling interval ts=1/40; % time vector t=[-.
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www.eeworm.com/read/439811/7701394

m ip_01_04.m

% MATLAB script for Illustrative Problem 4, Chapter 1. clear echo on n=[-20:1:20]; % Fourier series coefficients of x(t) vector x=.5*(sinc(n/2)).^2; % sampling interval ts=1/40; % time vector
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www.eeworm.com/read/439811/7701396

m ip_02_07.m

% MATLAB script for Illustrative Problem 2.7. clear echo on N=256; % number of samples deltaf=0.1; % frequency separation f=[0:deltaf:(N/2)*deltaf, -(N/2-1)*deltaf:de
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www.eeworm.com/read/439811/7701440

m ip_02_05.m

% MATLAB script for Illustrative Problem 5, Chapter 2. clear echo on % first part Sx1=[ones(1,32)]; Rx1=ifft(Sx1,32); % second part Sx2=[ones(1,16),zeros(1,224),ones(1,16)]; Rx2=ifft(Sx2,256)
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www.eeworm.com/read/437115/7755045

m ip_01_04.m

% MATLAB script for Illustrative Problem 4, Chapter 1. echo on n=[-20:1:20]; % Fourier series coefficients of x(t) vector x=.5*(sinc(n/2)).^2; % sampling interval ts=1/40; % time vector t=[-.
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www.eeworm.com/read/398034/8009121

m sa_ex3_4.m

% Example 3.4 plotting the 3-D mesh pattern for cos(theta)^2. fx=inline('cos(theta)^2*sin(theta)*cos(phi)') fy= inline('cos(theta)^2*sin(theta)*sin(phi)') fz = inline('cos(theta)^2*cos(theta)')
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www.eeworm.com/read/397102/8068565

m solvb.m

function [w1,b1,w2,b2,k,tr] = solverb(p,t,tp) %SOLVERB Design radial basis network. % % [W1,B1,W2,B2,TE,TR] = SOLVERB(P,T,DP) % P - RxQ matrix of Q input vectors. % T - SxQ matrix of Q target vec
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