How to calculate the spectrum of the message w(t), the spectrum of the carrier c(t), and the spectrum of the received signal v(t), and the spectrum of the envelope?

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Matthew Broussard 2019 年 10 月 18 日

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https://jp.mathworks.com/matlabcentral/answers/486016-how-to-calculate-the-spectrum-of-the-message-w-t-the-spectrum-of-the-carrier-c-t-and-the-spectru

回答済み: Devineni Aslesha 2019 年 10 月 22 日

time =0.33; Ts=1/10000; % sampling interval & time
t=0:Ts: time ; lent=length(t); % define a time vector
fm=20; fc =1000; c=cos(2* pi* fc*t); % define carrier at freq fc
w=10/lent *[1:lent]+cos(2* pi*fm*t); % create ”message” > −1
v=c . *w+c ; % modulate w/ large carrier
fbe=[0 0.05 0.1 1] ; % LPF design
damps=[1 1 0 0] ; f l =100; b=firpm( fl , fbe ,damps ); % impulse response of LPF
envv=(pi/2)* filter(b,1,abs(v)); % find envelope

Using this code, how do I find the spectrum of c(t), v(t), w(t), and envv.

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Answer 1

Devineni Aslesha 2019 年 10 月 22 日

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https://jp.mathworks.com/matlabcentral/answers/486016-how-to-calculate-the-spectrum-of-the-message-w-t-the-spectrum-of-the-carrier-c-t-and-the-spectru#answer_397636

To calculate the spectrum of the carrier signal, use the ‘fft’ function as shown below. The same approach can be followed to calculate the spectrum of the envelope, message and received signals.

% Sampling frequency
fs = 10000; 
cf = fft(c);
P2 = abs(cf/lent);
P1 = P2(1:lent/2+1);
f = fs*(0:(lent/2))/lent;
plot(f, P1);
title('Single sided Amplitude Spectrum of carrier signal');