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AM Demodulation code error

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Matt
Matt on 14 Dec 2023
Commented: Matt on 30 Dec 2023
Ran in:
f_lo = 30e3; % frequency of local oscillator
A_lo = 1; % amplitude of local oscillator
y_lo = A_lo*sin(2*pi*f_lo*time');
Unrecognized function or variable 'time'.
y_demod = y_lo.*filt_received';
demod_sig_FD = fft(y_demod); % calculate frequency domain of audio
demod_sig_FD_amp = abs(demod_sig_FD)/no_of_pnts; % calculate the amplitude of frequency domain
demod_sig_FD_amp_adj = fftshift(demod_sig_FD_amp); % adjust the frequency sides
figure;
semilogy(freq, filt_rec_sig_FD_amp_adj, 'b');
hold on;
semilogy(freq, demod_sig_FD_amp_adj, 'r');
xlim([10, freq_max]);
grid minor;
box on;
xlabel('Frequency (Hz)');
ylabel('Amplitude');
legend('Filtered Received', 'Demodulated');
title('Frequency Domain of Filtered Received and Demodulated Signals');
The Error is:
y_demod = y_lo.*filt_received';
Requested 1102840x20000 (164.3GB) array exceeds maximum array size preference (7.7GB). This might cause MATLAB to become unresponsive.

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Answers (1)

Image Analyst
Image Analyst on 14 Dec 2023
Edited: Image Analyst on 14 Dec 2023
time is a built in function so your use of it is not recommended.
What is filt_received? Specifically what is its size (rows and columns)? If it's a vector, or you think it is, then it might not be the same shape as y_lo. Then with the "automatic expansion" it's making a huge 2-D matrix out of it. You might try turning both factors into column vectors and then doing it.
y_demod = y_lo(:) .* filt_received(:); % Create new column vector.
These are just normal questions that any of the rest of us would ask when debugging code. To learn how to debug: Debugging in MATLAB | Doug's MATLAB Video Tutorials
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Image Analyst
Image Analyst on 14 Dec 2023
Not to me. Why would adding in that comment change anything?
Matt
Matt on 30 Dec 2023
time has originated from my carrier signal code:
mod_ind = 1; % AM modulation index
f_carrier = 550e3; % frequency of carrier sine wave
A_carrier = std(audio)/mod_ind; % amplitude of carrier sine wave
y_carrier = A_carrier*sin(2*pi*f_carrier*time');
carrier_FD = fft(y_carrier); % calculate frequency domain of audio
carrier_FD_amp = abs(carrier_FD)/no_of_pnts; % calculate the amplitude of frequency domain
carrier_FD_amp_adj = fftshift(carrier_FD_amp); % adjust the frequency sides

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