wav file dft without fft

16 visualizaciones (últimos 30 días)
Min Soo
Min Soo el 8 de Jun. de 2020
Comentada: Rena Berman el 12 de Oct. de 2020
I want wav audio file to dft conversion without fft
  3 comentarios
Rik
Rik el 10 de Jun. de 2020
(retrieved from Google Cache)
Question title:
wav file dft without fft
Question body:
I want wav audio file to dft conversion without fft
Deleted comment (posted on 9 Jun 2020 at 3:31):
yes I want to use only DFT function don't use fft function
Rena Berman
Rena Berman el 12 de Oct. de 2020
(Answers Dev) Restored edit

Iniciar sesión para comentar.

Respuesta aceptada

Ron Fredericks
Ron Fredericks el 10 de Jun. de 2020
Editada: Ron Fredericks el 11 de Jun. de 2020
Hi Seung Hoon LEE:
I produced this MATLAB script to demonstrate calculation of a DFT starting from an mp3 file. Audio files typically have a large number of data points and my DFT function is very slow. So I use a loop reduction factor to speed up the DFT calculation. This parameter and frequency range can be adjusted near top of code. The audio file I use is an mp3 bird call that can be downloaded from xeno-canto.org.
%%
% PURPOSE: Compare fft with dft loop for an audio file
% AUDIO FILE: Use a public domain birdcall from xeno-canto.org
% RESULT: Produce 3 plots: 1) Time domain, 2) FFT, and 3) DFT
% DEVELOPER: http://www.biophysicslab.com/portfolio/matlab-projects/
% DATE: June 6, 2020
%
% REFERENCES:
% "Signal Processing Problems" hosted on Udemy.com
% by Dr. Mike X Cohen, sigprocMXC_SpectBirdcall.m
% "Master the Fourier transform and its applications" hosted on Udemy.com
% by Dr. Mike X Cohen, Fourier_DTFT.m
%
%%
% Load in birdcall (source: https://www.xeno-canto.org/403881).
[bc,fs] = audioread('XC403881.mp3');
% Configuration params for Fourier transforms.
freq_range = [0 8000]; % Hz
dft_loop_reduction = 100; % set to 1 for no reduction (Hint: takes a long time)
% let's hear it!
% soundsc(bc,fs)
n = length(bc);
hz = linspace(0,fs/2,floor(n/2)+1);
% Smooth birdcall audio audio for fft & dft
signal = detrend(bc(:,1))'; % transpose here for DFT loop later
% Create a time vector based on the data sampling rate.
timevec = (0:n-1)/fs;
% Plot the data from the two audio file channels.
figure(1), clf
subplot(311)
% Include a small offset for left and right audio channels.
plot(timevec,bsxfun(@plus,bc,[.2 0]))
xlabel('Time (sec.)')
title('Time domain')
set(gca,'ytick',[],'xlim',timevec([1 end]))
%% Compute & plot the power spectrum using MATLAB fft function.
bcpow_fft = abs(fft( signal )/n).^2;
subplot(312)
plot(hz,bcpow_fft(1:length(hz)),'linew',2)
xlabel('Frequency (Hz)')
ylabel('Power');
title(['Frequency domain using FFT with ' num2str(length(bcpow_fft)) ' points']);
set(gca,'xlim',freq_range)
% Make fft and dft y-limits be the same for comparison.
ylim_fft = get(gca,'ylim');
%% Compute & plot the power spectrum using DFT loop.
fourTime = (0:n-1)/n;
fCoefs = zeros(size(signal));
h = waitbar(0,'Please wait for DFT loop...');
% DFT loop is very inefficient, it is used here for demonstration only.
for fi=1:dft_loop_reduction:n
% Create complex sine wave.
csw = exp( -1i*2*pi*(fi-1)*fourTime );
% Compute dot product between sine wave and signal (Fourier coefficients).
fCoefs(fi) = sum( signal.*csw );
% GUI to show progress for long calculation times.
waitbar(fi/n)
end
close(h)
bcpow_dft = abs(fCoefs / n).^2;
subplot(313)
plot(hz,bcpow_dft(1:length(hz)),'linew',2)
xlabel('Frequency (Hz)')
ylabel('Power');
title(['Frequency domain using DFT loop with ' ...
num2str(floor(length(bcpow_dft)/dft_loop_reduction)) ' points']);
set(gca,'xlim',freq_range)
set(gca,'ylim',ylim_fft)
%% done.
Results...

Más respuestas (0)

Categorías

Más información sobre Audio I/O and Waveform Generation en Help Center y File Exchange.

Etiquetas

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by