I have been working on a (potentially super simple) assignment in which one of the steps is to get a Fourrier transform. I have followed a guide from my university to transform a wave-sound which can be found here (channels: 2, samples: 17600, sample frequency: 16KHz).
Looking at the graph, it seems to work:
[y,fs,wmode,fidx]=readwav('piano.wav','r',-1,0); left=y(:,1); amountOfSlices = 6; samplesPerSlice = fix(length(left) / 6); frames=enframe(left, samplesPerSlice); frames=transpose(frames); fftdata=rfft(frames); fftdata=fftdata.*conj(fftdata); plot(fftdata);
Next, I created a code file with the tutorial code as a basis with the addition of accepting parameters (which are needed for the assignment, but have been left out for brevity).
samplerate = 512; % Read the file with raw unscaled audio data from begin to end [multiData,fs,wmode,fidx]=readwav(filename,'r',-1,0); disp(sprintf('Number of channels: %d', fidx(5))) disp(sprintf('Number of samples: %d', fidx(4))) disp(sprintf('Sample frequency: %d Hz', fs)) % Extract the left channel of the data leftData = multiData(:, 1); % Slice the left channel into pieces of the size of 'samplerate' samplesPerSlice = samplerate % Splits the leftData vector up into frames of length equal to sample rate slicedLeftData = enframe(leftData, samplerate)'; % Apply the real data fast fourrier transformation on each data slice fftdata=rfft(slicedLeftData); fftdata=fftdata.*conj(fftdata); plot(fftdata);
Do you guys have any idea what I'm doing wrong here?
// EDIT 2012-10-29 // What my actual question is: Why isn't the second data in the frequency domain of 0 to 16.000 Hz? What am I doing wrong?