Difference between revisions of "Ripple Sounds"
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The input parameters are | The input parameters are | ||
*t = time domain array | *t = time domain array | ||
− | *octaves = frequency domain array | + | *octaves = frequency domain array |
*ripples_per_sec = the ripple velocity | *ripples_per_sec = the ripple velocity | ||
*phi = a phase that can be added to the time modulation | *phi = a phase that can be added to the time modulation |
Revision as of 09:31, 16 August 2024
Introduction
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FFT-iFFT method
Below is an example of an implementation in matlab. It is based on a broadband signal consisting of pink noise. The input parameters are
- t = time domain array
- octaves = frequency domain array
- ripples_per_sec = the ripple velocity
- phi = a phase that can be added to the time modulation
- ripples_per_octave = the ripple density
- ripple_type = determines if the ripple is ascending or descending
% create array with pink noise noise = pinknoise(n); % Create modulation for time domain sin_modulation_t = sin(2 * pi * ripples_per_sec * t + phi); cos_modulation_t = cos(2 * pi * ripples_per_sec * t + phi); % Create modulation for frequency domain sin_modulation_f = sin(2 * pi * ripples_per_octave * octaves); cos_modulation_f = cos(2 * pi * ripples_per_octave * octaves); % Mirror the modulation frequency components for ifft compatibility sin_modulation_f = [sin_modulation_f, fliplr(sin_modulation_f)]; cos_modulation_f = [cos_modulation_f, fliplr(cos_modulation_f)]; % apply time modulation to noise, perform fft fft_sin_mod_t = fft(sin_modulation_t .* noise); fft_cos_mod_t = fft(cos_modulation_t .* noise); %apply frequency modulation and perform ifft sin_modulated = ifft(sin_modulation_f .* fft_sin_mod_t, 'symmetric'); cos_modulated = ifft(cos_modulation_f .* fft_cos_mod_t, 'symmetric'); % determine the ripple type (ascending vs. Descending) switch ripple_type case ascending rippleStimulus = sin_modulated + cos_modulated; case descending rippleStimulus = sin_modulated - cos_modulated; end % calculate the modulated stimulus rippleStimulus = noise + modulationDepth * rippleStimulus;
Band filter method
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