原理参考:Natural sounding artificial reverberation
combFilter.m:
function output = combFilter(delay, gain, input)
fs = 48000;
delaySample = int32(delayTime * fs / 1000);
B = [1 zeros(1, delaySample - 1)];
A=[1 zeros(1, delaySample - 2) -gain];
output = filter(B, A, input);
end
calcCombGain.m:
function gain = calcCombGain(reverbTime, delayTime)
gain = power(10, -3 * delayTime / reverbTime)
end
allPassFilter.m:
function output = allPassFilter(delay, gain, input)
fs = 48000;
delaySample = int32(delayTime * fs / 1000);
B = [-gain zeros(1, delaySample - 2) 1];
A=[1 zeros(1, delaySample - 2) -gain];
output = filter(B, A, input);
end
reverb.m:
function output = reverb(combDelayTime, combGain, allPassDelayTime, allPassGain, input)
y = zeros(length(input), 4);
combOut = zeros(length(input), 1);
for i = 1:1:4
y(:, i) = combFilter(combDelayTime(i), combGain(i), input);
combOut = combOut + y(:, i);
end
allPassOut1 = allPassFilter(allPassDelayTime(1), allPassGain(1), combOut);
output = allPassFilter(allPassDelayTime(2), allPassGain(2), allPassOut1);
output = output * 0.25 + input;
end
main.m:
clc
clear
T60 = 2000;
combDelayTime = [29.23 37.67 41.49 44.31];
combGain = calcCombGain(T60, combDelayTime);
allPassDelayTime = [5 1.7];
allPassGain = [0.7 0.7];
%input = [1, zeros(48000-1, 1)];
[input fs] = wavread('test.wav');
y = reverb(combDelayTime, combGain, allPassDelayTime, allPassGain, input);
wavwrite(y, fs, 'reverb.wav');
figure(1)
plot(y)