Qualcuno di voi ha fatto qualcosa di simile e vuole scambiare qualche idea?
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% #1 funzione per Chorus con AM ed FM
fc = 0.29; % Carrier Freq (Hz)
fm = 0.085; % Modulating Signal Freq (Hz)
m = 9; % Modulation Index
t = linspace(0, 10, 2^14); % Number of samples
y = -0.45*sin(2*pi*fc*t*0.96) + 0.45*cos(2*pi*fc*t - (m*sin(2*pi*fm*t))) + 0.1*cos(2*pi*fc*t*2.8);
subplot (3,2,1), plot(t,y);
% #2 funzione per panning
fc = 0.69; % Carrier Freq (Hz)
fm = 0.23; % Modulating Signal Freq (Hz)
m = 9; % Modulation Index
t = linspace(0, 10, 2^14); % Number of samples
y = - 0.5*sin(2*pi*fc*t - (m*cos(2*pi*fm*t*0.618))) + 0.5*cos(2*pi*fc*t*2.8 + (m*sin(2*pi*fm*t*0.618)));
subplot (3,2,2), plot(t,y);
% #3 funzione per psycho-flanger
fc = 0.69; % Carrier Freq (Hz)
fm = 0.23; % Modulating Signal Freq (Hz)
m = 1; % Modulation Index
t = linspace(0, 10, 2^14); % Number of samples
y = - 0.5*sin(2*pi*fc*t - (m*cos(2*pi*fm*t*1.32))) -0.5 + abs(cos(2*pi*fc*t*1.32 + (m*sin(2*pi*fm*t*0.618))));
subplot (3,2,3), plot(t,y);
% #4 funzione per dimensione riverbero
fc = 0.69; % Carrier Freq (Hz)
fm = 0.23; % Modulating Signal Freq (Hz)
m = 19; % Modulation Index
p = 0; %numero del plot
t = linspace(0, 10, 2^14); % Number of samples
y = - 0.6*sin(2*pi*fc*t - (m*cos(2*pi*fm*t*1.32))) + 0.4*cos(2*pi*fc*t*3 - (m*sin(2*pi*fm*t*1.32)));
subplot (3,2,4), plot(t,y);
% #5 funzione per chorus lento
fc = 0.069; % Carrier Freq (Hz)
fm = 0.023; % Modulating Signal Freq (Hz)
m = 19; % Modulation Index
t = linspace(0, 10, 2^14); % Number of samples
y = - abs(sin(2*pi*fc*t - (m*cos(2*pi*fm*t*1.32)))) + abs(cos(2*pi*fc*t*3 - (m*sin(2*pi*fm*t*1.32))));
subplot (3,2,5), plot(t,y);
% #6 funzione per chorus lento
fc = 1.29; % Carrier Freq (Hz)
fm = 0.385; % Modulating Signal Freq (Hz)
m = 18; % Modulation Index
t = linspace(0, 20, 2^14); % Number of samples
y = cos(2*pi*fc*t - (m*sin(2*pi*fm*t*0.26))) ;
subplot (3,2,6), plot(t,y);