Merge branch 'main' of https://github.com/ltcptgeneral/ece45-project
This commit is contained in:
commit
300cf17c70
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App/app.mlapp
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App/app.mlapp
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33
src/Generators/generate_pulse.m
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33
src/Generators/generate_pulse.m
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function x = generate_pulse(amplitude, frequency, phase, fs, duration, duty)
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% GENERATE_puse: returns a matrix of sampled pulse wave
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% CONTRIBUTORS:
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% Brian Tran: Created the wave
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% DOCUMENTATION:
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% phase shift is in number of periods
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% fs is the sampling frequency: how many sample points per second
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% duration is time in seconds
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% duty is a number between 0 and 1
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% initialize local variables from input arguments
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n = fs * duration; % number of samples (length of matrix)
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dt = 1 / fs; % sampling period: time between two sample points
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% initialize a one dimensional zero matrix to be populated
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x = zeros(1, n);
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f0=1e+6; % 1MHz
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Fs=3e+6;
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Tf=0.001; % 1 millisecond
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t=0:1/Fs:Tf-1/Fs;
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td=0.1; % duty cycle
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A0=10; % 10 Volts
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F=0;
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N=1000; % Number of points
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% populate the matrix
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for n = 1:N
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F=F+(1/n)*cos(n*2*pi*f0*t).*sin(n*pi*td);
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end
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F=F*(2*A0/pi);
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F=F+A0*td;
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end
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@ -12,16 +12,30 @@ function output = fade_in(input, time)
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len = length(input);
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len = length(input);
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% need to use whole number for time
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time = round(time);
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% if time parameter longer than signal, treat time as
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% if time parameter longer than signal, treat time as
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% the duration of original signal
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% the duration of original signal
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if time > len
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if time > len
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time = len
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time = len;
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end
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% in order to create array, time >=1
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% if not, it's arbitrarily set to 1
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% in which case the fade_in effect
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% is virtually nonexistent
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if time < 1
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time = 1;
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end
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end
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% set multiplier as 1D array
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% set multiplier as 1D array
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% fade in effect: from no volume to full volume of signal
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% fade in effect: from no volume to full volume of signal
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multiplier = (1 : time) / time;
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multiplier = (1 : time) / time;
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while length(multiplier) < len
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multiplier = [multiplier 1];
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end
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% the resulting fade-in output
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% the resulting fade-in output
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output = input .* multiplier;
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output = input .* multiplier;
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end
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end
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@ -11,18 +11,33 @@ function output = fade_out(input, time)
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len = length(input);
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len = length(input);
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% need to use time as a whole number
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time = round(time);
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% if time parameter longer than signal, treat time as
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% if time parameter longer than signal, treat time as
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% the duration of original signal
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% the duration of original signal
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if time > len
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if time > len
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time = len
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time = len
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end
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end
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% in order to create array, time >=1
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% if not, it's arbitrarily set to 1
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% in which case the fade_in effect
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% is virtually nonexistent
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if time < 1
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time = 1;
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end
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% set multiplier as 1D array
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% set multiplier as 1D array
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multiplier = (1 : time) / time;
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multiplier = (1 : time) / time;
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% fade out effect: from full volume of signal to no volume
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% fade out effect: from full volume of signal to no volume
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multiplier = flip(multiplier)
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multiplier = flip(multiplier);
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while length(multiplier) < len
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multiplier = [multiplier 0];
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end
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% the resulting fade-in output
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% the resulting fade-in output
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output = input .* multiplier;
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output = input .* multiplier;
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26
src/NotWorking/distortion_filter.m
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26
src/NotWorking/distortion_filter.m
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% An audio is distorted based on the value of HIGH. Nothing of a certain
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% threshold should be played above this constant, or they are simply clipped to this
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% value. Inspired from Meghaj_Echo.m and epic_effect_schluep.m.
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% Author: Jason Liang
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function y = distortion_filter(x, HIGH)
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len = length(X);
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X = fft(x);
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X = fftshift(X);
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Y = zeros(1, len);
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for ind = 1:len
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if (X(ind) > HIGH)
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Y(ind) = HIGH;
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elseif (X(ind) < -HIGH)
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Y(ind) = -HIGH;
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else
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Y(ind) = X(ind);
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end
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end
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Y = fftshift(Y);
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y = ifft(Y);
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y = real(y);
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end
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@ -1,26 +1,26 @@
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%Written by Darell
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%Written by Darell, edited by Arthur Lu
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% CONTRIBUTORS:
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% CONTRIBUTORS:
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% Person1: Darell
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% Person1: Darell
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% Person2: Arthur Lu
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% DOCUMENTATION:
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% DOCUMENTATION:
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%Pass-through function used by app
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%Pass-through function used by app
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function output = SoundGeneratorSelect(amplitude, frequency, phase, fs, duration, duty,number)
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function output = SoundGeneratorSelect(amplitude, frequency, phase, fs, duration, duty,number)
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if(number == "Option 1")
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if(number == "Sine")
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output = generate_sine(amplitude, frequency, phase, fs, duration, duty);
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output = generate_sine(amplitude, frequency, phase, fs, duration, duty);
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elseif(number == "Option 2")
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elseif(number == "Square")
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output = generate_square(amplitude, frequency, phase, fs, duration, duty);
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output = generate_square(amplitude, frequency, phase, fs, duration, duty);
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elseif(number == "Option 3")
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elseif(number == "Triangle")
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output = generate_triangle(amplitude, frequency, phase, fs, duration, duty);
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output = generate_triangle(amplitude, frequency, phase, fs, duration, duty);
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elseif(number == "Option 4")
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elseif(number == "Sawtooth")
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output = generate_sawtooth(amplitude, frequency, phase, fs, duration, duty);
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output = generate_sawtooth(amplitude, frequency, phase, fs, duration, duty);
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elseif(number == "Option 5")
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elseif(number == "WhiteNoise")
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output = generate_white(amplitude, fs, duration);
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output = generate_white(amplitude, fs, duration);
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elseif(number == "Option 6")
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elseif(number == "HalfCircle")
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output = generate_halfCircles(amplitude, frequency, phase, fs, duration, duty);
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output = generate_halfCircles(amplitude, frequency, phase, fs, duration, duty);
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else
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else
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output = 0;
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output = zeros(1, fs * duration);
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end
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end
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end
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end
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30
src/distortion_filter.m
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30
src/distortion_filter.m
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% An audio is distorted based on the value of HIGH. Nothing of a certain
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% threshold should be played above this constant, or they are simply clipped to this
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% value. Inspired from Meghaj_Echo.m and epic_effect_schluep.m.
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% Author: Jason Liang
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% Mekhi Ellington: Added some comments and editted formatting
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function y = distortion_filter(x, HIGH)
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len = length(X); %Storing length of X.
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X = fft(x); %X is the Fourier Transform of x.
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X = fftshift(X); %Shifts X.
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Y = zeros(1, len); %Matrix of length containing zeros.
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for ind = 1:len
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if (X(ind) > HIGH)
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Y(ind) = HIGH;
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elseif (X(ind) < -HIGH)
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Y(ind) = -HIGH;
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else
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Y(ind) = X(ind);
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end
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end
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Y = fftshift(Y); %Shifts Y.
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y = ifft(Y); %Inverse Fourier Transform of Y.
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y = real(y); %Stores only the real part of the complex y.
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end
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25
src/generate_cosine.m
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25
src/generate_cosine.m
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function x = generate_cosine(amplitude, frequency, phase, fs, duration, duty)
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% GENERATE_WAVENAME: returns a matrix of sampled WAVENAME wave
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% CONTRIBUTORS:
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% Mekhi Ellington: Original Creator
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% DOCUMENTATION:
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% phase shift is in number of periods
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% fs is the sampling frequency: how many sample points per second
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% duration is time in seconds
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% duty is a number between 0 and 1
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% initialize local variables from input arguments
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n = fs * duration; % number of samples (length of matrix)
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dt = 1 / fs; % sampling period: time between two sample points
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% initialize a one dimensional zero matrix to be populated
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x = zeros(1, n);
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% populate the matrix
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for i = 1:n
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t = i * dt;
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x(i) = amplitude * cos(2*pi*frequency*t-phase);
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end
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end
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55
src/generate_trapezoid.m
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src/generate_trapezoid.m
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function x = generate_trapezoid(amplitude, frequency, phase, fs, duration, duty)
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% GENERATE_TRAPEZOID: returns a matrix of sampled square wave
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% CONTRIBUTORS:
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% Daniel Doan: Author
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% DOCUMENTATION:
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% phase shift is in number of periods
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% fs is the sampling frequency: how many sample points per second
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% duration is time in seconds
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% duty cycle should be a number between 0 and 1.
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% duty of 0.5 would have 2 trapezoids in first half of each cycle
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% example of wave with duty of 0.5, where the peaks are amplitude/2:
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%
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% ____
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% / \
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% / \ ________________
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% \ /
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% \____/
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%
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% initialize local variables from input arguments
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n = fs * duration; % number of samples (length of matrix)
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dt = 1 / fs; % sampling period: time between two sample points
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% initialize a one dimensional zero matrix to be populated
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x = zeros(1, n);
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% populate the matrix
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for i = 1:n
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t = i * dt;
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% periodic ramp from 0 to 1
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% progression through a cycle
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st = mod(frequency * t - phase, 1);
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slope = (amplitude/2) / (duty/8);
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if(st < duty)
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if(st < duty/8 || st > 7*duty/8)
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x(i) = slope * st;
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else
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if(st < 5*duty/8)
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x(i) = amplitude/2 - slope * (st-(3*duty/8));
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end
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if(st < 3*duty/8)
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x(i) = amplitude/2;
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end
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if(st > 5*duty/8)
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x(i) = -amplitude/2;
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end
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end
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end
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end
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end
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