Merge pull request #27 from ltcptgeneral/alex

Alex
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@ -57,10 +57,10 @@ where LOW, MED, HIGH are user-selected variables of any value.
## Useful websites
- https://learningsynths.ableton.com
- https://learningsynths.ableton.com/en/playground
- https://blog.demofox.org/diy-synthesizer/
- http://portaudio.com/
- https://ccrma.stanford.edu/software/stk/
- https://cycling74.com/products/max
- http://msp.ucsd.edu/software.html
- [Learning Synths](https://learningsynths.ableton.com)
- [Learning Synths Playground](https://learningsynths.ableton.com/en/playground)
- [DIY Synthesisers](https://blog.demofox.org/diy-synthesizer/)
- [Port Audio (audio I/O library)](http://portaudio.com/)
- [Synthesis ToolKit in C++](https://ccrma.stanford.edu/software/stk/)
- [Max](https://cycling74.com/products/max)
- [Software by Miller Puckette](http://msp.ucsd.edu/software.html)

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src/generate_heartbeat.m Normal file
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function x = generate_heartbeat(amplitude, frequency, phase, fs, duration, duty)
% GENERATE_SINE: returns a matrix of sampled heart monitor wave
% CONTRIBUTORS:
% Alex Nguyen: Original Author
% Conner Hsu: Reviewed Code and Assisted in polishing
% DOCUMENTATION:
% phase shift is in number of periods
% fs is the sampling frequency: how many sample points per second
% duration is time in seconds
% duty cycle should be a number between 0 and 0.5.
% duty of 0 or less would return 0 for all sample points
% duty of 0.5 or less would return a heartbeat signal since there would be
% equal amount of space within 1 period to have the right and left sides be equal
% duty of greater than 0.5 but less than 1 would return a slope starting at that duty i.e.
% the left side but leaving little room to the right side
% duty of between 1 and 2 would give a sawtooth wave in the +amplitude.
% duty greater than 2 would return 0 for all sample points
% initialize local variables from input arguments
n = fs * duration; % number of samples (length of matrix)
dt = 1 / fs; % sampling period: time between two sample points
% initialize a one dimensional zero matrix to be populated
x = zeros(1, n);
% populate the matrix
for i = 1:n
t = i * dt; % time at the i'th sample
st = mod(frequency * t - phase, 1);
if (duty-(duty / 2) < st && st < duty)
slope = amplitude / duty;
intercept = -0.5 * amplitude;
x(i) = slope * st + intercept;
elseif (duty < st && st < duty+(duty / 2))
slope = amplitude / duty;
intercept = -amplitude;
x(i) = slope * st + (1.5 * intercept);
else
x(i) = 0;
end
end