/* file: rrgen.c This file is a template for entries in the CinC Challenge 2002 event 1. Replace the functions initialize() and generate() with your own versions, and fill in the information on the next three lines: Author(s) : Organization : email address : This program should compile without errors or warnings using: gcc -Wall rrgen.c -lm See http://www.physionet.org/challenge/2002/ for further information on the CinC Challenge 2002. */ #include #include #include #define SPS 128 /* sampling frequency (determines quantization of RR intervals; see main()) */ /* This function is called once, before generate() is called. See main() for a description of its arguments. */ void initialize(long seed, long tmax) { srand((unsigned int)seed); return; } /* This function is called once per RR interval. It should return the length of the next (simulated) RR interval in seconds. The example code generates samples of a noisy sine wave. */ float generate(void) { float rr; static float t; rr = 0.8 + 0.05*sin(t/5.5) + ((float)rand() - RAND_MAX)/(RAND_MAX*100.0); t += rr; return (rr); } int main(int argc, char **argv) { float t = 0.0; /* sum of intervals since the beginning of the simulation, in seconds */ long ts = 0; /* t, in sample intervals */ long tsp = 0; /* previous value of ts */ long tmax = 24*60*60; /* 24 hours, in seconds */ long seed; /* a 32-bit random variable that can be used to initialize the generator */ long atol(); if (argc < 2) { fprintf(stderr, "usage: %s seed [tmax]\n", argv[0]); exit(1); } seed = atol(argv[1]); if (argc > 2) tmax = atol(argv[2]); initialize(seed, tmax); while ((t += generate()) < tmax) { /* add RR interval to running time */ /* calculate and output a quantized RR interval */ ts = (long)(SPS*t + 0.5); printf("%5.3f\n", (ts - tsp)/((float)SPS)); tsp = ts; } exit(0); }