*
*/
-// Multi-Tracked Path
-
#include <iostream>
#include <fstream>
using namespace std;
-#include "tracker.h"
+#include "mtp_tracker.h"
//////////////////////////////////////////////////////////////////////
-scalar_t detection_score(scalar_t a, scalar_t b, scalar_t score_noise, scalar_t flip_noise) {
- if(drand48() > flip_noise) {
- return a + score_noise * (2.0 * drand48() - 1.0);
+scalar_t noisy_score(scalar_t true_score, scalar_t erroneous_score,
+ scalar_t score_noise, scalar_t flip_noise) {
+ if(drand48() < flip_noise) {
+ return erroneous_score + score_noise * (2.0 * drand48() - 1.0);
} else {
- return b + score_noise * (2.0 * drand48() - 1.0);
+ return true_score + score_noise * (2.0 * drand48() - 1.0);
}
}
int nb_time_steps = 8;
int motion_amplitude = 1;
- Tracker *tracker = new Tracker();
+ MTPTracker *tracker = new MTPTracker();
tracker->allocate(nb_time_steps, nb_locations);
- // We define the spatial structures by stating what are the possible
- // motions of targets, and what are the entrances and the
- // exits.
+ // We define the spatial structure by stating what are the possible
+ // motions of targets, and what are the entrances and the exits.
// Here our example is a 1D space with motions from any location to
// any location less than motion_amplitude away, entrance at
for(int t = 0; t < nb_time_steps; t++) {
for(int l = 0; l < nb_locations; l++) {
- tracker->detection_scores[t][l] = detection_score(-1.0, 1.0, score_noise, flip_noise);
+ tracker->detection_scores[t][l] = noisy_score(-1.0, 1.0, score_noise, flip_noise);
}
}
- // Then we two targets with the typical local minimum:
+ // Then we add two targets with a typical tracking local minimum
//
// * Target A moves from location 0 to the middle, stays there for a
- // while, and comes back, and is strongly detected on the first
+ // while, and comes back. It is strongly detected on the first
// half
//
// * Target B moves from location nb_locations-1 to the middle, stay
- // there for a while, and comes back, and is strongly detected on
+ // there for a while, and comes back. It is strongly detected on
// the second half
int la, lb; // Target locations
if(t < nb_time_steps/2) {
la = t;
lb = nb_locations - 1 - t;
- sa = detection_score(10.0, -1.0, score_noise, flip_noise);
- sb = detection_score( 1.0, -1.0, score_noise, flip_noise);
+ sa = noisy_score(10.0, -1.0, score_noise, flip_noise);
+ sb = noisy_score( 1.0, -1.0, score_noise, flip_noise);
} else {
la = nb_time_steps - 1 - t;
lb = t - nb_time_steps + nb_locations;
- sa = detection_score( 1.0, -1.0, score_noise, flip_noise);
- sb = detection_score(10.0, -1.0, score_noise, flip_noise);
+ sa = noisy_score( 1.0, -1.0, score_noise, flip_noise);
+ sb = noisy_score(10.0, -1.0, score_noise, flip_noise);
}
if(la > nb_locations/2 - 1) la = nb_locations/2 - 1;
tracker->detection_scores[t][lb] = sb;
}
- { // Write down the tracker setting
+ { // Write down the tracker setting, so that we can use it as an
+ // example for the mtp command line
ofstream out_tracker("tracker.dat");
tracker->write(&out_tracker);
}
- // Does the tracking per se
+ // Performs the tracking per se
tracker->track();