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00033 #include "calibration_standalone.h"
00034
00035
00037
00038 void
00039 setInitialIntrinsicParameters (std::vector<SensorDataEntry> &inputData)
00040 {
00041 SensorDataEntry s;
00042 s.sensor = "stoc";
00043 s.camera = "left";
00044 std::vector<SensorDataEntry>::iterator it = find (inputData.begin (), inputData.end (), s);
00045 if (it != inputData.end ())
00046 {
00047 SensorDataEntry *pen = &(*it);
00048 cvmSet (pen->intrinsic, 0, 0, 1338.77747); cvmSet (pen->intrinsic, 0, 1, 0.0); cvmSet (pen->intrinsic, 0, 2, 552.81012);
00049 cvmSet (pen->intrinsic, 1, 0, 0.0); cvmSet (pen->intrinsic, 1, 1, 1338.77747); cvmSet (pen->intrinsic, 1, 2, 374.58749);
00050 cvmSet (pen->intrinsic, 2, 0, 0.0); cvmSet (pen->intrinsic, 2, 1, 0.0); cvmSet (pen->intrinsic, 2, 2, 1.0);
00051 cvmSet (pen->distortion, 0, 0, 0.04920); cvmSet (pen->distortion, 0, 1, -0.20187); cvmSet (pen->distortion, 0, 2, 0.0); cvmSet (pen->distortion, 0, 3, 0.0);
00052 }
00053
00054 s.sensor = "stoc";
00055 s.camera = "right";
00056 it = find (inputData.begin (), inputData.end (), s);
00057 if (it != inputData.end ())
00058 {
00059 SensorDataEntry *pen = &(*it);
00060 cvmSet (pen->intrinsic, 0, 0, 1339.43933); cvmSet (pen->intrinsic, 0, 1, 0.0); cvmSet (pen->intrinsic, 0, 2, 503.67599);
00061 cvmSet (pen->intrinsic, 1, 0, 0.0); cvmSet (pen->intrinsic, 1, 1, 1339.43933); cvmSet (pen->intrinsic, 1, 2, 394.59033);
00062 cvmSet (pen->intrinsic, 2, 0, 0.0); cvmSet (pen->intrinsic, 2, 1, 0.0); cvmSet (pen->intrinsic, 2, 2, 1.0);
00063 cvmSet (pen->distortion, 0, 0, -0.00809); cvmSet (pen->distortion, 0, 1, -0.09067); cvmSet (pen->distortion, 0, 2, 0.0); cvmSet (pen->distortion, 0, 3, 0.0);
00064 }
00065 }
00066
00067
00068 int
00069 main (int argc, char** argv)
00070 {
00071 std::vector<int> badPairs;
00072
00073 double max_admissible_err = FLT_MAX;
00074 if (argc < 2)
00075 {
00076 fprintf (stderr, "Syntax is: %s <file1..N.{jpg,png}*> <options>\n", argv[0]);
00077 fprintf (stderr, " where options are:\n");
00078 fprintf (stderr, " -squares X,Y = use these numbers of squares to define the checkboard pattern\n");
00079 fprintf (stderr, " -sq_size X = square size in mm\n");
00080 fprintf (stderr, "\n");
00081 fprintf (stderr, " -ith X = get only every Xth pair (useful if we have over 100 pairs of recorded images)\n");
00082 fprintf (stderr, "\n");
00083 fprintf (stderr, " -max_err X = ignore a pair if the pixel reprojection error is larger than X (default: MAX_FLT)\n");
00084 fprintf (stderr, "\n");
00085 fprintf (stderr, " -wait X = how much time to wait between each image (default : 0 - wait for a keypress)\n");
00086 fprintf (stderr, "\n");
00087 fprintf (stderr, "* note: the number of files will be parsed as folows: NR-SID-CID.png, where:\n");
00088 fprintf (stderr, " - NR = the actual image pair number\n");
00089 fprintf (stderr, " - SID = a string identifier which defines the sensor used (e.g. stoc, sr4k, etc)\n");
00090 fprintf (stderr, " - CID = a string identifier which defines the camera used (e.g. left, right, intensity, etc)\n");
00091 return (-1);
00092 }
00093
00094
00095 int wait = 0;
00096 ParseArgument (argc, argv, "-wait", wait);
00097
00098 ParseArgument (argc, argv, "-max_err", max_admissible_err);
00099
00100 int sq_size = SQ_SIZE;
00101 ParseArgument (argc, argv, "-sq_size", sq_size);
00102
00103 int ith = 1;
00104 ParseArgument (argc, argv, "-ith", ith);
00105
00106
00107 int nr_sqr_x = NR_SQUARE_X,
00108 nr_sqr_y = NR_SQUARE_Y;
00109 ParseRangeArguments (argc, argv, "-squares", nr_sqr_x, nr_sqr_y);
00110 CvSize checkboard = cvSize (nr_sqr_x, nr_sqr_y);
00111
00112 fprintf (stderr, "Using %d, %d with %d checkboard.\n", nr_sqr_x, nr_sqr_y, sq_size);
00113
00114
00115 std::vector<int> pPNGFileIndices;
00116 pPNGFileIndices = ParseFileExtensionArgument (argc, argv, ".png");
00117
00118 if (pPNGFileIndices.size () == 0)
00119 pPNGFileIndices = ParseFileExtensionArgument (argc, argv, ".jpg");
00120
00121 std::vector<SensorDataEntry> inputData = createSensorEntries (argc, argv, pPNGFileIndices, checkboard, ith);
00122
00123 fprintf (stderr, "Maximum admissible pixel reprojection error for an image: "); fprintf (stderr, "%g\n", max_admissible_err);
00124
00125 setInitialIntrinsicParameters (inputData);
00126
00127
00128 int nr_valid_pairs = 0;
00129 for (unsigned int i = 0; i < inputData.size (); i++)
00130 {
00131 SensorDataEntry *s = &inputData.at (i);
00132 nr_valid_pairs = computeIntrinsicParameters (inputData.at (i), checkboard, sq_size, badPairs,
00133 max_admissible_err, wait);
00134 if (nr_valid_pairs == -1)
00135 return (-1);
00136
00137 computeExtrinsicParameters (inputData.at (i), checkboard, nr_valid_pairs);
00138
00139 fprintf (stderr, " >>> INTRINSIC PARAMETERS for "); fprintf (stderr, "%s-%s\n", s->sensor.c_str (), s->camera.c_str ());
00140 printMatrix (s->intrinsic);
00141 fprintf (stderr, " Camera Distortion Coefficients\n");
00142 printMatrix (s->distortion);
00143 }
00144
00145
00146 int nr_pairs = nr_valid_pairs;
00147 int nums[nr_pairs];
00148 for (int i = 0; i < nr_pairs; i++)
00149 nums[i] = checkboard.height * checkboard.width;
00150
00151 getExtrinsicBetween ("stoc-left", "stoc-right", checkboard, inputData, nr_pairs, nums);
00152 getExtrinsicBetween ("stoc-right", "stoc-left", checkboard, inputData, nr_pairs, nums);
00153
00154 finishUp (inputData);
00155 return (0);
00156 }
