Commit e83cb48d authored by Andrey Filippov's avatar Andrey Filippov

TD interscene averaging

parent 66777c19
......@@ -1572,18 +1572,22 @@ public class ImageDtt extends ImageDttCPU {
final double centroid_radius, // 0 - use all tile, >0 - cosine window around local max
final int n_recenter, // when cosine window, re-center window this many times
final double td_weight, // mix correlations accumulated in TD with
final double td_neib_weight, // mix correlations accumulated in TD (neibs)
final double pd_weight, // correlations (post) accumulated in PD
final boolean td_nopd_only, // only use TD accumulated data if no safe PD is available for the tile.
final boolean neib_notd_only, // use neighbors only if individual TD is too weak
final double min_str_nofpn, // = 0.25;
final double min_str_sum_nofpn,// = 0.8; // 5;
final double min_str_neib_nofpn,// = 0.8; // 5;
final double min_str_fpn, // = 0.25;
final double min_str_sum_fpn, // = 0.8; // 5;
final double min_str_neib_fpn, // = 0.8; // 5;
final int min_neibs, // 2; // minimal number of strong neighbors (> min_str)
final double weight_zero_neibs,// 0.2; // Reduce weight for no-neib (1.0 for all 8)
final double half_disparity, // 5.0; // Reduce weight twice for this disparity
final double half_avg_diff, // 0.2; // when L2 of x,y difference from average of neibs - reduce twice
final boolean neibs_nofpn_only, // consolidate neighbors fot non-fpn tiles only!
final boolean neibs_nofpn_only, // consolidate neighbors for non-fpn tiles only!
final boolean redo_both, // use average of neighbors for both pd,td if any of the center tile tests (td, pd) fails
final int min_num_neibs, // plus center, total number >= (min_num_neibs+1)
final double scale_neibs_pd, // scale threshold for the pixel-domain average maximums
......@@ -1725,6 +1729,7 @@ public class ImageDtt extends ImageDttCPU {
boolean [] fpn_mask = null;
double min_str = min_str_nofpn; // higher threshold when FPN is possible
double min_str_sum = min_str_sum_nofpn; // higher threshold when FPN is possible
double min_str_neib = min_str_neib_nofpn; // higher threshold when FPN is possible
boolean is_fpn=false;
if ((fpn_offsets != null) && (fpn_offsets[nTile] != null)) {
double fpn_x = transform_size - 1 - fpn_offsets[nTile][0]; // 0 -> 7.0
......@@ -1743,6 +1748,7 @@ public class ImageDtt extends ImageDttCPU {
}
min_str = min_str_fpn;
min_str_sum = min_str_sum_fpn;
min_str_neib = min_str_neib_fpn;
is_fpn = true;
}
......@@ -1769,13 +1775,6 @@ public class ImageDtt extends ImageDttCPU {
corrs[corrs_len][i] += scale*corrs[isens][i];
}
}
/*
if (use_partial && (isens < (corrs_len - 1))) { // not including sum
for (int i = 0; i < corr_length; i++) {
corrs[corrs_len][i] += scale*corrs[isens][i];
}
}
*/
}
// calculate PD sum of individual sensors correlations if they themselves are not preserved
if (!use_partial && extra_sum && use_full) {
......@@ -1797,33 +1796,12 @@ public class ImageDtt extends ImageDttCPU {
}
if (dcorr_tiles != null) { // This will be visualized (only for visualization?)
// int index_es = getNumSensors() + extra_len;
int index_es = used_sensors_list.length; // last, OK if extra_len==0
//used_sensors_list
// dcorr_tiles[iCorrTile] = new double[getNumSensors()+1 + extra_len][];
dcorr_tiles[iCorrTile] = new double[used_sensors_list.length + extra_len][];
if (extra_sum) {
dcorr_tiles[iCorrTile][index_es] = new double[corr_length];
}
/*
for (int nsens = 0; nsens < used_sensors_list.length; nsens++) { // all but sum
int abs_sens = used_sensors_list[nsens]; // should fork for neibs to full (2 elements)
if (abs_sens >= getNumSensors()) {
abs_sens = getNumSensors(); // last - sum of all sensors
}
if ((abs_sens < getNumSensors()) && extra_sum) {
int fcorr2D_indx = iCorrTile * used_sensors_list.length + nsens;
for (int i = 0; i < corr_length; i++) {
dcorr_tiles[iCorrTile][index_es][i] += scale * gpu_corr_scale * fcorr2D[fcorr2D_indx][i]; // copy one-by-one converting from floats to doubles
}
}
dcorr_tiles[iCorrTile][abs_sens] = new double[corr_length];
int fcorr2D_indx = iCorrTile * used_sensors_list.length + nsens;
for (int i = 0; i < corr_length; i++) {
dcorr_tiles[iCorrTile][abs_sens][i] = gpu_corr_scale * fcorr2D[fcorr2D_indx][i]; // copy one-by-one converting from floats to doubles
}
}
*/
for (int nsens = 0; nsens < used_sensors_list.length; nsens++) { // all but sum
int abs_sens = used_sensors_list[nsens]; // should fork for neibs to full (2 elements)
......@@ -1848,11 +1826,10 @@ public class ImageDtt extends ImageDttCPU {
}
}
}
// final double [][][][] motion_vectors, // [tilesY][tilesX][][] -> [][][num_sel_sensors+1][2]
if (motion_vectors != null) { // TODO: now used only as debug, may be removed later
motion_vectors[nTile] = new double [corrs.length][];
for (int nsens = 0; nsens < corrs.length; nsens++) { // all 18
double min_vstr = (nsens == (corrs_len - 1))? min_str_sum : min_str;
double min_vstr = ((nsens >= used_sensors_list.length) || (used_sensors_list[nsens] < getNumSensors()))? min_str : min_str_sum; // (nsens == (corrs_len - 1))? min_str_sum : min_str;
motion_vectors[nTile][nsens] = Correlation2d.getMaxXYCm(
corrs[nsens], // double [] data,
corr_size, // int data_width, // = 2 * transform_size - 1;
......@@ -1871,7 +1848,8 @@ public class ImageDtt extends ImageDttCPU {
// now calculate only for composite
double [] mv_pd = new double [3];
double [] mv_td = new double [3];
boolean retry_pd=false, retry_td=false;
double [] mv_neib = new double [3];
// boolean retry_pd=false, retry_td=false;
boolean neib_en = !(is_fpn && neibs_nofpn_only);
if ((pd_weight > 0.0) && (indx_sum_pd >=0)) {
mv_pd = Correlation2d.getMaxXYCm( // last, average
......@@ -1884,16 +1862,13 @@ public class ImageDtt extends ImageDttCPU {
false); // boolean debug)
if (mv_pd != null) {
if (mv_pd[2] < min_str) {
if (neib_en && (scale_neibs_pd > 0)) {
retry_pd = mv_pd[2] >= min_str * scale_neibs_pd;
}
mv_pd = null;
} else {
// mv_pd[2] -= min_str;
mv_pd[2] -= min_str * scale_neibs_pd;
}
}
}
if (td_weight > 0.0) {
mv_td = Correlation2d.getMaxXYCm( // pre-last - sharp (in FD)
corrs[indx_sum_td], // corrs.length-2], // double [] data,
......@@ -1905,154 +1880,66 @@ public class ImageDtt extends ImageDttCPU {
false); // boolean debug)
if (mv_td != null) {
if (mv_td[2] < min_str_sum) {
if (neib_en && (scale_neibs_td > 0)) {
retry_td = mv_td[2] >= min_str_sum * scale_neibs_td;
}
mv_td = null;
} else {
// mv_td[2] -= min_str_sum;
mv_td[2] -= min_str_sum * scale_neibs_td;
}
}
}
// calculate averages from neighbors
// will replace corrs[] with averages
/*
if (retry_pd || retry_td) {
if (redo_both) {
retry_pd |= retry_td; // here could be just true
retry_td |= retry_pd; // here could be just true
}
int num_neibs = 1; // center tile itself
// calculate num_neibs first not to bother if there are too few of them if (num_neibs > )
for (int dir = 0; dir < tn.numNeibs(); dir++) {
int nTile1 = tn.getNeibIndex(nTile, dir);
if ((nTile1 >= 0) && (map_corr_indices[nTile1] >= 0)) {
num_neibs++;
}
}
scale = 1.0/getNumSensors();
if (num_neibs > min_num_neibs) {
for (int dir = 0; dir < tn.numNeibs(); dir++) {
int nTile1 = tn.getNeibIndex(nTile, dir);
if ((nTile1 >= 0) && (map_corr_indices[nTile1] >= 0)) {
int iCorrTile1 = map_corr_indices[nTile1];
for (int isens = corrs_len - 1; isens >= 0; isens--) {
int nsens = used_sensors_list.length - corrs_len + isens;
int fcorr2D_indx = iCorrTile1 * used_sensors_list.length + nsens;
if (fcorr2D_indx < 0) {
System.out.println("BUG");
}
for (int i = 0; i < corr_length; i++) { // java.lang.ArrayIndexOutOfBoundsException: Index -1 out of bounds for length 69802
corrs[isens][i] += gpu_corr_scale * fcorr2D[fcorr2D_indx][i]; // copy one-by-one converting from floats to doubles
}
}
// directly accumulating, without preservation of per-sensor data
if (!use_partial && extra_sum) {
for (int nsens = 0; nsens < (used_sensors_list.length - 1); nsens++) {
int fcorr2D_indx = iCorrTile1 * used_sensors_list.length + nsens;
for (int i = 0; i < corr_length; i++) {
corrs[corrs_len][i] += scale * gpu_corr_scale * fcorr2D[fcorr2D_indx][i]; // copy one-by-one converting from floats to doubles
}
}
}
}
}
if (use_partial && extra_sum) {
corrs[corrs_len] = new double [corr_length];
for (int isens = corrs_len - 2; isens >= 0; isens--) {
for (int i = 0; i < corr_length; i++) {
corrs[corrs_len][i] += scale*corrs[isens][i];
}
}
}
// divide by number of neighbors to get averages
double scale_neibs = 1.0/num_neibs;
for (int isens=0; isens < corrs.length; isens++) {
for (int i = 0; i < corr_length; i++) {
corrs[isens][i] *= scale_neibs;
}
}
// zero fpn mask for sum slice
if (is_fpn) {
for (int i = 0; i < corr_length; i++) if (fpn_mask[i]){
corrs[corrs_len - 1][i] = 0.0; // instead of fcorr2D[fcorr2D_indx][indx] = 0;
}
}
// update dcorr_tiles for visualization
// just copy last corrs to last dcorr_tiles[iCorrTile]
if (dcorr_tiles != null) { // This will be visualized (only for visualization?)
int num_dslices = Math.min(corrs.length,dcorr_tiles[iCorrTile].length);
for (int islice = 0; islice < num_dslices; islice++) {
System.arraycopy(
corrs[corrs.length-num_dslices+islice],
0,
dcorr_tiles[iCorrTile][dcorr_tiles[iCorrTile].length-num_dslices+islice],
0,
corrs[corrs.length-num_dslices+islice].length);
}
}
// recalculate motion vectors mv_pd, mv_td with now averaged data
// final double scale_avg_weight = 0.5; // reduce influence of the averaged correlations compared to the single-tile ones
if (retry_pd && (pd_weight > 0.0)) {
mv_pd = Correlation2d.getMaxXYCm( // last, average
corrs[corrs.length-1], // double [] data,
corr_size, // int data_width, // = 2 * transform_size - 1;
centroid_radius, // double radius, // 0 - all same weight, > 0 cosine(PI/2*sqrt(dx^2+dy^2)/rad)
n_recenter, // int refine, // re-center window around new maximum. 0 -no refines (single-pass)
null, // boolean [] fpn_mask,
false, // boolean ignore_border, // only if fpn_mask != null - ignore tile if maximum touches fpn_mask
false); // boolean debug)
if (mv_pd != null) {
if (mv_pd[2] < (min_str * scale_neibs_pd)) {
mv_pd = null;
} else {
mv_pd[2] -= min_str * scale_neibs_pd;
mv_pd[2] *= scale_avg_weight;
}
}
}
// TODO: do the same with td
if (retry_td && (td_weight > 0.0)) {
mv_td = Correlation2d.getMaxXYCm( // pre-last - sharp (in FD)
corrs[corrs.length-2], // double [] data,
if ((td_neib_weight > 0.0) && (indx_sum_td_neib>=0) && (!neib_notd_only || (mv_td == null))) {
mv_neib = Correlation2d.getMaxXYCm( // pre-last - sharp (in FD)
corrs[indx_sum_td_neib], // corrs.length-2], // double [] data,
corr_size, // int data_width, // = 2 * transform_size - 1;
centroid_radius, // double radius, // 0 - all same weight, > 0 cosine(PI/2*sqrt(dx^2+dy^2)/rad)
n_recenter, // int refine, // re-center window around new maximum. 0 -no refines (single-pass)
fpn_mask, // boolean [] fpn_mask,
false, // boolean ignore_border, // only if fpn_mask != null - ignore tile if maximum touches fpn_mask
false); // boolean debug)
if (mv_td != null) {
if (mv_td[2] < (min_str_sum * scale_neibs_td)) {
mv_td = null;
if (mv_neib != null) {
if (mv_neib[2] < min_str_neib) {
mv_neib = null;
} else {
mv_td[2] -= min_str_sum * scale_neibs_td;
mv_td[2] *= scale_avg_weight;
mv_neib[2] -= min_str_neib * scale_neibs_td;
}
}
}
} // if (num_neibs > min_num_neibs) {
if ((mv_td != null) || (mv_pd != null) || (mv_neib != null)) {
double w_pd = (mv_pd != null) ? pd_weight : 0.0;
double w_td = (mv_td != null) ? td_weight : 0.0;
double w_ntd = (mv_neib != null) ? td_neib_weight: 0.0;
if (td_nopd_only && (w_pd > 0)) {
w_td = 0.0;
}
*/
if ((mv_td != null) || (mv_pd != null)) {
if (neib_notd_only && (w_td > 0)) {
w_ntd = 0.0;
}
double sw = w_pd + w_td + w_ntd;
if (sw > 0) { // should always be > 0 ?
w_pd /= sw;
w_td /= sw;
w_ntd /= sw;
double [] mv = new double[3 + (use3D? 2 :0)]; // keep for disparity/strength
if (mv_pd != null) {
/// mv = mv_pd;
if (mv_pd != null) for (int i = 0; i < mv_pd.length; i++) mv[i] += w_pd * mv_pd[i];
if (mv_td != null) for (int i = 0; i < mv_td.length; i++) mv[i] += w_td * mv_td[i];
if (mv_neib != null) for (int i = 0; i < mv_neib.length; i++) mv[i] += w_ntd * mv_neib[i];
/*
/// mv = mv_pd;
System.arraycopy(mv_pd, 0, mv, 0, 3); // keep [3] for optional disparities
// mv[2] *= pd_weight;
if ((mv_td != null) && !td_nopd_only) { // mix
mv[0] = (mv[0] * pd_weight + mv_td[0] * td_weight)/ (pd_weight + td_weight);
mv[1] = (mv[1] * pd_weight + mv_td[1] * td_weight)/ (pd_weight + td_weight);
//mv[2] += mv_td[2] * td_weight;
mv[2] = (mv[2] * pd_weight + mv_td[2] * td_weight)/ (pd_weight + td_weight);
} // mix
} else { // (mv_pd == null) && (mv_td != null) below
/// mv = mv_td;
/// mv = mv_td;
System.arraycopy(mv_td, 0, mv, 0, 3); // keep [3] for optional disparities
//mv[2] *= td_weight;
}
*/
if (mv != null) {
if (pXpYD == null) {
coord_motion[0][nTile] = mv;
......@@ -2066,6 +1953,7 @@ public class ImageDtt extends ImageDttCPU {
}
}
}
}
};
}
startAndJoin(threads);
......
......@@ -222,9 +222,11 @@ public class IntersceneMatchParameters {
// filtering motion vectors
// TD accumulation of the inter-scene correlations demonstrated artifacts (horizontally offset by 8 pixels
// false maximum that is sharper than the real one. Still not understood - maybe float precision related.
public double td_weight = 0.5; // mix correlations accumulated in TD with
public double pd_weight = 0.5; // correlations (post) accumulated in PD
public double td_weight = 0.25; // 0.75; // mix correlations accumulated in TD with
public double td_neib_weight = 0.6; // 0.75; // mix correlations accumulated in TD (neibs)
public double pd_weight = 0.15; // 0.25; // correlations (post) accumulated in PD
public boolean td_nopd_only = false; // true; // only use TD accumulated data if no safe PD is available for the tile.
public boolean neib_notd_only = false; // true; // use neighbors only if individual TD is too weak
// averaging with neighbors for interscene matching
public boolean use_neibs = true; // false; // true;
......@@ -237,10 +239,12 @@ public class IntersceneMatchParameters {
public double scale_avg_weight = 0.5; // reduce influence of the averaged correlations compared to the single-tile ones
public double min_str_fpn = 0.2; // 0.25; // minimal correlation strength for all but TD-accumulated layer
public double min_str_sum_fpn = 0.5; // 0.8; // minimal correlation strength for TD-accumulated layer
public double min_str_sum_fpn = 0.42; // 0.5; // 0.8; // minimal correlation strength for TD-accumulated layer
public double min_str_neib_fpn = 0.5; // 0.8; // minimal correlation strength for TD-accumulated neighbors layer
public double min_str = 0.12; //18; // tiles w/o FPN: minimal correlation strength for all but TD-accumulated layer
public double min_str_sum = 0.2; // 0.33; // tiles w/o FPN: minimal correlation strength for TD-accumulated layer
public double min_str = 0.15; // 12; //18; // tiles w/o FPN: minimal correlation strength for all but TD-accumulated layer
public double min_str_sum = 0.3; // 0.2; // 0.33; // tiles w/o FPN: minimal correlation strength for TD-accumulated layer
public double min_str_neib = 0.3; // 0.33; // tiles w/o FPN: minimal correlation strength for TD-accumulated layer
public int min_neibs = 2; // minimal number of strong neighbors (> min_str)
public double weight_zero_neibs = 0.2; // Reduce weight for no-neib (1.0 for all 8)
......@@ -746,10 +750,14 @@ public class IntersceneMatchParameters {
gd.addMessage ("Mixing TD and PD accumulation of 2d correlations");
gd.addNumericField("TD-accumulated weight", this.td_weight, 5,7,"",
"Mix argmax from TD-accumulated correlation.");
gd.addNumericField("TD-accumulated neighbors weight", this.td_neib_weight, 5,7,"",
"Mix argmax from TD-accumulated neighbors (center plus 8-neighbors) correlation.");
gd.addNumericField("PD-accumulated weight", this.pd_weight, 5,7,"",
"Mix argmax from PD-accumulated correlation.");
gd.addCheckbox ("TD when no PD only", this.td_nopd_only,
"Use argmax from TD only if PD data is not available for this tile.");
gd.addCheckbox ("Use neighbors only if no individual", this.neib_notd_only,
"Use argmax from averaged neighbors TD only if this tile own maximum is not strong enough.");
gd.addMessage ("Averaging inter-scene 2D correlations with 8 immediate neighbors");
gd.addCheckbox ("Use averaging neighbors", this.use_neibs,
......@@ -775,11 +783,17 @@ public class IntersceneMatchParameters {
"Minimal correlation strength for individual correlation and for pixel-domain averaged one. Weeker tiles results are removed.");
gd.addNumericField("Minimal correlation strength (non-sum) w/FPN", this.min_str_fpn, 5,7,"",
"Similar to above, but for small offsets where FPN correlation may be present");
gd.addNumericField("Minimal correlation strength (sum only)", this.min_str_sum, 5,7,"",
"Minimal correlation strength for transform-domain averaging. Weeker tiles results are removed.");
"Minimal correlation strength for transform-domain averaging among sensors. Weeker tiles results are removed.");
gd.addNumericField("Minimal correlation strength (sum only) w/FPN",this.min_str_sum_fpn, 5,7,"",
"Similar to above, but for small offsets where FPN correlation may be present");
gd.addNumericField("Minimal correlation neighbors strength", this.min_str_neib, 5,7,"",
"Minimal correlation strength for transform-domain averaging among sensors and neighbors. Weeker tiles results are removed.");
gd.addNumericField("Minimal correlation neighbors strength w/FPN",this.min_str_neib_fpn, 5,7,"",
"Similar to above, but for small offsets where FPN correlation may be present");
gd.addNumericField("Minimal number of neighbors (of 8)", this.min_neibs, 0,3,"",
"Remove motion vectors with less than this number of defined (passing min_str) neighbors.");
gd.addNumericField("No-neighbors weight (<1.0)", this.weight_zero_neibs, 5,7,"",
......@@ -1199,8 +1213,10 @@ public class IntersceneMatchParameters {
this.centroid_radius = gd.getNextNumber();
this.n_recenter = (int) gd.getNextNumber();
this.td_weight = gd.getNextNumber();
this.td_neib_weight = gd.getNextNumber();
this.pd_weight = gd.getNextNumber();
this.td_nopd_only = gd.getNextBoolean();
this.neib_notd_only = gd.getNextBoolean();
this.use_neibs = gd.getNextBoolean();
this.neibs_nofpn_only = gd.getNextBoolean();
......@@ -1215,6 +1231,8 @@ public class IntersceneMatchParameters {
this.min_str_fpn = gd.getNextNumber();
this.min_str_sum = gd.getNextNumber();
this.min_str_sum_fpn = gd.getNextNumber();
this.min_str_neib = gd.getNextNumber();
this.min_str_neib_fpn = gd.getNextNumber();
this.min_neibs = (int) gd.getNextNumber();
this.weight_zero_neibs = gd.getNextNumber();
this.half_disparity = gd.getNextNumber();
......@@ -1549,8 +1567,10 @@ public class IntersceneMatchParameters {
properties.setProperty(prefix+"min_ref_str", this.min_ref_str+""); // double
properties.setProperty(prefix+"min_ref_frac", this.min_ref_frac+""); // double
properties.setProperty(prefix+"td_weight", this.td_weight+""); // double
properties.setProperty(prefix+"td_neib_weight", this.td_neib_weight+""); // double
properties.setProperty(prefix+"pd_weight", this.pd_weight+""); // double
properties.setProperty(prefix+"td_nopd_only", this.td_nopd_only+""); // boolean
properties.setProperty(prefix+"neib_notd_only", this.neib_notd_only+""); // boolean
properties.setProperty(prefix+"use_neibs", this.use_neibs+""); // boolean
properties.setProperty(prefix+"neibs_nofpn_only", this.neibs_nofpn_only+""); // boolean
......@@ -1565,6 +1585,9 @@ public class IntersceneMatchParameters {
properties.setProperty(prefix+"min_str_fpn", this.min_str_fpn+""); // double
properties.setProperty(prefix+"min_str_sum", this.min_str_sum+""); // double
properties.setProperty(prefix+"min_str_sum_fpn", this.min_str_sum_fpn+""); // double
properties.setProperty(prefix+"min_str_neib", this.min_str_neib+""); // double
properties.setProperty(prefix+"min_str_neib_fpn", this.min_str_neib_fpn+""); // double
properties.setProperty(prefix+"min_neibs", this.min_neibs+""); // int
properties.setProperty(prefix+"weight_zero_neibs", this.weight_zero_neibs+""); // double
properties.setProperty(prefix+"half_disparity", this.half_disparity+""); // double
......@@ -1854,8 +1877,10 @@ public class IntersceneMatchParameters {
if (properties.getProperty(prefix+"min_ref_str")!=null) this.min_ref_str=Double.parseDouble(properties.getProperty(prefix+"min_ref_str"));
if (properties.getProperty(prefix+"min_ref_frac")!=null) this.min_ref_frac=Double.parseDouble(properties.getProperty(prefix+"min_ref_frac"));
if (properties.getProperty(prefix+"td_weight")!=null) this.td_weight=Double.parseDouble(properties.getProperty(prefix+"td_weight"));
if (properties.getProperty(prefix+"td_neib_weight")!=null) this.td_neib_weight=Double.parseDouble(properties.getProperty(prefix+"td_neib_weight"));
if (properties.getProperty(prefix+"pd_weight")!=null) this.pd_weight=Double.parseDouble(properties.getProperty(prefix+"pd_weight"));
if (properties.getProperty(prefix+"td_nopd_only")!=null) this.td_nopd_only=Boolean.parseBoolean(properties.getProperty(prefix+"td_nopd_only"));
if (properties.getProperty(prefix+"neib_notd_only")!=null) this.neib_notd_only=Boolean.parseBoolean(properties.getProperty(prefix+"neib_notd_only"));
if (properties.getProperty(prefix+"use_neibs")!=null) this.use_neibs=Boolean.parseBoolean(properties.getProperty(prefix+ "use_neibs"));
if (properties.getProperty(prefix+"neibs_nofpn_only")!=null) this.neibs_nofpn_only=Boolean.parseBoolean(properties.getProperty(prefix+"neibs_nofpn_only"));
......@@ -1865,11 +1890,13 @@ public class IntersceneMatchParameters {
if (properties.getProperty(prefix+"scale_neibs_pd")!=null) this.scale_neibs_pd=Double.parseDouble(properties.getProperty(prefix+ "scale_neibs_pd"));
if (properties.getProperty(prefix+"scale_neibs_td")!=null) this.scale_neibs_td=Double.parseDouble(properties.getProperty(prefix+ "scale_neibs_td"));
if (properties.getProperty(prefix+"scale_avg_weight")!=null) this.scale_avg_weight =Double.parseDouble(properties.getProperty(prefix+ "scale_avg_weight"));
if (properties.getProperty(prefix+"min_str")!=null) this.min_str=Double.parseDouble(properties.getProperty(prefix+"min_str"));
if (properties.getProperty(prefix+"min_str_fpn")!=null) this.min_str_fpn=Double.parseDouble(properties.getProperty(prefix+"min_str_fpn"));
if (properties.getProperty(prefix+"min_str_sum")!=null) this.min_str_sum=Double.parseDouble(properties.getProperty(prefix+"min_str_sum"));
if (properties.getProperty(prefix+"min_str_sum_fpn")!=null) this.min_str_sum_fpn=Double.parseDouble(properties.getProperty(prefix+"min_str_sum_fpn"));
if (properties.getProperty(prefix+"min_str_neib")!=null) this.min_str_neib=Double.parseDouble(properties.getProperty(prefix+"min_str_neib"));
if (properties.getProperty(prefix+"min_str_neib_fpn")!=null) this.min_str_neib_fpn=Double.parseDouble(properties.getProperty(prefix+"min_str_neib_fpn"));
if (properties.getProperty(prefix+"min_neibs")!=null) this.min_neibs=Integer.parseInt(properties.getProperty(prefix+"min_neibs"));
if (properties.getProperty(prefix+"weight_zero_neibs")!=null) this.weight_zero_neibs=Double.parseDouble(properties.getProperty(prefix+"weight_zero_neibs"));
if (properties.getProperty(prefix+"half_disparity")!=null) this.half_disparity=Double.parseDouble(properties.getProperty(prefix+"half_disparity"));
......@@ -2170,8 +2197,10 @@ public class IntersceneMatchParameters {
imp.min_ref_frac = this.min_ref_frac;
imp.td_weight = this.td_weight;
imp.td_neib_weight = this.td_neib_weight;
imp.pd_weight = this.pd_weight;
imp.td_nopd_only = this.td_nopd_only;
imp.neib_notd_only = this.neib_notd_only;
imp.use_neibs = this.use_neibs;
imp.neibs_nofpn_only = this.neibs_nofpn_only;
......@@ -2186,6 +2215,10 @@ public class IntersceneMatchParameters {
imp.min_str_fpn = this.min_str_fpn;
imp.min_str_sum = this.min_str_sum;
imp.min_str_sum_fpn = this.min_str_sum_fpn;
imp.min_str_neib = this.min_str_neib;
imp.min_str_neib_fpn = this.min_str_neib_fpn;
imp.min_neibs = this.min_neibs;
imp.weight_zero_neibs = this.weight_zero_neibs;
imp.half_disparity = this.half_disparity;
......
......@@ -13146,6 +13146,7 @@ public class OpticalFlow {
//all_fpn
double min_str = all_fpn ? clt_parameters.imp.min_str_fpn : clt_parameters.imp.min_str;
double min_str_sum = all_fpn ? clt_parameters.imp.min_str_sum_fpn : clt_parameters.imp.min_str_sum;
double min_str_neib = all_fpn ? clt_parameters.imp.min_str_neib_fpn : clt_parameters.imp.min_str_neib;
double corr_fz_inter = clt_parameters.getGpuFatZeroInter(ref_scene.isMonochrome());
if (mb_en && (mb_vectors!=null)) { // increase fat zero when there is motion blur
corr_fz_inter *= 8;
......@@ -13189,12 +13190,16 @@ public class OpticalFlow {
clt_parameters.imp.centroid_radius,// final double centroid_radius, // 0 - use all tile, >0 - cosine window around local max
clt_parameters.imp.n_recenter, // final int n_recenter, // when cosine window, re-center window this many times
clt_parameters.imp.td_weight, // final double td_weight, // mix correlations accumulated in TD with
clt_parameters.imp.td_neib_weight, // final double td_neib_weight, // mix correlations accumulated in TD (neibs)
clt_parameters.imp.pd_weight, // final double pd_weight, // correlations (post) accumulated in PD
clt_parameters.imp.td_nopd_only, // final boolean td_nopd_only, // only use TD accumulated data if no safe PD is available for the tile.
clt_parameters.imp.td_nopd_only, // final boolean td_nopd_only , // only use TD accumulated data if no safe PD is available for the tile.
clt_parameters.imp.neib_notd_only, // final boolean neib_notd_only, // use neighbors only if individual TD is too weak
min_str, // final double min_str_nofpn, // = 0.25;
min_str_sum, // final double min_str_sum_nofpn, // = 0.8; // 5;
min_str_neib, // final double min_str_neib_nofpn,
clt_parameters.imp.min_str_fpn, // final double min_str, // = 0.25;
clt_parameters.imp.min_str_sum_fpn,// final double min_str_sum, // = 0.8; // 5;
clt_parameters.imp.min_str_neib_fpn,//final double min_str_neib_fpn,
clt_parameters.imp.min_neibs, // final int min_neibs, // 2; // minimal number of strong neighbors (> min_str)
clt_parameters.imp.weight_zero_neibs, // final double weight_zero_neibs,// 0.2; // Reduce weight for no-neib (1.0 for all 8)
half_disparity, // final double half_disparity, // 5.0; // Reduce weight twice for this disparity
......
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