Cleaning up, debugging blue sky

src/main/java/com/elphel/imagej/cameras/CLTParameters.java

@@ -385,6 +385,7 @@ public class CLTParameters {
 	public double     photo_offs =                 21946;    // weighted average offset target value, if photo_offs_set (and not photo_offs_balance)
 	
 	public boolean    photo_debug =                   false;// Generate images and text
+	public boolean    photo_each_debug =              false;// Debug after Blue Sky
 	
 	public double     tex_disp_adiffo =               0.10; // 0.35; // 0.3;  disparity absolute tolerance to connect in ortho directions 
 	public double     tex_disp_rdiffo =               0.08; // 0.12; // 0.1;  disparity relative tolerance to connect in ortho directions
@@ -448,6 +449,8 @@ public class CLTParameters {
 	public double     maxZ              = 20000;  // maximal distance to far object
 	public boolean    limitZ            = true;   // limit Z, if false - remove triangle
 	public double     infinityDistance  = 10000;  // Distance to generate backdrop (0 - use regular backdrop)
+	public double     min_from_inf =      500;    // farthest non-infinity closer than infinity
+	
 	public int        min_bgnd_tiles    = 10;     // Minimal number of background tiles to generate background
 
 	public boolean    gltf_emissive =     false; // true;   // Use emissive textures
@@ -1487,6 +1490,7 @@ public class CLTParameters {
 		properties.setProperty(prefix+"photo_offs_set",             this.photo_offs_set+"");      // int
 		properties.setProperty(prefix+"photo_offs",                 this.photo_offs+"");          // double
 		properties.setProperty(prefix+"photo_debug",                this.photo_debug+"");         // boolean
+		properties.setProperty(prefix+"photo_each_debug",           this.photo_each_debug+"");         // boolean
 		
 		properties.setProperty(prefix+"tex_disp_adiffo",            this.tex_disp_adiffo+"");     // double
 		properties.setProperty(prefix+"tex_disp_rdiffo",            this.tex_disp_rdiffo+"");     // double
@@ -1551,6 +1555,7 @@ public class CLTParameters {
 		properties.setProperty(prefix+"limitZ",                     this.limitZ+"");
 		
 		properties.setProperty(prefix+"infinityDistance",           this.infinityDistance +"");
+		properties.setProperty(prefix+"min_from_inf",               this.min_from_inf +"");
 		properties.setProperty(prefix+"min_bgnd_tiles",             this.min_bgnd_tiles+"");
 
 		properties.setProperty(prefix+"gltf_emissive",              this.gltf_emissive+"");
@@ -2467,6 +2472,7 @@ public class CLTParameters {
 		if (properties.getProperty(prefix+"photo_offs_set")!=null)       this.photo_offs_set=Integer.parseInt(properties.getProperty(prefix+"photo_offs_set"));		
 		if (properties.getProperty(prefix+"photo_offs")!=null)           this.photo_offs=Double.parseDouble(properties.getProperty(prefix+"photo_offs"));
 		if (properties.getProperty(prefix+"photo_debug")!=null)          this.photo_debug=Boolean.parseBoolean(properties.getProperty(prefix+"photo_debug"));		
+		if (properties.getProperty(prefix+"photo_each_debug")!=null)     this.photo_each_debug=Boolean.parseBoolean(properties.getProperty(prefix+"photo_each_debug"));		
 		
 		if (properties.getProperty(prefix+"tex_disp_adiffo")!=null)      this.tex_disp_adiffo=Double.parseDouble(properties.getProperty(prefix+"tex_disp_adiffo"));
 		if (properties.getProperty(prefix+"tex_disp_rdiffo")!=null)      this.tex_disp_rdiffo=Double.parseDouble(properties.getProperty(prefix+"tex_disp_rdiffo"));
@@ -2530,6 +2536,7 @@ public class CLTParameters {
 		if (properties.getProperty(prefix+"limitZ")!=null)                        this.limitZ=Boolean.parseBoolean(properties.getProperty(prefix+"limitZ"));
 		
 		if (properties.getProperty(prefix+"infinityDistance")!=null)              this.infinityDistance=Double.parseDouble(properties.getProperty(prefix+"infinityDistance"));
+		if (properties.getProperty(prefix+"min_from_inf")!=null)                  this.min_from_inf=Double.parseDouble(properties.getProperty(prefix+"min_from_inf"));
 		if (properties.getProperty(prefix+"min_bgnd_tiles")!=null)                this.min_bgnd_tiles=Integer.parseInt(properties.getProperty(prefix+"min_bgnd_tiles"));
 		
 		if (properties.getProperty(prefix+"gltf_emissive")!=null)                 this.gltf_emissive=Boolean.parseBoolean(properties.getProperty(prefix+"gltf_emissive"));
@@ -3600,7 +3607,9 @@ public class CLTParameters {
 				"Target weighted (by scales) average offset.");
 		gd.addCheckbox ("Debug photometric calibration",             this.photo_debug,
 				"Generate debug images an text output.");
-		
+		gd.addCheckbox ("Debug photometric calibration 'each'",      this.photo_each_debug,
+				"Generate debug images after Blue Sky.");
+//		
 		gd.addTab         ("3D", "3D reconstruction");
 		gd.addMessage     ("Meshes clustering for texture generation");
 		gd.addNumericField("Ortho tolerance absolute",           this.tex_disp_adiffo, 5,7,"pix",
@@ -3726,6 +3735,8 @@ public class CLTParameters {
 		
 		gd.addNumericField("Distance to a backdrop",               this.infinityDistance,8,8,"m",
 				"Distance to generate backdrop (0 - use regular backdrop).");
+		gd.addNumericField("Minimal distance from backdrop",       this.min_from_inf,8,8,"m",
+				"Minimal distance of the fartest object from backdrop to be resolved.");
 		gd.addNumericField("Minimal background tiles",             this.min_bgnd_tiles,   0,4,"",
 				"Minimal number of background tiles to generate background.");
 		
@@ -4827,6 +4838,7 @@ public class CLTParameters {
 		this.photo_offs_set =     (int) gd.getNextNumber();
 		this.photo_offs =               gd.getNextNumber();
 		this.photo_debug =              gd.getNextBoolean();
+		this.photo_each_debug =         gd.getNextBoolean();
 		
 		this.tex_disp_adiffo =          gd.getNextNumber();
 		this.tex_disp_rdiffo =          gd.getNextNumber();
@@ -4891,6 +4903,7 @@ public class CLTParameters {
 		this.limitZ=                gd.getNextBoolean();
 		
 		this.infinityDistance=      gd.getNextNumber();
+		this.min_from_inf=          gd.getNextNumber();
 		this.min_bgnd_tiles=  (int) gd.getNextNumber();
 		
 		this.gltf_emissive=         gd.getNextBoolean();

src/main/java/com/elphel/imagej/tileprocessor/IntersceneMatchParameters.java

@@ -136,28 +136,37 @@ public class IntersceneMatchParameters {
 	//------------	
 	
 	// Sky detection/filtering
+	public  boolean sky_recalc =                    false; // force blue sky recalculation even if it exists
 	public  double  sky_highest_min =                -50; // lowest absolute value should not be higher (requires photometric) 
 	public  double  cold_frac =                        0.005; // this and lower will scale fom by  cold_scale
 	public  double  hot_frac =                         0.9;    // this and above will scale fom by 1.0
 	public  double  cold_scale =                       0.2;  // <=1.0. 1.0 - disables temperature dependence
-	public  double  sky_seed =                         5.0;  // start with product of strength by diff_second below this
+	
+	public  double  sky_seed =                         5.0;  // 5.0 start with product of strength by diff_second below this
 	public  double  lma_seed =                         2.0;  // seed - disparity_lma limit		double sky_lim  =      15.0; // then expand to product of strength by diff_second below this
+	public  double  seed_temp =                        0.5;  // seed colder that this point between min and max temp
+	
 	public  int     sky_shrink =                       2;
 	public  int     seed_rows =                        5; // sky should appear in this top rows 
+	public  double  max_disparity =                    0.3;  // maximal strong sky disparity 
+	public  double  max_disparity_strength =           0.2;  // maximal strength of high disparity sky
 	public  double  sky_lim =                         15.0; // then expand to product of strength by diff_second below this
+	public  double  lim_temp =                         0.5;  // sky colder that this point between min and max temp
 	public  int     sky_expand_extra =                 0; // 1?
 	public  int     sky_bottleneck =                   5;
+	public  int     sky_reexpand_extra =               9;//  re-expand after bottleneck in addition to how it was shrank	
 	public  double  min_strength =                     0.08;
 	public  int     lowest_sky_row =                  50; // appears that low - invalid, remove completely
 	public  double  sky_bottom_override =           -300; // maximal average sky value to override lowest_sky_row test
-	public  int     sky_override_shrink =             10; // shrink detected sky before finding hottest tile there
+	public  int     sky_override_shrink =             6; // shrink detected sky before finding hottest tile there
 	
 	// Increase fom if there are enough LMA-defined similar tiles around
 	public  double  disp_boost_min  =                  0.5;
 	public  double  disp_boost_diff  =                 0.35;
 	public  int     disp_boost_neibs  =                2;
 	public  double  disp_boost_amount  =               2.0;
-	
+	public  double  scale_combo_strength  =            0.4; // reduce strength when it comes from combo, not DSI-MAIN
+	public  boolean save_debug_images =               true;  // Save blue sky debug images in model directory
 	
 	// Some "AGC" to adjust how much to discard
 	public  int     margin =                       1;      // do not use tiles if their centers are closer to the image edge
@@ -519,6 +528,8 @@ public class IntersceneMatchParameters {
 		
 		gd.addTab("Sky","Featureless sky areas detection and filtering (LWIR only)");
 		gd.addMessage  ("Temperature-related filtering (requires photometric calibration)");
+		gd.addCheckbox ("Force blue sky recalculation",              this.sky_recalc,
+				"Recalculate blue sky even if it already exists.");
 		gd.addNumericField("High limit of the scene coldest tile",   this.sky_highest_min, 5,7,"",
 				"Sky is normally cold. If the (globally offset) minimal scene absolutre pixel value is above - no sky in the scene (debug images still show it)");
 		gd.addNumericField("Cold level fraction",                    this.cold_frac, 5,7,"",
@@ -533,17 +544,27 @@ public class IntersceneMatchParameters {
 		        "at infinity and 3 above parameters");
 		gd.addNumericField("Seed maximal disparity",                 this.lma_seed, 5,7,"pix",
 				"Seed tiles should not have LMA-found disparity above this");
+		gd.addNumericField("Seed maximal relative temperature",      this.seed_temp, 5,7,"",
+				"Seed tiles should be  colder than this point between min and max scene temperature.");
 		gd.addNumericField("Shrink sky seed",                        this.sky_shrink, 0,3,"",
 				"Shrink sky seed tiles to eliminate too small (false) clusters. One shrinks in hor/vert, 2 - with diagonals, ...");
 		gd.addNumericField("Seed rows",                              this.seed_rows, 0,3,"",
 				"Sky is above and normally should appear in the top image rows. Applies after shrinking.");
 		gd.addMessage  ("Expand seed tiles");
+		gd.addNumericField("Maximal strong sky disparity",           this.max_disparity, 5,7,"",
+				"Maximal disparity of the sky tiles if they are strong enough.");
+		gd.addNumericField("Strength of the high disparity sky",     this.max_disparity_strength, 5,7,"",
+				"Required tile strenghth to be considered strong to test against maximal disparity.");
 		gd.addNumericField("Expand FOM limit",                       this.sky_lim, 5,7,"",
 				"Expand while FOM is below this value (usually to a high-contrast skyline).");
+		gd.addNumericField("Sky maximal relative temperature",      this.lim_temp, 5,7,"",
+				"Sky tiles should be  colder than this point between min and max scene temperature.");
 		gd.addNumericField("Expand extra",                           this.sky_expand_extra, 0,3,"",
 				"Additionally expand sky area after reaching threshold in the previous step.");
 		gd.addNumericField("Bottleneck width",                       this.sky_bottleneck, 0,3,"",
 				"Shrink/reexpand from the seed detected sky to prevent \"leaks\" through narrow gaps in the high-contrast sky limit.");
+		gd.addNumericField("Re-expand extra after bottleneck",       this.sky_reexpand_extra, 0,3,"",
+				"Additionally expand sky area after bottleneck shrink in excess of re-expanding by the same amount as shrank.");
 		gd.addNumericField("Modify strength to be at least this",    this.min_strength, 5,7,"",
 				"Input strength has some with zero values resulting in zero FOM. Make them at least this.");
 		gd.addNumericField("Lowest sky row",                         this.lowest_sky_row, 0,3,"",
@@ -562,9 +583,12 @@ public class IntersceneMatchParameters {
 				"Number of neighbors (of 8) to have small disparity difference to boost FOM.");
 		gd.addNumericField("Boost amount",                           this.disp_boost_amount, 5,7,"x",
 				"Multiply FOM by this value if number of neighbors is exactly minimal. Scale proportional to the total number of neighbors.");
+		gd.addNumericField("Scale if strength is combo, not main",   this.scale_combo_strength, 5,7,"x",
+				"Reduce strength when it comes from combo, not DSI-MAIN.");
+		gd.addCheckbox ("Save debug images",                          this.save_debug_images,
+				"Save debug images for Blue Sky generation in model directory.");
+
 		gd.addTab         ("Inter-Match", "Parameters for full-resolution scene matching");
-		
-		
 		gd.addMessage  ("Interscene match parameters");
 		gd.addNumericField("Image margin",                           this.margin, 0,5,"pix",
 				"Do not use tiles if their centers are closer to the virtual image edge");
@@ -924,17 +948,23 @@ public class IntersceneMatchParameters {
 		this.strong_strength =                gd.getNextNumber();
 		this.weak_strength =                  gd.getNextNumber();
 		
+		this.sky_recalc =               gd.getNextBoolean();
 		this.sky_highest_min =          gd.getNextNumber(); 	
 		this.cold_frac =                gd.getNextNumber();       	
 		this.hot_frac =                 gd.getNextNumber();        	
 		this.cold_scale =               gd.getNextNumber();      	
 		this.sky_seed =                 gd.getNextNumber();        	
-		this.lma_seed =                 gd.getNextNumber();        	
+		this.lma_seed =                 gd.getNextNumber();
+		this.seed_temp =                gd.getNextNumber();
 		this.sky_shrink =         (int) gd.getNextNumber();      	
-		this.seed_rows =          (int) gd.getNextNumber();       	
-		this.sky_lim =                  gd.getNextNumber();         	
+		this.seed_rows =          (int) gd.getNextNumber();
+		this.max_disparity =            gd.getNextNumber();         	
+		this.max_disparity_strength =   gd.getNextNumber();         	
+		this.sky_lim =                  gd.getNextNumber(); 
+		this.lim_temp =                 gd.getNextNumber(); 
 		this.sky_expand_extra =   (int) gd.getNextNumber();	
 		this.sky_bottleneck =     (int) gd.getNextNumber();	
+		this.sky_reexpand_extra = (int) gd.getNextNumber();	
 		this.min_strength =             gd.getNextNumber();    
 		this.lowest_sky_row =     (int) gd.getNextNumber();
 		this.sky_bottom_override =      gd.getNextNumber();    
@@ -944,6 +974,8 @@ public class IntersceneMatchParameters {
 		this.disp_boost_diff =          gd.getNextNumber();    
 		this.disp_boost_neibs =   (int) gd.getNextNumber();
 		this.disp_boost_amount =        gd.getNextNumber();    
+		this.scale_combo_strength =     gd.getNextNumber();
+		this.save_debug_images =        gd.getNextBoolean();
 		
 		this.margin =             (int) gd.getNextNumber();
 		this.sensor_mask_inter=   (int) gd.getNextNumber();
@@ -1206,17 +1238,23 @@ public class IntersceneMatchParameters {
 		properties.setProperty(prefix+"strong_strength",               this.strong_strength+"");               // double
 		properties.setProperty(prefix+"weak_strength",                 this.weak_strength+"");                 // double
 
+		properties.setProperty(prefix+"sky_recalc",           this.sky_recalc+"");          // boolean
 		properties.setProperty(prefix+"sky_highest_min",      this.sky_highest_min+"");     // double
 		properties.setProperty(prefix+"cold_frac",            this.cold_frac+"");           // double
 		properties.setProperty(prefix+"hot_frac",             this.hot_frac+"");            // double
 		properties.setProperty(prefix+"cold_scale",           this.cold_scale+"");          // double
 		properties.setProperty(prefix+"sky_seed",             this.sky_seed+"");            // double
 		properties.setProperty(prefix+"lma_seed",             this.lma_seed+"");            // double
+		properties.setProperty(prefix+"seed_temp",            this.seed_temp+"");           // double
 		properties.setProperty(prefix+"sky_shrink",           this.sky_shrink+"");          // int
 		properties.setProperty(prefix+"seed_rows",            this.seed_rows+"");           // int
+		properties.setProperty(prefix+"max_disparity",        this.max_disparity+"");       // double
+		properties.setProperty(prefix+"max_disparity_strength",this.max_disparity_strength+"");// double
 		properties.setProperty(prefix+"sky_lim",              this.sky_lim+"");             // double
+		properties.setProperty(prefix+"lim_temp",             this.lim_temp+"");            // double
 		properties.setProperty(prefix+"sky_expand_extra",     this.sky_expand_extra+"");    // int
 		properties.setProperty(prefix+"sky_bottleneck",       this.sky_bottleneck+"");      // int
+		properties.setProperty(prefix+"sky_reexpand_extra",   this.sky_reexpand_extra+"");  // int
 		properties.setProperty(prefix+"min_strength",         this.min_strength+"");        // double
 		properties.setProperty(prefix+"lowest_sky_row",       this.lowest_sky_row+"");      // int
 		properties.setProperty(prefix+"sky_bottom_override",  this.sky_bottom_override+""); // double
@@ -1226,6 +1264,8 @@ public class IntersceneMatchParameters {
 		properties.setProperty(prefix+"disp_boost_diff",      this.disp_boost_diff+"");     // int
 		properties.setProperty(prefix+"disp_boost_neibs",     this.disp_boost_neibs+"");    // double
 		properties.setProperty(prefix+"disp_boost_amount",    this.disp_boost_amount+"");   // double
+		properties.setProperty(prefix+"scale_combo_strength", this.scale_combo_strength+"");   // double
+		properties.setProperty(prefix+"save_debug_images",    this.save_debug_images+"");            // boolean
 		
 		properties.setProperty(prefix+"margin",               this.margin+"");              // int
 		properties.setProperty(prefix+"sensor_mask_inter",    this.sensor_mask_inter+"");   // int
@@ -1441,17 +1481,25 @@ public class IntersceneMatchParameters {
 		if (properties.getProperty(prefix+"strong_strength")!=null)               this.strong_strength=Double.parseDouble(properties.getProperty(prefix+"strong_strength"));
 		if (properties.getProperty(prefix+"weak_strength")!=null)                 this.weak_strength=Double.parseDouble(properties.getProperty(prefix+"weak_strength"));
 		
+		if (properties.getProperty(prefix+"sky_recalc")!=null)           this.sky_recalc=Boolean.parseBoolean(properties.getProperty(prefix+"sky_recalc"));		
 		if (properties.getProperty(prefix+"sky_highest_min")!=null)      this.sky_highest_min=Double.parseDouble(properties.getProperty(prefix+"sky_highest_min"));
 		if (properties.getProperty(prefix+"cold_frac")!=null)            this.cold_frac=Double.parseDouble(properties.getProperty(prefix+"cold_frac"));
 		if (properties.getProperty(prefix+"hot_frac")!=null)             this.hot_frac=Double.parseDouble(properties.getProperty(prefix+"hot_frac"));
 		if (properties.getProperty(prefix+"cold_scale")!=null)           this.cold_scale=Double.parseDouble(properties.getProperty(prefix+"cold_scale"));
 		if (properties.getProperty(prefix+"sky_seed")!=null)             this.sky_seed=Double.parseDouble(properties.getProperty(prefix+"sky_seed"));
 		if (properties.getProperty(prefix+"lma_seed")!=null)             this.lma_seed=Double.parseDouble(properties.getProperty(prefix+"lma_seed"));
+		if (properties.getProperty(prefix+"seed_temp")!=null)            this.seed_temp=Double.parseDouble(properties.getProperty(prefix+"seed_temp"));
+
+		
 		if (properties.getProperty(prefix+"sky_shrink")!=null)           this.sky_shrink=Integer.parseInt(properties.getProperty(prefix+"sky_shrink"));
 		if (properties.getProperty(prefix+"seed_rows")!=null)            this.seed_rows=Integer.parseInt(properties.getProperty(prefix+"seed_rows"));
+		if (properties.getProperty(prefix+"max_disparity")!=null)        this.max_disparity=Double.parseDouble(properties.getProperty(prefix+"max_disparity"));
+		if (properties.getProperty(prefix+"max_disparity_strength")!=null)this.max_disparity_strength=Double.parseDouble(properties.getProperty(prefix+"max_disparity_strength"));
 		if (properties.getProperty(prefix+"sky_lim")!=null)              this.sky_lim=Double.parseDouble(properties.getProperty(prefix+"sky_lim"));
+		if (properties.getProperty(prefix+"lim_temp")!=null)             this.lim_temp=Double.parseDouble(properties.getProperty(prefix+"lim_temp"));
 		if (properties.getProperty(prefix+"sky_expand_extra")!=null)     this.sky_expand_extra=Integer.parseInt(properties.getProperty(prefix+"sky_expand_extra"));
 		if (properties.getProperty(prefix+"sky_bottleneck")!=null)       this.sky_bottleneck=Integer.parseInt(properties.getProperty(prefix+"sky_bottleneck"));
+		if (properties.getProperty(prefix+"sky_reexpand_extra")!=null)   this.sky_reexpand_extra=Integer.parseInt(properties.getProperty(prefix+"sky_reexpand_extra"));
 		if (properties.getProperty(prefix+"min_strength")!=null)         this.min_strength=Double.parseDouble(properties.getProperty(prefix+"min_strength"));
 		if (properties.getProperty(prefix+"lowest_sky_row")!=null)       this.lowest_sky_row=Integer.parseInt(properties.getProperty(prefix+"lowest_sky_row"));
 		if (properties.getProperty(prefix+"sky_bottom_override")!=null)  this.sky_bottom_override=Double.parseDouble(properties.getProperty(prefix+"sky_bottom_override"));
@@ -1461,6 +1509,8 @@ public class IntersceneMatchParameters {
 		if (properties.getProperty(prefix+"disp_boost_diff")!=null)      this.disp_boost_diff=Double.parseDouble(properties.getProperty(prefix+"disp_boost_diff"));
 		if (properties.getProperty(prefix+"disp_boost_neibs")!=null)     this.disp_boost_neibs=Integer.parseInt(properties.getProperty(prefix+"disp_boost_neibs"));
 		if (properties.getProperty(prefix+"disp_boost_amount")!=null)    this.disp_boost_amount=Double.parseDouble(properties.getProperty(prefix+"disp_boost_amount"));
+		if (properties.getProperty(prefix+"scale_combo_strength")!=null) this.scale_combo_strength=Double.parseDouble(properties.getProperty(prefix+"scale_combo_strength"));
+		if (properties.getProperty(prefix+"save_debug_images")!=null)    this.save_debug_images=Boolean.parseBoolean(properties.getProperty(prefix+"save_debug_images"));		
 		
 		if (properties.getProperty(prefix+"margin")!=null)               this.margin=Integer.parseInt(properties.getProperty(prefix+"margin"));
 		if (properties.getProperty(prefix+"sensor_mask_inter")!=null)    this.sensor_mask_inter=Integer.parseInt(properties.getProperty(prefix+"sensor_mask_inter"));
@@ -1694,17 +1744,23 @@ public class IntersceneMatchParameters {
 		imp.strong_strength               = this.strong_strength;
 		imp.weak_strength                 = this.weak_strength;
 		
+		imp.sky_recalc =            this.sky_recalc;
 		imp.sky_highest_min =       this.sky_highest_min;
 		imp.cold_frac =             this.cold_frac;
 		imp.hot_frac =              this.hot_frac;
 		imp.cold_scale =            this.cold_scale;
 		imp.sky_seed =              this.sky_seed;
 		imp.lma_seed =              this.lma_seed;
+		imp.seed_temp =             this.seed_temp;
 		imp.sky_shrink =            this.sky_shrink;
 		imp.seed_rows =             this.seed_rows;
+		imp.max_disparity =         this.max_disparity;
+		imp.max_disparity_strength= this.max_disparity_strength;
 		imp.sky_lim =               this.sky_lim;
+		imp.lim_temp =              this.lim_temp;
 		imp.sky_expand_extra =      this.sky_expand_extra;
 		imp.sky_bottleneck =        this.sky_bottleneck;
+		imp.sky_reexpand_extra =    this.sky_reexpand_extra;
 		imp.min_strength =          this.min_strength;
 		imp.lowest_sky_row =        this.lowest_sky_row;
 		imp.sky_bottom_override =   this.sky_bottom_override;
@@ -1714,6 +1770,8 @@ public class IntersceneMatchParameters {
 		imp.disp_boost_diff =       this.disp_boost_diff;
 		imp.disp_boost_neibs =      this.disp_boost_neibs;
 		imp.disp_boost_amount =     this.disp_boost_amount;
+		imp.scale_combo_strength =  this.scale_combo_strength;
+		imp.save_debug_images =     this.save_debug_images;
 		
 		imp.margin                = this.margin;
 		imp.sensor_mask_inter     = this.sensor_mask_inter;

src/main/java/com/elphel/imagej/tileprocessor/OpticalFlow.java

@@ -3751,8 +3751,8 @@ public class OpticalFlow {
 		ds_photo[OpticalFlow.COMBO_DSN_INDX_STRENGTH] =    dsi[TwoQuadCLT.DSI_STRENGTH_AUX];
 		ds_photo[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY] =    dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX];
 			
-		boolean photo_each_debug = !batch_mode; // false; // true; // false;
-		boolean photo_each_debug2 = !batch_mode; // false; // true; // false;
+		boolean photo_each_debug = !batch_mode && clt_parameters.photo_each_debug; // false; // true; // false;
+		boolean photo_each_debug2 = !batch_mode && clt_parameters.photo_each_debug; // false; // true; // false;
 		
 		for (int nrecalib = 0; nrecalib < photo_num_full; nrecalib++) { // maybe need to correct just offsets?
 			int poly_order = photo_order;
@@ -3899,10 +3899,15 @@ public class OpticalFlow {
  		double cold_scale =          clt_parameters.imp.cold_scale;
  		double sky_seed =            clt_parameters.imp.sky_seed;
  		double lma_seed =            clt_parameters.imp.lma_seed;
+		double seed_temp =           clt_parameters.imp.seed_temp;
  		int    sky_shrink =          clt_parameters.imp.sky_shrink;
  		int    sky_bottleneck =      clt_parameters.imp.sky_bottleneck;
+ 		int    sky_reexpand_extra =  clt_parameters.imp.sky_reexpand_extra;
  		int    seed_rows =           clt_parameters.imp.seed_rows;
+ 		double max_disparity =       clt_parameters.imp.max_disparity;
+ 		double max_disparity_strength=clt_parameters.imp.max_disparity_strength;
  		double sky_lim =             clt_parameters.imp.sky_lim;
+		double lim_temp =            clt_parameters.imp.lim_temp;
  		int    sky_expand_extra =    clt_parameters.imp.sky_expand_extra;
  		double min_strength =        clt_parameters.imp.min_strength;
  		int    lowest_sky_row =      clt_parameters.imp.lowest_sky_row;
@@ -3912,6 +3917,8 @@ public class OpticalFlow {
 		double disp_boost_diff  =    clt_parameters.imp.disp_boost_diff; // 0.35;
 		int    disp_boost_neibs  =   clt_parameters.imp.disp_boost_neibs; // 2;
 		double disp_boost_amount  =  clt_parameters.imp.disp_boost_amount; // 2.0;
+		QuadCLT   dbg_scene = clt_parameters.imp.save_debug_images? quadCLT_ref: null; // use to save debug images if not null
+
 		boolean [] ref_blue_sky = null; // turn off "lma" in the ML output  
 		quadCLT_ref.preExpandCLTQuad3d( // returns ImagePlus, but it already should be saved/shown
 				clt_parameters,
@@ -3980,13 +3987,18 @@ public class OpticalFlow {
 			System.out.println("(Re)using photometric calibration from this sequence reference "+quadCLT_ref.getPhotometricScene());
 			quadCLT_ref.setQuadClt(); // just in case ?
 		}
-		quadCLT_ref.setBlueSky  (
+		quadCLT_ref.setBlueSky  ( // initial BS from single scene
+				max_disparity,
+				max_disparity_strength,
 				sky_seed,           // double sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
 				lma_seed,
+				seed_temp,     //double seed_temp, //         0.5;  // seed colder that this point between min and max temp						
 				sky_lim,            // double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+				lim_temp, //						double lim_temp, //          0.5;  // sky colder that this point between min and max temp						
 				sky_shrink,         // int    sky_shrink, //  =       4;
 				sky_expand_extra,   // int    sky_expand_extra, //  = 100; // 1?
 				sky_bottleneck,     //int    sky_bottleneck, // 
+				sky_reexpand_extra,   //int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank
 				cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 				cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 				hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -4004,6 +4016,7 @@ public class OpticalFlow {
 				dsi[TwoQuadCLT.DSI_SPREAD_AUX], // double [] spread,
 				dsi[TwoQuadCLT.DSI_DISPARITY_AUX_LMA], // double [] spread,
 				dsi[TwoQuadCLT.DSI_AVGVAL_AUX],//	double [] avg_val,
+				dbg_scene,          // QuadCLT   dbg_scene,    // use to save debug images if not null
 				batch_mode? -1: 1); /// debugLevel);        // int debugLevel)
 		if (ran_photo_each) {
 //			quadCLT_ref.setBlueSky(null); // Reset blue sky - is it needed?
@@ -4067,16 +4080,23 @@ public class OpticalFlow {
 			final int           debugLevel) {
 		boolean  photo_each =        clt_parameters.photo_each; //        true;  // perform photogrammetric calibration to equalize pixel values
 		boolean  photo_to_main=      clt_parameters.photo_to_main; // maybe it will not be needed, it will apply this calibration to the next scene sequence
+		boolean sky_recalc =         clt_parameters.imp.sky_recalc; // force blue sky recalculation even if it exists
 		double sky_highest_min =     clt_parameters.imp.sky_highest_min;
 		double cold_frac =           clt_parameters.imp.cold_frac;
 		double hot_frac =            clt_parameters.imp.hot_frac;
 		double cold_scale =          clt_parameters.imp.cold_scale;
+
 		double sky_seed =            clt_parameters.imp.sky_seed;
 		double lma_seed =            clt_parameters.imp.lma_seed;
+		double seed_temp =           clt_parameters.imp.seed_temp;
 		int    sky_shrink =          clt_parameters.imp.sky_shrink;
 		int    sky_bottleneck =      clt_parameters.imp.sky_bottleneck;
+ 		int    sky_reexpand_extra =  clt_parameters.imp.sky_reexpand_extra;
 		int    seed_rows =           clt_parameters.imp.seed_rows;
+ 		double max_disparity =       clt_parameters.imp.max_disparity;
+ 		double max_disparity_strength=clt_parameters.imp.max_disparity_strength;
 		double sky_lim =             clt_parameters.imp.sky_lim;
+		double lim_temp =            clt_parameters.imp.lim_temp;
 		int    sky_expand_extra =    clt_parameters.imp.sky_expand_extra;
 		double min_strength =        clt_parameters.imp.min_strength;
 		int    lowest_sky_row =      clt_parameters.imp.lowest_sky_row;
@@ -4086,7 +4106,8 @@ public class OpticalFlow {
 		double disp_boost_diff  =    clt_parameters.imp.disp_boost_diff; // 0.35;
 		int    disp_boost_neibs  =   clt_parameters.imp.disp_boost_neibs; // 2;
 		double disp_boost_amount  =  clt_parameters.imp.disp_boost_amount; // 2.0;
-		
+		double scale_combo_strength =clt_parameters.imp.scale_combo_strength; //0.4; // reduce strength when it comes from combo, not DSI-MAIN
+		QuadCLT   dbg_scene = clt_parameters.imp.save_debug_images? quadCLT_ref: null; // use to save debug images if not null
 		// if (build_ref_dsi) {
 		// need to read photometric from reference scene -INTERFRAME.corr-xml, and if it exists - set and propagate to main?
 		if (photo_each  && !quadCLT_ref.isPhotometricThis()) {
@@ -4108,22 +4129,55 @@ public class OpticalFlow {
 		// read DSI_MAIN
 		double [][] dsi = quadCLT_ref.readDsiMain();
 		quadCLT_ref.setDSI(dsi); // was not here! (11/26/2022)
+		double [][] combo_dsi = null;
 		if (dsi[TwoQuadCLT.DSI_SPREAD_AUX] == null) {
 			System.out.println("DSI_MAIN file has old format and does not have spread data, will recalculate.");
 		} else {
-//			boolean [] ref_blue_sky = quadCLT_ref.getBlueSky();
+//			boolean used_combo = false;
+			if ((dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX] == null) || sky_recalc) { //
+				// Sets quadCLT_ref.dsi and blue sky (if exists)
+				combo_dsi = quadCLT_ref.restoreComboDSI(true); // result is full length, missing slices are null
+				if (combo_dsi != null) {
+					dsi[TwoQuadCLT.DSI_STRENGTH_AUX] =      combo_dsi[COMBO_DSN_INDX_STRENGTH];     // double [] strength,
+					dsi[TwoQuadCLT.DSI_DISPARITY_AUX_LMA]=  combo_dsi[COMBO_DSN_INDX_LMA]; //double [] disp_lma,
+					dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX] =      combo_dsi[COMBO_DSN_INDX_BLUE_SKY]; // if exist, already set to quadCLT_ref.dsi 
+//					used_combo = true;
+				}
+				/*
+				if (quadCLT_ref.restoreInterDSI(true) > 0) {
+					double [][] combo_dsi = quadCLT_ref.dsi;
+					dsi[TwoQuadCLT.DSI_STRENGTH_AUX] =      combo_dsi[COMBO_DSN_INDX_STRENGTH];     // double [] strength,
+					dsi[TwoQuadCLT.DSI_DISPARITY_AUX_LMA]=  combo_dsi[COMBO_DSN_INDX_LMA]; //double [] disp_lma,
+					dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX] =      combo_dsi[COMBO_DSN_INDX_BLUE_SKY];
+					used_combo = true;
+				}
+				*/
+			}
 			double [] ref_blue_sky = dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX];
-			if (ref_blue_sky == null) {
+			if ((ref_blue_sky == null) || sky_recalc) {
 				if (debugLevel > -3) {
-					System.out.println("Blue Sky does not exist calculating and updating photometrics");
+					System.out.println("Blue Sky does not exist or recalculation is forced. Calculating and updating photometrics");
+				}
+				double [] bs_strength = dsi[TwoQuadCLT.DSI_STRENGTH_AUX].clone();
+				// try getting combo dsi
+				if ((combo_dsi != null) && (scale_combo_strength != 1.0) && dsi[TwoQuadCLT.DSI_STRENGTH_AUX]!= null) {
+					for (int i = 0; i < dsi[TwoQuadCLT.DSI_STRENGTH_AUX].length; i++) {
+						bs_strength[i] *= scale_combo_strength;
+					}
+					//scale_combo_strength
 				}
 				quadCLT_ref.setBlueSky  (
+						max_disparity,
+						max_disparity_strength,
 						sky_seed,                              // double sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
 						lma_seed,                              //          2.0;  // seed - disparity_lma limit
+						seed_temp,     //double seed_temp, //         0.5;  // seed colder that this point between min and max temp						
 						sky_lim,                               // double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+						lim_temp, //						double lim_temp, //          0.5;  // sky colder that this point between min and max temp						
 						sky_shrink,                            // int    sky_shrink, //  =       4;
 						sky_expand_extra,                      // int    sky_expand_extra, //  = 100; // 1?
 						sky_bottleneck,       //int    sky_bottleneck, // 
+						sky_reexpand_extra,   //int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank
 						cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 						cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 						hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -4137,24 +4191,33 @@ public class OpticalFlow {
 						disp_boost_diff,       //double disp_boost_diff,   //  = 0.35;
 						disp_boost_neibs,      //int    disp_boost_neibs,  //  = 2;
 						disp_boost_amount,     //double disp_boost_amount, //  = 2.0;
-						dsi[TwoQuadCLT.DSI_STRENGTH_AUX],      // double [] strength,
+						bs_strength, // dsi[TwoQuadCLT.DSI_STRENGTH_AUX],      // double [] strength,
 						dsi[TwoQuadCLT.DSI_SPREAD_AUX],        // double [] spread,
 						dsi[TwoQuadCLT.DSI_DISPARITY_AUX_LMA], //double [] disp_lma,
 						dsi[TwoQuadCLT.DSI_AVGVAL_AUX],//	double [] avg_val,
+						dbg_scene,          // QuadCLT   dbg_scene,    // use to save debug images if not null
 						debugLevel);        // int debugLevel)
 				if (debugLevel > -3) {
 					System.out.println("Calculated missing Blue Sky in "+quadCLT_ref.getImageName()+
 							", re-running photoEach()");
 				}
-/*				
-				boolean [] blue_sky = quadCLT_ref.getBlueSky();
-						if (dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX] == null) {
-							dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX] = new double [blue_sky.length];
-						}
-						for (int i = 0; i < blue_sky.length; i++) {
-							dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX][i] = blue_sky[i]? 1.0:0.0;
-						}
-	*/					
+				// save inter-lma if available
+				if (combo_dsi != null) {
+					if (debugLevel > -3) {
+						System.out.println("Updating Blue Sky for scene "+quadCLT_ref.getImageName());
+					}
+					String rslt_suffix = QuadCLTCPU.DSI_SUFFIXES[clt_parameters.correlate_lma?
+							QuadCLTCPU.INDEX_INTER_LMA:QuadCLTCPU.INDEX_INTER];
+					// combo_dsi read from file always has all slices, missing are null 
+					combo_dsi[COMBO_DSN_INDX_BLUE_SKY] = quadCLT_ref.dsi[TwoQuadCLT.DSI_BLUE_SKY_AUX];      
+					quadCLT_ref.saveDoubleArrayInModelDirectory(
+							rslt_suffix,                  // String      suffix,
+							OpticalFlow.COMBO_DSN_TITLES, // null,          // String []   labels, // or null
+							combo_dsi,                        // dbg_data,         // double [][] data,
+							quadCLT_ref.tp.getTilesX(),   // tilesX,                // int         width,
+							quadCLT_ref.tp.getTilesY());  // int         height)
+				}
+
 				photoEach(
 						clt_parameters,      // CLTParameters                                 clt_parameters,
 						colorProcParameters, // ColorProcParameters                           colorProcParameters,
@@ -4167,11 +4230,12 @@ public class OpticalFlow {
 						threadsMax,          // final int                                     threadsMax,  // int               threadsMax,
 						updateStatus,        // final boolean                                 updateStatus,
 						debugLevel);         // final int                                     debugLevel)			
-				} else {
-					if (debugLevel > -3) {
-						System.out.println("Blue Sky is available, reusing it, no need for updating photometrics");
-					}
+			} else {
+				if (debugLevel > -3) {
+					System.out.println("Blue Sky is available, reusing it, no need for updating photometrics");
 				}
+				quadCLT_ref.setBlueSky(ref_blue_sky); // fixing old case where DSI-MAIN did not have bs while combo - did
+			}
 		}
 	}
 
@@ -4820,10 +4884,11 @@ public class OpticalFlow {
 				System.out.println("**** Running photometric equalization *****");
 			}
 			if (combo_dsn_final == null) { // always re-read?
-				combo_dsn_final =quadCLTs[ref_index].readDoubleArrayFromModelDirectory( // always re-read?
-						"-INTER-INTRA-LMA", // String      suffix,
-						0, // int         num_slices, // (0 - all)
-						null); // int []      wh);
+///				combo_dsn_final =quadCLTs[ref_index].readDoubleArrayFromModelDirectory( // always re-read?
+///						"-INTER-INTRA-LMA", // String      suffix,
+///						0, // int         num_slices, // (0 - all)
+///						null); // int []      wh);
+				combo_dsn_final =quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
 			}
 			
 			double [][] combo_dsn_final_filtered = 
@@ -4890,10 +4955,12 @@ public class OpticalFlow {
 	        	disparity_raw = new double [tilesX * tilesY];
 	        	Arrays.fill(disparity_raw,clt_parameters.disparity);
 	        	if (combo_dsn_final == null) {
-	        		combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
-	        				"-INTER-INTRA-LMA", // String      suffix,
-	        				0, // int         num_slices, // (0 - all)
-	        				null); // int []      wh);
+///	        		combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
+///	        				"-INTER-INTRA-LMA", // String      suffix,
+///	        				0, // int         num_slices, // (0 - all)
+///	        				null); // int []      wh);
+					combo_dsn_final =quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
+	        		
 	        	}
 	        	double [][] dls = { 
 	        			combo_dsn_final[COMBO_DSN_INDX_DISP],
@@ -5346,10 +5413,12 @@ public class OpticalFlow {
 		
 		if (export_images) {
 			if (combo_dsn_final == null) {
-				combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
-						"-INTER-INTRA-LMA", // String      suffix,
-						0, // int         num_slices, // (0 - all)
-						null); // int []      wh);
+///				combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
+///						"-INTER-INTRA-LMA", // String      suffix,
+///						0, // int         num_slices, // (0 - all)
+///						null); // int []      wh);
+				combo_dsn_final =quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
+				
 			}
 			double [][] dls = {
 					combo_dsn_final[COMBO_DSN_INDX_DISP],
@@ -5586,10 +5655,12 @@ public class OpticalFlow {
 		
 		if (export_dsi_image || show_dsi_image) {
 			if (combo_dsn_final == null) {
-				combo_dsn_final =quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
-						"-INTER-INTRA-LMA", // String      suffix,
-						0, // int         num_slices, // (0 - all)
-						null); // int []      wh);
+///				combo_dsn_final =quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
+///						"-INTER-INTRA-LMA", // String      suffix,
+///						0, // int         num_slices, // (0 - all)
+///						null); // int []      wh);
+				combo_dsn_final =quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
+				
 			}
 			
 			// re-load , should create quadCLTs[ref_index].dsi
@@ -5636,10 +5707,12 @@ public class OpticalFlow {
 		
 		if (export_ml_files) { 
 			if (combo_dsn_final == null) { // always re-read?
-				combo_dsn_final =quadCLTs[ref_index].readDoubleArrayFromModelDirectory( // always re-read?
-						"-INTER-INTRA-LMA", // String      suffix,
-						0, // int         num_slices, // (0 - all)
-						null); // int []      wh);
+///				combo_dsn_final =quadCLTs[ref_index].readDoubleArrayFromModelDirectory( // always re-read?
+///						"-INTER-INTRA-LMA", // String      suffix,
+///						0, // int         num_slices, // (0 - all)
+///						null); // int []      wh);
+				combo_dsn_final =quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
+				
 			}
 			double [][] combo_dsn_final_filtered = 
 					conditionComboDsnFinal(
@@ -5694,10 +5767,12 @@ public class OpticalFlow {
         int tilesY =  quadCLTs[ref_index].getTileProcessor().getTilesY();
         double [] disparity_raw = new double [tilesX * tilesY];
         Arrays.fill(disparity_raw,clt_parameters.disparity);
-        double [][] combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
-        			"-INTER-INTRA-LMA", // String      suffix,
-        			0, // int         num_slices, // (0 - all)
-        			null); // int []      wh);
+///        double [][] combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
+///     			"-INTER-INTRA-LMA", // String      suffix,
+///        			0, // int         num_slices, // (0 - all)
+///        			null); // int []      wh);
+        double [][] combo_dsn_final =quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
+
         double [][] dls = {
         		combo_dsn_final[COMBO_DSN_INDX_DISP],
         		combo_dsn_final[COMBO_DSN_INDX_LMA],
@@ -7342,6 +7417,10 @@ public class OpticalFlow {
 				"-DSI_INTER",
 				true // silent
 				) >=0 ) {
+			
+///		if (ref_scene.restoreInterDSI( // if there is already calculated with interscene - us it
+///					true // silent
+///					) >=0 ) {
 			System.out.println("IntersceneAccumulate(): Using previously calculated interscene DSI (*-DSI_INTER) as initial DSI");
 			combo_dsn[0] = ref_scene.dsi[ref_scene.is_aux?TwoQuadCLT.DSI_DISPARITY_AUX:TwoQuadCLT.DSI_DISPARITY_MAIN];
 			combo_dsn[1] = ref_scene.dsi[ref_scene.is_aux?TwoQuadCLT.DSI_STRENGTH_AUX:TwoQuadCLT.DSI_STRENGTH_MAIN];
@@ -7720,10 +7799,13 @@ public class OpticalFlow {
 		double [][] combo_dsn =  null;
 		// USE reference scene if no individual DSI are available double [][] dsrbg = scene.getDSRBG(); Probably null for non-reference
 		// make sure to use already integrated if available
-        double [][] combo_dsn0 = scenes[indx_ref].readDoubleArrayFromModelDirectory(
-    			"-INTER-INTRA-LMA", // String      suffix,
-    			0, // int         num_slices, // (0 - all)
-    			null); // int []      wh);
+///        double [][] combo_dsn0 = scenes[indx_ref].readDoubleArrayFromModelDirectory(
+///    			"-INTER-INTRA-LMA", // String      suffix,
+///    			0, // int         num_slices, // (0 - all)
+///    			null); // int []      wh);
+        
+    	double [][] combo_dsn0 =scenes[indx_ref].readComboDSI(true); // scenes[indx_ref].dsi and blue sky are NOT updated         
+        
         if (combo_dsn0 == null) {
         	combo_dsn0 = prepareInitialComboDS( // 3
         			clt_parameters,   // final CLTParameters       clt_parameters,
@@ -7731,6 +7813,13 @@ public class OpticalFlow {
         			indx_ref,         // final int                 indx_ref,
         			debug_level-2);     // final int                 debug_level);
         } else {
+        	// set blue sky from read from file ONLY if no BS was calculated for this instance
+        	if ((combo_dsn0[COMBO_DSN_INDX_BLUE_SKY] != null) && !scenes[indx_ref].hasBlueSky()) {
+        		if (debug_level > -2) {
+        			System.out.println("There was no calculated Blue Sky, but a file had it. Will use the loaded one");
+        			scenes[indx_ref].setBlueSky(combo_dsn0[COMBO_DSN_INDX_BLUE_SKY]);
+        		}
+        	}
         	combo_dsn0 = conditionComboDsnFinal(
 							true,                // boolean        use_conf,       // use configuration parameters, false - use following  
 							clt_parameters,      // CLTParameters  clt_parameters,
@@ -12256,10 +12345,12 @@ public class OpticalFlow {
         int tilesY =  quadCLTs[ref_index].getTileProcessor().getTilesY();
         double [] disparity_raw = new double [tilesX * tilesY];
         Arrays.fill(disparity_raw,clt_parameters.disparity);
-        double [][] combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
-        			"-INTER-INTRA-LMA", // String      suffix,
-        			0, // int         num_slices, // (0 - all)
-        			null); // int []      wh);
+///        double [][] combo_dsn_final = quadCLTs[ref_index].readDoubleArrayFromModelDirectory(
+///        			"-INTER-INTRA-LMA", // String      suffix,
+///        			0, // int         num_slices, // (0 - all)
+///        			null); // int []      wh);
+        double [][] combo_dsn_final = quadCLTs[ref_index].restoreComboDSI(true); // also sets quadCLTs[ref_index].dsi and blue sky
+
         double [][] dls = {
         		combo_dsn_final[COMBO_DSN_INDX_DISP],
         		combo_dsn_final[COMBO_DSN_INDX_LMA],

src/main/java/com/elphel/imagej/tileprocessor/QuadCLTCPU.java

@@ -86,8 +86,8 @@ import loci.formats.FormatException;
 
 public class QuadCLTCPU {
 	public static final String [] DSI_SUFFIXES = {"-INTER-INTRA-LMA","-INTER-INTRA","-DSI_MAIN"};
-	public static int             INDEX_INTER =     0;
-	public static int             INDEX_INTER_LMA = 1;
+	public static int             INDEX_INTER_LMA = 0;
+	public static int             INDEX_INTER =     1;
 	public static int             INDEX_DSI_MAIN =  2;
 	public static final String [] FGBG_TITLES_ADJ = {"disparity","strength"};
 //	public static final String [] FGBG_TITLES = {"disparity","strength", "rms","rms-split","fg-disp","fg-str","bg-disp","bg-str"};
@@ -424,6 +424,8 @@ public class QuadCLTCPU {
 	 * Expansion by 1 is horizontal/vertical only, by 2 includes diagonals,
 	 * and so on. 
 	 *  
+	 * @param max_disparity maximal disparity for the sky area
+	 * @param max_disparity_strength maximal strength of the too high disparity to count
 	 * @param sky_seed minimal value of strength*spread to seed sky areas 
 	 * @param disparity_seed maximal disparity to seed sky areas (not needed for expand) 
 	 * @param sky_lim maximal value of strength*spread over which sky area will
@@ -441,12 +443,17 @@ public class QuadCLTCPU {
 	 * @return boolean 1d array of the pixels belonging to the blue sky.
 	 */
 	public static boolean [] getBlueSky  (
+			double max_disparity,
+			double max_disparity_strength,
 			double sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
 			double disparity_seed, //          2.0;  // seed - disparity_lma limit
+			double seed_temp, //         0.5;  // seed colder that this point between min and max temp
 			double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+			double lim_temp, //          0.5;  // sky colder that this point between min and max temp
 			int    sky_shrink, //  =       4;
 			int    sky_expand_extra, //  = 100; // 1?
 			int    sky_bottleneck, //            
+			int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank
 			double cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 			double cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 			double hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -467,7 +474,7 @@ public class QuadCLTCPU {
 			double [] spread,
 			double [] disparity,
 			double [] avg_val,
-			
+			QuadCLT   scene,    // use to save debug images if not null
 			int debugLevel) { // >0 to show
 		if ((strength == null) || (spread==null)) {
 			return null;
@@ -559,9 +566,9 @@ public class QuadCLTCPU {
 		
 		
 		String [] dbg_in_titles =    {"fom", "strength", "spread", "disparity", "avg_val", "tscale"};
-		String [] dbg_titles = {"sky", "seed", "max", "shrank","full_shrank","neck_shrank","reexpand"};
+		String [] dbg_titles = {"sky", "seed", "max", "expanded", "shrank","temp_shrank","neck_shrank","reexpand"};
 		
-		double [][] dbg_img = (debugLevel>0) ? new double [dbg_titles.length][strength.length]:null;
+		double [][] dbg_img = ((debugLevel>0) || (scene != null))? new double [dbg_titles.length][strength.length]:null;
 		TileNeibs tn = new TileNeibs(width,strength.length/width);
 
 		boolean [] sky_tiles =      new  boolean [strength.length];
@@ -600,14 +607,27 @@ public class QuadCLTCPU {
 					dbg_in_titles); //	dsrbg_titles);
 
 		}
+		if (scene != null) {
+			scene.saveDoubleArrayInModelDirectory(
+					scene.getImageName() + "-sky_input",
+					dbg_in_titles,          // String []   labels, // or null
+					new double[][] {fom, strength, spread, disparity, avg_val, temp_scales}, // double [][] data,
+					width,                  // int         width,
+					fom.length/width);      // int         height)
+		}
 		
+		double max_temp_seed = temp_cold * (1.0 - seed_temp) + temp_hot * seed_temp;
+		double max_temp_lim =  temp_cold * (1.0 - lim_temp) +  temp_hot * lim_temp;
 		for (int i = 0; i < sky_tiles.length; i++) {
-			prohibit_tiles[i] = (fom[i] >= sky_lim);
-			sky_tiles[i] = (fom[i] < sky_seed) && !(disparity[i] > disparity_seed);
+			prohibit_tiles[i] = (fom[i] >= sky_lim) ||
+					((strength[i] >= max_disparity_strength) && (disparity[i] >= max_disparity)) ||
+					(avg_val[i] >= max_temp_lim);
+			sky_tiles[i] = (fom[i] < sky_seed) &&
+					!(disparity[i] > disparity_seed) &&
+					!prohibit_tiles[i] &&
+					(avg_val[i] < max_temp_seed);
 		}
 		
-		
-		
 		//seed_rows
 		if (dbg_img != null) {
 			for (int i = 0; i < sky_tiles.length; i++) {
@@ -616,7 +636,7 @@ public class QuadCLTCPU {
 			}			
 		}
 		tn.shrinkSelection(
-				sky_shrink,    // int        shrink,           // grow tile selection by 1 over non-background tiles 1: 4 directions, 2 - 8 directions, 3 - 8 by 1, 4 by 1 more
+				sky_shrink,    // int        shrink,
 				sky_tiles,     // boolean [] tiles,
 				null);         // boolean [] prohibit)
 		if (seed_rows > 0) {
@@ -625,7 +645,7 @@ public class QuadCLTCPU {
 		boolean [] seed_sky = sky_tiles.clone();
 		if (dbg_img != null) {
 			for (int i = 0; i < sky_tiles.length; i++) {
-				dbg_img[3][i] = sky_tiles[i]? 1 : 0;
+				dbg_img[4][i] = sky_tiles[i]? 1 : 0;
 			}			
 		}
 		
@@ -641,6 +661,12 @@ public class QuadCLTCPU {
 					sky_tiles,         // boolean [] tiles,
 					null);             // boolean [] prohibit)
 		}
+		if (dbg_img != null) {
+			for (int i = 0; i < sky_tiles.length; i++) {
+				dbg_img[3][i] = sky_tiles[i]? 1 : 0;
+			}			
+		}
+
 		//shrink_neck
 		// Remove leaks through small holes
 		if (sky_bottleneck > 0) {
@@ -654,17 +680,17 @@ public class QuadCLTCPU {
 			}
 			sky_tiles = seed_sky.clone();
 			tn.growSelection(
-					4*width , // int        shrink,           // grow tile selection by 1 over non-background tiles 1: 4 directions, 2 - 8 directions, 3 - 8 by 1, 4 by 1 more
-					sky_tiles,         // boolean [] tiles,
-					prohibit_neck);             // boolean [] prohibit)
+					4*width ,       // int        shrink,
+					sky_tiles,      // boolean [] tiles,
+					prohibit_neck); // boolean [] prohibit)
 			tn.growSelection(
-					sky_bottleneck , // int        shrink,           // grow tile selection by 1 over non-background tiles 1: 4 directions, 2 - 8 directions, 3 - 8 by 1, 4 by 1 more
-					sky_tiles,         // boolean [] tiles,
+					sky_bottleneck + sky_reexpand_extra , // int        shrink,
+					sky_tiles,       // boolean [] tiles,
 					prohibit_tiles);             // boolean [] prohibit)
 			if (dbg_img != null) {
 				for (int i = 0; i < sky_tiles.length; i++) {
-					dbg_img[5][i] = prohibit_neck[i]? 0 : 1;
-					dbg_img[6][i] = sky_tiles[i]?     1 : 0;
+					dbg_img[6][i] = prohibit_neck[i]? 0 : 1;
+					dbg_img[7][i] = sky_tiles[i]?     1 : 0;
 				}
 			}
 			
@@ -686,7 +712,7 @@ public class QuadCLTCPU {
 			}
 			if (dbg_img != null) {
 				for (int i = 0; i < sky_tiles.length; i++) {
-					dbg_img[4][i] = shrank_sky[i]? 1 : 0;
+					dbg_img[5][i] = shrank_sky[i]? 1 : 0;
 				}
 			}			
 		}
@@ -695,13 +721,23 @@ public class QuadCLTCPU {
 			for (int i = 0; i < sky_tiles.length; i++) {
 				dbg_img[0][i] = sky_tiles[i]? 1 : 0;
 			}
-			ShowDoubleFloatArrays.showArrays(
-					dbg_img,
-					width,
-					sky_tiles.length/width,
-					true,
-					"sky_selection",
-					dbg_titles); //	dsrbg_titles);
+			if (debugLevel>0) {
+				ShowDoubleFloatArrays.showArrays(
+						dbg_img,
+						width,
+						sky_tiles.length/width,
+						true,
+						"sky_selection",
+						dbg_titles); //	dsrbg_titles);
+			}
+			if (scene != null) {
+				scene.saveDoubleArrayInModelDirectory(
+						scene.getImageName() + "-sky_selection",
+						dbg_titles,          // String []   labels, // or null
+						dbg_img, // double [][] data,
+						width,                  // int         width,
+						fom.length/width);      // int         height)
+			}
 		}
 		
 		
@@ -722,10 +758,7 @@ public class QuadCLTCPU {
 		}
 		return sky_tiles;
 	}
-//	@Deprecated
-//	public boolean [] getBlueSky () {
-//		return this.blue_sky;
-//	}
+
 	public double [] getDoubleBlueSky() {
 		if (this.dsi == null) {
 			return null;
@@ -770,12 +803,17 @@ public class QuadCLTCPU {
 	
 	
 	public void setBlueSky (
+			double max_disparity,
+			double max_disparity_strength,
 			double sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
 			double lma_seed, //          2.0;  // seed - disparity_lma limit
-			double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+			double seed_temp, //         0.5;  // seed colder that this point between min and max temp
+			double sky_lim, //   =      15.0;  // then expand to product of strength by diff_second below this
+			double lim_temp, //          0.5;  // sky colder that this point between min and max temp
 			int    sky_shrink, //  =       4;
 			int    sky_expand_extra, //  = 100; // 1?
-			int    sky_bottleneck,        // 
+			int    sky_bottleneck,
+			int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank
 			double cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 			double cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 			double hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -793,16 +831,22 @@ public class QuadCLTCPU {
 			double [] spread,
 			double [] disp_lma,
 			double [] avg_val,
+			QuadCLT   dbg_scene,    // use to save debug images if not null
 			int debugLevel) {
 		int width = tp.getTilesX();
 //		this.blue_sky = getBlueSky  (
 		setBlueSky(getBlueSky  (
-				sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
-				lma_seed, //          2.0;  // seed - disparity_lma limit
-				sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+				max_disparity,
+				max_disparity_strength,
+				sky_seed,   //  =       7.0;  // start with product of strength by diff_second below this
+				lma_seed,   //          2.0;  // seed - disparity_lma limit
+				seed_temp,  //double seed_temp, //         0.5;  // seed colder that this point between min and max temp
+				sky_lim,    //   =      15.0; // then expand to product of strength by diff_second below this
+				lim_temp,   //double lim_temp, //          0.5;  // sky colder that this point between min and max temp
 				sky_shrink, //  =       4;
 				sky_expand_extra, //  = 100; // 1?
 				sky_bottleneck,        // 
+				sky_reexpand_extra,    // int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank				
 				cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 				cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 				hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -821,12 +865,17 @@ public class QuadCLTCPU {
 				spread,
 				disp_lma,
 				avg_val,
+				dbg_scene,    // use to save debug images if not null
 				debugLevel));
 	}
 	public void setDSI(	double [][] dsi) {
 		this.dsi = dsi; // make sure available blue sky is not erased
 	}
 
+	/**
+	 * Sets dsi from combo_dsi. Does not reset blue sky if it does not exist
+	 * @param combo_dsi
+	 */
 	public void setDSIFromCombo(
 			double [][] combo_dsi) {
 		this.dsi = new double [TwoQuadCLT.DSI_SLICES.length][]; // will not have DSI_SPREAD_AUX
@@ -836,8 +885,10 @@ public class QuadCLTCPU {
 				combo_dsi[OpticalFlow.COMBO_DSN_INDX_STRENGTH];
 		this.dsi[is_aux?TwoQuadCLT.DSI_DISPARITY_AUX_LMA:TwoQuadCLT.DSI_DISPARITY_MAIN_LMA] =
 				combo_dsi[OpticalFlow.COMBO_DSN_INDX_LMA];
-		this.dsi[is_aux?TwoQuadCLT.DSI_BLUE_SKY_AUX:TwoQuadCLT.DSI_BLUE_SKY_MAIN] =
-				combo_dsi[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY];
+		if ((combo_dsi.length > OpticalFlow.COMBO_DSN_INDX_BLUE_SKY) && (combo_dsi[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY] != null)) {
+			this.dsi[is_aux?TwoQuadCLT.DSI_BLUE_SKY_AUX:TwoQuadCLT.DSI_BLUE_SKY_MAIN] =
+					combo_dsi[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY];
+		}
 	}
 	
 	
@@ -864,6 +915,67 @@ public class QuadCLTCPU {
 		return num_slices >= 0;
 	}
 
+	@Deprecated
+	public int restoreInterDSI(boolean silent) {
+		for (int indx: new int[]{INDEX_INTER_LMA, INDEX_INTER}) {
+			int num_slices = restoreDSI(
+					DSI_SUFFIXES[indx], // String suffix, // "-DSI_COMBO", "-DSI_MAIN" (DSI_COMBO_SUFFIX, DSI_MAIN_SUFFIX)
+					null, // double [][] dsi, // if null - just check file exists
+					true); // boolean silent);
+			if (num_slices >= 0) {
+				this.dsi = new double [TwoQuadCLT.DSI_SLICES.length][];
+				return restoreDSI(
+						DSI_SUFFIXES[indx], // String suffix, // "-DSI_COMBO", "-DSI_MAIN" (DSI_COMBO_SUFFIX, DSI_MAIN_SUFFIX)
+						dsi,     // double [][] dsi, // if null - just check file exists
+						silent); // boolean silent);
+			}
+		}
+		return 0;
+	}
+	
+	/**
+	 * Tries to read combo DSI, if successful - sets this.dsi and blue sky
+	 * @param silent
+	 * @return combo DSI if read, null if failed to read. Result has full lenghth
+	 *               (OpticalFlow.COMBO_DSN_TITLES.length), missing slices are null
+	 */
+	public double [][] restoreComboDSI (boolean silent) {
+		double [][] combo_dsi = new double [OpticalFlow.COMBO_DSN_TITLES.length][];
+		for (int indx: new int[]{INDEX_INTER_LMA, INDEX_INTER}) {
+			int num_slices = restoreDSI(
+					DSI_SUFFIXES[indx], // String suffix, // "-DSI_COMBO", "-DSI_MAIN" (DSI_COMBO_SUFFIX, DSI_MAIN_SUFFIX)
+					combo_dsi,          // double [][] dsi, // if null - just check file exists
+					silent);            // boolean silent);
+			if (num_slices >= 0) {
+				System.out.println ("restoreComboDSI(): used "+getX3dDirectory()+ Prefs.getFileSeparator() + image_name + DSI_SUFFIXES[indx] + ".tiff");
+				setDSIFromCombo(combo_dsi); // reformat
+				return combo_dsi;
+			}
+		}
+		return null;
+	}
+
+	public double [][] readComboDSI (boolean silent) {
+		double [][] combo_dsi = new double [OpticalFlow.COMBO_DSN_TITLES.length][];
+		for (int indx: new int[]{INDEX_INTER_LMA, INDEX_INTER}) {
+			int num_slices = restoreDSI(
+					DSI_SUFFIXES[indx], // String suffix, // "-DSI_COMBO", "-DSI_MAIN" (DSI_COMBO_SUFFIX, DSI_MAIN_SUFFIX)
+					combo_dsi,          // double [][] dsi, // if null - just check file exists
+					silent);            // boolean silent);
+			if (num_slices >= 0) {
+				System.out.println ("readComboDSI(): used "+getX3dDirectory()+ Prefs.getFileSeparator() +
+						image_name + DSI_SUFFIXES[indx] + ".tiff, instance.dsi and blue sky are not updated!");
+				setDSIFromCombo(combo_dsi); // reformat
+				return combo_dsi;
+			}
+		}
+		return null;
+	}
+	
+	
+	
+	
+	
 	public int restoreDSI(
 			String suffix,
 			boolean silent) // "-DSI_COMBO", "-DSI_MAIN" (DSI_COMBO_SUFFIX, DSI_MAIN_SUFFIX)
@@ -933,7 +1045,11 @@ public class QuadCLTCPU {
 			}
 			return -1;
 		}
-		System.out.println("restoreDSI(): got "+imp.getStackSize()+" slices from file: "+file_path);
+		if (dsi == null) {
+			System.out.println("restoreDSI(): has "+imp.getStackSize()+" slices in file: "+file_path);
+		} else {
+			System.out.println("restoreDSI(): got "+imp.getStackSize()+" slices from file: "+file_path);
+		}
 		if (imp.getStackSize() < 2) {
 			if (!silent) {
 				System.out.println ("Failed to read "+file_path);
@@ -1249,6 +1365,7 @@ public class QuadCLTCPU {
 		return rgba;
 	}
 	
+
 	public QuadCLTCPU restoreFromModel( // restores dsi
 			CLTParameters        clt_parameters,
 			ColorProcParameters  colorProcParameters,
@@ -1715,13 +1832,10 @@ public class QuadCLTCPU {
 	}
 
 	
-	
-	
 	public double [][] readDoubleArrayFromModelDirectory(
 			String      suffix,
 			int         num_slices, // (0 - all)
-			int []      wh
-			)
+			int []      wh)
 	{
 //		final int [] image_wh = geometryCorrection.getSensorWH();
 		String x3d_path = getX3dDirectory();

src/main/java/com/elphel/imagej/tileprocessor/TexturedModel.java

@@ -572,6 +572,10 @@ public class TexturedModel {
 			final int             tilesX,
 			int             debugLevel_in)
 	{
+		if ((debugLevel_in > -2) && is_sky_cluster) {
+			System.out.println("buildTileCluster(): processing sky clusterm cluster_list.size()="+cluster_list.size());
+		}
+
 		final int dbg_tile = -2410; // 858; // -3868; // 28+48*80;
 		//		final int       num_layers = disparity_layers.length;
 		final int        tiles =        source_disparity.length;
@@ -1417,6 +1421,9 @@ public class TexturedModel {
 			}
 			// next_seed_tile_layer is now {tile, layer}
 			final boolean is_sky_cluster = (next_seed_tile_layer[1] == blue_sky_layer) &&  blue_sky[next_seed_tile_layer[0]];
+			if ((debugLevel > -2) && is_sky_cluster) {
+				System.out.println("clusterizeFgBg(): processing sky clusterm cluster_list.size()="+cluster_list.size());
+			}
 			double [] cluster_initial_disparity = buildInitialCluster(
 					disparity_layers,        // final double [][]     disparity_layers, // should not have same tile disparity on multiple layers
 			        seams_layers,            // final int [][]        seams_layers,
@@ -1655,7 +1662,7 @@ public class TexturedModel {
 		final boolean showTri =          !batch_mode && (debugLevel > -1) && (clt_parameters.show_triangles);
 		final boolean disp_hires_tri =   !batch_mode && clt_parameters.tex_disp_hires_tri;
 		final int dbg_scale_mesh =        clt_parameters.tex_dbg_scale_mesh; //  4; // <=0 - do not show
-		
+///		final double min_non_inf = 0.01; // relative to infinity disparity
 		
 		
 		final int sky_layer = 0; // source disparity layer that contains "blue sky" 
@@ -1668,6 +1675,7 @@ public class TexturedModel {
 			return false; // not used in lwir
 		}
 		double infinity_disparity = 	ref_scene.getGeometryCorrection().getDisparityFromZ(clt_parameters.infinityDistance);
+		double min_obj_disparity = ref_scene.getGeometryCorrection().getDisparityFromZ(clt_parameters.infinityDistance-clt_parameters.min_from_inf);
 		X3dOutput x3dOutput = null;
 		WavefrontExport    wfOutput = null; 
 		ArrayList<TriMesh> tri_meshes = null; 
@@ -1683,17 +1691,17 @@ public class TexturedModel {
 			System.out.println("As there was a problem with (wrong?) blue sky setting strength to 0.0001");
 			combo_dsn_final = null;
 		}
-		if (combo_dsn_final == null) {
-			combo_dsn_final =scenes[ref_index].readDoubleArrayFromModelDirectory(
-					"-INTER-INTRA-LMA", // String      suffix,
-					0,                  // int         num_slices, // (0 - all)
-					null);              // int []      wh);
+		if (combo_dsn_final == null) { // does not set scene.dsi from file !!!
+			combo_dsn_final =scenes[ref_index].restoreComboDSI(true);  // also sets quadCLTs[ref_index].dsi and blue sky
 		}
 		boolean [] sky_tiles =  new boolean[combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY].length];
-		boolean [] sky_invert = new boolean[combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY].length];
+		int num_sky_tiles = 0;
 		for (int i = 0; i < sky_tiles.length; i++) {
 			sky_tiles[i] = combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY][i] > 0.0;
-			sky_invert[i] =  !sky_tiles[i]; // not used
+			num_sky_tiles += sky_tiles[i]? 1: 0; 
+		}
+		if (debugLevel > -2) {
+			System.out.println("output3d(): num_sky_tiles="+num_sky_tiles);
 		}
 		// re-load , should create quadCLTs[ref_index].dsi
 		double [][] dls_fg = {
@@ -1703,18 +1711,19 @@ public class TexturedModel {
 		};
 		
 		// currently conditionInitialDS() zeroes disparity for blue_sky. TODO: allow some FG over blue_sky?
+		// gets Blue Sky from scene.dsi , not from the file!
 		double [][] ds_fg = OpticalFlow.conditionInitialDS(
-				true, // boolean        use_conf,       // use configuration parameters, false - use following  
+				true,                // boolean        use_conf,       // use configuration parameters, false - use following  
 				clt_parameters,      // CLTParameters  clt_parameters,
-				dls_fg,                 // double [][]    dls
-				scenes[ref_index], // QuadCLT        scene,
+				dls_fg,              // double [][]    dls
+				scenes[ref_index],   // QuadCLT        scene,
 				debugLevel);         // int debug_level)
 		double [][] dls_bg = {
 				combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_DISP_BG].clone(),
 				combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_LMA_BG].clone(),
 				combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_STRENGTH_BG].clone()
 		};
-		for (int i = 0; i < sky_tiles.length; i++) if (Double.isNaN(dls_bg[0][i])){
+		for (int i = 0; i < dls_bg[0].length; i++) if (Double.isNaN(dls_bg[0][i])){
 			dls_bg[0][i] = dls_fg[0][i];
 			dls_bg[1][i] = dls_fg[1][i];
 			dls_bg[2][i] = dls_fg[2][i];
@@ -1726,11 +1735,37 @@ public class TexturedModel {
 				scenes[ref_index], // QuadCLT        scene,
 				debugLevel);         // int debug_level)
 		double[][] ds_fg_bg = {ds_fg[0], ds_bg[0].clone()}; 
-		for (int i = 0; i < sky_tiles.length; i++) {
+		for (int i = 0; i < dls_bg[0].length; i++) {
 			if (Math.abs(ds_fg_bg[1][i]-ds_fg_bg[0][i]) < tex_fg_bg) {
 				ds_fg_bg[1][i] = Double.NaN;
 			}
 		}
+		if (debugLevel > -2) {
+			System.out.println("Limiting non-infinity objects' disparity to "+min_obj_disparity+
+					", infinity_disparity = "+infinity_disparity);
+		}
+		for (int nl = 0; nl < ds_fg_bg.length; nl++) {
+			for (int i = 0; i < dls_bg[nl].length; i++) {
+				if ((nl != sky_layer) || !sky_tiles[i]) {
+					if (ds_fg_bg[nl][i] < min_obj_disparity) {
+						ds_fg_bg[nl][i] = min_obj_disparity;
+					}
+				}
+			}
+		}
+		
+		if (debugLevel > -2) { // was > 0
+			String [] dbg_titles = {"FG","BG","BS"};
+			double [][] dbg_img = {ds_fg_bg[0], ds_fg_bg[1],combo_dsn_final[OpticalFlow.COMBO_DSN_INDX_BLUE_SKY]};
+			ShowDoubleFloatArrays.showArrays(
+					dbg_img,
+					tilesX,
+					dbg_img[0].length/tilesX,
+					true,
+					ref_scene.getImageName()+"-disparity_layers",
+					dbg_titles);
+		}
+		
 		// Create data for consolidated textures (multiple texture segments combined in same "passes" 
 		TileCluster [] tileClusters = clusterizeFgBg( // wrong result type, not decided
 				tilesX,            // final int          tilesX,
@@ -1951,7 +1986,9 @@ public class TexturedModel {
 				boolean [] scan_selected = tileClusters[nslice].getSubSelected(sub_i); // limited to cluster bounds
 				int [] scan_border_int =   tileClusters[nslice].getSubBorderInt(sub_i); // limited to cluster bounds
 				int    max_border =        tileClusters[nslice].getBorderIntMax();
-
+				boolean is_sky = tileClusters[nslice].isSky();
+				double min_disparity = is_sky? infinity_disparity : min_obj_disparity;
+				
 				// skipping averaging disparity for a whole cluster (needs strength and does not seem to be useful)
 				try {
 					if (alpha == null) {
@@ -2008,7 +2045,7 @@ public class TexturedModel {
 								((dbg_mesh_imgs != null) ? dbg_mesh_imgs[nslice]:null),  //   double []       tri_img,   //
 								dbg_scaled_width,       // int             tri_img_width,
 								// FIXME: make a separate parameter:
-								infinity_disparity,            //  0.25 * clt_parameters.bgnd_range,  // 0.3
+								infinity_disparity,            //min_disparity, // infinity_disparity,            //  0.25 * clt_parameters.bgnd_range,  // 0.3
 								clt_parameters.grow_disp_max,  // other_range, // 2.0 'other_range - difference from the specified (*_CM)
 								clt_parameters.maxDispTriangle,
 							    clt_parameters.maxZtoXY,       // double          maxZtoXY,       // 10.0. <=0 - do not use
@@ -3663,7 +3700,8 @@ public class TexturedModel {
 					sky_pixels,               // final double [] data,
 					null,                     // final boolean [] prohibit,
 					sky_pixels_bounds.width,  // int       width,
-					3 * Math.min(sky_pixels_bounds.width,sky_pixels_bounds.height) / 2, // 16,           // final int grow,
+//					3 * Math.min(sky_pixels_bounds.width,sky_pixels_bounds.height) / 2, // 16,           // final int grow,
+					2 * Math.max(sky_pixels_bounds.width,sky_pixels_bounds.height), // 16,           // final int grow,
 					0.7,                      // double    diagonal_weight, // relative to ortho
 					100,                      // int       num_passes,
 					0.01,                     // final double     max_rchange, //  = 0.01

src/main/java/com/elphel/imagej/tileprocessor/TileProcessor.java

@@ -8687,6 +8687,9 @@ ImageDtt.startAndJoin(threads);
 			Arrays.fill(all_nan, Double.NaN);
  			return all_nan;
 		}
+		if (davg2 == 0) {
+			davg2 = 1; // for sky with disparity ==0
+		}
 		final double fdavg = davg;
 		final double max_change = Math.abs(davg2 * max_rchange);
 

src/main/java/com/elphel/imagej/tileprocessor/lwoc/LwirWorld.java

@@ -209,10 +209,15 @@ public class LwirWorld {
  		double cold_scale =          clt_parameters.imp.cold_scale;
  		double sky_seed =            clt_parameters.imp.sky_seed;
  		double lma_seed =            clt_parameters.imp.lma_seed;
+		double seed_temp =           clt_parameters.imp.seed_temp;
  		int    sky_shrink =          clt_parameters.imp.sky_shrink;
  		int    sky_bottleneck =      clt_parameters.imp.sky_bottleneck;
+ 		int    sky_reexpand_extra =  clt_parameters.imp.sky_reexpand_extra;
  		int    seed_rows =           clt_parameters.imp.seed_rows;
+ 		double max_disparity =       clt_parameters.imp.max_disparity;
+ 		double max_disparity_strength=clt_parameters.imp.max_disparity_strength;
  		double sky_lim =             clt_parameters.imp.sky_lim;
+		double lim_temp =            clt_parameters.imp.lim_temp;
  		int    sky_expand_extra =    clt_parameters.imp.sky_expand_extra;
  		double min_strength =        clt_parameters.imp.min_strength;
  		int    lowest_sky_row =      clt_parameters.imp.lowest_sky_row;
@@ -366,13 +371,19 @@ public class LwirWorld {
 					System.out.println("(Re)using photometric calibration from this sequence reference "+quadCLTs[ref_index].getPhotometricScene());
 					quadCLTs[ref_index].setQuadClt(); // just in case ?
 				}
+				QuadCLT   dbg_scene = clt_parameters.imp.save_debug_images? quadCLTs[ref_index]: null; // use to save debug images if not null
 				quadCLTs[ref_index].setBlueSky  (
+						max_disparity,
+						max_disparity_strength,
 						sky_seed,           // double sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
 						lma_seed,
+						seed_temp,     //double seed_temp, //         0.5;  // seed colder that this point between min and max temp						
 						sky_lim,            // double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+						lim_temp, //						double lim_temp, //          0.5;  // sky colder that this point between min and max temp		
 						sky_shrink,         // int    sky_shrink, //  =       4;
 						sky_expand_extra,   // int    sky_expand_extra, //  = 100; // 1?
-						sky_bottleneck,     //int    sky_bottleneck, // 
+						sky_bottleneck,     //int    sky_bottleneck, //
+						sky_reexpand_extra,   //int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank
 						cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 						cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 						hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -390,6 +401,7 @@ public class LwirWorld {
 						dsi[TwoQuadCLT.DSI_SPREAD_AUX], // double [] spread,
 						dsi[TwoQuadCLT.DSI_DISPARITY_AUX_LMA], // double [] spread,
 						dsi[TwoQuadCLT.DSI_AVGVAL_AUX],//	double [] avg_val,
+						dbg_scene,          // QuadCLT   dbg_scene,    // use to save debug images if not null
 						batch_mode? -1: 1); /// debugLevel);        // int debugLevel)
 				if (ran_photo_each) {
 					double []  blue_sky = quadCLTs[ref_index].getDoubleBlueSky();
@@ -464,13 +476,19 @@ public class LwirWorld {
 				if (dsi[TwoQuadCLT.DSI_SPREAD_AUX] == null) {
 					System.out.println("DSI_MAIN file has old format and does not have spread data, will recalculate.");
 				} else {
+					QuadCLT   dbg_scene = clt_parameters.imp.save_debug_images? quadCLTs[ref_index]: null; // use to save debug images if not null
 					quadCLTs[ref_index].setBlueSky  (
+							max_disparity,
+							max_disparity_strength,
 							sky_seed,                              // double sky_seed, //  =       7.0;  // start with product of strength by diff_second below this
 							lma_seed,                              //          2.0;  // seed - disparity_lma limit
-							sky_lim,                               // double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+							seed_temp,     //double seed_temp, //         0.5;  // seed colder that this point between min and max temp						
+							sky_lim,            // double sky_lim, //   =      15.0; // then expand to product of strength by diff_second below this
+							lim_temp, //						double lim_temp, //          0.5;  // sky colder that this point between min and max temp		
 							sky_shrink,                            // int    sky_shrink, //  =       4;
 							sky_expand_extra,                      // int    sky_expand_extra, //  = 100; // 1?
 							sky_bottleneck,       //int    sky_bottleneck, // 
+							sky_reexpand_extra,   //int    sky_reexpand_extra,  // 9; re-expand after bottleneck in addition to how it was shrank
 							cold_scale, // =       0.2;  // <=1.0. 1.0 - disables temperature dependence
 							cold_frac, // =        0.005; // this and lower will scale fom by  cold_scale
 							hot_frac, // =         0.9;    // this and above will scale fom by 1.0
@@ -488,12 +506,12 @@ public class LwirWorld {
 							dsi[TwoQuadCLT.DSI_SPREAD_AUX],        // double [] spread,
 							dsi[TwoQuadCLT.DSI_DISPARITY_AUX_LMA], //double [] disp_lma,
 							dsi[TwoQuadCLT.DSI_AVGVAL_AUX],//	double [] avg_val,
+							dbg_scene,          // QuadCLT   dbg_scene,    // use to save debug images if not null
 							debugLevel);        // int debugLevel)
 				}
 			}
 		} // while (blue_sky == null) 
  /* */
-    	
     	return null;
     }
 }