combine_roads_xldcombine_roads_xldCombineRoadsXldCombineRoadsXldcombine_roads_xld (Operator)
Name
combine_roads_xldcombine_roads_xldCombineRoadsXldCombineRoadsXldcombine_roads_xld
— Combine road hypotheses from two resolution levels.
Signature
Herror combine_roads_xld(const Hobject EdgePolygons, const Hobject ModParallels, const Hobject ExtParallels, const Hobject CenterLines, Hobject* RoadSides, double MaxAngleParallel, double MaxAngleColinear, double MaxDistanceParallel, double MaxDistanceColinear)
Herror T_combine_roads_xld(const Hobject EdgePolygons, const Hobject ModParallels, const Hobject ExtParallels, const Hobject CenterLines, Hobject* RoadSides, const Htuple MaxAngleParallel, const Htuple MaxAngleColinear, const Htuple MaxDistanceParallel, const Htuple MaxDistanceColinear)
void CombineRoadsXld(const HObject& EdgePolygons, const HObject& ModParallels, const HObject& ExtParallels, const HObject& CenterLines, HObject* RoadSides, const HTuple& MaxAngleParallel, const HTuple& MaxAngleColinear, const HTuple& MaxDistanceParallel, const HTuple& MaxDistanceColinear)
HXLDPoly HXLDPoly::CombineRoadsXld(const HXLDModPara& ModParallels, const HXLDExtPara& ExtParallels, const HXLDPoly& CenterLines, const HTuple& MaxAngleParallel, const HTuple& MaxAngleColinear, const HTuple& MaxDistanceParallel, const HTuple& MaxDistanceColinear) const
HXLDPoly HXLDPoly::CombineRoadsXld(const HXLDModPara& ModParallels, const HXLDExtPara& ExtParallels, const HXLDPoly& CenterLines, double MaxAngleParallel, double MaxAngleColinear, double MaxDistanceParallel, double MaxDistanceColinear) const
HXLDPoly HXLDModPara::CombineRoadsXld(const HXLDPoly& EdgePolygons, const HXLDExtPara& ExtParallels, const HXLDPoly& CenterLines, const HTuple& MaxAngleParallel, const HTuple& MaxAngleColinear, const HTuple& MaxDistanceParallel, const HTuple& MaxDistanceColinear) const
HXLDPoly HXLDModPara::CombineRoadsXld(const HXLDPoly& EdgePolygons, const HXLDExtPara& ExtParallels, const HXLDPoly& CenterLines, double MaxAngleParallel, double MaxAngleColinear, double MaxDistanceParallel, double MaxDistanceColinear) const
static void HOperatorSet.CombineRoadsXld(HObject edgePolygons, HObject modParallels, HObject extParallels, HObject centerLines, out HObject roadSides, HTuple maxAngleParallel, HTuple maxAngleColinear, HTuple maxDistanceParallel, HTuple maxDistanceColinear)
HXLDPoly HXLDPoly.CombineRoadsXld(HXLDModPara modParallels, HXLDExtPara extParallels, HXLDPoly centerLines, HTuple maxAngleParallel, HTuple maxAngleColinear, HTuple maxDistanceParallel, HTuple maxDistanceColinear)
HXLDPoly HXLDPoly.CombineRoadsXld(HXLDModPara modParallels, HXLDExtPara extParallels, HXLDPoly centerLines, double maxAngleParallel, double maxAngleColinear, double maxDistanceParallel, double maxDistanceColinear)
HXLDPoly HXLDModPara.CombineRoadsXld(HXLDPoly edgePolygons, HXLDExtPara extParallels, HXLDPoly centerLines, HTuple maxAngleParallel, HTuple maxAngleColinear, HTuple maxDistanceParallel, HTuple maxDistanceColinear)
HXLDPoly HXLDModPara.CombineRoadsXld(HXLDPoly edgePolygons, HXLDExtPara extParallels, HXLDPoly centerLines, double maxAngleParallel, double maxAngleColinear, double maxDistanceParallel, double maxDistanceColinear)
def combine_roads_xld(edge_polygons: HObject, mod_parallels: HObject, ext_parallels: HObject, center_lines: HObject, max_angle_parallel: Union[float, int], max_angle_colinear: Union[float, int], max_distance_parallel: Union[float, int], max_distance_colinear: Union[float, int]) -> HObject
Description
combine_roads_xldcombine_roads_xldCombineRoadsXldCombineRoadsXldcombine_roads_xld
combines road hypotheses obtained from
two different resolution levels. The algorithm selects only those
hypotheses which mutually support each other in both resolution
levels. The parameters EdgePolygonsEdgePolygonsEdgePolygonsedgePolygonsedge_polygons
,
ModParallelsModParallelsModParallelsmodParallelsmod_parallels
and ExtParallelsExtParallelsExtParallelsextParallelsext_parallels
correspond to
the road hypotheses from the highest resolution level. The
parameter CenterLinesCenterLinesCenterLinescenterLinescenter_lines
is the result of road extraction in
a lower resolution level. Those of the polygons EdgePolygonsEdgePolygonsEdgePolygonsedgePolygonsedge_polygons
are returned for which evidence of being roadsides is found in
both resolution levels. The parameters MaxAngleParallelMaxAngleParallelMaxAngleParallelmaxAngleParallelmax_angle_parallel
and MaxAngleColinearMaxAngleColinearMaxAngleColinearmaxAngleColinearmax_angle_colinear
determine the angle, that may be formed
by two parallel collinear line segments, respectively. The
parameters MaxDistanceParallelMaxDistanceParallelMaxDistanceParallelmaxDistanceParallelmax_distance_parallel
and
MaxDistanceColinearMaxDistanceColinearMaxDistanceColinearmaxDistanceColinearmax_distance_colinear
determine the maximum allowed
distance of two parallel or collinear line segments, respectively.
The combination is done using a number of rules.
Execution Information
- Multithreading type: mutually exclusive (runs in parallel with other non-exclusive operators, but not with itself).
- Multithreading scope: global (may be called from any thread).
- Processed without parallelization.
Parameters
EdgePolygonsEdgePolygonsEdgePolygonsedgePolygonsedge_polygons
(input_object) xld_poly-array →
objectHXLDPolyHObjectHObjectHobject
XLD polygons to be examined.
CenterLinesCenterLinesCenterLinescenterLinescenter_lines
(input_object) xld_poly-array →
objectHXLDPolyHObjectHObjectHobject
Road-center-line polygons to be examined.
RoadSidesRoadSidesRoadSidesroadSidesroad_sides
(output_object) xld_poly-array →
objectHXLDPolyHObjectHObjectHobject *
Roadsides found.
MaxAngleParallelMaxAngleParallelMaxAngleParallelmaxAngleParallelmax_angle_parallel
(input_control) angle.rad →
HTupleUnion[float, int]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Maximum angle between two parallel line segments.
Default:
0.523598775598
Suggested values:
0.349065850399, 0.523598775598, 0.6981317008
Restriction:
0 <= MaxAngleParallel <= pi / 2
MaxAngleColinearMaxAngleColinearMaxAngleColinearmaxAngleColinearmax_angle_colinear
(input_control) angle.rad →
HTupleUnion[float, int]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Maximum angle between two collinear line segments.
Default:
0.261799387799
Suggested values:
0.174532925199, 0.261799387799, 0.349065850399
Restriction:
0 <= MaxAngleColinear <= pi / 2
MaxDistanceParallelMaxDistanceParallelMaxDistanceParallelmaxDistanceParallelmax_distance_parallel
(input_control) real →
HTupleUnion[float, int]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Maximum distance between two parallel line segments.
Default:
40
Suggested values:
20, 30, 40, 50, 60
Restriction:
MaxDistanceParallel > 0
MaxDistanceColinearMaxDistanceColinearMaxDistanceColinearmaxDistanceColinearmax_distance_colinear
(input_control) real →
HTupleUnion[float, int]HTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)
Maximum distance between two collinear line segments.
Default:
40
Suggested values:
20, 30, 40, 50, 60
Restriction:
MaxDistanceColinear > 0
Possible Predecessors
mod_parallels_xldmod_parallels_xldModParallelsXldModParallelsXldmod_parallels_xld
,
gen_polygons_xldgen_polygons_xldGenPolygonsXldGenPolygonsXldgen_polygons_xld
,
affine_trans_contour_xldaffine_trans_contour_xldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
Possible Successors
get_polygon_xldget_polygon_xldGetPolygonXldGetPolygonXldget_polygon_xld
,
get_lines_xldget_lines_xldGetLinesXldGetLinesXldget_lines_xld
See also
lines_gausslines_gaussLinesGaussLinesGausslines_gauss
,
lines_facetlines_facetLinesFacetLinesFacetlines_facet
,
get_channel_infoget_channel_infoGetChannelInfoGetChannelInfoget_channel_info
,
edges_sub_pixedges_sub_pixEdgesSubPixEdgesSubPixedges_sub_pix
References
C. Steger, C. Glock, W. Eckstein, H. Mayer, B. Radig; “Model-based
Road Extraction from Images”; in “Automatic Extraction of
Man-Made Objects from Aerial and Space Images”; A. Gruen,
O. Kuebler, P. Agouris (Editors); Birkhäuser Verlag (1995),
pp. 275-284.
C. Heipke, C. Steger, R. Multhammer; “A Hierarchical Approach to
Automatic Road Extraction from Aerial Imagery”; in “Integrating
Photogrammetric Techniques with Scene Analysis and Machine Vision
II”; D. M. McKeown, Jr., I. J. Dowman (Editors); Proc. SPIE 2486
(1995), pp. 222-231.
Module
Foundation