Geometry ======== Image Envelope -------------- Description ........... Parameters .......... ``Input Image`` [raster] ``Sampling Rate`` [number] Default: *0* ``Projection`` [string] Optional. Default: *None* Outputs ....... ``Output Vector Data`` [vector] Console usage ............. :: processing.runalg('otb:imageenvelope', -in, -sr, -proj, -out) See also ........ OrthoRectification (epsg) ------------------------- Description ........... Parameters .......... ``Input Image`` [raster] ``Output Cartographic Map Projection`` [selection] Options: * 0 --- epsg Default: *0* ``EPSG Code`` [number] Default: *4326* ``Parameters estimation modes`` [selection] Options: * 0 --- autosize * 1 --- autospacing Default: *0* ``Default pixel value`` [number] Default: *0* ``Default elevation`` [number] Default: *0* ``Interpolation`` [selection] Options: * 0 --- bco * 1 --- nn * 2 --- linear Default: *0* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* ``Resampling grid spacing`` [number] Default: *4* Outputs ....... ``Output Image`` [raster] Console usage ............. :: processing.runalg('otb:orthorectificationepsg', -io.in, -map, -map.epsg.code, -outputs.mode, -outputs.default, -elev.default, -interpolator, -interpolator.bco.radius, -opt.ram, -opt.gridspacing, -io.out) See also ........ OrthoRectification (fit-to-ortho) --------------------------------- Description ........... Parameters .......... ``Input Image`` [raster] ``Parameters estimation modes`` [selection] Options: * 0 --- orthofit Default: *0* ``Model ortho-image`` [raster] Optional. ``Default pixel value`` [number] Default: *0* ``Default elevation`` [number] Default: *0* ``Interpolation`` [selection] Options: * 0 --- bco * 1 --- nn * 2 --- linear Default: *0* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* ``Resampling grid spacing`` [number] Default: *4* Outputs ....... ``Output Image`` [raster] Console usage ............. :: processing.runalg('otb:orthorectificationfittoortho', -io.in, -outputs.mode, -outputs.ortho, -outputs.default, -elev.default, -interpolator, -interpolator.bco.radius, -opt.ram, -opt.gridspacing, -io.out) See also ........ OrthoRectification (lambert-WGS84) ---------------------------------- Description ........... Parameters .......... ``Input Image`` [raster] ``Output Cartographic Map Projection`` [selection] Options: * 0 --- lambert2 * 1 --- lambert93 * 2 --- wgs Default: *0* ``Parameters estimation modes`` [selection] Options: * 0 --- autosize * 1 --- autospacing Default: *0* ``Default pixel value`` [number] Default: *0* ``Default elevation`` [number] Default: *0* ``Interpolation`` [selection] Options: * 0 --- bco * 1 --- nn * 2 --- linear Default: *0* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* ``Resampling grid spacing`` [number] Default: *4* Outputs ....... ``Output Image`` [raster] Console usage ............. :: processing.runalg('otb:orthorectificationlambertwgs84', -io.in, -map, -outputs.mode, -outputs.default, -elev.default, -interpolator, -interpolator.bco.radius, -opt.ram, -opt.gridspacing, -io.out) See also ........ OrthoRectification (utm) ------------------------ Description ........... Parameters .......... ``Input Image`` [raster] ``Output Cartographic Map Projection`` [selection] Options: * 0 --- utm Default: *0* ``Zone number`` [number] Default: *31* ``Northern Hemisphere`` [boolean] Default: *True* ``Parameters estimation modes`` [selection] Options: * 0 --- autosize * 1 --- autospacing Default: *0* ``Default pixel value`` [number] Default: *0* ``Default elevation`` [number] Default: *0* ``Interpolation`` [selection] Options: * 0 --- bco * 1 --- nn * 2 --- linear Default: *0* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* ``Resampling grid spacing`` [number] Default: *4* Outputs ....... ``Output Image`` [raster] Console usage ............. :: processing.runalg('otb:orthorectificationutm', -io.in, -map, -map.utm.zone, -map.utm.northhem, -outputs.mode, -outputs.default, -elev.default, -interpolator, -interpolator.bco.radius, -opt.ram, -opt.gridspacing, -io.out) See also ........ Pansharpening (bayes) --------------------- Description ........... Parameters .......... ``Input PAN Image`` [raster] ``Input XS Image`` [raster] ``Algorithm`` [selection] Options: * 0 --- bayes Default: *0* ``Weight`` [number] Default: *0.9999* ``S coefficient`` [number] Default: *1* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:pansharpeningbayes', -inp, -inxs, -method, -method.bayes.lambda, -method.bayes.s, -ram, -out) See also ........ Pansharpening (lmvm) -------------------- Description ........... Parameters .......... ``Input PAN Image`` [raster] ``Input XS Image`` [raster] ``Algorithm`` [selection] Options: * 0 --- lmvm Default: *0* ``X radius`` [number] Default: *3* ``Y radius`` [number] Default: *3* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:pansharpeninglmvm', -inp, -inxs, -method, -method.lmvm.radiusx, -method.lmvm.radiusy, -ram, -out) See also ........ Pansharpening (rcs) ------------------- Description ........... Parameters .......... ``Input PAN Image`` [raster] ``Input XS Image`` [raster] ``Algorithm`` [selection] Options: * 0 --- rcs Default: *0* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:pansharpeningrcs', -inp, -inxs, -method, -ram, -out) See also ........ RigidTransformResample (id) --------------------------- Description ........... Parameters .......... ``Input image`` [raster] ``Type of transformation`` [selection] Options: * 0 --- id Default: *0* ``X scaling`` [number] Default: *1* ``Y scaling`` [number] Default: *1* ``Interpolation`` [selection] Options: * 0 --- nn * 1 --- linear * 2 --- bco Default: *2* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:rigidtransformresampleid', -in, -transform.type, -transform.type.id.scalex, -transform.type.id.scaley, -interpolator, -interpolator.bco.radius, -ram, -out) See also ........ RigidTransformResample (rotation) --------------------------------- Description ........... Parameters .......... ``Input image`` [raster] ``Type of transformation`` [selection] Options: * 0 --- rotation Default: *0* ``Rotation angle`` [number] Default: *0* ``X scaling`` [number] Default: *1* ``Y scaling`` [number] Default: *1* ``Interpolation`` [selection] Options: * 0 --- nn * 1 --- linear * 2 --- bco Default: *2* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:rigidtransformresamplerotation', -in, -transform.type, -transform.type.rotation.angle, -transform.type.rotation.scalex, -transform.type.rotation.scaley, -interpolator, -interpolator.bco.radius, -ram, -out) See also ........ RigidTransformResample (translation) ------------------------------------ Description ........... Parameters .......... ``Input image`` [raster] ``Type of transformation`` [selection] Options: * 0 --- translation Default: *0* ``The X translation (in physical units)`` [number] Default: *0* ``The Y translation (in physical units)`` [number] Default: *0* ``X scaling`` [number] Default: *1* ``Y scaling`` [number] Default: *1* ``Interpolation`` [selection] Options: * 0 --- nn * 1 --- linear * 2 --- bco Default: *2* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:rigidtransformresampletranslation', -in, -transform.type, -transform.type.translation.tx, -transform.type.translation.ty, -transform.type.translation.scalex, -transform.type.translation.scaley, -interpolator, -interpolator.bco.radius, -ram, -out) See also ........ Superimpose sensor ------------------ Description ........... Parameters .......... ``Reference input`` [raster] ``The image to reproject`` [raster] ``Default elevation`` [number] Default: *0* ``Spacing of the deformation field`` [number] Default: *4* ``Interpolation`` [selection] Options: * 0 --- bco * 1 --- nn * 2 --- linear Default: *0* ``Radius for bicubic interpolation`` [number] Default: *2* ``Available RAM (Mb)`` [number] Default: *128* Outputs ....... ``Output image`` [raster] Console usage ............. :: processing.runalg('otb:superimposesensor', -inr, -inm, -elev.default, -lms, -interpolator, -interpolator.bco.radius, -ram, -out) See also ........