This page describes basic technical configurations of Orbit Mapping\UAS Runs and Oblique Projects.
It is strongly recommended to read first
All advanced technical configurations related to the used resources and mobile mapping system are managed via the import template and applied on import, so called “Import configurations”.
Some additional configurations can be added or updated after import, so called “Optional configurations”.
Orbit is constantly improving tools and software which may result in an update of the files and structure of an Mapping Run\Project.
Backwards compatibility is guaranteed. A newer Orbit release supports mobile mapping runs created by a previous Orbit version. However to take advantage of new features it is required to use the latest file and run structures.
An Orbit Run version 3 uses the “orbit_mm_run.omr” file as reference resource file.
An Orbit Oblique Project version 3 uses the “orbit_oblique.oop” file as reference resource file.
This updated structure has been developed to optimize performance and to use new tools of the Orbit 3DM Content Manager and 3D Mapping Cloud.
For previous version or to convert existing runs\projects into the updated structure, see Orbit Run Versions.
To allow user to enter any parameter through user interface following structures are used in *.omr and *.oop:
Example: template.parameters.planar1=SensorSizePIXX;SensorSizePIXY;SensorSizeXMM;SensorSizeYMM;PrincipalPointX;PrincipalPointY;FocalLenghtMM;Dist_CV_K1;Dist_CV_K2;Dist_CV_K3;Dist_CV_K4;Dist_CV_K5;Dist_CV_K6;Dist_CV_P1;Dist_CV_P2;Dist_CV_CX;Dist_CV_CY;Dist_CV_FX template.parameters.planar2=SensorSizePIXX;SensorSizePIXY;SensorSizeXMM;SensorSizeYMM;PrincipalPointX;PrincipalPointY;FocalLenghtMM;Dist_CV_K1;Dist_CV_K2;Dist_CV_K3;Dist_CV_K4;Dist_CV_K5;Dist_CV_K6;Dist_CV_P1;Dist_CV_P2;Dist_CV_CX;Dist_CV_CY;Dist_CV_FX
Parameters will be read into corresponding {name_of_the_parameter} variable.
Add/edit and save the listed files using a standard text editor (e.g. Notepad), respect file formatting and structure.
To allow re-projecting of the data from one projection system to another 2 parameters, entered through GUI, are available
To avoid file copy into the appropriated Orbit run folder a single line ascii text file can be used to specify the image file path prefix. The file path prefix combined with the OrbitFileName attribute value will be used as file pointer.
./panorama<x>/original/link.ini
./panorama<x>/processed/link.ini
./planar<x>/original/link.ini
./planar<x>/processed/link.ini
\\192.168.0.1\images\
Used image storage format of original images (panorama or planar).
photo.file.extension
Height of the camera above ground expressed in meters, use dot as decimal separator. This height is used to display 2D vector data in the 3D mobile mapping views and for the point drop measure function.
photo.camera.height
Possible range of the offset of 2D vector data to the height of the photo position (presented as a slider in the vector overlay parameters pop-up of the photo viewer).
data2d.overlay.min.offset
data2d.overlay.max.offset
Mostly need to be changed for UAS Runs depending on the flying height.
At import of photo positions or trajectory the trajectory simplified (coverage) will be created automatically if does not yet exist. The below settings can be used to adjust the defaults, as used in the example below.
Coordinate will be added if its perpendicular drop distance to the segment between previous and next coordinate is larger than maximum.distance.
simplified.trajectory.maximum.distance
Two consecutive original coordinates won't be connected if segment length is larger than part.separation.
simplified.trajectory.part.separation
Initial sort of coordinates before connecting to lines is based on the string value of the photo.sequence.key attribute(s). Add prefix zero characters to obtain expected sort when using integer value as sort reference.
photo.sequence.key
Generalization of the trajectory visualization for different viewing scales. It is only recomended to change it in case if trajectory recorded with less than 1 point per meter.
simplified.overlay.size.pixels
version 3 project.type generic project.file orbit_mm_run.omr photo.camera.height 2.20 simplified.trajectory.maximum.distance 1 simplified.trajectory.part.separation 10 photo.sequence.key OrbithPhotoId template.parameters=PARAM_CRS
If any of the parameters are changed after a Run was already imported the simplified trajectory needs to be recalculated. In order that to happen:
- Delete trajectory_simplified.ovt
- Open the Run –> Edit Run –> Re-Import Panorama. When you import panorama's photo positions the simplified trajectory will be recalculated
Mean terrain height. The value is used as a fall back value for the areas with missing DEM
reference.z
reference.pan
Photo orientation offset (heading) between the reference north direction and the actual north flying axis.
reference.pan
Photo orientation maximal deviation (heading) from the reference directions. All oblique images are assigned to one of the four flying axes based on their heading. The total angle which defines one flying axe class is defined as the reference direction of that flying axe plus twice the near margin value (once on each side of the axe).
near.margin