IGS
0.0.0
OperationMethodSocetSetFrame
BAE Systems
Arliss Whiteside
1-858-592-1608
San Diego
California
USA
Arliss.Whiteside@baesystems.com
SOAP
Approximate minimum object position for group of images being triangulated. Shall include one for triangulation, with the “metadata” value referencing the WGS 84 3D CRS (urn:ogc:crs:EPSG:6.8:4979).
urn:ogc:def:dataType:OGC:1.1:anyURI
Approximate maximum object position for group of images being triangulated. Shall include one for triangulation, with the “metadata” value referencing the WGS 84 3D CRS (urn:ogc:crs:EPSG:6.8:4979).
urn:ogc:def:dataType:OGC:1.1:anyURI
OperationMethodSocetSetFrame
Object to image coordinate transformation method for frame images used by Socet Set. This method is used by ObjectImageTransformation for frame images.
See Clause 10 of OGC 07-032
3
2
FrameImageGroup
Frame image parameter group. The values of this group are encoded by fsm:FrameImageValues.
FrameSensorGroup
Group of all calibrated parameter values for one frame camera (imaging sensor) and sensor configuration, including all interior orientation parameters. The values of this group are encoded by fsm:FrameSensorValues.
OpticalPerspective
The values of this group are encoded by fsm:OpticalPerspectiveValues.
FocalLength
Calibrated focal length (perspective distance to focal plane) of frame camera. The value of this parameter shall be encoded by fsm:FocalLength.
PrincipalPoint
Position coordinates of principal point in frame camera, in 2D focal plane EngineeringCRS. The value of this parameter shall be encoded by fsm:PrincipalPoint.
OpticalDistortionGroup
Frame sensor optical (or lens) distortion correction parameters. The value of this parameter group are encoded by fsm:OpticalDistortion.
SymmetryPoint
Position coordinates of the lens distortion symmetry point in frame camera, in 2D focal plane EngineeringCRS. The value of this parameter shall be encoded by fsm:SymmetryPoint.
Radial1
Frame sensor radial optical distortion correction first parameter, which shall have scale units (ratio of the same units). The value of this parameter shall be encoded by fsm:Radial1.
Radial2
Frame sensor radial optical distortion correction second parameter, which shall have inverse focal-plane-length-units squared. The value of this parameter shall be encoded by fsm:Radial2.
Radial3
Frame sensor radial optical distortion correction third parameter, which shall have inverse focal-plane-length-units to the fourth power. The value of this parameter shall be encoded by fsm:Radial3.
Radial4
Frame sensor radial optical distortion correction fourth parameter, which shall have inverse focal-plane-length-units to the sixth power. The value of this parameter shall be encoded by fsm:Radial4.
Decentering
Frame sensor decentering optical distortion correction parameter, which shall have inverse focal-plane-length-units. The value of this parameter shall be encoded by fsm:Decentering.
PixelPositions
Values of the pixel positions group of parameters. The values of this parameter group are encoded by fsm:PixelPositions.
OriginPixels
Image position of the origin of corrected focal plane coordinates, in the (pixel index) digital image CRS. The value of this parameter shall be encoded by fsm:OriginPixels.
PixelSpacings
Inverse of the matrix containing two vectors giving spacings between row (or line) and column (or sample) pixel center positions, with each vector in corrected focal plane x and y coordinates. The value of this parameter shall be encoded by fsm:PixelSpacings.
SensorOrientation
Parameter group for the image sensor position and attitude at the collection time. The values of this parameter group are encoded by igm:SensorOrientation. In this use, this sensor orientation is in the Local Space Rectangular (LSR) 3D EngineeringCRS for an image. This LSR EngineeringCRS is tangent to the ellipsoid of the 3D GeodeticCRS, at the nadir point on that ellipsoid under the nominal (initial estimate) image exposure station.
SensorPosition
Stationary image sensor position at the collection time. The value of this parameter shall be encoded by the igm:Position. In this use, this position is in the Local Space Rectangular (LSR) 3D EngineeringCRS for an image.
SensorAttitude
Attitude (or coordinate system rotation) angles. The value of this parameter shall be encoded by the igm:Attitude. In this use, this attitude is in the Local Space Rectangular (LSR) 3D EngineeringCRS for an image.
GEOtoUSR
Parameter group for the coordinate transformation from a 3D geographic GeodeticCRS to the corresponding 3D Universal Space Rectangular (USR) GeodeticCRS. The values of this parameter group are encoded by fsm:GEOtoUSR.
SemiMajorAxis
Length of the semi-major axis of an ellipsoid. This SemiMajorAxis is the radius of the equator. The value of this parameter shall be encoded by fsm:SemiMajorAxis.
InverseFlattening
Value of the inverse flattening parameter of an ellipsoid. The value of this parameter shall be encoded by fsm:InverseFlattening.
USRtoLSR
Parameter group for the coordinate transformation from a Universal Space Rectangular (USR) 3D GeodeticCRS to the Local Space Rectangular (LSR) 3D EngineeringCRS for an image. This LSR EngineeringCRS is tangent to the ellipsoid of the 3D GeodeticCRS, at the nadir point on that ellipsoid under the nominal (initial estimate) image exposure station. The values of this parameter group are encoded by fsm:USRtoLSR.
LSRorigin
Origin of the Local Space Rectangular (LSR) 3D EngineeringCRS for an image, in a Universal Space Rectangular (USR) 3D GeodeticCRS. The value of this parameter shall be encoded by fsm:LSRorigin.
LSRrotation
Rotation matrix from a Universal Space Rectangular (USR) 3D GeodeticCRS to the Local Space Rectangular (LSR) 3D EngineeringCRS for an image. The value of this parameter shall be encoded by fsm:LSRrotation.
AtmosphericRefraction
Parameter group for the atmospheric refraction correction.
RefractionK1
Atmospheric refraction correction parameter K1.
RefractionK2
Atmospheric refraction correction parameter K2.