| Name | Description |
|---|---|
| Body | The body fixed axes of the "Access from" object. |
| FlightPath | XY plane of the FlightPath coordinate system which is a plane passing through the object's center that contains its flight direction and is constrained to be as parallel as possible to the central body surface. |
| ICR | Intrack Crosstrack Radial. The Z axis is outward along the radial, the Y axis is in the direction of the cross product of the position and inertial velocity and X axis is in the direction of motion and constructed as Y x Z. |
| ICR(CBF) | Intrack Crosstrack Radial using the velocity as measured in the central body fixed frame. The Z axis is outward along the radial, the Y axis is in the direction of the cross product of the position and velocity measured in the central body fixed frame and X axis is in the direction of motion and constructed as Y x Z. |
| ICRF | International Celestial Reference Frame. The ICRF is the best realization of an inertial frame constructed to date, and thus represents an improvement upon the theory behind the J2000 frame. While the ICRF and J2000 frames themselves are very close, they are not identical; moreover, the J2000 frame rotates (very slowly) over time with respect to the ICRF frame. |
| J2000 | Mean Equator and Mean Equinox of the Earth at the J2000 epoch (JD 2451545.0 TDB which is 1 Jan 2000 12:00:00.000 TDB). The J2000 axes were considered the best realized inertial axes until the development of the ICRF. |
| LVLH | Local Vertical Local Horizontal, also known as the Gauss frame and the RIC frame. The X axis is outward along the radial (local vertical), the Z axis is in the direction of the cross product of the position and velocity as measured in the central body inertial frame and Y axis is in the direction of motion and constructed as Z x X. |
| LVLH(CBF) | Local Vertical Local Horizontal using the velocity as measured in the central body fixed frame. The X axis is outward along the radial (local vertical), the Z axis is in the direction of the cross product of the position and velocity as measured in the central body fixed frame and Y axis is in the direction of motion and constructed as Z x X. |
| Model | Reports data about position covariance matrix including orientation of its principal axes relative to the Model axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| NorthEastDown | Reports data about position covariance matrix including orientation of its principal axes relative to the NorthEastDown axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| NorthWestUp | Reports data about position covariance matrix including orientation of its principal axes relative to the NorthWestUp axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| PositionCovPrincipal | Reports data about position covariance matrix including orientation of its principal axes relative to the PositionCovPrincipal axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| Principal | Reports data about position covariance matrix including orientation of its principal axes relative to the Principal axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| RIC | Reports data about position covariance matrix including orientation of its principal axes relative to the RIC axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| RIC(CBF) | Reports data about position covariance matrix including orientation of its principal axes relative to the RIC(CBF) axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| RadialCentric | Reports data about position covariance matrix including orientation of its principal axes relative to the RadialCentric axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| SEET_GeocentricSolarMagnetic | Geocentric Solar Magnetic: The X-axis aligned with the Earth-Sun line and the Z-axis constrained toward the magnetic north pole. |
| SEET_Geomagnetic | Geomagnetic frame. The Z axis aligns with the magnetic north pole and the negative X axis is constrained toward the Earth Fixed Z axis. |
| SEET_SolarMagnetic | Solar Magnetic frame. The Z axis aligns with the magnetic north pole and the X axis is constrained toward sun direction (as viewed from the earth). |
| TopoCentric | Can be described as South East Up. The Z axis is outward along the detic surface normal away from the center of the central body (Up). The Y axis (East) is defined as the cross product of the central body fixed Z axis and the up direction. The X axis (South) is constructed as Y x Z. |
| VNC | Reports data about position covariance matrix including orientation of its principal axes relative to the VNC axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| VNC(CBF) | Reports data about position covariance matrix including orientation of its principal axes relative to the VNC(CBF) axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| VVLH | Reports data about position covariance matrix including orientation of its principal axes relative to the VVLH axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| VVLH(CBF) | Reports data about position covariance matrix including orientation of its principal axes relative to the VVLH(CBF) axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
| Earth Fixed | Reports data about position covariance matrix including orientation of its principal axes relative to the Earth Fixed axes and dimensions of the associated sigma scaled equal probability density ellipsoid. Any set of axes defined in the Vector Geometry Tool is available for use, including user defined sets. The data requires position covariance to be defined for the object. |
STK Programming Interface 11.0.1