ORBITAL_MANEUVER_INITIATED¶
event_output for ORBITAL_MANEUVER_INITIATED.
Format¶
<time> ORBITAL_MANEUVER_INITIATED <platform> ID: <unique id>
Type: <maneuver type> Constraint: <maneuver constraint> Duration: <time>
Orbital Elements: SMA: <length> ECC: <angle> INC: <angle> RAAN: <angle> ARGP: <angle> MA: <angle> TA: <angle> { (Circular) | (Equatorial) | (Circular, Equatorial) }
Breakdown¶
- <time>
The current simulation time
- <platform>
The name of the platform initiating the maneuver.
- ID: <unique id>
The unique identifier for this maneuver.
- Type: <maneuver type>
The maneuver type being executed.
- Constraint: <maneuver constraint>
The constraint condition on the maneuver.
- Duration <time>
The maneuver duration. If the maneuver is impulsive, this value will be zero.
- Orbital Elements: The orbital elements of the initial orbit:
- SMA: <length>
Semi-major axis (km)
- ECC: <double>
Eccentricity
- INC: <angle>
Inclination (degrees)
- RAAN: <angle>
Right ascension of the ascending node (degrees)
- ARGP: <angle>
Argument of periapsis (degrees)
- MA: <angle>
Mean anomaly (degrees)
- TA: <angle>
True anomaly (degrees)
- { (Circular) | (Equatorial) | (Circular, Equatorial) }
Whether the orbit is circular (eccentricity = 0), equatorial (inclination = 0), or both. If neither, nothing is output.
How it Appears in Output¶
113978.34229 ORBITAL_MANEUVER_INITIATED proton-m ID: 6 \
Type: CHANGE_SEMI_MAJOR_AXIS Constraint: AT_ASCENDING_NODE Duration: 0 s \
Orbital Elements: SMA: 9000 km ECC: 0.2719595171 INC: 66.31673735 deg RAAN: 106.0313815 deg ARGP: 0.3719024113 deg MA: 359.7951543 deg TA: 359.6280978 deg
133438.95213 ORBITAL_MANEUVER_INITIATED proton-m ID: 13 \
Type: CHANGE_ECCENTRICITY Constraint: AT_APOAPSIS Duration: 0 s \
Orbital Elements: SMA: 24821 km ECC: 0.7360147063 INC: 0 deg RAAN: 15.50848793 deg ARGP: 90.71044731 deg MA: 180 deg TA: 180 deg (Equatorial)
How to Show Event Messages¶
event_output file replay.evt # write event messages to file "replay.evt" enable ORBITAL_MANEUVER_INITIATED end_event_output
