ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7)
Geosynchronous Equatorial Orbit (GEO) drift from the nominal position caused by external forces, i.e. sun radiation pressure and earth's non-spherical potential. Sun radiation pressure changes satellite eccentricity, that is changes the orbit from a circle to an ellipse. Meanwhile, the earth...
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id-itb.:574852021-08-23T14:41:07ZECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) Fitri, Elisa Astronomi Indonesia Theses Control Circle, Eccentricity Maneuver, Indostar II/SES-7. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/57485 Geosynchronous Equatorial Orbit (GEO) drift from the nominal position caused by external forces, i.e. sun radiation pressure and earth's non-spherical potential. Sun radiation pressure changes satellite eccentricity, that is changes the orbit from a circle to an ellipse. Meanwhile, the earth's non-spherical potential caused longitude drift in the east-west direction. These two external forces caused a satellite out of the allocation dead band. Station keeping maneuver or orbit correction is required to correct satelli- te orbit due to external forces and to ensure the satellite remains within the allowed dead band. In this thesis, we performed the eccentricity maneuver to correct eccentricity at once longitude. This maneuver is done by keeping eccentricity within a control circle. The control circle is a circle that limits the changes in the eccentricity of the satellite. The research object is Indostar II/SES-7 satellite located at 108; 25 east longitude. We use General Mission Analysis Tool (GMAT) to perform station- keeping maneuvers. GMAT is a software for orbital design and analysis develo- ped by various international space agencies, one of which is NASA. Simulation is done for one year, the same strategy from the previous year can be used for the next years. There are three scenarios in this is simulation, i.e. scenario 1 (the control cirle, ec is the same as the eccentricity natural radii, Re), scenario 2 (ec = 0.5 Re), and scenario 3 (ec = 0.3Re). The various ec is required if the control station desired to control eccentricity into a very tightly magnitude and related to the collocation. V for each scenario from smallest are scenario 1, scenario 2, and scenario 3. If the three scenarios are compared, the most optimal is scenario 2. text |
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Astronomi Fitri, Elisa ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) |
| description |
Geosynchronous Equatorial Orbit (GEO) drift from the nominal position
caused by external forces, i.e. sun radiation pressure and earth's non-spherical
potential. Sun radiation pressure changes satellite eccentricity, that is changes
the orbit from a circle to an ellipse. Meanwhile, the earth's non-spherical
potential caused longitude drift in the east-west direction. These two external
forces caused a satellite out of the allocation dead band.
Station keeping maneuver or orbit correction is required to correct satelli-
te orbit due to external forces and to ensure the satellite remains within the
allowed dead band. In this thesis, we performed the eccentricity maneuver
to correct eccentricity at once longitude. This maneuver is done by keeping
eccentricity within a control circle. The control circle is a circle that limits the
changes in the eccentricity of the satellite.
The research object is Indostar II/SES-7 satellite located at 108; 25 east
longitude. We use General Mission Analysis Tool (GMAT) to perform station-
keeping maneuvers. GMAT is a software for orbital design and analysis develo-
ped by various international space agencies, one of which is NASA. Simulation
is done for one year, the same strategy from the previous year can be used for
the next years.
There are three scenarios in this is simulation, i.e. scenario 1 (the control
cirle, ec is the same as the eccentricity natural radii, Re), scenario 2 (ec =
0.5 Re), and scenario 3 (ec = 0.3Re). The various ec is required if the control
station desired to control eccentricity into a very tightly magnitude and related
to the collocation. V for each scenario from smallest are scenario 1, scenario 2, and scenario 3. If the three scenarios are compared, the most optimal is
scenario 2.
|
| format |
Theses |
| author |
Fitri, Elisa |
| author_facet |
Fitri, Elisa |
| author_sort |
Fitri, Elisa |
| title |
ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) |
| title_short |
ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) |
| title_full |
ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) |
| title_fullStr |
ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) |
| title_full_unstemmed |
ECCENTRICITY MANEUVER IN EAST-WEST STATION KEEPING STRATEGY OF GEO SATELLITE (CASE STUDY: INDOSTAR II/SES-7) |
| title_sort |
eccentricity maneuver in east-west station keeping strategy of geo satellite (case study: indostar ii/ses-7) |
| url |
https://digilib.itb.ac.id/gdl/view/57485 |
| _version_ |
1822002658033008640 |