|Project||Date||Accomplishment and Impact|
Accomplishments: Primary design tool for TESS supporting PDR.Impact: First adoption as primary mission support tool.
OSIRIS-REx Launch Window
Accomplishments: Used GMAT to re-optimize the entire OSIRIS launch window in 1 month of summer intern time.
Impact: Improved convergence properties, and computational time compared to previous software solution. Project has chosen to use GMAT for this part of the OSIRIS analysis suite.
Accomplishments: Used GMAT to re-target OSIRIS Touch-And-Go sequence: orbit asteroid, phase with asteroid rotation, land on the surface.
Impact: Rapid verification of solutions from operational tool and extra validation of GMAT solutions. GMAT solution is much simpler than implementation in the operational tool.
Accomplishments: Used GMAT to investigate possibility that launch vehicle upper stage could impact earth in the distant future.
Impact: Saved analyst time. This type of analysis is easy in GMAT and hard in other tools.
Accomplishments: Used GMAT to determine fuel required to change amplitude of the ACE Lissajous.
Impact: A week of work using GMAT’s optimization methods found equivalent or cheaper solutions than senior design experts using current tools.
Accomplishments: Used GMAT for end-to-end formation modeling and optimization for all phases of MMS mission and for verifying analytical models for reference orbit evolution. GMAT is now the baseline tool for ground system testing.
Impact: GMAT supported mission design for one of GSFC’s most complex missions from MMR through CDR. GMAT is now the baseline tool for ground system testing.
Accomplishments: Used GMAT to design optimal maneuvers for ARTEMIS in weak stability orbit regime. ARTEMIS can only maneuver in the northern s/c hemisphere due to thruster locations. This was a very difficult design/optimization problem to optimize fuel for weak stability trajectories with severe spacecraft limitations.
Impact: Enabled the mission. D. Folta commented, “ We could not have flown ARTEMIS without GMAT”.
Accomplishments: M. Mesarch used GMAT to determine optimal maneuvers to rotate the orbital line of apsides and change orbital dimensions.
Impact: Saved 15% fuel over operational tool solutions and showed that the project’s planned maneuver locations were not fuel optimal. Fuel savings extended the mission life by ~3 months.
Accomplishments: Used GMAT to optimize part of the LCROSS launch window analysis, and for post launch re-optimization.
Impact: Rapid launch window optimization saved time over Copernicus configuration. Demonstrated that launch injections errors were small enough that re-optimization was not necessary.