*** DRAFT ***
How to Add an Orbit State Type to GMAT
Wendy C. Shoan
Goddard Space Flight Center
GMAT provides the capability to model spacecraft orbits. As of R2013a, there are six orbit state representations allowed in GMAT: Cartesian, Keplerian, Modified Keplerian, SphericalAZFPA, SphericalRADEC, and Equinoctial.
This document will first give a brief overview of how GMAT handles these state types. Then it will explain how to add a new orbit state type to GMAT. Due to current design, new state types cannot be added by plugins and so GMAT base code must be modified. The implementation of a new orbit state type will involve, at a high level:
- Modifying the Spacecraft class to handle the new type
- Adding conversions methods in StateConversionUtil
- Adding new parameters to GMAT for the fields associated with your new state type
- Modifying the Orbit tab of the Spacecraft panel
State Type Overview
The user can set a spacecraft's orbital state in any of the above-mentioned representations via the script or the Orbit tab of the Spacecraft panel. Internal computations are done in Cartesian. The StateConversionUtil static class provides conversion methods between the available representations, usually going through the Cartesian state. Uses can plot or report state data in any of the allowed representations.
Adding a State Type
Step 1: Modify Spacecraft.hpp
There are minimal changes needed for the header file when adding a new state type. The new elements must be added to the end of the MultipleReps enum, and the state type must be added to the end of the STATE_REPS enum. For example, if we were adding the Delaunay type:
Step 2: Modify Spacecraft.cpp
Step 3: Modify StateConversionUtil
You will need to add your new type to the StateType enum, and to the STATE_TYPE_TEXT and REQUIRES_CB_ORIGIN. This last one is set to true if your new state type requires that the origin be a CelestialBody; false otherwise. You may need to add a constant (e.g. a tolerance value) as well.
You will need to provide conversion methods to/from your new type and Cartesian, e.g. CartesianToDelaunay and DelaunayToCartesian. For example (you may need more arguments for your conversions):
These methods should also include all validation necessary - checking for singularities, disallowed orbits, etc. You will need to modify ValidateValue to check for range of data, values of coupled data, etc. You will then need to modify the main Convert methods to call your new methods, as needed.
Step 4: Add the new parameters
Step 5: Update the Orbit Panel