Onboard magnetic field modeling for Solar Maximum Mission /SMM/
Abstract
Analysis and simulation results are presented for magnetic field models for use in attitude acquisition onboard Solar Maximum Mission (SMM). A study was made of the degree of the spherical harmonic expansion of the magnetic field required, considering mission requirements, modeling errors, and magnetometer quantization and biases. It is shown that a fifth-degree field is sufficient to provide two-degree roll angle determination accuracy with a residual magnetic bias of 10 milligauss. Also, a spherical harmonic expansion for the McIlwain L-parameter is included for the first time. This parameter will be telemetered to ground with experimental data. The fifth-degree expansion will provide the L-parameter to within two percent of accepted values. The additional onboard computational burden is the storage of 36 coefficients and an increase of about 15% in computation time. Prototype flight code was developed which is anticipated to require about 2000 bytes of core storage and 30 milliseconds of computation time per orbit point on the NSSC-1 computer.
- Publication:
-
American Institute of Aeronautics and Astronautics Conference
- Pub Date:
- September 1977
- Bibcode:
- 1977aiaa.confU....H
- Keywords:
-
- Airborne/Spaceborne Computers;
- Geomagnetism;
- Mathematical Models;
- Multimission Modular Spacecraft;
- Satellite Attitude Control;
- Solar Observatories;
- Computer Programs;
- Computerized Simulation;
- Instrument Errors;
- Magnetically Trapped Particles;
- Magnetometers;
- Solar Instruments;
- Spherical Harmonics;
- Telemetry;
- Spacecraft Instrumentation