Title :
An empirical solar radiation pressure model for autonomous GNSS orbit prediction
Author :
Ala-Luhtala, Juha ; Seppänen, Mari ; Piché, Robert
Author_Institution :
Tampere Univ. of Technol., Tampere, Finland
Abstract :
GNSS satellite orbits can be predicted by integrating the satellites´ equation of motion. If the prediction is done in a consumer grade positioning device, a simplified version of the equation of motion is required. The forces due to Earth´s gravitation, solar gravitation and lunar gravitation should be included, but the models for the smaller non-gravitational forces can be fairly simple. This paper presents a simple empirical two parameter solar radiation pressure model for an orbit prediction application in a navigation device that does not have a network connection. The model is tested by predicting the orbits of GPS and GLONASS satellites up to 5 days into the future, using position and improved velocity from broadcast ephemerides as an initial state. The predicted orbits are compared to the precise orbits from International GNSS Service (IGS).
Keywords :
Global Positioning System; artificial satellites; astronomical ephemerides; astronomical techniques; radiation pressure; solar radiation; GLONASS satellites orbit prediction; GNSS satellite orbit; GPS orbit prediction; IGS; autonomous GNSS orbit prediction; broadcast ephemerides; consumer grade positioning device; earth gravitation; empirical solar radiation pressure model; international GNSS service; lunar gravitation; navigation device; network connection; nongravitational forces; satellite equation of motion; solar gravitation; Equations; Extraterrestrial measurements; Gold; Handheld computers;
Conference_Titel :
Position Location and Navigation Symposium (PLANS), 2012 IEEE/ION
Conference_Location :
Myrtle Beach, SC
Print_ISBN :
978-1-4673-0385-9
DOI :
10.1109/PLANS.2012.6236929
