This paper focuses on the autonomous real-time relative navigation of LEO satellite formations. Specifically, a novel closed loop approach which integrates an Extended Kalman Filter with an Integer Least Squares estimator is presented in which double differenced code and carrier measurements on two frequencies are processed to get accurate relative positioning. Real-world GPS measurements from the GRACE mission are used for assessing the positioning algorithm performance. Results demonstrate that the approach is suitable for real-time relative positioning with a centimeter-level accuracy.
Carrier-based Differential GPS for autonomous relative navigation in LEO / U., Tancredi; Renga, Alfredo; Grassi, Michele. - (2012), pp. 1-11. (Intervento presentato al convegno AIAA Guidance Navigation and Control Conference tenutosi a Minneapolis, Minnesota (USA) nel Agosto 2012).
Carrier-based Differential GPS for autonomous relative navigation in LEO
RENGA, ALFREDO;GRASSI, MICHELE
2012
Abstract
This paper focuses on the autonomous real-time relative navigation of LEO satellite formations. Specifically, a novel closed loop approach which integrates an Extended Kalman Filter with an Integer Least Squares estimator is presented in which double differenced code and carrier measurements on two frequencies are processed to get accurate relative positioning. Real-world GPS measurements from the GRACE mission are used for assessing the positioning algorithm performance. Results demonstrate that the approach is suitable for real-time relative positioning with a centimeter-level accuracy.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.