论文信息 - Demonstration of Adaptive Extended Kalman Filter for Low-Earth-Orbit Formation Estimation Using CDGPS

Demonstration of Adaptive Extended Kalman Filter for Low-Earth-Orbit Formation Estimation Using CDGPS

Carrier-phase Di®erential GPS is an ideal sensor for formation °ying missions in low Earth orbit since it provides a direct measure of the relative positions and velocities of the vehicles in the °eet. This paper presents results for a relative navigationlter that achieves centimeter-level precision using measurements from a customized GPS receiver. This work uses a precise, robust extended Kalmanlter that is based on rela- tively simple measurement models and a linear Kep- lerian propagation model. To increase the robustness of thelter in the face of environment uncertainty, the ¯lter is adapted using MMLE algorithms. The adap- tivelter is used to accurately identify the process noise and sensor noise covariance for the system. De- spite the simplicity of thelter, hardware-in-the-loop simulations performed on the Formation Flying Test- bed at the Goddard Space Flight Center demonstrate that thislter can achieve ¼2 cm relative position ac- curacy and <0.5 mm/s relative velocity accuracy for a range of Low Earth Orbit formations.

Jonathan P. How | James Simpson | Franz D. Busse

[1] Isao Kawano Masaaki Mokuno Toru Kasai Takashi Suzuki,et al. First Autonomous Rendezvous using Relative GPS Navigation by ETS-VII , 1999 .

[2] Jonathan P. How,et al. Decentralized Relative Navigation for Formation Flying Spacecraft using Augmented CDGPS 1 , 2001 .

[3] Jonathan P. How,et al. Enabling Spacecraft Formation Flying through Spaceborne GPS and Enhanced Automation Technologies , 1999 .

[4] Edgar Glenn Lightsey. Development and flight demonstration of a GPS receiver for space , 1997 .

[5] J. Russell Carpenter,et al. Semimajor Axis Knowledge and GPS Orbit Determination , 2001 .

[6] Robert H. Bishop,et al. Hardware-in-the-Loop GPS Test Facility for Spacecraft Autonomous Rendezvous , 2001 .

[7] Raman K. Mehra,et al. Approaches to adaptive filtering , 1970 .

[8] R. Mehra. On the identification of variances and adaptive Kalman filtering , 1970 .

[9] A.H. Haddad,et al. Applied optimal estimation , 1976, Proceedings of the IEEE.

[10] Chan-Woo Park,et al. Precise relative navigation using augmented CDGPS , 2001 .

[11] L. Marradi,et al. GPS-based Space Navigation: Comparison of Kalman Filtering Schemes , 2000 .

[12] Jonathan P. How,et al. Real-Time Experimental Demonstration of Precise Decentralized Relative Navigation for Formation Flying Spacecraft , 2002 .

[13] Patrick W. Binning,et al. Satellite to Satellite Relative Navigation Using GPS Pseudoranges , 1997 .