A starlight refraction scheme with single star sensor used in autonomous satellite navigation system

[1]  Jiancheng Fang,et al.  A new autonomous celestial navigation method for the lunar rover , 2009, Robotics Auton. Syst..

[2]  Jiancheng Fang,et al.  INS/CNS/GNSS Integrated navigation technology , 2015 .

[3]  Jamshaid Ali,et al.  Realization of an autonomous integrated suite of strapdown astro-inertial navigation systems using unscented particle filtering , 2009, Comput. Math. Appl..

[4]  F. Jiancheng A Scheme Design of Satellite Autonomous Navigation System Based on Stellar Refraction , 2012 .

[5]  Robert L. White,et al.  Autonomous Satellite Navigation Using Observations of Starlight Atmospheric Refraction , 1985 .

[6]  Daniele Mortari,et al.  An analytical approach to star identification reliability , 2010 .

[7]  Ning Shu-nian Study on Model of Starlight Atmosphere Refraction from 25 km to 60 km in Autonomous Navigation for Satellite , 2005 .

[8]  J. Lemay,et al.  Satellite autonomous navigation - Status and history , 1986 .

[9]  Nando de Freitas,et al.  The Unscented Particle Filter , 2000, NIPS.

[10]  E. Gai,et al.  Autonomous satellite navigation by stellar refraction , 1984 .

[11]  Jia Xie,et al.  Starlight Atmospheric Refraction Model for a Continuous Range of Height , 2010 .

[12]  J. E. Carroll,et al.  Horizon-Based Satellite Navigation Systems , 1963, IEEE Transactions on Aerospace and Navigational Electronics.

[13]  Wang Xin-long,et al.  A Celestial Analytic Positioning Method by Stellar Horizon Atmospheric Refraction , 2009 .

[14]  Koki Ho,et al.  A survey of algorithms for star identification with low-cost star trackers , 2012 .

[15]  Jiancheng Fang,et al.  A Celestial Assisted INS Initialization Method for Lunar Explorers , 2011, Sensors.

[16]  Jack Anthony,et al.  U. S. Air Force Phillips Laboratory Autonomous Space Navigation Experiment , 1992 .

[17]  Jiancheng Fang,et al.  Autonomous satellite navigation using starlight refraction angle measurements , 2013 .