[[1] D. Brouwer, G.M. Clemence. (1961). Methods of Celestial Mechanics, Academic Press, New York.]Search in Google Scholar
[[2] Vallado, D. A. (1997). Fundamentals of Astrodynamics and Applications”, McGraw-Hill, New York.]Search in Google Scholar
[[3] B. Hofmann-Wellenhof, et al. (1994). Global Positioning System - Theory and Practice, New York.10.1007/978-3-7091-3311-8]Search in Google Scholar
[[4] G. Beutler. (2005). Methods of Celestial Mechanics”, I & II. Springer, Germany.]Search in Google Scholar
[[5] Carlos Renato Huaura Solórzano and Antonio Fernando Bertachini de Almeida Prado. (2013). A Comparison of Averaged and Full Models to Study the Third-Body Perturbation. The Scientific World Journal.]Search in Google Scholar
[[6] A. Milani, A.M. Nobili, P. Farinella. (1987). Non-graviational Perturbations and Satellite Geodesy. Adam Hilger.]Search in Google Scholar
[[7] S. Lupu. (2011). Elemente de dinamica sistemului global de pozitionare NAVSTAR - GPS. Academia Navala Mircea cel Batran, Constanta.]Search in Google Scholar
[[8] G. Seeber. (1993). Satellite Geodesy, Foundation, methods and applications. Walter de Gruyter, Berlin.]Search in Google Scholar
[[9] N. Borderies, PY. Longaretti. (1999). A new treatment of the albedo radiation pressure in the case of a uniform albedo and of a spherical satellite. Celestial Mechanics and Dynamical Astronomy.]Search in Google Scholar
[[10] A. J Chapman. (1984). Heat Transfer. Macmillan.]Search in Google Scholar
[[11] J. Qiu, PR Goode, E. Pallé, V. Yurchyshyn, J. Hickey, P. Montañes Rodriguez, MC. Chu, E. Kolbe, CT. Brown, SE. Koonin. (2003). Earth-shine and Earth’s albedo: 1. Earthshine observations and measurements of the lunar phase function for accurate measurements of the Earth’s Bond albedo. Journal of Geophysical Research.]Search in Google Scholar
[[12] F W. Taylor. (2005). Elementary Climate Physics. Oxford University Press, United Kingdom.]Search in Google Scholar
[[13] C. Frolich, J. Lean. (1998). The Sun’s Total Irradiance: Cycles, Trends and Related Climate Change Uncertainties since 1976. Geophysical Research Letters, vol. 25, no. 23, pp. 4377-4380.10.1029/1998GL900157]Search in Google Scholar
[[14] http://www.iers.org]Search in Google Scholar
[[15] Rodriguez-Solano, C. J.; Hugentobler, U.; Steigenberger, P.; Lutz, S. (2012). Impact of Earth radiation pressure on GPS position estimates. Journal of Geodesy, Springer, vol. 86, no. 5, pp. 309-317.10.1007/s00190-011-0517-4]Search in Google Scholar
[[16] H. Fliegel, T. Gallini, E. Swift. (1992). Global Positioning System Radiation Force Model for Geodetic Applications. Journal of Geophysical Research, pp. 559-568.10.1029/91JB02564]Search in Google Scholar
[[17] H. Fliegel, T. Gallini. (1996). Solar Force Modelling of Block IIR Global Positioning System satellites. Journal of Spacecraft and Rockets, pp. 863-866.10.2514/3.26851]Search in Google Scholar