References
- Banville, S. and Langley, R. B. 2010. Instantaneous cycle slips correction for real time PPP applications. Navigation, 57(4), pp.325–334. doi: 10.1002/j.2161-4296.2010.tb01786.x
- Bisnath, S., Kim, D. and Langley, R. 2001. A new approach to an old problem: carrier phase cycle slips. GPS World, 13(4), pp.42–49.
- Blewitt, G. 1990. An automatic editing algorithm for GPS data. Geophysical Research Letters, 17(3), pp.199–202. doi: 10.1029/GL017i003p00199
- Cross, P. and Ahmad, N. 1988. Field validation of GPS phase measurements. In: Groten E. and Strauss R., eds. GPS-techniques applied to geodesy and surveying. Berlin: Springer, pp.349–360.
- Dai, Z., Knedlik, S. and Loffeld, O. 2009. Instantaneous triple-frequency GPS cycle-slip detection and repair. International Journl of Navigation and Observation, p.15, [Article ID 407231].
- Feng, Y. and Rizos, C. 2009. Network-based geometry-free three carrier ambiguity resolution and phase bias calibration. GPS Solutions, 13(1), pp.43–56. doi: 10.1007/s10291-008-0098-8
- Gao, Y. and Li, Z. 1999. Cycle slip detection and ambiguity resolution algorithms for dual-frequency GPS data processing. Marine Geodesy, 22(3), pp.169–181. doi: 10.1080/014904199273443
- Goad, C. 1985. Precise relative position determination using global positioning system carrier phase measurements in a non-difference mode. Proceedings of 1st International Symposium Precise Positioning with GPS. Rockville, 1, pp.347–356.
- Gratton, L., Chan, F. and Pervan, B. 2005. Algorithms for airborne ionospheric front detection in LAAS using carrier phase and INS measurements. San Diego, CA: ION, pp.131–139.
- Hein, G. 1990. Kinematic differential GPS positioning: applications in air-borne photogrammetry and gravimetry. In: Crosilla F. and Mussio L., eds. Sistema di posizionamento globale satellitare GPS. Udine, Italy: International Centre for Mechanical Sciences (CISM), Collana di Geodesia e Cargografia, pp.139–173.
- Hofmann-Wellenhof, B., Lichtenegger, H. and Collins, J. 2001. Global positioning system: theory and practice. Berlin: Springer.
- Ji, S. Y., Chen, W., Weng, D. J., Wang, Z. J. and Ding, X. L. 2013. A study on cycle slip detection and correction in case of ionospheric scintillation. Advances in Space Research, 51(5), pp.742–753. doi: 10.1016/j.asr.2012.10.012
- Ji, S. Y., Wang, Z. J., Chen, W., Weng, D. J., Xu, Y., Fan, S. J., Huang, B. H. and Sun, G. Y. 2014. Geometry-free and non-geometry-free testing quantities for cycle slip detection and correction in case of strong atmospheric variations with static observations. Survey Review, 46(335), pp.104–111. doi: 10.1179/1752270613Y.0000000069
- Ji, S. Y., Chen, W., Ding, X. L., Chen, Y. Q., Zhao, C. M. and Hu, C. W. 2010. Ambiguity validation with combined ratio test and ellipsoidal integer aperture estimator. Journal of Geodesy, 84, pp.597–604. doi: 10.1007/s00190-010-0400-8
- Lacy de, M. C., Reguzzoni, M., Sansò, F. and Venuti, G. 2008. The Bayesian detection of discontinuities in a polynomial regression and its application to the cycle slip problem. Journal of Geodesy, 82(9), pp.527–42. doi: 10.1007/s00190-007-0203-8
- Landau, H. 1990. Precise GPS positioning with the multistation-multisession software TOPAS. GPS for Geodesy and Geodynamics. Luxembourg, pp.61–68.
- Liu, Z. 2011. A new automated cycle slip detection and repair method for a single dual-frequency GPS receiver. Journal of Geodesy, 85, pp.171–183. doi: 10.1007/s00190-010-0426-y
- O'Keefe, K., Julien, O., Cannon, M. E. and Lachapelle, G. 2005. Availability, accuracy, reliability, and carrier-phase ambiguity resolution with Galileo and GPS. Acta Astronautica, 58(8), pp.422–434. doi: 10.1016/j.actaastro.2005.12.008
- Seeber, G. 2003. Satellite geodesy. 2nd edn. Berlin: Wlater de Gruyter.
- Teunissen, P. J. G. and Bakker de, P. F. 2009. Next generation GNSS single receiver cycle slip reliability. Proceedings of the VII Hotine-Marussi Symposium. Rome, Italy, 6–10 July.