SEARCH

SEARCH BY CITATION

References

  • Chiou, T.-Y., S. Alban, S. Atwater, J. Gautier, S. Pullen, P. Enge, D. Akos, D. Gebre-Egziabher, and B. S. Pervan (2004), Performance analysis and experimental validation of a Doppler-aided GPS/INS receiver for JPALS applications, paper presented at 17th International Technical Meeting, Satell. Div., Inst. of Navig., Long Beach, Calif.
  • Conker, R. S., M. B. El-Arini, C. J. Hegarty, and T. Hsiao (2003), Modeling the effects of ionospheric scintillation on GPS/satellite-based augmentation system availability, Radio Sci., 38(1), 1001, doi:10.1029/2000RS002604.
  • Forte, B. (2005), Optimum detrending of raw GPS data for scintillation measurements at auroral latitudes, J. Atmos. Sol. Terr. Phys., 67, pp. 11001109.
  • Forte, B., and S. M. Radicella (2002), Problems in data treatment for ionospheric scintillation measurements, Radio Sci., 37(6), 1096, doi:10.1029/2001RS002508.
  • Ganguly, S., A. Jovancevic, A. Brown, M. Kirchner, S. Zigic, T. Beach, and K. M. Groves (2004), Ionospheric scintillation monitoring and mitigation using a software GPS receiver, Radio Sci., 39, RS1S21, doi:10.1029/2002RS002812.
  • Groves, K. M., S. Basu, J. M. Quinn, T. R. Pedersen, K. Falinski, A. Brown, R. Silva, and P. Ning (2000), A comparison of GPS performance in a scintillation environment at Ascension Island, paper presented at 13th International Technical Meeting, Satell. Div., Inst. of Navig., Salt Lake City, Utah.
  • Hegarty, C., M. B. El-Arini, T. Kim, and S. Ericson (2001), Scintillation modelling for GPS-wide area augmentation system receivers, Radio Sci., 36(5), 12211231.
  • Humphreys, T. E., M. L. Psiaki, J. C. Hinks, B. O'Hanlon, and P. M. Kintner (2009), Simulating ionosphere-induced scintillation for testing GPS receiver phase tracking loops, J. IEEE Sel. Top. Signal Processing, 3(4), 707715, doi:10.1109/JSTSP.2009.2024130.
  • Humphreys, T. E., M. L. Psiaki, B. M. Ledvina, A. P. Cerruti, and P. M. Kintner (2010a), Data-driven testbed for evaluating GPS carrier tracking loops in ionospheric scintillation, IEEE Trans. Aerosp. Electron. Syst., 46(4), 16091623, doi:10.1109/TAES.2010.5595582.
  • Humphreys, T. E., M. L. Psiaki, and P. M. Kintner (2010b), Modeling the effects of ionospheric scintillation on GPS carrier phase tracking, IEEE Trans. Aerosp. Electron. Syst., 46(4), 16241637, doi:10.1109/TAES.2010.5595583.
  • Kaplan, E. D., and C. Hegarty (2006), Understanding GPS: Principles and Applications, Artech House, Norwood, Mass.
  • Khan, F. A., A. Dempster, and C. Rizos (2009), Kalman filter based adaptive loop aiding for performance improvement in low CNIR environments, paper presented at IGNSS Symposium 2009, Int. Global Navig. Satell. Syst. Soc., Surfers Paradise, Qld., Australia.
  • Kintner, P. M., H. Kil, T. L. Beach, and E. R. dePaula (2001), Fading timescales associated with GPS signals and potential consequences, Radio Sci., 36(4), 731743.
  • Knight, M., and A. Finn (1998), The effects of ionospheric scintillations on GPS, paper presented at 11th International Technical Meeting, Satell. Div., Inst. of Navig., Nashville, Tenn.
  • Knight, M., M. Cervera, and A. Finn (1998), A comparison of predicted and measured GPS performance in an ionospheric scintillation environment, paper presented at 12th International Technical Meeting, Satell. Div., Inst. of Navig., Nashville, Tenn.
  • Lian, P., G. Lachapelle, and C. Ma (2005), Improving tracking performance of PLL in high dynamics applications, paper presented at National Technical Meeting, Inst. of Navig., San Diego, Calif.
  • Mao, W.-L. (2007), Applications of new fuzzy inference-based tracking loops for kinematic GPS receiver, Circuits Syst. Signal Processing, 26(1), 91113.
  • Morrissey, T. N., K. W. Shallberg, A. J. Van Dierendonck, and M. J. Nicholson (2004), GPS receiver performance characterization under realistic ionospheric phase scintillation environments, Radio Sci., 39, RS1S20, doi:10.1029/2002RS002838.
  • Peng, S., Y. Morton, W. Pelgrum, and F. vanGraas (2011), High latitude ionosphere scintillations at GPS L5 band, paper presented at 24th International Technical Meeting, Satell. Div., Inst. of Navig., Portland, Oreg.
  • Rastogi, R. G., P. V. Koparkar, H. Chandra, and M. R. Deshpande (1990), Multifrequency studies of equatorial ionospheric scintillations at Ootacamund, J. Atmos. Terr. Phys., 52(1), 6976.
  • Simon, M. K., and M.-S. Aluoini (2005), Digital Communication Over Fading Channels, John Wiley, Hoboken, N. J.
  • Sun, D., M. Petovello, and M. Cannon (2010), Use of a reduced IMU to aid a GPS receiver with adaptive tracking loops for land vehicle navigation, GPS Solut., 14(4), 319329, doi:10.1007/s10291-009-0159-7.
  • Van Dierendonck, A. J., Q. Hua, and J. Klobuchar (1993), Ionospheric scintillation monitoring using commercial single frequency C/A code receivers, paper presented at Sixth International Technical Meeting, Satell. Div., Inst. of Navig., Salt Lake City, Utah.
  • Van Dierendonck, A. J., P. Reddan, and M. Nicholson (1999), GPS receiver performance characterization under simulated ionospheric scintillation environments, paper presented at Ionospheric Effects Symposium, Off. of Nav. Res., Arlington, Va.
  • Van Trees, H. L. (1971), Detection, Estimation, and Modulation Theory. Part II, John Wiley, New York.
  • Viterbi, A. J. (1963), Phase-locked loop dynamics in the presence of noise by Fokker-Planck techniques, Proc. IEEE, 51, 17371757.
  • Ward, P. W. (1998), Performance comparisons between FLL, PLL, and a novel FLL-assisted PLL tracking loop under RF interference condition, paper presented at 11th International Technical Meeting, Satell. Div., Inst. of Navig., Nashville, Tenn.
  • Yeh, C. K., and C. H. Liu (1982), Radio wave scintillations in the ionosphere, Proc. IEEE, 70(4), 324360.