SEARCH

SEARCH BY CITATION

References

  • Aarons, J. (1982), Global morphology of ionospheric scintillation, Proc. IEEE, 70, 360378.
  • Aarons, J. (1997), Global Positioning System phase fluctuations at auroral latitudes, J. Geophys. Res., 102(A8), 17,21917,231.
  • Alfonsi, L., L. Spogli, G. De Franceschi, V. Romano, M. Aquino, A. Dodson, and C. N. Mitchell (2011), Bipolar climatology of GPS ionospheric scintillation at solar minimum, Radio Sci., 46, RS0D05, doi:10.1029/2010RS004571.
  • Aquino, M., T. Moore, A. Dodson, S. Waugh, J. Souter, and F. S. Rodrigues (2005), Implications of ionospheric scintillation for GNSS users in northern Europe, J. Navigation, 58(2), 241256, doi:10.1017/S0373463305003218.
  • Axelrad, P., K. Larson, B. Jones (2005), Use of the correct satellite repeat period to characterize and reduce site-specific multipath errors, Proc. ION GNSS, Long Beach, CA.
  • Azeem, I., G. Crowley, A. Reynolds, J. Santana, and D. Hampton (2013), First results of phase scintillation from a longitudinal chain of ASTRA's SM-211 GPS TEC and scintillation receivers in Alaska, Proc. ION PNT.
  • Basu, S., K. Grovesa, S. Basu, and P. Sultana (2002), Specification and forecasting of scintillations in communication and navigation links: Current status and future plans, J. Atmos. Sol. Terr. Phys., 64, 17451754.
  • Beach, T. L. (2006), Perils of the GPS phase scintillation index (Sigma Phi), Radio Sci., 41, RS5S31, doi:10.1029/2005RS003356.
  • Beniguel, Y., et al (2009), Ionospheric scintillation monitoring and modelling, Ann. Geophys., 52, 391416.
  • Booker, H. G., J. A. Ratcliffe, and D. H. Shinn (1950), Diffraction from an irregular screen with applications to ionospheric problems, Philos. Trans. R. Soc. London, 242(856), 579607.
  • Briggs, B. H. (1975), Ionospheric irregularities and radio scintillation, Contemp. Phys., 16(5), 469488.
  • Briggs, B. H., and I. A. Parkin (1963), On the variation of radio star and satellite scintillations with zenith angle, J. Atmos. Sol. Terr. Phys., 25, 339365.
  • Carrano, C. S., K. M. Groves, W. J. McNeil, and P. H. Doherty (2012), Scintillation characteristics across the GPS frequency band, Proc. ION GNSS, 1972–1989, Nashville, TN.
  • Cervera, M. A., and R. M. Thomas (2006), Latitude and temporal variation of equatorial ionospheric irregularities determined from GPS scintillation observations, Ann. Geophys., 24, 33293341.
  • De Franceschi, G., L. Alfonsi, and V. Romano (2006), ISACCO: An Italian project to monitor the high latitude ionosphere by means of GPS receivers, GPS Solutions, 10, 263267, doi:10.1007/s10291-006-0036-6.
  • De Franceschi, G., L. Alfonsi, V. Romano, M. Aquino, A. Dodson, C. N. Mitchell, P. Spencer, and A. W. Wernik (2008), Dynamics of high-latitude patches and associated small-scale irregularities during the October and November 2003 storms, J Atoms. Sol. Terr Phys., 70, 879888.
  • De Oliveira Moraes, A., D. R. de Paula, W. J. Perrella, and F. da Silveira Rodrigues (2012), On the distribution of GPS signal amplitudes during low-latitude ionospheric scintillation, GPS Solutions, 17(4), 499510, doi:10.1007/s10291-012-0295-3.
  • Deshpande, K. B., G. S. Bust, C. R. Clauer, H. Kim, J. E. Macon, T. E. Humphreys, J. A. Bhatti, S. B. Musko, G. Crowley, and A. T. Weatherwax (2012), Initial GPS scintillation results from CASES receiver at South Pole, Antarctica, Radio Sci., 47, RS5009, doi:10.1029/2012RS005061.
  • Dyrud, L., N. Bhatia, S. Ganguly, A. Jovancevic (2006), Performance analysis of software based GPS receiver using a generic ionospheric scintillation model, Proc. ION GNSS, 1402–1412, Fort Worth, TX.
  • Forte, B., and S. M. Radicella (2002), Problems in data treatment for ionospheric scintillation measurements, Radio Sci., 37(6, 1096), doi:10.1029/2001RS002508.
  • Garner, T. W., R. B. Harris, J. A. York, C. S. Herbster, C. F. Minter III, and D. L. Hampton (2011), An auroral scintillation observation using precise, collocated GPS receivers, Radio Sci., 46, RS1018, doi:10.1029/2010RS004412.
  • Ghafoori, F. (2012), Modeling the impact of equatorial ionospheric irregularities on GPS receiver performance, PhD thesis, Dept. of Geomatics Engineering, Univ. of Calgary, Calgary, Alberta, Canada.
  • Gola, M., A. W. Wernik, S. J. Franke, C. H. Liu, and K. C. Yeh (1992), Behaviour of HILAT scintillation over Spitsbergen, J. Atmos. Sol. Terr. Phys., 54(9), 12071213.
  • Gunawardena, S., Z. Zhu, F. van Graas (2008), Triple frequency RF front-end for GNSS instrumentation receiver applications, Proc. ION GNSS, Savana, GA.
  • Humphreys, T. E., M. Psiaki, B. Ledvina, A. Cerruti, and P. M. Kintner Jr. (2010), Modeling the effects of ionospheric scintillation on GPS carrier phase tracking, IEEE Trans. Aerosp. Electron. Syst., 46(4), 16241537.
  • Jiao, Y. (2013), High latitude ionosphere scintillation characterization, M.S. thesis, Dept. of Electrical and Computer Engineering, Miami University, Oxford, Ohio, U.S.A.
  • Jiao, Y., Y. Morton, S. Taylor, W. Pelgrum (2013), High latitude ionosphere scintillation characterization, Proc. ION ITM, San Diego, CA.
  • Kersley, L., S. Pryse, and N. Wheadon (1988), Amplitude and phase scintillation at high latitudes over northern Europe, Radio Sci., 23(3), 320330.
  • Kersley, L., C. Russell, and D. Rice (1995), Phase scintillation and irregularities in the northern polar ionosphere, Radio Sci., 30(3), 619629.
  • Kinrade, J., C. N. Mitchell, P. Yin, N. Smith, M. J. Jarvis, D. J. Maxfield, M. C. Rose, G. S. Bust, and A. T. Weatherwax (2012), Ionospheric scintillation over Antarctica during the storm of 5–6 April 2010, J. Geophys. Res., 117, A05304, doi:10.1029/2011JA017073.
  • Kintner, P. M., B. M. Ledvina, E. R. de Paula, and I. J. Kantor (2004), Size, shape, orientation, speed, and duration of GPS equatorial anomaly scintillations, Radio Sci., 39, RS2012, doi:10.1029/2003RS002878.
  • Kintner, P. M., B. M. Ledvina, and E. R. de Paula (2007), GPS and ionospheric scintillations, Space Weather, 5, S09003, doi:10.1029/2006SW000260.
  • Knight, M. F. (2000), Ionospheric scintillation effects on Global Positioning System receivers, PhD thesis, Dept. of Electrical and Electronic Engineering, The University of Adelaide, Adelaide, South Australia.
  • Li, G., B. Ning, L. Liu, Z. Ren, J. Lei, and S. Su (2007), The correlation of longitudinal seasonal variations of evening equatorial pre-reversal drift and of plasma bubbles, Ann. Geophys., 25, 25712578.
  • Li, G., B. Ning, Z. Ren, and L. Hu (2010), Statistics of GPS ionospheric scintillation and irregularities over polar regions at solar minimum, GPS Solutions, 14, 331341, doi:10.1007/s10291-009-0156-x.
  • Liu, Z. (2011), A new automated cycle slip detection and repair method for a single dual-frequency GPS receiver, J. Geod., 85(3), 171183, doi:10.1007/s00190-010-0426-y.
  • Liu, Z., R. Xu, Y. Morton, J. Xu, W. Pelgrum, W. Chen, X. Ding (2013), A comparison of GNSS-based ionospheric scintillation observation in north and south Hong Kong, Proc. ION PNT.
  • Meggs, R. W., C. N. Mitchell, and F. Honary (2008), GPS scintillation over the Europe Arctic during the November 2004 storms, GPS Solutions, 12, 281287, doi:10.1007/s10291-008-0090-3.
  • Mitchell, C. N., L. Alfonsi, G. De Franceschi, M. Lester, V. Romano, and A. W. Wernik (2005), GPS TEC and scintillation measurements from the polar ionosphere during the October 2003 storm, Geophys. Res. Lett., 32, L12S03, doi:10.1029/2004GL021644.
  • Morrison, A. J. (2010), High latitude ionospheric scintillation: Detection and isolation from oscillator phase noise as applied to GNSS, PhD thesis, Dept. of Geomatics Engineering, Univ. of Calgary, Calgary, Alberta, Canada.
  • Mushini, S., P. Jayachandran, R. Langley, J. MacDougall, and D. Pokhotelov (2012), Improved amplitude- and phase-scintillation indices derived from wavelet detrended high-latitude GPS data, GPS Solutions, 16(3), 363373, doi:10.1007/s1029-011-0238-4.
  • Ngwira, C. M., L. McKinnell, and P. J. Cilliers (2010), GPS phase scintillation observed over a high-latitude Antarctic station during solar minimum, J. Atmos. Sol. Terr. Phys., 72, 718725, doi:10.1016/j.jastp.2010.03.014.
  • Nichols, J., Hansen, A., Walter, T., and Enge, P. (1999), High latitude measurements of ionospheric scintillation using the NSTB, Proc. ION 1999 National Technical Meeting.
  • Pedersen, T. R., M. McCarrick, E. Gerken, C. Selcher, D. Sentman, H. C. Carlson, and A. Gurevich (2003), Magnetic zenith enhancement of HF radio-induced airglow production at HAARP, Geophys. Res. Lett., 30(4, 1169), doi:10.1029/2002GL016096.
  • Pelgrum, W., Y. Morton, F. van Graas, P. Vikram, S. Peng (2011), Multi-domain analysis of the impact on natural and man-made ionosphere scintillations on GNSS signal propagation, Proc. ION GNSS, 617–625, Portland, OR.
  • Peng, S., Y. Morton (2010), A USRP2-based multi-constellation and multi-frequency GNSS software receiver for ionosphere scintillation studies, Proc. ION ITM, San Diego, Calif.
  • Pi, X., A. J. Mannucci, U. J. Lindqwister, and C. M. Ho (1997), Monitoring of global ionospheric irregularities using the Worldwide GPS Network, Geophys. Res. Lett., 24(18), 22832286, doi:10.1029/97GL02273.
  • Prikryl, P., P. T. Jayachandran, S. C. Mushini, D. Pokhotelov, J. W. MacDougall, E. Donovan, E. Spanswick, and J. P. St.-Maurice (2010), GPS TEC, scintillation and cycle slips observed at high latitudes during solar minimum, Ann. Geophys., 28, 13071316, doi:10.5194/angeo-28-1307-2010.
  • Prikryl, P., et al. (2011), Interhemispheric comparison of GPS phase scintillation at high latitudes during the magnetic-cloud-induced geomagnetic storm of 5-7 April 2010, Ann. Geophys., 29(12), 22872304, doi:10.5194/angeo-29-2287-2011.
  • Pullen, S., G. Opshaug, A. Hansen, T. Walter, P. Enge, and B. Parkinson (1998), A preliminary study of the effect of ionospheric scintillation on WAAS user availability in equatorial regions, Proc. ION GPS, Alexandria, VA.
  • Ratcliffe, J. A. (1956), Some aspects of diffraction theory and their application to the ionosphere, Rep. Prog. Phys., 19(1), 188267, doi:10.1088/0034-4885/19/1/306.
  • Rino, C. L. (1979a), A power law phase screen model for ionospheric scintillation: 1. Weak scatter, Radio Sci., 14, 11351145.
  • Rino, C. L. (1979b), A power law phase screen model for ionospheric scintillation: 2. Strong scatter, Radio Sci., 14, 11471155.
  • Rino, C. L., R. C. Livingston, R. T. Tsunoda, R. M. Robinson, J. F. Vickrey, C. Senior, M. D. Cousins, J. Owen, and J. A. Klobuchar (1983), Recent studies of the structure and morphology of auroral zone F region irregularities, Radio Sci., 18, 11671180.
  • Rodrigues, F. S., M. Aquino, A. Dodson, T. Moore, and S. Waugh (2004), Statistical analysis of GPS ionospheric scintillation and short-time TEC variations over Northern Europe, J. ION, 51(1), 5975.
  • Secan, J. A., R. M. Bussey, and E. J. Fremouw (1995), An improved model of equatorial scintillation, Radio Sci., 30(3), 607617.
  • Secan, J. A., R. M. Bussey, and E. J. Fremouw (1997), High-latitude upgrade to the wideband ionospheric scintillation model, Radio Sci., 32(4), 15671574.
  • Skone, S., F. Man, F. Ghafoori, R. Tiwari (2008), Investigation of scintillation characteristics for high latitude phenomena, Proc. ION GNSS, 2425–2434, Savanna, GA.
  • Smith, A. M., C. N. Mitchell, R. J. Watson, R. W. Meggs, P. M. Kintner, K. Kauristie, and F. Honary (2008), GPS scintillation in the high arctic associated with an auroral arc, Space Weather, 6, S03D01, doi:10.1029/2007SW000349.
  • Su, S., C. Lin, H. Ho, and C. Chao (2006), Distribution characteristics of topside ionospheric density irregularities: Equatorial versus midlatitude regions, J. Geophys. Res., 111, A06305, doi:10.1029/2006JA011330.
  • Taylor, S., Y. Morton, Y. Jiao, J. Triplett, W. Pelgrum (2012), An improved ionosphere scintillation event detection and automatic trigger for GNSS data collection systems, Proc.ION ITM, 1563–1569, Newport Beach, CA.
  • Van Dierendonck, A. J., B. Arbesser-Rastburg (2004), Measuring ionospheric scintillation in the equatorial region over Africa, including measurements from SBAS geostationary satellite signals, Proc. ION GNSS, Long Beach, CA.
  • Van Dierendonck, A. J., J. A. Klobuchar, Q. Hua (1993), Ionospheric scintillation monitoring using commercial single frequency C/A code receivers, Proc. ION ITM, Salt Lake City, UT.
  • Van Dierendonck, A. J., Hua, Q., Fenton, P., Klobuchar, J. A. (1996), Commercial ionospheric scintillation monitoring receiver development and test results, Proc. ION Annual Meeting, 573–582.
  • Vikram, P., Y. Morton, W. Pelgrum (2011), Event driven data collection system for studying ionosphere scintillation, Proc. ION GNSS, 3903–3909, Portland, OR.
  • Wang, J., Y. Morton, Q. Zhou, F. van Graas, W. Pelgrum (2012), Time-frequency analysis of ionosphere scintillations observed by a GNSS receiver array, Proc. IEEE PLANS, Myrtle Beach, S. C.
  • Wernik, A. W., L. Alfonsi, and M. Materassi (2007), Scintillation modeling using in situ data, Radio Sci., 42, RS1002, doi:10.1029/2006RS003512.
  • Yeh, C. K., and C. H. Liu (1982), Radio wave scintillations in the ionosphere, Proc. IEEE, 70(4), 324360.