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Ionospheric specification and forecasting based on observations from European ionosondes participating in DIAS project

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
There are two main objectives of the DIAS (European Digital Upper Atmos-phere Server) project. First, it establishes a pan-European repository of raw and derived digital data describing the state of ionospheric part of the upper atmosphere, which is capable of ingesting real-time information and maintaining historical data collections provided by most operating ionospheric stations in Europe. Second, the DIAS system produces and distributes, based on the raw data collection, several operational products required by various user groups for ionospheric nowcasting, prediction and forecasting purposes. The project completed on May 2006 and the DIAS server operates since then continuously. The basic products that are delivered are real-time and historical ionograms from all DIAS-affiliated ionospheric stations, frequency plots and maps of the ionosphere over Europe based on the foF2, M(3000)F2, MUF and electron density parameters, as well as long term prediction and short term forecasting up to 24 hour ahead.
Czasopismo
Rocznik
Strony
698--409
Opis fizyczny
Twórcy
autor
autor
autor
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autor
Bibliografia
  • Belehaki, A., L. Cander, B. Zolesi, J. Bremer, C. Juren, I. Stanisławska, D. Dialetis, M. Hatzopoulos, 2005, DIAS Project: The establishment of a European digital upper atmosphere server, J. Atmos. Sol.-Terr. Phys. 67, 1092-1099.
  • Belehaki, A., L. Cander, B. Zolesi, J. Bremer, C. Juren, I. Stanisławska, D. Dialetis and M. Hatzopoulos, 2006a, Monitoring and forecasting the ionosphere over Europe: The DIAS project, Space Weather 4, S12002, doi:10.1029/2006SW000270.
  • Belehaki, A., L. Cander, B. Zolesi, J. Bremer, C. Juren, I. Stanisławska, D. Dialetis, M. Hatzopoulos and S. Gasperini, 2006b, Final Public Report of the DIAS Project, http://www.iono.noa.gr/DIAS/DIAS-Publicity.cfm, August.
  • Bremer, J., L.R. Cander, J. Mielich and R. Stamper, 2006, Derivation and test of ionospheric activity indices from real-time ionosonde observations in the European region, J. Atmos. Sol.-Terr. Phys., doi:10.1016/j.jastp.2006.07.003.
  • Dominici, P., and B. Zolesi, 1987, A model for the normal ionosphere over Rome, Nuovo Cimento C, Serie 1, 10C, 191-208.
  • Galkin, I.A., G.M. Khmyrov, A. Kozlov, B.W. Reinisch, X. Huang and D.F. Kitrosser, 2006, Ionosonde networking, databasing, and Web serving, Radio Science 41, 5, RS5S33.
  • Houminer, Z., J.A. Bennett and P.L. Dyson, 1993, Real-time ionospheric model updating, J. Electr. and Electronics Engineering, Australia, IE Aust. & IREE Aust. 13, 2, 99-104.
  • Koutroumbas, K., and A. Belehaki, 2006, One-step ahead prediction of foF2 using time series forecasting techniques, Ann. Geophys. 23, 3035-3042.
  • Koutroumbas, K., I. Tsagouri and A. Belehaki, 2007, Time series autoregression technique implemented on-line in DIAS system for ionospheric forecast over Europe, Ann. Geophys. (submitted).
  • Leitinger, R., S. Radicella and B. Nova, 2002, Electron density models for assessments studies - new developments, Acta Geod. Geoph. Hung. 37, 2-3, 183-193.
  • Lockwood, M., 1983, A simple M-factor algorithm for improved estimation of the basic maximum usable frequency of radio waves reflected from the ionospheric F region, Proc. IEE 130F, 296-302.
  • Mukhtarov, P., I. Kutiev and L.R. Cander, 2002, Geomagnetically correlated autoregression model for short-term prediction of ionospheric parameters, Inverse Problems 18, 49-65.
  • Stanisławska, I., G. Juchnikowski, R. Hanbaba, H. Rothkaehl, G. Sole and Z. Zbyszyński, 2000, COST251 recommended instantaneous mapping model of ionosphere characteristics - PLES, Phys. Chem. Earth (C) 25, 4, 291-294.
  • Stanisławska, I., G. Juchnikowski and Z. Zbyszyński, 2001, Generation of instantaneous maps of ionospheric characteristics, Radio Science 36, 5, 1073-1081.
  • Stanisławska, I., H. Rothkaehl and D. Bureshova, 2004a, Limited-area electron concentration height profile instantaneous maps, Adv. Space Res. 33, 6, 874-877.
  • Stanisławska, I., D. Bureshova and H. Rothkaehl, 2004b, Stormy ionosphere mapping over Europe, Adv. Space Res. 33, 6, 917-919.
  • Thompson, R.J., D.G. Cole, G. Patterson and P.J. Wilkinson, 1998, Space weather services in Australia, Proc. ESA Workshop on Space Weather, 11-13 Nov. 1998, ESTEC, The Netherlands, http://esa-spaceweather.net/spweather/workshops/proceedings_w1/POSTER4 thompson8.pdf.
  • Tsagouri, I., B. Zolesi, A. Belehaki and L.R. Cander, 2005, Evaluation of the performance of the real-time updated Simplified Ionospheric Regional Model for the European area, J. Atmos. Sol.-Terr. Phys. 67, 12, 1137-1146.
  • Zolesi., B., L.R. Cander and G. de Franceschi, 1993, Simplified Ionospheric Regional Model for telecommunication applications, Radio Science 28, 4, 603-612.
  • Zolesi, B., A. Belehaki, I. Tsagouri and L.R. Cander, 2004, Real-time updating of the Simplified Ionospheric Regional Model for operational applications, Radio Science 39, RS2011.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL7-0021-0032
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