Developing New Space Weather Tools: Transitioning fundamental science to operational prediction systems
Open Access
Issue
J. Space Weather Space Clim.
Volume 8, 2018
Developing New Space Weather Tools: Transitioning fundamental science to operational prediction systems
Article Number A10
Number of page(s) 11
DOI https://doi.org/10.1051/swsc/2017042
Published online 13 February 2018
  • Ads AG, Bergadà P, Regué JR, Alsina-Pagès RM, Pijoan JL, Altadill D, Badia D, Graells S. 2015. Vertical and oblique ionospheric soundings over the longhaul HF link between Antarctica and Spain. Radio Sci 50: 916–930. DOI:10.1002/2015RS005773. [CrossRef]
  • Bilitza D, Altadill D, Truhlik V, Shubin V, Galkin I, Reinisch B, Huang X. 2017. International reference ionosphere 2016: from ionospheric climate to real-time weather predictions. Space Weather 15: 418–429. DOI:10.1002/2016SW001593. [CrossRef]
  • Blanch E, Altadill D. 2012. Mid-latitude F-region peak height changes in response to interplanetary magnetic field conditions and modeling results. J Geophys Res 117: A12311. DOI:10.1029/2012JA018009. [CrossRef]
  • Blanch E, Marsal S, Segarra A, Torta JM, Altadill D, Curto JJ. 2013. Space weather effects on Earth's environment associated to the 24–25 October 2011 geomagnetic storm. Space Weather 11: 153–168. DOI:10.1002/swe.20035. [CrossRef]
  • Breit G, Tuve MA. 1926. A test of the existence of the conducting layer. Phys Rev 28: 554. [CrossRef]
  • Cesaroni C, Scotto C, Ippolito A. 2013. An automatic quality factor for Autoscala foF2 values. Adv Space Res 51: 2316–2321. DOI:10.1016/j.asr.2013.02.009. [CrossRef]
  • Galkin IA, Khmyrov GM, Kozlov AV, Reinisch BW, Huang X, Paznukhov VV. 2008. The ARTIST 5 in radio sounding and plasma physics. AIP Conf Proc 974: 150–159. DOI:10.1063/1.2885024. [CrossRef]
  • Galkin IA, Reinisch BW, Huang X, Bilitza D. 2012. Assimilation of GIRO data into a real-time IRI. Radio Sci 47: RS0L07. DOI:10.1029/2011RS004952. [CrossRef]
  • Gilbert JD, Huang RW. 1988. A comparison between the automatic ionogram scaling system ARTIST and the standard manual method. Radio Sci 23: 968–974. DOI:10.1029/RS023i006p00968. [CrossRef]
  • Gonzalez WD, Tsurutani BT. 1987. Criteria of interplanetaryparameters causing intense magnetic storms (Dst < 100 nT). Planet Space Sci 35: 1101–1109. DOI:10.1016/0032-0633(87)90015-8. [NASA ADS] [CrossRef]
  • Hervás M, Alsina-Pagès RM, Orga F, Altadill D, Pijoan JL, Badia D. 2015. Narrowband and wideband channel sounding of an Antarctica to Spain ionospheric radio link. Remote Sens 7: 11712–11730. DOI:10.3390/rs70911712. [CrossRef]
  • Hocke K, Schlegel K. 1996. A review of atmospheric gravity waves and travelling ionospheric disturbances: 1982–1995. Ann Geophys 14: 917–940. DOI:10.1007/s00585-996-0917-6.
  • Ippolito A, Scotto C, Francis M, Settimi A, Cesaroni C. 2015. Automatic interpretation of oblique ionograms. Adv Space Res 55: 1624–1629. [CrossRef]
  • Ippolito A, Scotto C, Sabbagh D, Sgrigna V, Maher P. 2016. A procedure for the reliability improvement of the oblique ionograms automatic scaling algorithm. Radio Sci 51: 454–460. DOI:10.1002/2015RS005919. [CrossRef]
  • Mielich J, Bremer J. 2010. A modified index for the description of the ionospheric short- and long-term activity. Ann Geophys 28: 2227–2236. DOI:10.5194/angeo-28-2227-2010. [CrossRef]
  • Pezzopane M, Scotto C. 2007. The automatic scaling of critical frequency foF2 and MUF(3000)F2: a comparison between Autoscala and ARTIST 4.5 on Rome data. Radio Sci 42: RS4003. DOI:10.1029/2006RS003581. [CrossRef]
  • Piggott WR, Rawer K, U.R.S.I. handbook of ionogram interpretation and reduction, Adopted by U.R.S.I. Commission III, Warsaw, Poland, 1972.
  • Pijoan JL, Altadill D, Torta JM, Alsina-Pagès RM, Marsal S, Badia D. 2014. Remote geophysical observatory in Antarctica with HFdata transmission: a review. Remote Sens 6: 7233–7259. DOI:10.3390/rs6087233. [CrossRef]
  • Prölss GW, Očko M. 2000. Propagation of upper atmospheric storm effects towards lower latitudes. Adv Space Res 26: 131–135. DOI:10.1016/S0273-1177(99)01039-X. [CrossRef]
  • Reinisch BW, Huang X. 1983. Automatic calculation of electron density profiles from digital ionograms: 3. Processing of bottomside ionograms. Radio Sci 18: 477–492. DOI:10.1029/RS018i003p00477. [CrossRef]
  • Reinisch BW, Paznukhov VV, Galkin IA, Altadill D, McElroy J. 2008. Precise radar range measurements with digisondes in radio sounding and plasma physics. AIP Conf Proc 974: 144–149. DOI:10.1063/1.2885022. [CrossRef]
  • Reinisch BW, Galkin IA, Khmyrov GM, Kozlov AV, Bibl K, Lisysyan IA, Cheney GP, Huang X, Kitrosser DF, Paznukhov VV, Luo Y, Jones W, Stelmash S, Hamel R, Grochmal J. 2009. New digisonde for research and monitoring applications. Radio Sci 44: RS0A24. DOI:10.1029/2008RS004115. [CrossRef]
  • Scotto C. 2009. Electron density profile calculation technique for Autoscala ionogram analysis. Adv Space Res 44: 756–766. DOI:10.1016/j.asr.2009.04.037. [CrossRef]
  • Scotto C, Pezzopane M. 2002. A software for automatic scaling of foF2 and MUF(3000)F2 from ionograms. In: Proceedings of URSI 2002, Maastricht, 17-24 August, 2002. http://www.ursi.org/proceedings/procGA02/papers/p1018.pdf.
  • Warrington EM, Stocker AJ. 2003. Measurements of the Doppler and multipath spread of the HF signals receivedover a path oriented along the midlatitude trough. Radio Sci 38: 1080. DOI:10.1029/2002RS002815. [CrossRef]