[1]
D. Altadill and E.M. Apostolov. Time and scale size of planetary wave signatures in the ionospheric f region: Role of the geomagnetic activity and mesosphere/lower thermosphere winds. Journal of Geophysical Research, 108(A11), 2003.
[ bib | http | Abstract ]
[2]
D. Altadill, E.M. Apostolov, C. Jacobi, and N.J. Mitchell. Six-day westward propagating wave in the maximum electron density of the ionosphere. Annales Geophysicae, 21(7):1577-1588, 2003.
[ bib | Abstract ]
[3]
D. Altadill, F. Gauthier, P. Vila, J.G. Sole, G. Miro, and R. Berranger. The 11.08.1999 solar eclipse and the ionosphere: a search for the distant bow-wave. Journal of Atmospheric and Solar-Terrestrial Physics, 63(9):925-930, 2001.
[ bib | Abstract ]
[4]
O. Altinay, E. Tulunay, and Y.K. Tulunay. Forecasting of ionospheric critical frequency using neural networks. Geophysical Research Letters, 24(12):1467-1470, June 1997.
[ bib | Abstract ]
[5]
E.A. Araujo-Pradere and T.J. Fuller-Rowell. Evaluation of the storm time ionospheric empirical model for the bastille day event. Solar Physics, 204(1-2):317-324, Dec 2001.
[ bib | Abstract ]
[6]
E.A. Araujo-Pradere, T.J. Fuller-Rowell, and M.V. Codrescu. Storm: An empirical storm-time ionospheric correction model - 2. validation. Radio Science, 37(5), Sept 2002.
[ bib | http | Abstract ]
[7]
E.A. Araujo-Pradere, T.J. Fuller-Rowell, and D. Bilitza. Validation of the storm response in iri2000. Journal of Geophysical Research, 108(A3), 2003.
[ bib | http | Abstract ]
[8]
E.A. Araujo-Pradere, T.J. Fuller-Rowell, and D. Bilitza. Time empirical ionospheric correction model (storm) response in iri2000 and challenges for empirical modeling in the future. Radio Science, 39(1), 2004.
[ bib | http | Abstract ]
[9]
E.A. Araujo-Pradere, T.J. Fuller-Rowell, and M.V. Codrescu. Storm: An empirical storm-time ionospheric correction model - 1. model description. Radio Science, 37(5), Sept 2002.
[ bib | http | Abstract ]
[10]
E.A. Araujo-Pradere, T.J. Fuller-Rowell, and M.V. Codrescu. Characteristics of the ionospheric variability as a function of season, latitude, local time, and geomagnetic activity. Radio Science, 40(5), 2005.
[ bib | http | Abstract ]
[11]
B.A. Austin. Whatever happened to 40 metres? Mercury, the Journal of the Royal Signals Amateur Radio Society, 2005.
[ bib ]
[12]
R.A. Bamford. The effect of the 1999 total solar eclipse on the ionosphere. Physics and Chemistry of the Earth - C, 26(5):373-377, 2001.
[ bib | Abstract ]
[13]
A. Belehaki, Lj. Cander, B. Zolesi, J. Bremer, C. Juren, I. Stanislawska, D. Dialetis, and M. Hatzopoulos. Dias project: The establishment of a european digital upper atmosphere server. Journal of Atmospheric and Solar-Terrestrial Physics, 67(12):1092-1099, 2005.
[ bib | http | Abstract ]
[14]
A. Belehaki and I. Tsagouri. On the occurrence of storm-induced nighttime ionization enhancements at ionospheric middle latitudes. Journal of Geophysical Research, 107(A8):1209, 2002.
[ bib | Abstract ]
[15]
P. Bencze. On the long-term change of ionospheric parameters. jastp, 67(14):1298-1306, September 2005.
[ bib | http | Abstract ]
[16]
F.S. Bessarab, Y.N. Korenkov, V.V. Klimenko, and N.S. Natsvalyan. Modeling the thermospheric and ionospheric response to the solar eclipse of august 11, 1999. Annales Geophysicae, 42(5):644-651, 2002.
[ bib | Abstract ]
[17]
A.H. Bilge and Y.K. Tulunay. A novel on-line for single station prediction and forecasting of the ionospheric critical frequency fof2 1 hour ahead. Geophysical Research Letters, 27(9):1383-1386, may 2000.
[ bib | Abstract ]
[18]
E. Blanch, D. Altadill, J. Boska, D. Buresova, and M. Hernandez-Pajares. November 2003 event: Effects on the earth's ionosphere observed from ground-based ionosonde and gps data. Annales Geophysicae, 23(9):3027-3034, 2005.
[ bib | http | Abstract ]
[19]
P.A. Bradley. A study of the differences in fof2 and m(3000)f2 between solar cycles. Given at URSI GA 1993, 1993.
[ bib ]
[20]
P.A. Bradley, G. Juchnikowski, H. Rothkaehl, and I. Stanislawska. Instantaneous maps of the european middle and high-latitude ionosphere for hf propagation assessments. Advances in Space Research, 22(6):861-864, October 1998.
[ bib | Abstract ]
[21]
J. Bremer. Investigations of long-term trends in the ionosphere with world-wide ionosonde observations. Advances in Space Research, 2:253-258, 2004.
[ bib | .pdf | Abstract ]
[22]
J. Bremer. Trends in the ionospheric e and f regions over europe. Annales Geophysicae, 16(8):986-996, 1998.
[ bib | Abstract ]
[23]
J. Bremer, L. Alfonsi, P. Bencze, J. Lastovicka, A.V. Mikhailov, and N. Rogers. Long-term trends in the ionosphere and upper atmosphere parameters. Annals of Geophysics, 47(2-3):1009-1029, 2004.
[ bib | Abstract ]
[24]
D. Buresova and J. Lastovicka. Hysteresis of fof2 at european middle latitudes. Annales Geophysicae, 18(8):987-991, 2000.
[ bib | Abstract ]
[25]
D. Buresova and J. Lastovicka. Changes in the f1 region electron density during geomagnetic storms at low solar activity. Journal of Atmospheric and Solar-Terrestrial Physics, 63(5):537-544, 2001.
[ bib | Abstract ]
[26]
D. Buresova, J. Lastovicka, D. Altadill, and G. Miro. Daytime electron density at the f1-region in europe during geomagnetic storms. Annales Geophysicae, 20(7):1007-1021, 2002.
[ bib | Abstract ]
[27]
N. Butcher. Daily ionospheric forecasting service (difs) iii. Annales Geophysicae, 23(12):3591-3598, 2005.
[ bib | http | Abstract ]
[28]
L.R. Cander, J. Hickford, I. Tsagouri, and A. Belahaki. Real-time dynamic system for monitoring ionospheric propagation conditions over europe. Electronics Letters, 40(4):224-226, 2004.
[ bib | Abstract ]
[29]
L.R. Cander and S.J. Mihajlovic. Forecasting ionospheric structure during the great geomagnetic storms. Journal of Geophysical Research, 103(A1):391-398, 1998.
[ bib | Abstract ]
[30]
L.R. Cander, M.M. Milosavljevic, S.S. Stankovic, and S. Tomasevic. Ionospheric forecasting technique by artificial neural network. Electronics Letters, 34(16):1573-1574, 1998.
[ bib | Abstract ]
[31]
A.H.Y. Chan and P.S. Cannon. Nonlinear forecasts of fof2: variation of model predictive accuracy over time. Annales Geophysicae, 20(7):1031-1038, 2002.
[ bib | Abstract ]
[32]
M. A. Clilverd, T. Ulich, and M. J. Jarvis. Residual solar cycle influence on trends in ionospheric f2-layer peak height. Journal of Geophysical Research, 108(A12), dec 2003.
[ bib | http | Abstract ]
[33]
R.S. Dabas and L. Kersley. Radio tomographic imaging as an aid to modeling of ionospheric electron density. Radio Science, 38(3), 2003.
[ bib | http | Abstract ]
[34]
A.D. Danilov. F2-region response to geomagnetic disturbances. Journal of Atmospheric and Solar-Terrestrial Physics, 63(5):441-449, 2001.
[ bib | Abstract ]
[35]
A.D. Danilov. Long-term trends of fof2 independent of geomagnetic activity. Annales Geophysicae, 21(5):1167-1176, 2003.
[ bib | Abstract ]
[36]
A.D. Danilov and A.V. Mikhailov. F2-layer parameters long-term trends at the argentine islands and port stanley stations. Annales Geophysicae, 19(3):341-349, 2001.
[ bib | Abstract ]
[37]
A.D. Danilov and A.V. Mikhailov. Long-term trends in the f2-layer parameters at argentine island and port stanley stations. Annales Geophysicae, 41(4):488-496, 2001.
[ bib | Abstract ]
[38]
C.J. Davis, E.M. Clarke, R.A. Bamford, M. Lockwood, and S.A. Bell. Long term changes in euv and x-ray emissions from the solar corona and chromosphere as measured by the response of the earth's ionosphere during total solar eclipses from 1932 to 1999. Annales Geophysicae, 19:263-273, 2001.
[ bib | .pdf | Abstract ]
[39]
C.J. Davis and C.G. Johnson. Lightning-induced intensification of the ionospheric sporadic e layer. Nature, 435:799-801, 2005.
[ bib | Abstract ]
[40]
C.J. Davis, M. Lockwood, S.A. Bell, J.A. Smith, and E.M. Clarke. Ionospheric measurements of relative coronal brightness during the total solar eclipses of 11 august, 1999 and 9 july, 1945. Annales Geophysicae, 18(2):182-190, 2000.
[ bib | .pdf | Abstract ]
[41]
M.G. Deminov, A.G. Kolesnik, L.N. Leshchenko, Y.S. Sitnov, and B.B. Tsybikov. Climatic variations in the ionospheric e-layer noon critical frequencies at midlatitudes. Annales Geophysicae, 43(3):356-362, 2003.
[ bib | Abstract ]
[42]
T. Farges, J.C. Jodogne, R. Bamford, Y. Le Roux, F. Gauthier, P.M. Vila, D. Altadill, J.G. Sole, and G. Miro. Disturbances of the western european ionosphere during the total solar eclipse of 11 august 1999 measured by a wide ionosonde and radar network. Journal of Atmospheric and Solar-Terrestrial Physics, 63(9):915-924, 2001.
[ bib | Abstract ]
[43]
J.M. Forbes, S.E. Palo, and X.L. Zhang. Variability of the ionosphere. Journal of Atmospheric and Solar-Terrestrial Physics, 62(8):685-693, 2000.
[ bib | Abstract ]
[44]
N.M. Francis, A.G. Brown, P.S. Cannon, and D.S. Broomhead. Prediction of the hourly ionospheric parameter, fof2, incorporating a novel nonlinear interpolation technique to cope with missing data points. Journal of Geophysical Research, 106(A12):30077-30084, dec 2001.
[ bib | http | Abstract ]
[45]
M. Garcia-Fernandez, M. Hernandez-Pajares, J.M. Juan, J. Sanz, R. Orus, P. Coisson, B. Nava, and S.M. Radicella. Combining ionosonde with ground gps data for electron density estimation. Journal of Atmospheric and Solar-Terrestrial Physics, 65(6):683-691, 2003.
[ bib | Abstract ]
[46]
John D. Gilbert and Richard W. Smith. A comparison between the automatic ionogram scaling system artist and the standard manual method. Radio Science, 23(6):968-974, November 1988.
[ bib | Abstract ]
[47]
T. Gulyaeva and W. Stanislawska. Night-day imprints of ionospheric slab thickness during geomagnetic storm. Journal of Atmospheric and Solar-Terrestrial Physics, 67(14):1307-1314, September 2005.
[ bib | http | Abstract ]
[48]
J.A.T. Heaton, P.S. Cannon, N.C. Rogers, C.N. Mitchell, and L. Kersley. Validation of electron density profiles derived from oblique ionograms over the united kingdom. Radio Science, 36(5):1149-1156, 2001.
[ bib | http | Abstract ]
[49]
G.S. Ivanov-Kholodnyi and V.E. Chertoprud. Peculiarities of solar-ionospheric relationships during minima and maxima of 27-day variations in f-10.7. Annales Geophysicae, 40(6):681-686, 2000.
[ bib | Abstract ]
[50]
M.J. Jarvis, M.A. Clilverd, and T. Ulich. Methodological influences on f-region peak height trend analyses. Physics and Chemistry of the Earth, 27(6-8):589-594, 2002.
[ bib | Abstract ]
[51]
M.J. Jarvis, B. Jenkins, and G.A. Rodgers. Southern hemisphere observations of a long-term decrease in f region altitude and thermospheric wind providing possible evidence for global thermospheric cooling. Journal of Geophysical Research, 103(A9):20775-20787, 1998.
[ bib | Abstract ]
[52]
T. B. Jones, D. M. Wright, J. Milner, T. K. Yeoman, T. Reid, A. Senior, and P. Martinez. The detection of atmospheric waves produced by the total solar eclipse 11 august 1999. Journal of Atmospheric and Solar-Terrestrial Physics, 66(5):363-374, March 2004.
[ bib | Abstract ]
[53]
U.K. Kalinin, A.A. Romanchuk, N.P. Sergeenko, and V.N. Shubin. The large-scale isolated disturbances dynamics in the main peak of electronic concentration of ionosphere. Journal of Atmospheric and Solar-Terrestrial Physics, 65(11-13):1175-1177, 2003.
[ bib | Abstract ]
[54]
Y.N. Korenkov, V.V. Klimenko, F.S. Bessarab, and M. Ferster. Modeling of the ionospheric f2-region parameters in quiet conditions on january 21-22, 1993. Annales Geophysicae, 42(3):350-359, 2002.
[ bib | Abstract ]
[55]
S.S. Kouris, P.A. Bradley, and P. Dominici. Solar-cycle variation of the daily fof2 and m(3000)f2. Annales Geophysicae, 16(8):1039-1042, 1998.
[ bib | Abstract ]
[56]
V.M. Krasnov, Y.V. Drobzheva, J.E.S. Venart, and J. Lastovicka. A re-analysis of the atmospheric and ionospheric effects of the flixborough explosion. Journal of Atmospheric and Solar-Terrestrial Physics, 65(11-13):1205-1212, 2003.
[ bib | Abstract ]
[57]
I. Kutiev and P. Muhtarov. Modeling of midlatitude f region response to geomagnetic activity. Journal of Geophysical Research, 106(A8):15501-15510, aug 2001.
[ bib | Abstract ]
[58]
I. Kutiev and P. Muhtarov. Empirical modeling of global ionospheric f(o)f(2) response to geomagnetic activity. Journal of Geophysical Research, 108(A1), 2003.
[ bib | http | Abstract ]
[59]
J. Lastovicka. On the role of solar and geomagnetic activity in long-term trends in the atmosphere-ionosphere system. Journal of Atmospheric and Solar-Terrestrial Physics, 67(1-2):83-92, 2005.
[ bib | Abstract ]
[60]
J. Lastovicka, P. Krizan, P. Sauli, and D. Novotna. Persistence of the planetary wave type oscillations in fof2 over europe. Annales Geophysicae, 21(7):1543-1552, 2003.
[ bib | Abstract ]
[61]
X.Y. Li and T. Yu. Annual and semi-annual variations of the observed fof2 in a high solar activity year. Terrestrial Atmospheric and Oceanic Sciences, 14(1):41-62, 2003.
[ bib | Abstract ]
[62]
L. Liu, X. Luan, W. Wan, J. Lei, and B. Ning. Solar activity variations of equivalent winds derived from global ionosonde data. Journal of Geophysical Research, 109(A12), dec 2004.
[ bib | http | Abstract ]
[63]
V.V. Lobzin and A.V. Pavlov. Solar zenith angle dependencies of f1-layer, nmf2 negative disturbance, and g-condition occurrence probabilities. Annales Geophysicae, 20(11):1821-1836, 2002.
[ bib | Abstract ]
[64]
R.P. Ma, H.Y. Xu, and H. Liao. The features and a possible mechanism of semiannual variation in the peak electron density of the low latitude f2 layer. Journal of Atmospheric and Solar-Terrestrial Physics, 65(1):47-57, 2003.
[ bib | Abstract ]
[65]
G.A. Mansilla. Mid-latitude ionospheric effects of a great geomagnetic storm. Journal of Atmospheric and Solar-Terrestrial Physics, 66(12):1085-1091, 2004.
[ bib | Abstract ]
[66]
D. Marin, A.V. Mikhailov, B.A. de la Morena, and M. Herraiz. Long-term hmf2 trends in the eurasion longitudinal sector from the ground-based ionosonde observations. Annales Geophysicae, 19:761-772, 2001.
[ bib | .html | Abstract ]
[67]
M. Materassi and C.N. Mitchell. A simulation study into constructing of the sample space for ionospheric imaging. Journal of Atmospheric and Solar-Terrestrial Physics, 67(12):1085-1091, 2005.
[ bib | http | Abstract ]
[68]
A. Mendillo, H. Rishbeth, R.G. Roble, and J. Wroten. Modelling f2-layer seasonal trends and day-to-day variability driven by coupling with the lower atmosphere. Journal of Atmospheric and Solar-Terrestrial Physics, 64(18):1911-1931, 2002.
[ bib | Abstract ]
[69]
A.V. Mikhailov and D. Marin. An interpretation of the fof2 and hmf2 long-term trends in the framework of the geomagnetic control concept. Annales Geophysicae, 17(7):733-748, 2001.
[ bib | Abstract ]
[70]
A.V. Mikhailov and D. Marin. Geomagnetic control of the fof2 long-term trends. Annales Geophysicae, 18(6):653-665, 2000.
[ bib | Abstract ]
[71]
A.V. Mikhailov, D. Marin, T.Yu. Leschinskaya, and M. Herraiz. A revised approach to the fof2 long-term trends analysis. Annales Geophysicae, 20:1663-1675, 2002.
[ bib | Abstract ]
[72]
C.M. Minnis. A new index of solar activity based on ionospheric measurements. Journal of Atmospheric and Terrestrial Physics, 7:310-321, 1955.
[ bib | Abstract ]
[73]
C.M. Minnis and G.H. Bazzard. A monthly ionospheric index of solar activity based on f2-layer ionization at eleven stations. Journal of Atmospheric and Terrestrial Physics, 18(4):297-305, 1960.
[ bib | Abstract ]
[74]
P. Muhtarov, Kutiev I., L.R. Cander, B. Zolesi, G. de Franceschi, M. Levy, and M. Dick. European ionospheric forecast and mapping. Physics and Chemistry of the earth part C-Solar-Terrestial and Planetary Science, 26(5):347-351, 2001.
[ bib | Abstract ]
[75]
B.M. Oliveros, Hernandez R.D.M., and Saurez L.P. On the onset and meridional propagation of the ionospheric f2-region response to geomagnetic storms. Journal of Atmospheric and Solar-Terrestrial Physics, 67(17-18):1706-1714, 2005.
[ bib | http | Abstract ]
[76]
A. Ozguc, Y. Tulunay, and T. Atac. Examination of the solar cycle variation of fof2 by using solar flare index for the cycle 21. Advances in Space Research, 22(1):139-142, jan 1998.
[ bib | Abstract ]
[77]
M. Pietrella and L. Perrone. Instantaneous space-weighted ionospheric regional model for instantaneous mapping of the critical frequency of the f2 layer in the european region. Radio Science, 40(1), 2005.
[ bib | http | Abstract ]
[78]
B.W. Reinisch, I.A. Galkin, G. Khmyrov, A. Kozlov, and D.F. Kitrosser. Automated collection and dissemination of ionospheric data from the digisonde network. Advances in Space Research, 2:241-247, 2004.
[ bib | .pdf | Abstract ]
[79]
H. Rishbeth and M. Mendillo. Patterns of f2-layer variability. Journal of Atmospheric and Solar-Terrestrial Physics, 63(15):1661-1680, 2001.
[ bib | Abstract ]
[80]
H. Rishbeth and M. Mendillo. Ionospheric layers of mars and earth. Planetary and Space Science, 52(9):849-852, aug 2004.
[ bib | http | Abstract ]
[81]
H. Rishbeth, K.J.F. Sedgemore-Schulthess, and T. Ulich. Semiannual and annual variations in the height of the ionospheric f2-peak. Annales Geophysicae, 18(3):285-299, 2000.
[ bib | Abstract ]
[82]
R. W. Schunk, L. Scherliess, J. J. Sojka, D. C. Thompson, D. N. Anderson, M. Codrescu, C. Minter, T. J. Fuller-Rowell, R. A. Heelis, M. Hairston, and B. M. Howe. Global assimilation of ionospheric measurements (gaim). Radio Science, 39, 2004.
[ bib | http | Abstract ]
[83]
N.K. Sethi, M.K. Goel, and K.K. Mahajan. Solar cycle variations of fof2 from igy to 1990. Annales Geophysicae, 20(10):1677-1685, 2002.
[ bib | Abstract ]
[84]
R. Stamper, M. Lockwood, M.N. Wild, and T.D.G. Clark. Solar causes of the long-term increase in geomagnetic activity. Journal of Geophysical Research, 104(A12):28325-28342, December 1999.
[ bib | Abstract ]
[85]
I. Stanislawska, G. Juchnikowski, and Z Zbyszynski. Generation of instantaneous, maps of ionospheric characteristics. Radio Science, 36(5):1073-1081, 2001.
[ bib | http | Abstract ]
[86]
I. Stanislawska and Z. Zbyszynski. Forecasting of the ionospheric quiet and disturbed f(o)f(2) values at a single location. Radio Science, 36(5):1065-1071, 2001.
[ bib | http | Abstract ]
[87]
E.P. Szuszczewicz, P. Blanchard, P. Wilkinson, G. Crowley, T. Fuller-Rowell, P. Richards, M. Abdu, T. Bullett, R. Hanbaba, J.P. Lebreton, M. Lester, M. Lockwood, G. Millward, M. Wild, S. Pulinets, B.M. Reddy, I. Stanislawska, G. Vannaroni, and B. Zolesi. The first realtime worldwide ionospheric prediction network: An advance in support of spaceborne experimentation, on-line model validation, and space weather. Geophysical Research Letters, 25(4):449-452, feb 1998.
[ bib | Abstract ]
[88]
E.P. Szuszczewicz, B. Fejer, E. Roelof, R. Schunk, R. Wolf, M. Abdu, T. Bateman, P. Blanchard, B.A. Emery, A. Feldstein, R. Hanbaba, J. Joselyn, T. Kikuchi, R. Leitinger, M. Lester, J. Sobral, B.M. Reddy, A.D. Richmond, R. Sica, G.O. Walker, and P.J. Wilkinson. Modelling and measurement of global-scale ionospheric behaviour under solar minimum, equinoctial conditions. Advances in Space Research, 12(6):105-115, jan 1992.
[ bib | Abstract ]
[89]
E.P. Szuszczewicz, B. Fejer, E. Roelof, R. Schunk, R. Wolf, R. Leitinger, M. Abdu, B.M. Reddy, J. Joselyn, P.J. Wilkinson, and R. Woodman. Sundial: a world-wide study of interactive ionospheric processes and their roles in the transfer of energy and mass in the sun-earth system. Annales Geophysicae, 6:3-18, feb 1988.
[ bib | Abstract ]
[90]
E.P. Szuszczewicz, P.J. Wilkinson, M.A. Abdu, E. Roelof, R. Hanbaba, M. Sands, T. Kikuchi, J. Joselyn, R. Burnside, M. Lester, R. Leitinger, G.O. Walker, B.M. Reddy, and J. Sobral. Solar-terrestrial conditions during sundial-86 and empirical modelling of the global-scale ionospheric response. Annales Geophysicae, 8:387-398, jun 1990.
[ bib | Abstract ]
[91]
E.P. Szuszczewicz, P.J. Wilkinson, W. Swider, S. Pulinets, M.A. Abdu, E. Roelof, T. Fuller-Rowell, D.S. Evans, T. Bateman, P. Blanchard, G. Gustafsson, R. Hanbaba, J. Joselyn, T. Kikuchi, R. Leitinger, M. Lester, B.M. Reddy, M. Ruohoniemi, M. Sands, J. Sobral, G.O. Walker, and V. Wickwar. Measurements and empirical model comparisons of f-region characteristics and auroral oval boundaries during the solstitial sundial campaign of 1987. Annales Geophysicae, 11:601, 1993.
[ bib ]
[92]
I. Tsagouri, B. Zolesi, A. Belehaki, and Lj. Cander. Evaluation of the performance of the real-time updated simplified ionospheric regional model for the european area. Journal of Atmospheric and Solar-Terrestrial Physics, 67(12):1137-1146, 2005.
[ bib | http | Abstract ]
[93]
Y. Tulunay, A. Kaya, and Z. Kaymaz. The possible effect of the imf by and bz components on the high latitude cost 251 area. Advances in Space Research, 20(9):1723-1726, 1997.
[ bib | Abstract ]
[94]
Y.K. Tulunay. Variability of mid-latitude ionospheric fof2 compared to imf polarity inversions. Advances in Space Research, 15(2):35-44, 1995.
[ bib | Abstract ]
[95]
P. Wintoft and L.R. Cander. Twenty-four hour predictions of f(o)f(2) using time delay neural networks. Radio Science, 35(2), 2000.
[ bib | http | Abstract ]
[96]
J.P. Wu and P.J. Wilkinson. Time weighted magnetic indices as predictors of ionospheric behaviour. Journal of Atmospheric and Terrestrial Physics, 57(14):1763-1770, 1995.
[ bib | Abstract ]
[97]
B. Zolesi, A. Belahaki, I. Tsagouri, and L.R. Cander. Real-time updating of the simplified ionospheric regional model for operational applications. Radio Science, 39(2), 2004.
[ bib | http | Abstract ]
[98]
L. Zou, H. Rishbeth, I.C.F. Muller-Wodarg, A.D. Aylward, G.H. Millward, T.J. Fuller-Rowell, D.W. Idenden, and R.J. Moffett. Annual and semiannual variations in the ionospheric f2-layer. i. modelling. Annales Geophysicae, 18(8):927-944, 2000.
[ bib | Abstract ]

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