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Sopin, A, Yampolsky, Y, Paznukhov, V, Kascheev, S, Koloskov, A, Pikulik, I, Zalizovski, A, and Kashcheyev, A (2016). IONOSPHERIC RESPONSE TO AGW PROPAGATION DETECTED USING GNSS MEASUREMENTS AND COHERENT HF SOUNDING OVER “VERNADSKY” AND “PALMER” ANTARCTIC STATIONS:41-49.
Migoya-Orué, Y, Nava, B, Radicella, S, and Alazo-Cuartas, K (2015). GNSS derived TEC data ingestion into IRI 2012Advances in Space Research, 55(8):1994 - 2002.
Rodriguez Bilbao, I, Radicella, S, Rodriguez Caderot, G, and Herraiz, M (2015). Precise point positioning performance in the presence of the 28 October 2003 sudden increase in total electron contentSpace Weather, 13(10):698-708.
Rodríguez-Bilbao, I, Monge, BM, Rodríguez-Caderot, G, Herraiz, M, and Radicella, S (2015). Evaluation of Precise Point Positioning accuracy under large total electron content variations in equatorial latitudesAdvances in Space Research, 55(2):605 - 616.
Schmidtke, G, Avakyan, S, Berdermann, J, Bothmer, V, Cessateur, G, Ciraolo, L, Didkovsky, L, Wit, TDd, Eparvier, F, Gottwald, A, Haberreiter, M, Hammer, R, Jacobi, C, Jakowski, N, Kretzschmar, M, Lilensten, J, Pfeifer, M, Radicella, S, Schäfer, R, Schmidt, W, Solomon, S, Thuillier, G, Tobiska, W, Wieman, S, and Woods, T (2015). Where does the Thermospheric Ionospheric GEospheric Research (TIGER) Program go?Advances in Space Research, 56(8):1547 - 1577.
Shimeis, A, Borries, C, Amory-Mazaudier, C, Fleury, R, Mahrous, A, Hassan, A, and Nawar, S (2015). TEC variations along an East Euro-African chain during 5th April 2010 geomagnetic stormAdvances in Space Research, 55(9):2239 - 2247.
Tanoh, KS, Adohi, BJ, Coulibaly, IS, Amory-Mazaudier, C, Kobea, AT, and Assamoi, P (2015). Statistical study of the night-time F-layer dynamics at the magnetic equator in West Africa during the solar minimum period 1995-1997Annales Geophysicae, 33(1):143–157.
Shaikh, M, Notarpietro, R, and Nava, B (2014). The impact of spherical symmetry assumption on radio occultation data inversion in the ionosphere: An assessment studyAdvances in Space Research, 53(4):599 - 608.
Torre, A, Alexander, P, Llamedo, P, Hierro, R, Nava, B, Radicella, S, Schmidt, T, and Wickert, J (2014). Wave activity at ionospheric heights above the Andes Mountains detected from FORMOSAT3/COSMIC GPS radio occultation dataJournal of Geophysical Research: Space Physics, 119(3):2046-2051.
Bolaji, O, Adeniyi, J, Adimula, I, Radicella, S, and Doherty, P (2013). Total electron content and magnetic field intensity over Ilorin, NigeriaJournal of Atmospheric and Solar-Terrestrial Physics, 98:1 - 11.
Brunini, C, Azpilicueta, F, and Nava, B (2013). A technique for routinely updating the ITU-R database using radio occultation electron density profilesJournal of Geodesy, 87(9):813–823.
Cano, BS�, Radicella, S, Herraiz, M, Witasse, O, and Caderot, GR� (2013). NeMars: An empirical model of the Martian dayside ionosphere based on Mars Express \MARSIS\ data Icarus (0): - .
Migoya-Orue, Y, Radicella, S, and Nava, B (2013). Comparison of topside electron density computed by ionospheric models and plasma density observed by DMSP satellitesAdvances in Space Research, 52(10):1710 - 1716.
Migoya-Orue, Y, Radicella, S, and Nava, B (2013). Comparison of topside electron density computed by ionospheric models and plasma density observed by DMSP satellites Advances in Space Research , 52(10):1710-1716.
Nigussie, M, Radicella, S, Damtie, B, Nava, B, Yizengaw, E, and Groves, K (2013). Validation of the NeQuick 2 and IRI-2007 models in East-African equatorial regionJournal of Atmospheric and Solar-Terrestrial Physics, 102(Complete):26-33.
Sánchez-Cano, B, Radicella, S, Herraiz, M, Witasse, O, and Rodríguez-Caderot, G (2013). NeMars: An empirical model of the martian dayside ionosphere based on Mars Express MARSIS dataIcarus, 225(1):236 - 247.
Kashcheyev, A, Nava, B, and Radicella, S (2012). Estimation of higher-order ionospheric errors in GNSS positioning using a realistic 3-D electron density modelRadio Science, 47(RS4008).
Nigussie, M, Radicella, S, Damtie, B, Nava, B, Yizengaw, E, and Ciraolo, L (2012). TEC ingestion into NeQuick 2 to model the East-African equatorial ionosphereRadio Science.
Moreno, B, Radicella, S, Lacy, M, Herraiz, M, and Rodriguez-Caderot, G (2011). On the effects of the ionospheric disturbances on precise point positioning at equatorial latitudesGPS Solutions, 15:381-390.
Nava, B, Radicella, S, and Azpilicueta, F (2011). Data ingestion into NeQuick 2Radio Science, 46(RS0D17).
Oladipo, O, Adeniyi, J, Radicella, S, and Adimula, I (2011). Variability of the ionospheric electron density at fixed heights and validation of IRI-2007 profile's prediction at IlorinAdvances in Space Research, 47(3):496-505.
Bagula, AB, Osunmakinde, I, and Zennaro, M (2010). On the Relevance of Using Bayesian Belief Networks in Wireless Sensor Networks Situation RecognitionSensors, 10(12):11001–11020.
Radicella, S (2010). The NeQuick model genesis, uses and evolutionAnnals of Geophysics, 52(3-4).
Radicella, S, Sauli, P, Jakowski, N, Kouba, D, Portillo, A, Herraiz, M, Strangeways, H, Zernov, N, and Gherm, V (2010). Space Plasma EffectsAnnals of Geophysics, 52(3-4).
Leitinger, R, Zhang, ML, and Radicella, SM (2009). An improved bottomside for the ionospheric electron density model NeQuickAnnals of Geophysics, 48(3).
