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Found 3 entries in the Bibliography.
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Inter-hemispheric comparison of ionospheric TEC variation at each latitudinal band during quiet geomagnetic condition
Adebiyi, Shola; Adimula, Isaac; Oladipo, Olushola;
Published by: Journal of the Nigerian Society of Physical Sciences Published on:
GPS derived TEC and foF2 variability at an equatorial station and the performance of IRI-model
The ionosphere induces a time delay in transionospheric radio signals such as the Global Positioning System (GPS) signal. The Total Electron Content (TEC) is a key parameter in the mitigation of ionospheric effects on transionospheric signals. The delay in GPS signal induced by the ionosphere is proportional to TEC along the path from the GPS satellite to a receiver. The diurnal monthly and seasonal variations of ionospheric electron content were studied during the year 2010, a year of extreme solar minimum (F10.7\ = ...
Adebiyi, S.J.; Odeyemi, O.O.; Adimula, I.A.; Oladipo, O.A.; Ikubanni, S.O.; Adebesin, B.O.; Joshua, B.W.;
Published by: Advances in Space Research Published on: 08/2014
YEAR: 2014   DOI: 10.1016/j.asr.2014.03.026
Ionospheric response to magnetic activity at low and mid-latitude stations
The F2-layer response to the moderate storm of 5\textendash7 April 2010 was investigated using data from two equatorial stations (Ilorin: lat. 8.5\textdegreeN, 4.5\textdegreeE; Kwajalein: lat. 9\textdegreeN, long. 167.2\textdegreeE) and mid-latitude (San Vito: lat. 40.6\textdegreeN, long. 17.8\textdegreeE; Pruhonice: lat. 50\textdegreeN, long. 14.6\textdegreeE). Before storm commencement, enhancement, and depletion of NmF2 values were observed in the equatorial and mid-latitude stations, respectively, in ...
Adebiyi, Shola; Adimula, Isaac; Oladipo, Olusola; Joshua, Benjamin; Adebesin, Babatunde; Ikubanni, Stephen;
Published by: Acta Geophysica Published on: 08/2014
YEAR: 2014   DOI: 10.2478/s11600-014-0205-x
Electric field; equatorial station; Ionosphere; mid-latitude; moderate storm; positive phase