Ionospheric scintillations are fluc

Ionospheric scintillations are fluctuations in the phase and amplitude of the signals from GNSS (Global Navigation Satellite Systems)

occurring when they cross regions of electron density irregularities in the ionosphere. Such disturbances can cause serious degradation of

several aspects of GNSS system performance, including integrity, accuracy and availability. The two indices adopted worldwide to char-
acterise ionospheric scintillations are: the amplitude scintillation index, S4, which is the standard deviation of the received power nor-
malised by its mean value, and the phase scintillation index, rU, which is the standard deviation of the de-trended carrier phase.

Collaborative work between NGI and INGV supports a permanent network of GISTM (GPS Ionospheric Scintillation and TEC Mon-
itor) receivers that covers a wide range of latitudes in the northern European sector. Data from this network has contributed significantly

to several papers during the past few years (see e.g. De Franceschi et al., 2008; Aquino et al., 2009; Spogli et al., 2009, 2010; Alfonsi et al.,

2011). In these investigations multipath effects and noise that contaminate the scintillation measurements are largely filtered by applying

an elevation angle threshold. A deeper analysis of the data quality and the development of a more complex filtering technique can

improve the results obtained so far. The structures in the environment of each receiver in the network which contaminate scintillation

measurements should be identified in order to improve the quality of the scintillation and TEC data by removing error sources due to the

local environment. The analysis in this paper considers a data set characterised by quiet ionospheric conditions of the mid-latitude sta-
tion located in Nottingham (UK), followed by a case study of the severe geomagnetic storm, which occurred in late 2003, known gen-
erally as the “Halloween Storm”.

2013 Published by Elsevier Ltd. on behalf of COSPAR.