date: 2021-04-12T01:15:43Z
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pdf:docinfo:title: Performance Evaluation of VTEC GIMs for Regional Applications during Different Solar Activity Periods, Using RING TEC Values
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Keywords: GNSS; GIM maps; RING Network; TEC; calibration technique; solar and geomagnetic activity; St. Patrick storm; ionosphere
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subject: This paper presents a comparison of the vertical total electron content (vTEC) estimated over Italy using two different approaches: the GPS Global Ionosphere Maps (GIMs) and the so-called ?calibration technique? developed by Ciraolo in 2007. The study has been carried out at a regional level by considering three Italian dual-frequency stations of the GPS permanent network ?Rete Integrata Nazionale GPS (RING)?. The GPS receivers are permanently installed at Madesimo (geographical coordinates: 46.5 N, 9.4 E), Rome (geographical coordinates: 41.8 N, 12.5 E) and Resuttano (geographical coordinates: 37.7 N, 14.1 E), respectively in the north, center and south of Italy. Time windows selected for the analysis include periods of both low (July 2008 to June 2009) and high (September 2013 to August 2014) solar activity. The two datasets have also been studied considering both quiet and disturbed geomagnetic activity conditions. Moreover, the effects of an extreme geomagnetic storm have been investigated in March 2015 when the well-known St. Patrick storm occurred. Overall, GIM estimated values are always higher than those calibrated by the Ciraolo procedure for all the considered datasets. The differences between the two methods increase as the latitude decreases, and they increase as the solar activity intensifies. The outcomes of this study shall be helpful when applying GlMs at a regional level.
dc:creator: Vincenza Tornatore, Claudio Cesaroni, Michael Pezzopane, Mohamad Mahdi Alizadeh and Harald Schuh
dcterms:created: 2021-04-12T01:10:03Z
Last-Modified: 2021-04-12T01:15:43Z
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title: Performance Evaluation of VTEC GIMs for Regional Applications during Different Solar Activity Periods, Using RING TEC Values
Last-Save-Date: 2021-04-12T01:15:43Z
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pdf:docinfo:keywords: GNSS; GIM maps; RING Network; TEC; calibration technique; solar and geomagnetic activity; St. Patrick storm; ionosphere
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dc:title: Performance Evaluation of VTEC GIMs for Regional Applications during Different Solar Activity Periods, Using RING TEC Values
modified: 2021-04-12T01:15:43Z
cp:subject: This paper presents a comparison of the vertical total electron content (vTEC) estimated over Italy using two different approaches: the GPS Global Ionosphere Maps (GIMs) and the so-called ?calibration technique? developed by Ciraolo in 2007. The study has been carried out at a regional level by considering three Italian dual-frequency stations of the GPS permanent network ?Rete Integrata Nazionale GPS (RING)?. The GPS receivers are permanently installed at Madesimo (geographical coordinates: 46.5 N, 9.4 E), Rome (geographical coordinates: 41.8 N, 12.5 E) and Resuttano (geographical coordinates: 37.7 N, 14.1 E), respectively in the north, center and south of Italy. Time windows selected for the analysis include periods of both low (July 2008 to June 2009) and high (September 2013 to August 2014) solar activity. The two datasets have also been studied considering both quiet and disturbed geomagnetic activity conditions. Moreover, the effects of an extreme geomagnetic storm have been investigated in March 2015 when the well-known St. Patrick storm occurred. Overall, GIM estimated values are always higher than those calibrated by the Ciraolo procedure for all the considered datasets. The differences between the two methods increase as the latitude decreases, and they increase as the solar activity intensifies. The outcomes of this study shall be helpful when applying GlMs at a regional level.
pdf:docinfo:subject: This paper presents a comparison of the vertical total electron content (vTEC) estimated over Italy using two different approaches: the GPS Global Ionosphere Maps (GIMs) and the so-called ?calibration technique? developed by Ciraolo in 2007. The study has been carried out at a regional level by considering three Italian dual-frequency stations of the GPS permanent network ?Rete Integrata Nazionale GPS (RING)?. The GPS receivers are permanently installed at Madesimo (geographical coordinates: 46.5 N, 9.4 E), Rome (geographical coordinates: 41.8 N, 12.5 E) and Resuttano (geographical coordinates: 37.7 N, 14.1 E), respectively in the north, center and south of Italy. Time windows selected for the analysis include periods of both low (July 2008 to June 2009) and high (September 2013 to August 2014) solar activity. The two datasets have also been studied considering both quiet and disturbed geomagnetic activity conditions. Moreover, the effects of an extreme geomagnetic storm have been investigated in March 2015 when the well-known St. Patrick storm occurred. Overall, GIM estimated values are always higher than those calibrated by the Ciraolo procedure for all the considered datasets. The differences between the two methods increase as the latitude decreases, and they increase as the solar activity intensifies. The outcomes of this study shall be helpful when applying GlMs at a regional level.
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pdf:docinfo:creator: Vincenza Tornatore, Claudio Cesaroni, Michael Pezzopane, Mohamad Mahdi Alizadeh and Harald Schuh
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creator: Vincenza Tornatore, Claudio Cesaroni, Michael Pezzopane, Mohamad Mahdi Alizadeh and Harald Schuh
meta:author: Vincenza Tornatore, Claudio Cesaroni, Michael Pezzopane, Mohamad Mahdi Alizadeh and Harald Schuh
dc:subject: GNSS; GIM maps; RING Network; TEC; calibration technique; solar and geomagnetic activity; St. Patrick storm; ionosphere
meta:creation-date: 2021-04-12T01:10:03Z
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meta:keyword: GNSS; GIM maps; RING Network; TEC; calibration technique; solar and geomagnetic activity; St. Patrick storm; ionosphere
Author: Vincenza Tornatore, Claudio Cesaroni, Michael Pezzopane, Mohamad Mahdi Alizadeh and Harald Schuh
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