Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS

The ionosphere causes disruption of any electromagnetic wave, including the Global Positioning System (GPS) signals, that passes through it. The GPS signals will be deteriorated and thus the observed distance from satellite to receiver will not be accurate, which in turn the calculated coordinates w...

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Main Author: Made Randhyan Brahmandita, I
Format: Final Project
Language:Indonesia
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Online Access:https://digilib.itb.ac.id/gdl/view/32361
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:32361
spelling id-itb.:323612018-12-18T10:56:49ZStudi Badai Geomagnetik Menggunakan Data Pengamatan GPS Made Randhyan Brahmandita, I Ilmu kebumian Indonesia Final Project GPS, TEC, Ionosphere, St Patrick's Day, geomagnetic storm, linear combination geometric-free. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/32361 The ionosphere causes disruption of any electromagnetic wave, including the Global Positioning System (GPS) signals, that passes through it. The GPS signals will be deteriorated and thus the observed distance from satellite to receiver will not be accurate, which in turn the calculated coordinates will be inaccurate. The ionospheric effects on GPS largely depend on the concentration of electrons along the GPS signal path and the frequency of the signal. The content of electrons in the ionospheric layers is influenced by solar activity that might produce geomagnetic storms. Therefore, the modeling of these storms is necessary to know the spread of changes of the ionospheric electrons density. There are several techniques of observing the ionospheric layers such as ionosonde and air balloons, however these techniques are ineffective because of their high cost. GPS is considered to have a great potential to study the characteristics of the ionosphere because it is easy, efficient, and economical. Geomagnetic storm modeling using geometrically linear combination method of continuous GPS observation over the Indonesian region has been done to determine the impact of St Patrick's Day geomagnetic storm, which is known as the strongest storm during the 24th solar cycle. Based on the results of data processing, the values of total electron content (TEC) after geomagnetic storm with the highest intensity, according to he index value of the lowest dst index, are depleted. This storm caused phase shifting at the peak of the daily TEC of about 3 to 4 hours earlier than the other day. Investigations of the latitudinal and longitudinal effects indicate that the storm moved in the north-east direction at a speed of 4,263 ? / hr. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Ilmu kebumian
spellingShingle Ilmu kebumian
Made Randhyan Brahmandita, I
Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS
description The ionosphere causes disruption of any electromagnetic wave, including the Global Positioning System (GPS) signals, that passes through it. The GPS signals will be deteriorated and thus the observed distance from satellite to receiver will not be accurate, which in turn the calculated coordinates will be inaccurate. The ionospheric effects on GPS largely depend on the concentration of electrons along the GPS signal path and the frequency of the signal. The content of electrons in the ionospheric layers is influenced by solar activity that might produce geomagnetic storms. Therefore, the modeling of these storms is necessary to know the spread of changes of the ionospheric electrons density. There are several techniques of observing the ionospheric layers such as ionosonde and air balloons, however these techniques are ineffective because of their high cost. GPS is considered to have a great potential to study the characteristics of the ionosphere because it is easy, efficient, and economical. Geomagnetic storm modeling using geometrically linear combination method of continuous GPS observation over the Indonesian region has been done to determine the impact of St Patrick's Day geomagnetic storm, which is known as the strongest storm during the 24th solar cycle. Based on the results of data processing, the values of total electron content (TEC) after geomagnetic storm with the highest intensity, according to he index value of the lowest dst index, are depleted. This storm caused phase shifting at the peak of the daily TEC of about 3 to 4 hours earlier than the other day. Investigations of the latitudinal and longitudinal effects indicate that the storm moved in the north-east direction at a speed of 4,263 ? / hr.
format Final Project
author Made Randhyan Brahmandita, I
author_facet Made Randhyan Brahmandita, I
author_sort Made Randhyan Brahmandita, I
title Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS
title_short Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS
title_full Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS
title_fullStr Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS
title_full_unstemmed Studi Badai Geomagnetik Menggunakan Data Pengamatan GPS
title_sort studi badai geomagnetik menggunakan data pengamatan gps
url https://digilib.itb.ac.id/gdl/view/32361
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