Simless GSM positioning for navigation in GPS-denied environments

Purpose Until now, air navigation systems have mainly relied on global navigation satellite systems (GNSS) on the worldwide spread global positioning system. However, the so-called GNSS-denied environments open a new research line which pursues the development of alternative technologies which will...

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Veröffentlicht in:	Aircraft engineering 2018-11, Vol.90 (7), p.1072-1076
Hauptverfasser:	Soldado Serrano, Inmaculada, García Doblado, José, Finazzi, Ignazio Federico, Martín Prats, María Ángeles
Format:	Artikel
Sprache:	eng
Schlagworte:	Air navigation Algorithms Cellular communication Communication Communications systems Confidence intervals Global navigation satellite system Global positioning systems GPS Infrastructure Mobile communication systems Navigation satellites Navigation systems Radio equipment Receivers & amplifiers Satellite navigation systems Software Unmanned aerial vehicles Urban areas
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creator	Soldado Serrano, Inmaculada García Doblado, José Finazzi, Ignazio Federico Martín Prats, María Ángeles
description	Purpose Until now, air navigation systems have mainly relied on global navigation satellite systems (GNSS) on the worldwide spread global positioning system. However, the so-called GNSS-denied environments open a new research line which pursues the development of alternative technologies which will cover this gap in positioning systems’ services. Design/methodology/approach This paper presents the possibility of using positioning systems based on global system for mobile communications (GSM) signal. This approach developed in a standalone device will provide real-time information. The presented algorithm pursues a new methodology for providing useful information. Findings Among all the different technologies aimed at giving a navigation solution in the absence of any kind of GNSS in which this paper is based, it advocates for the use of the signals of opportunity, particularly the usage of GSM. Practical implications Technology is currently immersed in an era of continuous progress and expansion of navigation systems. These are evolving toward high performance systems, offering precise, efficient and safe air navigation. In addition, the growing demand for unmanned aerial vehicles increases the level of exigency on this activity even more. Therefore, in the context of the development of unmanned navigation technologies, the aim is to implement positioning systems that will allow high precision even in though environments. Originality/value Referencing the SIMless concept, a SIM-free system is described in this paper. The SIM-free system is supported by open data bases and permits the positioning based on the information sniffed from the signals broadcast by a set of several nearby base station of the GSM network. Hence, it provides same and in some cases even better accuracies than the already developed techniques, not being necessary to synchronize the link between the mobile terminal and the base station transceiver (BTS).
doi_str_mv	10.1108/AEAT-01-2017-0029
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In addition, the growing demand for unmanned aerial vehicles increases the level of exigency on this activity even more. Therefore, in the context of the development of unmanned navigation technologies, the aim is to implement positioning systems that will allow high precision even in though environments. Originality/value Referencing the SIMless concept, a SIM-free system is described in this paper. The SIM-free system is supported by open data bases and permits the positioning based on the information sniffed from the signals broadcast by a set of several nearby base station of the GSM network. 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subjects	Air navigation Algorithms Cellular communication Communication Communications systems Confidence intervals Global navigation satellite system Global positioning systems GPS Infrastructure Mobile communication systems Navigation satellites Navigation systems Radio equipment Receivers & amplifiers Satellite navigation systems Software Unmanned aerial vehicles Urban areas
title	Simless GSM positioning for navigation in GPS-denied environments
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