DEMO: Demonstrating a Trust Framework for Evaluating GNSS Signal Integrity

Chen, Xihui; Harpes, Carlo; Lenzini, Gabriele; Martins, Miguel; Mauw, Sjouke; Pang, Jun

Reference : DEMO: Demonstrating a Trust Framework for Evaluating GNSS Signal Integrity


	Document type :	Scientific congresses, symposiums and conference proceedings : Paper published in a book
	Discipline(s) :	Engineering, computing & technology : Computer science
	To cite this reference:	http://hdl.handle.net/10993/12972

Title :	DEMO: Demonstrating a Trust Framework for Evaluating GNSS Signal Integrity
Language :	English
Author, co-author :	Chen, Xihui [University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > >]
	Harpes, Carlo []
	Lenzini, Gabriele [University of Luxembourg > Interdisciplinary Centre for Security, Reliability and Trust (SNT) > >]
	Martins, Miguel []
	Mauw, Sjouke [University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Computer Science and Communications Research Unit (CSC) >]
	Pang, Jun [University of Luxembourg > Faculty of Science, Technology and Communication (FSTC) > Computer Science and Communications Research Unit (CSC) >]
Publication date :	Nov-2013
Main document title :	Proceedings of 20th ACM Conference on Computer and Communications Security (CCS'13)
Publisher :	ACM
Pages :	1329-1332
Peer reviewed :	Yes
Audience :	International
Event name :	20th ACM Conference on Computer and Communications Security
Event date :	from 05-11-2013 to 07-11-2013
Keywords :	[en] GNSS signal ; signal integrity ; spoofing
Abstract :	[en] Through real-life experiments, it has been proved that spoofing is a practical threat to applications using the free civil service provided by Global Navigation Satellite Systems (GNSS). In this paper, we demonstrate a prototype that can verify the integrity of GNSS civil signals. By integrity we intuitively mean that civil signals originate from a GNSS satellite without having been artificially interfered with. Our prototype provides interfaces that can incorporate existing spoofing detection methods whose results are then combined into an overall evaluation of the signal’s integrity, which we call integrity level. Considering the various security requirements from different applications, integrity levels can be calculated in many ways determined by their users. We also present an application scenario that deploys our prototype and offers a public central service – localisation assurance certification. Through experiments, we successfully show that our prototype is not only effective but also efficient in practice.
Target :	Researchers ; Professionals ; Students
Permalink :	http://hdl.handle.net/10993/12972

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