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Detection of Spoofing using Differential GNSS

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Języki publikacji
EN
Abstrakty
EN
One of the main problems in modern navigation of both manned and unmanned transport systems is that of transport safety. Differential GNSS technology has been used to improve the accuracy of transport positioning, in which position is calculated relative to a fixed reference station with a known position XYZ. Unfortunately, GNSS is vulnerable to malicious intrusion. GNSS signals and/or correction signals from the reference station can be spoofed by false signals, and special receivers have been used to provide defenses against such attacks. But how can the roving receiver (i.e. the user) be sure that the information they receive is authentic? Spoofing is the transmission of a matched-GNSS-signal-structure and/or signals to a reference station in order to cause interference and attempt to commandeer the tracking loops of a victim receiver, thereby allowing manipulation of the receiver’s timing or navigation solution. A spoofer can transmit its counterfeit signals from a stand-off distance of several hundred meters, or it can be co-located with its victim. In this article we consider the principles of spoofing detection using Differential GNSS, in which a correction signal from the reference station is used for the detection of spoofing.
Rocznik
Strony
59--67
Opis fizyczny
Bibliogr. 11 poz., rys., tab.
Twórcy
autor
  • Maritime University of Szczecin, Navigation Faculty 1–2 Wały Chrobrego St., 70-500 Szczecin, Poland
Bibliografia
  • 1. Dobryakova, L. & Ochin, E. (2014) On the application of GNSS signal repeater as a spoofer. Scientific Journals Maritime University of Szczecin 40(112), pp. 53–57.
  • 2. Dobryakova, L., Lemieszewski, Ł. & Ochin, E. (2012) Antiterrorism – design and analysis of GNSS antispoofing algorithms. Scientific Journals Maritime University of Szczecin 30(102), pp. 93–101.
  • 3. Dobryakova, L., Lemieszewski, Ł. & Ochin, E. (2013) The analysis of the detecting algorithms of GNSS-spoofing. Scientific Journals Maritime University of Szczecin 36(108) z. 2, pp. 30–36.
  • 4. Dobryakova, L., Lemieszewski, Ł. & Ochin, E. (2014) Design and Analysis of Spoofing Detection Algorithms for GNSS Signals. Scientific Journals Maritime University of Szczecin 40(112), pp. 47–52.
  • 5. GISGeography (2017) World Geodetic System (WGS84). [Online] Available from: http://gisgeography.com/wgs84-worldgeodetic-system/ [Accessed: January 10, 2017]
  • 6. GPS World (2015) Spoofing, Detection, and Navigation Vulnerability. [Online] Available from: https://www.youtube.com/ watch?v=qlX-MsYZvoM [Accessed: January 10, 2017]
  • 7. Januszewski, J. (2010) Systemy satelitarne GPS, Galileo i inne. PWN.
  • 8. Mihalskij, V.A. & Katenin V.A. (2009) Metrologiâ v korablevoždenii i pešenie zadač navigacii. Elmor.
  • 9. Ochin, E., Lemieszewski, Ł., Lusznikov, E. & Dobryakova, L. (2013) The study of the spoofer’s some properties with help of GNSS signal repeater. Scientific Journals Maritime University of Szczecin 36(108) z. 2, pp. 159–165.
  • 10. Retscher, G. (2002) Accuracy Performance of Virtual Reference Station (VRS) Networks. Journal of Global Positioning Systems 1(1), pp. 40–47.
  • 11. Specht, C. (2007) System GPS. Biblioteka Nawigacji nr 1. Wydawnictwo Bernardinum. Pelplin.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6cd0d6ad-9ef3-4cf3-b89f-201c326ba317
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