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New threat to global transport. GNSS receiver spoofing

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Transport and logistics in XXI century relies on the several technical systems for assuring safe and reliable operations. One of widely used systems are satellite positioning systems, used to monitoring transport means and cargo itself. Reliability of the whole transport chain is often combined with singular reliability of satellite monitoring system. Possible threats to precise positioning of any vehicle is GNSS (Global Navigation Satellite System) deliberate interference. So called spoofing interference can mislead receiver in transport objective for reporting entirely wrong position and timing. To fight with this phenomena’s antispoofing techniques are developed. This paper will provide a review of late researches in field of GNSS anti-spoofing on the side of receiver. GNSS receiver vulnerabilities for a spoofer (device) attack will be presented as well as anti-spoofing algorithms. Possible limitation, costs as well as countermeasures methods will be shown thoroughly. Some of recent trends in anti-spoofing techniques in the world will be outlined up to date.
Rocznik
Strony
7--14
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
  • Maritime University of Szczecin, Institute of Marine Traffic Engineering, Szczecin, Poland
Bibliografia
  • [1] AKOS, D.M., 2012. Who's Afraid of the Spoofer? GPS/GNSS Spoofing Detection via Automatic Gain Control (AGC). Navigation, 59(4), pp. 281-290.
  • [2] AKOS, D.M., 2015. GNSS RFI/Spoofing: Detection, Localization, & Mitigation. Presentation. Stanford: Stanford’s 2012 PNT Challenges and Opportunities Symposium.
  • [3] BORIO, D., 2013. PANOVA Tests and their Application to GNSS Spoofing Detection. Aerospace and Electronic Systems, IEEE Transactions on, 49(1), pp. 381-394.
  • [4] DEHGHANIAN, V., NIELSEN, J. and LACHAPELLE, G., 2012. GNSS spoofing detection based on receiver C/No estimates, Proceedings of the 25th International Technical Meeting of the Satellite Division of the Institute of Navigation (ION GNSS 2012), Nashville, TN 2012, pp. 2878-2884.
  • [5] DOBRYAKOVA, L., LEMIESZEWSKI, Ł. and OCHIN, E., 2014. Design and analysis of spoofing detection algorithms for GNSS signals. Zeszyty Naukowe / Akademia Morska w Szczecinie, 40(112), pp. 47-52.
  • [6] GUCMA, M. and MONTEWKA, J., 2006. Podstawy morskiej nawigacji inercyjnej. Szczecin: Akademia Morska w Szczecinie.
  • [7] GUZEK, M., 2010. Car ADR/EDR recorders-uncertainty of vehicle's speed and trajectory determination. Archives of Transport, 22(2), pp. 163-174.
  • [8] JAFARNIA-JAHROMI, A., BROUMANDAN, A., NIELSEN, J. and LACHAPELLE, G., 2014. Pre-Despreading Authenticity Verification for GPS L1 C/A Signals. Navigation, 61(1), pp. 1-11.
  • [9] JAFARNIA-JAHROMI, A., DANESHMAND, S., BROUMANDAN, A., NIELSEN, J. and LACHAPELLE, G., 2013. PVT Solution Authentication Based on Monitoring the Clock State for a Moving GNSS Receiver. Vienna, Austria: Presented at the European Navigation Conference (ENC2013).
  • [10] KOC, W. and SPECHT, C., 2011. Selected problems of determining the course of railway routes by use of GPS network solution. Archives of Transport, 23(3), pp. 303-320.
  • [11] MONTGOMERY, P. Y., HUMPHREYS, T. E. and LEDVINA, B. M., 2009. Receiver-autonomous spoofing detection: Experimental results of a multi-antenna receiver defense against a portable civil GPS spoofer, Proceedings of the ION International Technical Meeting, January 26-28 2009, Anaheim, CA, pp. 124-130.
  • [12] OCHIN E., GUCMA L., PETLIN S., VIDMAR P., GUCMA M., PUSZCZ A., PERKOVIC M., HARSH R. and LEMIESZEWSKI Ł., 2014. Problems of telecommunication networks for the safety of maritime transport, Proceedings of World Maritime Technology Conference 2014, Saint-Petersburg.
  • [13] PSIAKI, M., O’HANLON, B., POWELL, S., BHATTI, J., WESSON, K., HUMPHREYS, T. and SCHOFIELD, A., 2014b. GNSS Spoofing Detection using Two-Antenna Differential Carrier Phase, Proc. of the 27th International Technical Meeting of The Satellite Division of the Institute of Navigation (ION GNSS ),(Tampa, Florida) 2014b, pp. 2776-2800.
  • [14] PSIAKI, M.L., HANLON, B.W.O., POWELL, S.P., BHATTI, J.A., HUMPHREYS, T.E., SCHOFIELD, A. and WESSON, K.D., 2014a. GNSS Spoofing Detection using Two-Antenna Differential Carrier Phase. Presented at the ION/GNSS+ 2014.
  • [15] SWASZEK, P.F. and HARTNETT, R.J., 2013. Spoof detection using multiple COTS receivers in safety critical applications, Proc. ION GNSS+ 2013, Nashville TN, Sept. 2013 2013, pp. 2921-2930.
  • [16] WEN, H., HUANG, P.Y., DYER, J., ARCHINAL, A. and FAGAN, J., 2005. Countermeasures for GPS signal spoofing, ION GNSS 2005. Long Beach, CA (2005) 2005, pp. 13-16.
  • [17] ZALEWSKI, P., 2014. Real-time GNSS spoofing detection in maritime code receivers. Zeszyty Naukowe / Akademia Morska w Szczecinie, 38(110), pp. 118-124.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2cb7d2ad-da79-4054-91e5-ab3f5358aaad
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