Journal of Institute of Control, Robotics and Systems (제어로봇시스템학회논문지)

Institute of Control, Robotics and Systems (제어로봇시스템학회)
권호 표지
DOI QR코드

DOI QR Code

A Novel Repeat-back Jamming Detection Scheme for GNSS using a Combined Pseudo Random Noise Signal

통합의사잡음 신호를 사용한 GNSS의 재방송재밍 검출기법

  • Yoo, Seungsoo (Division of Electronics Engineering, Konkuk University) ;
  • Yeom, Dong-Jin (Agency for Defense Development) ;
  • Jee, Gyu-In (Division of Electronics Engineering, Konkuk University) ;
  • Kim, Sun Yong (Division of Electronics Engineering, Konkuk University)
  • Received : 2014.06.05
  • Accepted : 2014.06.17
  • Published : 2014.09.01
Download PDF
⟨ Previous Next ⟩

Abstract

A repeat-back jamming signal is an intentionally re-broadcasted GNSS (Global Navigation Satellite System) interference. In this paper, a novel repeat-back jamming detection scheme is proposed. The proposed scheme uses a combined pseudo random noise signal (C-PRN) and is available for a generic GNSS receiver with a single antenna. The C-PRN signal is made by combining several received pseudo random noise signals that had been transmitted from the visible GNSS satellites. Through a Monte-Carlo simulation, the detection probability of a repeat-back jamming signal detected with the proposed scheme is presented.

Keywords

References

  1. J. Coffed, "The threat of GPS jamming: The risk to an information utility," Report of EXELIS, Jan. 2014. Online Available: http://www.exelisinc.com/solutions/signalsentry/Documents/ThreatOfGPSJamming_February2014.pdf
  2. E. D. Kaplan and C. J. Hegarty, Understanding GPS Principles and Applications, 2nd Edition, Artech House, Norwood, MA, 2006.
  3. B. W. Parkinson, J. J. Spilker Jr., P. Axelrad, and P. Enge, Global Positioning System: Theory and Applications, vol. 1, AIAA, Reston, VA, 1996.
  4. D. W. Lim, J. M. Kang, and M. B. Heo, "Hybrid TDOA/AOA localization algorithm for GPS jamming," Journal of Institute of Control, Robotics and Systems (in Korean), vol. 20, no. 1, pp. 101-105, Jan. 2014. https://doi.org/10.5302/J.ICROS.2014.13.1943
  5. T. E. Humphreys, "Detection strategy for cryptographic GNSS anti-spoofing," IEEE Transactions on Aerospace and Electronics Systems, vol. 49, no. 2, pp. 1073-1090, Apr. 2013. https://doi.org/10.1109/TAES.2013.6494400
  6. J. Nielsen, A. Broumandan, and G. Lachapelle, "GNSS spoofing detection for single antenna handheld receivers," Navigation: Journal of The Institute of Navigation, vol. 58, no. 4, pp. 335-344, Winter 2011.
  7. A. Jafarnia-Jahromi, S. Daneshmand, and G. Lachapelle, "Spoofing countermeasure for GNSS reveivers - A review of current and future research trends," Proc. on the 4th Intern Colloquim on Scientific and Fundamental Aspects of the Galileo Programme, pp. 1-8, Praha, Czech Republic, Dec. 2013.
  8. D. Lu, R. Wu, P. Li, and Z. Su, "GPS smart jammer suppressin algorithm based on spatial apes," Proc. of 2007 International Symposium on Intelligent Signal Processing and Communication Systems, pp. 88-91, Xiamen, China, Nov.-Dec. 2007.
  9. R. B. Langley, "GLONASS loses control again," GPS World: The Business and Technology of GNSS, Apr. 2014. Online Available: http://gpsworld.com/glonass-losescontrol-again/
  10. China Satellite Navigation Office, Report on the Development of BeiDou (COMPASS) Navigation Satellite System (V2.2), Dec. 2013. Online Available: http://www.beidou.gov.cn/attach/2013/12/26/20131226fed336adf2184d52843d5bf81832e82c.pdf
  11. G. McGraw and M. Braasch, "GNSS multipath mitigation using gated and high resolution correlator concept," Proc. of the 1999 National Technical Meeting of The Institute of Navigation, pp. 333-342, San Diego, CA, Jan. 1999.