• DocumentCode
    1769865
  • Title

    Software-Defined-Radio techniques against jammers for in car GNSS navigation

  • Author

    Di Fonzo, Antonio ; Leonardi, Mauro ; Galati, Gaspare ; Madonna, Paola ; Sfarzo, Luca

  • Author_Institution
    Electron. Eng. Dept., Tor Vergata Univ., Rome, Italy
  • fYear
    2014
  • fDate
    29-30 May 2014
  • Firstpage
    320
  • Lastpage
    325
  • Abstract
    It is well know that jamming is an easy and low cost attack method against GNSS-based applications. In the last years these types of attacks have increased significantly due to the availability of GPS jammers that can be easily found, for example, on the internet and due to the constant growth of in-car GNSS-based applications. Usually a jamming device, also called in-car jammer, is a quite simple electronic device which emits a single frequency tone or some type of chirp signal. These types of signal can be considered as an instantaneous narrow band and can be mitigated with very simple processing, based on Short Time Fourier Transform. These considerations lead to the development of an equipment able to reduce the effect of these harmful signals over a generic GNSS receiver through a Software Defined Radio (SDR) equipment. In this paper a brief introduction to the problem is presented and a time-frequency mitigation technique is shown along with some results for a set of in-car jammers.
  • Keywords
    Fourier transforms; Global Positioning System; satellite navigation; software radio; GPS jammers; car GNSS navigation; generic GNSS receiver; in-car jammer; jamming device; short time Fourier transform; software-defined-radio techniques; time-frequency mitigation technique; Bandwidth; Chirp; Global Positioning System; Jamming; Receivers; Spectrogram; Time-frequency analysis; GNSS; GPS; Jamming; SDR; STFT;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Metrology for Aerospace (MetroAeroSpace), 2014 IEEE
  • Conference_Location
    Benevento
  • Type

    conf

  • DOI
    10.1109/MetroAeroSpace.2014.6865942
  • Filename
    6865942