Sensors (Jul 2024)

GNSS Receiver Fingerprinting Based on Time Skew of Embedded CSAC Clock

  • Sibo Gui,
  • Li Dai,
  • Meng Shi,
  • Junchao Wang,
  • Chuwen Tang,
  • Haitao Wu,
  • Jianye Zhao

DOI
https://doi.org/10.3390/s24154897
Journal volume & issue
Vol. 24, no. 15
p. 4897

Abstract

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GNSS spoofing has become a significant security vulnerability threatening remote sensing systems. Hardware fingerprint-based GNSS receiver identification is one of the solutions to address this security issue. However, existing research has not provided a solution for distinguishing GNSS receivers of the same specification. This paper first theoretically proves that the CSACs (Chip-Scale Atomic Clocks) used in GNSS receivers have unique hardware noise and then proposes a fingerprinting scheme based on this hardware noise. Experiments based on the neural network method demonstrate that this fingerprint achieved an identification accuracy of 94.60% for commercial GNSS receivers of the same specification and performed excellently in anomaly detection, confirming the robustness of the fingerprinting method. This method shows a new real-time GNSS security monitoring method based on CSACs and can be easily used with any commercial GNSS receivers.

Keywords