Litcius/Paper detail

GNSS C/N0 degradation model in presence of continuous wave and pulsed interference

Axel Garcia‐Pena, Olivier Julien, Cristophe Macabiau, Mikaël Mabilleau, Pierre Durel

2021NAVIGATION Journal of the Institute of Navigation18 citationsDOIOpen Access PDF

Abstract

<h3>Abstract</h3> In the Global Navigation Satellite System (GNSS) L5/E5a interference environment, RTCA DO-292 proposes a model to compute the <i>C/N</i><sub>0</sub> degradation due to the presence of interference signals, such as Distance Measuring Equipment/TACtical Air Navigation (DME/TACAN), Joint Tactical Information Distribution System/Multifunctional Information Distribution System (JTIDS/MIDS), etc., and due to the application of a temporal blanker to mitigate their impact. The <i>C/N</i><sub>0</sub> degradation is modeled as a function of the blanker duty cycle, <i>bdc</i>, and the equivalent noise-level contribution of the non-blanked interference, <i>R<sub>I</sub></i>. However, in RTCA DO-292, the computation of these two terms has a reduced accuracy since a general statistical model of signal pulse collisions and an overbounded flat post-blanker pulsed interference signal Power Spectrum Density (PSD) are assumed. In this paper, the limitations of the applied pulse collisions mathematical model are commented, and the use of true post-blanker pulsed interference signal PSD is introduced through the application of the spectral separation coefficient. As a result, more accurate new formulas for <i>R<sub>I</sub></i> and <i>C/N</i><sub>0</sub> degradation are derived. The new formulas are verified through simulations for DME/TACAN signals.

Topics & Concepts

GNSS applicationsInterference (communication)Degradation (telecommunications)Duty cycleSIGNAL (programming language)Spectral densityNoise (video)Electronic engineeringCarrier-to-noise ratioComputer scienceSatellite systemPhysicsPower (physics)Global Positioning SystemSignal-to-noise ratio (imaging)EngineeringTelecommunicationsChannel (broadcasting)Programming languageImage (mathematics)Quantum mechanicsArtificial intelligenceGNSS positioning and interferenceAdvanced Frequency and Time StandardsIonosphere and magnetosphere dynamics