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SSB-Based Signal Processing for Passive Radar Using a 5G Network

Karol Abratkiewicz, Adam Ksiȩżyk, Marek Płotka, Piotr Samczyński, Jacek Wszołek, Tomasz P. Zieliński

2023IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing30 citationsDOIOpen Access PDF

Abstract

This paper presents an alternative processing chain for the passive radar using fifth-generation (5 G) standard technology for broadband cellular networks as illuminators of opportunity. The proposition is to use a 5 G synchronization signal block's (SSB) periodically transmitted modulated pulse in 5G-based passive coherent location (PCL) system processing. Although the SSB periodicity limits the velocity ambiguity, the paper describes a solution to tackle this problem in a single target scenario. The method is advantageous when there is a lack of transmission in the telecommunication channel, and the 5 G SSB is the only existing signal. The paper proposes a signal processing pipeline for 5G-based PCL that is inspired by passive radars using non-cooperative pulse radar as an illumination source. The method has been validated using simulated and real-life 5 G data measurements. The results presented in the paper show the possibility of detecting a moving target with a lack of data transmission in the 5 G network, using only the SSB when the classical passive radar signal processing fails. The presented results prove the possibility for a significant increase of 5 G network-based PCL utilization in short-range applications.

Topics & Concepts

Passive radarComputer scienceSignal processingRadarTransmission (telecommunications)Electronic engineeringSynchronization (alternating current)SIGNAL (programming language)Real-time computingPulse-Doppler radarTelecommunicationsChannel (broadcasting)Radar imagingEngineeringProgramming languageRadar Systems and Signal ProcessingMicrowave Imaging and Scattering AnalysisAdvanced SAR Imaging Techniques
SSB-Based Signal Processing for Passive Radar Using a 5G Network | Litcius