Abstract
Conventional methods such as matched filtering, fractional lower order statistics cross ambiguity function, and recent methods such as compressed sensing and track-before-detect are used for target detection by passive radars. Target detection using these algorithms usually assumes that the background noise is Gaussian. However, non-Gaussian impulsive noise is inherent in real world radar problems. In this paper, a new optimization based algorithm that uses weighted and norms is proposed as an alternative to the existing algorithms whose performance degrades in the presence of impulsive noise. To determine the weights of these norms, the parameter that quantifies the impulsiveness level of the noise is estimated. In the proposed algorithm, the aim is to increase the target detection performance of a universal mobile telecommunication system (UMTS) based passive radars by facilitating higher resolution with better suppression of the sidelobes in both range and Doppler. The results obtained from both simulated data with stable distribution, and real data recorded by a UMTS based passive radar platform are presented to demonstrate the superiority of the proposed algorithm. The results show that the proposed algorithm provides more robust and accurate detection performance for noise models with different impulsiveness levels compared to the conventional methods.
Highlights
Passive radar systems are radar systems capable of target detection with one or more receivers without having any active transmitter
The reference and surveillance signals are generated in the passive radar simulator using the signal models in Equation (5) and (6)
The target attenuation levels used during the generation of the surveillance signal depend on the radar cross-section (RCS) values of the targets
Summary
Passive radar systems are radar systems capable of target detection with one or more receivers without having any active transmitter. Passive radar systems are non-cooperative systems in that these can detect targets using illuminators of opportunity that are already in the environment [1]. The ubiquity of communication signals in the environment enables passive radar to be useful in scenarios where active radars are not available or inhibited. One of the most commonly used methods for target detection is the conventional matched filter [2]. The operation of this method can be summarized as the estimation of the range and the Doppler of the target by comparing the noisy reference signal with the signal reflected from a target through a matched filter. There are many studies in the literature on the detection of low Sensors 2020, 20, 3270; doi:10.3390/s20113270 www.mdpi.com/journal/sensors
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