IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing (Jan 2023)

Target Acceleration Estimation in Active and Passive Radars

  • Karol Abratkiewicz,
  • Mateusz Malanowski,
  • Zbigniew Gajo

DOI
https://doi.org/10.1109/JSTARS.2023.3319829
Journal volume & issue
Vol. 16
pp. 9193 – 9206

Abstract

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Flying targets are becoming increasingly maneuverable, contributing to the growing problem of their detection with active and passive radars. Rapid acceleration causes blurring of the target echo on the range-Doppler (RD) map, which reduces the signal-to-noise ratio in a given range and velocity cell. This article proposes a novel, nonparametric approach to quickly and efficiently estimating target acceleration on the RD map. In this article, a universal signal model for an active frequency-modulated continuous wave radar and a passive radar is introduced. Based on this model, an estimation algorithm has been developed that can be applied to both active and passive radars. Compared with the method known from the literature, the proposed solution is much faster (even more than $\mathbf {100}$ times) while maintaining numerical stability and allowing for the estimation of acceleration of many targets to be performed simultaneously. The proposed method was supported by simulation tests and signals from real-life active and passive radars observing a jet fighter and a drone. The obtained outcomes show that the proposed technique can be successfully used for autonomous real-time systems that detect and estimate the parameters of maneuvering vehicles.

Keywords