Joint Iterative Adaptive Approach for Sidelobe Suppression and Migration Correction of Migrating Targets

Jing Tian*, Biao Zhang, Wei Cui, Siliang Wu

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

Detection of multiple closely spaced targets with range-Doppler (RD) migration is a challenging issue for radars, because range cell migration (RCM) and Doppler frequency migration (DFM) during the coherent processing interval (CPI), as well as high sidelobes of strong targets, may deteriorate the performance of target detection and parameter estimation. To realize migration correction and sidelobe suppression simultaneously, a joint iterative adaptive approach (IAA) based on RD processing outputs (RD-JIAA) is first proposed in this article. The input data of RD-JIAA are selected within a small processing window centered around the response peak trajectory in range-velocity domain obtained by the RD processing. Compared with IAA and wideband IAA (WIAA), RD-JIAA has low computational burden. Some instructive suggestions on the selection of processing window sizes are presented considering that most of the target energy should be included in the processing window. Then, a fast implementation, namely, RD-JIAA based on the signal sparsity (RD-SJIAA), is presented to further improve the computational efficiency with tolerable performance loss. Both RD-JIAA and RD-SJIAA are able to utilize the structure relationships between covariance matrices of adjacent range cells to reduce the computational complexity. Finally, the performance of the proposed methods is evaluated by numerical examples.

Original languageEnglish
Pages (from-to)2973-2995
Number of pages23
JournalIEEE Transactions on Aerospace and Electronic Systems
Volume61
Issue number2
DOIs
Publication statusPublished - 2025
Externally publishedYes

Keywords

  • Doppler frequency migration (DFM)
  • iterative adaptive approach (IAA)
  • migration correction
  • radar
  • range cell migration (RCM)
  • range-Doppler (RD) processing
  • sidelobe suppression

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