English

Kernel Design Meets Clutter Cancellation for Irregular Waveforms

Signal Processing 2023-02-21 v1

Abstract

Efficient clutter filtering for pulsed radar systems remains an open issue when employing pulse-to-pulse modulation and irregular pulse interval waveforms within the coherent processing interval. The range and Doppler domain should be jointly processed for effective filtering leading to a large computational overhead. In this paper, the joint domain filtering is performed by constructing a clutter projection matrix, also known as the projected non-identical multiple pulse compression (NIMPC) method. The paper extends the projected NIMPC filter to irregular pulse interval waveforms. Additionally, a kernel-based regularization will be introduced to tackle the ill-conditioning of the matrix inverse of the NIMPC method. The regularization is based on a model of the second-order statistics of the clutter. Moreover, a computationally efficient algorithm is formulated based on fast Fourier transforms and the projected conjugate gradient method. Through a Monte Carlo study it is demonstrated that the proposed kernelized filtering outperforms the projected NIMPC in clutter filtering.

Keywords

Cite

@article{arxiv.2302.09979,
  title  = {Kernel Design Meets Clutter Cancellation for Irregular Waveforms},
  author = {Pepijn B. Cox and Mario A. Coutino and Wim L. van Rossum},
  journal= {arXiv preprint arXiv:2302.09979},
  year   = {2023}
}

Comments

6 pages, 5 figures

R2 v1 2026-06-28T08:44:32.377Z