English

Exploiting Cognition in ISAR Processing for Spectral Compatibility Applications

Signal Processing 2025-07-14 v1

Abstract

This paper introduces and analyzes the concept of a cognitive inverse synthetic aperture radar (ISAR) ensuring spectral compatibility in crowded electromagnetic environments. In such a context, the proposed approach alternates between environmental perception, recognizing possible emitters in its frequency range, and an action stage, synthesizing and transmitting a tailored radar waveform to achieve the desired imaging task while guaranteeing spectral coexistence with overlaid emitters. The perception is carried out by a spectrum sensing module providing the true relevant spectral parameters of the sources in the environment. The action stage employs a tailored signal design process, synthesizing a radar waveform with bespoke spectral notches, enabling ISAR imaging over a wide spectral bandwidth without interfering with the other radio frequency (RF) sources. A key enabling requirement for the proposed application is the capability to successfully recover possible missing data in the frequency domain (induced by spectral notches) and in the slow-time dimension (enabling concurrent RF activities still in a cognitive fashion). This process is carried out by resorting to advanced methods based on either the compressed-sensing framework or a rank-minimization recovery strategy. The capabilities of the proposed system are assessed exploiting a dataset of drone measurements in the frequency band between 13 GHz and 15 GHz. Results highlight the effectiveness of the devised architecture to enable spectral compatibility while delivering high-quality ISAR images as well as additional RF activities.

Keywords

Cite

@article{arxiv.2507.08423,
  title  = {Exploiting Cognition in ISAR Processing for Spectral Compatibility Applications},
  author = {Massimo Rosamilia and Augusto Aubry and Alessio Balleri and Antonio De Maio and Marco Martorella},
  journal= {arXiv preprint arXiv:2507.08423},
  year   = {2025}
}

Comments

submitted to IEEE Transactions on Radar Systems

R2 v1 2026-07-01T03:56:13.836Z