English

Metasurfaces Enable Active-Like Passive Radar

Signal Processing 2025-12-10 v1

Abstract

Passive radars (PRs) provide a low-cost and energy-efficient approach to object detection by reusing existing wireless transmissions instead of emitting dedicated probing signals. Yet, conventional passive systems require prior knowledge of non-cooperative source waveforms, are vulnerable to strong interference, and rely on Doppler signatures, limiting their ability to detect subtle or slow-moving targets. Here, we introduce a metasurface-enabled PR (MEPR) concept that integrates a space-time-coding programmable metasurface to imprint distinct spatiotemporal tags onto ambient wireless wavefields. This mechanism transforms a PR into an active-like sensing platform without the need for source control, enabling interference suppression, signal enhancement, and accurate target localization and tracking in cluttered environments. A proof-of-concept implementation operating at 5.48 GHz confirms real-time imaging and tracking of unmanned aerial vehicles under interference-rich conditions, with performance comparable to active radar systems. These results establish MEPR as a solid foundation for scalable, adaptive, and energy-efficient next-generation integrated sensing and communication systems.

Keywords

Cite

@article{arxiv.2512.08208,
  title  = {Metasurfaces Enable Active-Like Passive Radar},
  author = {Mingyi Li and Jiawen Xu and Hanting Zhao and Xu Zhao and Yan Jin Chen and Tie Jun Cui and Vincenzo Galdi and Lianlin Li},
  journal= {arXiv preprint arXiv:2512.08208},
  year   = {2025}
}
R2 v1 2026-07-01T08:16:04.126Z