English

Toward Multiband Sensing in FR3: Frequency Anisotropy Characterization and Non-Contiguous Bands Aggregation Algorithms

Signal Processing 2025-10-07 v1

Abstract

Frequency Range 3 (FR3) in the 7-24 GHz band will be the new spectrum for 6G wireless networks. The bandwidth availability and diversity of FR3 offer unprecedented opportunities for coherent multiband Integrated Sensing and Communications (ISAC), which aggregates the carrier phase information from multiple frequency bands to increase the sensing resolution to the cm-level. However, the frequency anisotropy of sensing targets over GHz-wide bands and the non-contiguity of the 6G spectrum, pose critical challenges to the application of existing multiband ISAC techniques. We present the first study on coherent multiband sensing in FR3. We experimentally characterize the frequency anisotropy of targets and propose new phase coherence metrics for multiband processing. Then, we analyze the impact of non-contiguous FR3 bands considered by 3GPP, and design a new algorithm to mitigate the resulting sensing artifacts, outperforming existing techniques. Our results represent a first step toward fully developing multiband ISAC for FR3.

Keywords

Cite

@article{arxiv.2510.03787,
  title  = {Toward Multiband Sensing in FR3: Frequency Anisotropy Characterization and Non-Contiguous Bands Aggregation Algorithms},
  author = {Jacopo Pegoraro and Gianmaria Ventura and Dario Tagliaferri and Marco Mezzavilla and Andrea Bedin and Michele Rossi and Joerg Widmer},
  journal= {arXiv preprint arXiv:2510.03787},
  year   = {2025}
}

Comments

19 pages, 14 figures

R2 v1 2026-07-01T06:17:04.897Z