Bridging the Gap via Data-Aided Sensing: Can Bistatic ISAC Converge to Genie Performance?
Paper i proceeding, 2025
We investigate data-aided iterative sensing in bistatic OFDM ISAC systems, focusing on scenarios with co-located sensing and communication receivers. To enhance target detection beyond pilot-only sensing methods, we propose a multi-stage bistatic OFDM receiver, performing iterative sensing and data demodulation to progressively refine ISAC channel and data estimates. Simulation results demonstrate that the proposed dataaided scheme significantly outperforms pilot-only benchmarks, particularly in multi-target scenarios, substantially narrowing the performance gap compared to a genie-aided system with perfect data knowledge. Moreover, the proposed approach considerably expands the bistatic ISAC trade-off region, closely approaching the probability of detection-achievable rate boundary established by its genie-aided counterpart.
ISAC
OFDM
bistatic ISAC
data-aided sensing
bistatic sensing
Författare
Musa Furkan Keskin
Chalmers, Elektroteknik, Kommunikation, Antenner och Optiska Nätverk
Silvia Mura
Politecnico di Milano
Marouan Mizmizi
Politecnico di Milano
Dario Tagliaferri
Politecnico di Milano
Henk Wymeersch
Chalmers, Elektroteknik, Kommunikation, Antenner och Optiska Nätverk
Proceedings of the IEEE Radar Conference
10975764 (ISSN) 23755318 (eISSN)
514-5199798331544331 (ISBN)
2025 IEEE Radar Conference, RadarConf 2025
Krakow, Poland,
Krakow, Poland,
Bortom 5G Positionering
FFI - Fordonsstrategisk forskning och innovation (022-01640), 2022-11-01 -- 2024-10-31.
Lokalisering och avkänning för perceptiva cellfria nätverk mot 6G
Vetenskapsrådet (VR) (2024-04390), 2025-01-01 -- 2028-12-31.
6G DISAC
Europeiska kommissionen (EU) (101139130-6G-DISAC), 2024-01-01 -- 2026-12-31.
Ämneskategorier (SSIF 2025)
Annan elektroteknik och elektronik
Kommunikationssystem
Signalbehandling
DOI
10.1109/RadarConf2559087.2025.11205151