Radio Frequency Fingerprint Identification of WiFi Signals Based on Federated Learning for Different Data Distribution Scenarios

Radio Frequency Fingerprint Identification of WiFi Signals Based on Federated Learning for Different Data Distribution Scenarios

The number of terminal devices has skyrocketed along with the quick growth of cognitive radio networks. Massive equipment produce a lot of data that should not be shared, often WiFi signals. The radio frequency (RF) fingerprint identification approach for WiFi signals proposed in this research is ba...

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Veröffentlicht in:Mobile networks and applications 2023-10, Vol.28 (5), p.1852-1864
Hauptverfasser: Shi, Jibo, Ge, Bin, Wu, Qiong, Yang, Ruichang, Sun, Yan
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Classification
Cognitive radio
Communications Engineering
Computer Communication Networks
Crystal oscillators
Deep learning
Electrical Engineering
Engineering
Federated learning
Fingerprints
Fourier transforms
Identification
IT in Business
Networks
Neural networks
Privacy
Radio frequency
Radio signals
Transmitters
Wireless access points
Wireless communications
Wireless networks
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Zusammenfassung:The number of terminal devices has skyrocketed along with the quick growth of cognitive radio networks. Massive equipment produce a lot of data that should not be shared, often WiFi signals. The radio frequency (RF) fingerprint identification approach for WiFi signals proposed in this research is based on federated learning and trains a collaborative model to complete RF fingerprint without transferring privacy-sensitive data. Aiming at the lack of labeled data and heterogeneous distribution of labeled data in actual situations, a federated transfer learning mechanism is designed. The technique suggested in this paper increases the accuracy of RF fingerprint at various sizes and assures that data privacy is not compromised, according to experimental results on real-world datasets.
ISSN:1383-469X
1572-8153
DOI:10.1007/s11036-023-02229-0