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FLIFRA: Hybrid data poisoning attack detection in federated learning for IoT security

Contributo in Atti di convegno
Data di Pubblicazione:
2025
Citazione:
FLIFRA: Hybrid data poisoning attack detection in federated learning for IoT security / M.B. Anley, A. Genovese, T.B. Tesema, V. Piuri - In: SMC[s.l] : Institute of Electrical and Electronics Engineers (IEEE), 2025 Oct 05. - ISBN 979-8-3315-3358-8. - pp. 6816-6823 (( International Conference on Systems, Man, and Cybernetics : October, 5 - 8 Wien 2025 [10.1109/SMC58881.2025.11343314].
Abstract:
The rapid expansion of IoT devices has transformed numerous industries by enabling extensive data collection and real-time analytics. Federated Learning (FL) offers a decentralized model training paradigm that ensures data privacy, making it particularly suitable for IoT environments. Yet, it remains vulnerable to poisoning attacks that can severely compromise model integrity, wherein malicious clients compromise the global model by injecting poisoned updates. Existing defenses, which focus primarily on global model performance, often fail to effectively integrate local anomaly detection with global weighting mechanisms, thus limiting their efficacy against such threats. Addressing this research gap, we propose FLIFRA (Federated Learning Isolation Forest with Robust Aggregation), a hybrid defense framework that combines client-side anomaly detection using Isolation Forest (iForest) with dynamic reputation-based robust aggregation at the server. This dual-layer approach filters out malicious updates before aggregation and adjusts client reputations to mitigate adversarial influence. Our evaluation of three cybersecurity datasets (CIC-IDS2018, BoT-IoT, and UNSW-NB15) under various intensities of poisoning (10%, 20%, 30%, and 40%) demonstrates that the proposed method outperforms the traditional aggregation schemes of FedAvg, Krum, Trimmed Mean, DRRA, and WeiDetect in the literature. In particular, our framework achieves higher detection accuracy, faster convergence, and improved stability, even in highly heterogeneous data environments.
Tipologia IRIS:
03 - Contributo in volume
Elenco autori:
M.B. Anley, A. Genovese, T.B. Tesema, V. Piuri
Autori di Ateneo:
ANLEY MULUALEM BITEW ( autore )
GENOVESE ANGELO ( autore )
PIURI VINCENZO ( autore )
Link alla scheda completa:
https://air.unimi.it/handle/2434/1173939
Link al Full Text:
https://air.unimi.it/retrieve/handle/2434/1173939/3251214/smc25.pdf
Titolo del libro:
SMC
Progetto:
Edge AI Technologies for Optimised Performance Embedded Processing (EdgeAI)
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