LE QUY DON
Technical University
VietnameseClear Cookie - decide language by browser settings

Shrink AutoEncoder for Federated Learning-based IoT Anomaly Detection

Vu, T.A. and Tran, T.P. and Vu, L. and Nguyen, Q.U. (2022) Shrink AutoEncoder for Federated Learning-based IoT Anomaly Detection. In: Conference of 9th NAFOSTED Conference on Information and Computer Science, NICS 2022, 31 October 2022 Through 1 November 2022, Ho Chi Minh City.

Full text not available from this repository. (Upload)

Abstract

Federated Learning (FL)-based anomaly detection is a promising framework for Internet of Things (IoT) security. Due to the scarcity of abnormal data, unsupervised deep learning neural network models, such as variations of AutoEncoder (AE), are considered effective solutions for anomaly detection in IoT devices. These models construct low-dimensional representations of input data that are utilized for classification. Nevertheless, given the enormous number of IoT devices, their intrinsic heterogeneity, and the distributed nature of the FL training process, the latent representation of the local data is distributed randomly. The determination of the global anomaly score is thus no longer accurate. To address this issue, this work provides an effective FL-based IoT anomaly detection framework with novel AutoEncoder models, namely Federated Shrink AutoEncoder (FedSAE). The proposed model forces normal data of IoT devices to nearly the origin. Thus, a universal or global anomaly score can be determined accurately for all IoT devices. The extensive experiments on the N-BaIoT dataset indicate that FedSAE may reduce the false detection rate by 1.84 compared with that of the AE-based FL frameworks for the IoT anomaly detection problem. © 2022 IEEE.

Item Type: Conference or Workshop Item (Paper)
Divisions: Faculties > Faculty of Information Technology
Identification Number: 10.1109/NICS56915.2022.10013475
Uncontrolled Keywords: Deep learning; Internet of things; Learning systems, Abnormal data; Anomaly detection; Auto encoders; Effective solution; Federated learning; Learning neural networks; Low-dimensional representation; Modeling construct; Neural network model; Shrink autoencoder, Anomaly detection
Additional Information: Conference of 9th NAFOSTED Conference on Information and Computer Science, NICS 2022 ; Conference Date: 31 October 2022 Through 1 November 2022; Conference Code:186136
URI: http://eprints.lqdtu.edu.vn/id/eprint/10750

Actions (login required)

View Item
View Item