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Communication Dans Un Congrès Année : 2021

An Ensemble Learning-Based Architecture for Security Detection in IoT Infrastructures

Résumé

The Internet of Things has known an important development. However, security management is still a key challenge in particular for deploying complex IoT systems that provide sophisticated services. In this paper, we design an ensemble learning-based architecture to support early security detection in the context of multi-step attacks, by leveraging the performance of different detection techniques. The architecture relies on a total of five major methods, including process mining, elliptic envelope, one class support vector machine, local outlier factor and isolation forest. We describe the main components of this architecture and their interactions, from the data preprocessing to the generation of alerts, through the calculation of scores. The different detection methods are executed in parallel, and their results are combined by an ensemble learning strategy in order to improve the overall detection performance. We develop a proof-of-concept prototype and perform a large set of experiments to quantify the benefits and limits of this approach based on industrial datasets.
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Dates et versions

hal-03460779 , version 1 (01-12-2021)

Identifiants

  • HAL Id : hal-03460779 , version 1

Citer

Adrien Hemmer, Mohamed Abderrahim, Remi Badonnel, Isabelle Chrisment. An Ensemble Learning-Based Architecture for Security Detection in IoT Infrastructures. CNSM 2021 - 17th International Conference on Network and Service Management, Oct 2021, Izmir (Virtual), Turkey. ⟨hal-03460779⟩
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