@misc{10481/68506,
year = {2021},
month = {3},
url = {http://hdl.handle.net/10481/68506},
abstract = {Intrusion detection of IoT-based data is a hot topic and has received a lot of interests from researchers and practitioners since the security of IoT networks is crucial. Both supervised and unsupervised learning methods are used for intrusion detection of IoT networks. This paper proposes an approach of three stages considering a clustering with reduction stage, an oversampling stage, and a classification by a Single Hidden Layer Feed-Forward Neural Network (SLFN) stage. The novelty of the paper resides in the technique of data reduction and data oversampling for generating useful and balanced training data and the hybrid consideration of the unsupervised and supervised methods for detecting the intrusion activities. The experiments were evaluated in terms of accuracy, precision, recall, and G-mean and divided into four steps: measuring the effect of the data reduction with clustering, the evaluation of the framework with basic classifiers, the effect of the oversampling technique, and a comparison with basic classifiers. The results show that SLFN classification technique and the choice of Support Vector Machine and Synthetic Minority Oversampling Technique (SVM-SMOTE) with a ratio of 0.9 and the k value of 3 for k-means++ clustering technique give better results than other values and other classification techniques.},
organization = {Prince Sultan University},
publisher = {MDPI},
keywords = {Intrusion detection},
keywords = {IoT},
keywords = {Internet of things},
keywords = {Imbalanced},
keywords = {Oversampling},
keywords = {IoTID20},
keywords = {Clustering},
title = {A Multi-Stage Classification Approach for IoT Intrusion Detection Based on Clustering with Oversampling},
doi = {10.3390/app11073022},
author = {Qaddoura, Raneem and Al-Zoubi, Ala´ M. and Almomani, Iman and Faris, Hossam},
}