| Title | A Novel Jamming Attacks Detection Approach Based on Machine Learning for Wireless Communication |
| Publication Type | Conference Paper |
| Year of Publication | 2020 |
| Authors | Arjoune, Y., Salahdine, F., Islam, M. S., Ghribi, E., Kaabouch, N. |
| Conference Name | 2020 International Conference on Information Networking (ICOIN) |
| Date Published | jan |
| Keywords | 5G, channel surfing, composability, detection probability, false alarm probability, Forestry, Fuzzy logic, game theory, jamming, jamming attacks, jamming attacks detection, jamming signal detection, learning (artificial intelligence), machine learning, machine learning algorithms, millimeter wave bands, Neural Network, Predictive Metrics, probability, pubcrawl, Random Fores, random forest algorithm, random forests, Receivers, Resiliency, signal detection, smart jammers, support vector machine, Support vector machines, telecommunication computing, telecommunication security, time series, Transmitters, Vegetation, wireless channels, Wireless communication, wireless network |
| Abstract | Jamming attacks target a wireless network creating an unwanted denial of service. 5G is vulnerable to these attacks despite its resilience prompted by the use of millimeter wave bands. Over the last decade, several types of jamming detection techniques have been proposed, including fuzzy logic, game theory, channel surfing, and time series. Most of these techniques are inefficient in detecting smart jammers. Thus, there is a great need for efficient and fast jamming detection techniques with high accuracy. In this paper, we compare the efficiency of several machine learning models in detecting jamming signals. We investigated the types of signal features that identify jamming signals, and generated a large dataset using these parameters. Using this dataset, the machine learning algorithms were trained, evaluated, and tested. These algorithms are random forest, support vector machine, and neural network. The performance of these algorithms was evaluated and compared using the probability of detection, probability of false alarm, probability of miss detection, and accuracy. The simulation results show that jamming detection based random forest algorithm can detect jammers with a high accuracy, high detection probability and low probability of false alarm. |
| DOI | 10.1109/ICOIN48656.2020.9016462 |
| Citation Key | arjoune_novel_2020 |
A Novel Jamming Attacks Detection Approach Based on Machine Learning for Wireless Communication