Deep Learning Based Anomaly Detection for Fog-Assisted IoVs Network

Shumayla Yaqoob, Asad Hussain, Fazli Subhan, Giuseppina Pappalardo, Muhammad Awais

Research output: Contribution to journalArticle (journal)peer-review

5 Citations (Scopus)
69 Downloads (Pure)

Abstract

Internet of vehicles (IoVs) allows millions of vehicles to be connected and share information for various purposes. The main applications of IoVs are traffic management, emergency messages delivery, E-health, traffic, and temperature monitoring. On the other hand, IoVs lack in location awareness and geographic distribution, which is critical for some IoVs applications such as smart traffic lights and information sharing in vehicles. To support these topographies, fog computing was proposed as an appealing and novel term, which was integrated with IoVs to extend storage, computation, and networking. Unfortunately, it is also challenged with various security and privacy hazards, which is a serious concern of smart cities. Therefore, we can formulate that Fog-assisted IoVs (Fa-IoVs), are challenged by security threats
during information dissemination among mobile nodes. These security threats of Fa-IoVs are considered as anomalies which is a serious concern that needs to be addressed for smooth Fa-IoVs network communication. Here, smooth communication refers to less risk of important data loss, delay, communication overhead, etc. This research work aims to identify research gaps in the Fa-IoVs network and present a deep learningbased dynamic scheme named CAaDet (Convolutional autoencoder Aided anomaly detection) to detect anomalies. CAaDet exploits convolutional layers with a customized autoencoder for useful feature extraction and anomaly detection. Performance evaluation of the proposed scheme is done by using the F1-score metric where experiments are carried out by exploiting a benchmark dataset named NSL-KDD. CAaDet also
observes the behavior of fog nodes and hidden neurons and selects the best match to reduce false alarms and improve F1-score. The proposed scheme achieved significant improvement over existing schemes for anomaly detection. Identified research gaps in Fa-IoVs can give future directions to researchers and attract more attention to this new era.
Original languageUndefined/Unknown
Pages (from-to)19024-19038
JournalIEEE Access
Volume11
Early online date22 Feb 2023
DOIs
Publication statusPublished - 28 Feb 2023

Keywords

  • Fog Computing
  • smooth communication
  • Internet of vehicles
  • anomaly detection
  • fog-assisted IOVs

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