IJCCR International Journal of Cryptocurrency Research 2790-1386 SvedbergOpen ijccr-2-1-003 10.51483/IJCCR.2.1.2022.12-18 Research Paper Anomaly Detection to Counter DDoS Attacks on Smart Electric Meter Systems IbrahimMohammed. I. 1 * SalawiAbeer 1 AlghamdiSalwa. H. 1 AlkenaniNada 1 AlmuntashiriAmani 1 AlghamdiRawan 1 AbdullahYusra 1 AliAmal 1 AlghamdiWejdan Ahmed 1 AlkhayyalMaram 2 1College of Computer Science and Information Technology, Department of Engineering and Computer Sciences, Al-Baha University, Saudi Arabia. E-mail: mialmushilah@bu.edu.sa, [AbeerSalawi87@gmail.com, 442021118@stu.bu.edu.sa, 442020945@stu.bu.edu.sa, 442020162@stu.bu.edu.sa, 442020136@stu.bu.edu.sa, 442021272@stu.bu.edu.sa, 442020295@stu.bu.edu.sa] 2College of Computer and Information Sciences, Department of Information Systems, King Saud University, Saudi Arabia. E-mail: wejdanalghamdi18@gmail.com *Corresponding author: Mohammed. I. Ibrahim, College of Computer Science and Information Technology, Department of Engineering and Computer Sciences, Al-Baha University, Saudi Arabia. Email: mialmushilah@bu.edu.sa 06 2022 2 1 12 18 Abstract

Bidirectional communication infrastructure of smart systems, such as, smart grids, are vulnerable to network attacks like Distributed Denial of Services (DDoS) and can be a major concern in the present competitive market. In DDoS attack, multiple compromised nodes in a communication network flood connection request, bogus data packets or incoming messages to targets like database servers, resulting in denial of services for legitimate users. Recently, machine learning based techniques have been explored by researchers to secure the network from DDoS attacks. Under different attack scenarios on a system, measurements can be observed either in an online manner or batch mode and can be used to build predictive learning systems. In this paper, a hybrid deep learning model is developed for detecting replay and DDoS attacks in a real-life smart city platform. The performance of the proposed hybrid model is evaluated using real life smart city datasets (environmental, smart river and smart soil), where DDoS and replay attacks were simulated. The proposed model reported high accuracy rates: 98.37% for the environmental dataset, 98.13% for the smart river dataset, and 99.51% for the smart soil dataset. The results demonstrated an improved performance of the proposed model over other machine learning and deep learning models from the literature.

 Keywords Internet of Things Deep learning Cyber security DDoS attack detection Replay attack Smart grid References AliS.LiY. (2019). Learning Multilevel Auto-Encoders for DDoS Attack Detection in Smart Grid Network. in IEEE Access, 7, 108647108659, 2019, DOI: 10.1109/ACCESS.2019.2933304. AhangerT. (2018). Defense Scheme to Protect IoT from Cyber Attacks using AI Principles. International Journal of Computers Communications & Control, 13(6), 915926. Retrieved from http://univagora.ro/jour/index.php/ijccc/article/view/3356 GhaliA.A.AhmadR.AlhussianH. (2021). A Framework for Mitigating DDoS and DOS Attacks in IoT Environment Using Hybrid Approach. Electronics, 10(11), 1282. HurajL.ŠimonM.HorákT. (2020). Resistance of IoT Sensors Against DDoS Attack in Smart Home Environment. Sensors, 20(18), 5298, https://doi.org/10.3390/s2018529. MagaiaN.FonsecaR.MuhammadK.SegundoA.H.F.N.NetoA.V L. and de AlbuquerqueV.H.C. (2020). Industrial Internet-of-Things Security Enhanced with Deep Learning Approaches for Smart Cities. IEEE Internet of Things Journal, 8(8), 63936405. PatelD.SrinivasanK.ChangC.Y.GuptaT.KatariaA. (2020). Network Anomaly Detection Inside Consumer Networks—A Hybrid Approach. Electronics, 9(6), 923. ShitharthS.WinstonD. (2015). A Comparative Analysis Between Two Countermeasure Techniques to Detect DDoS with Sniffers in a SCADA Network. Procedia Technology, 21, DOI: 10.1016/j.protcy.2015.10.086. SpathoulasG.GiachoudisN.DamirisG.P.TheodoridisG. (2019). Collaborative Blockchain-Based Detection of Distributed Denial of Service Attacks Based on Internet of Things Botnets. Future Internet, 11(11), 226. TufailS.ParvezI.BatoolS.SarwatA. (2021). A Survey on Cybersecurity Challenges, Detection, and Mitigation Techniques for the Smart Grid. Energies, 14(18), 5894.