Visible to the public Performance Analysis of DDoS Mitigation in Heterogeneous Environments

TitlePerformance Analysis of DDoS Mitigation in Heterogeneous Environments
Publication TypeConference Paper
Year of Publication2022
AuthorsVerma, Amandeep, Saha, Rahul
Conference Name2022 Second International Conference on Interdisciplinary Cyber Physical Systems (ICPS)
Date Publishedmay
Keywordsattack detection, attack prevention, composability, compositionality, Computational modeling, computer networks, DDoS, DDoS Attack Prevention, denial-of-service attack, Information security, Intelligent Transport Systems, machine learning, Metrics, Performance analysis, Protocols, pubcrawl, resilience, Resiliency, telecommunication traffic, VANETs
AbstractComputer and Vehicular networks, both are prone to multiple information security breaches because of many reasons like lack of standard protocols for secure communication and authentication. Distributed Denial of Service (DDoS) is a threat that disrupts the communication in networks. Detection and prevention of DDoS attacks with accuracy is a necessity to make networks safe.In this paper, we have experimented two machine learning-based techniques one each for attack detection and attack prevention. These detection & prevention techniques are implemented in different environments including vehicular network environments and computer network environments. Three different datasets connected to heterogeneous environments are adopted for experimentation. The first dataset is the NSL-KDD dataset based on the traffic of the computer network. The second dataset is based on a simulation-based vehicular environment, and the third CIC-DDoS 2019 dataset is a computer network-based dataset. These datasets contain different number of attributes and instances of network traffic. For the purpose of attack detection AdaBoostM1 classification algorithm is used in WEKA and for attack prevention Logit Model is used in STATA. Results show that an accuracy of more than 99.9% is obtained from the simulation-based vehicular dataset. This is the highest accuracy rate among the three datasets and it is obtained within a very short period of time i.e., 0.5 seconds. In the same way, we use a Logit regression-based model to classify packets. This model shows an accuracy of 100%.
DOI10.1109/ICPS55917.2022.00047
Citation Keyverma_performance_2022