Visible to the public Collaborative security attack detection in software-defined vehicular networks

TitleCollaborative security attack detection in software-defined vehicular networks
Publication TypeConference Paper
Year of Publication2017
AuthorsKim, M., Jang, I., Choo, S., Koo, J., Pack, S.
Conference Name2017 19th Asia-Pacific Network Operations and Management Symposium (APNOMS)
Date Publishedsep
ISBN Number978-1-5386-1101-2
KeywordsAd Hoc Network Security, automotive industry, Collaboration, collaborative security attack detection mechanism, communication devices, Communication system security, composability, computer network security, Human Behavior, human factors, multiclass support vector machine, pubcrawl, Resiliency, Safety, safety services, security, security attacks, security mechanism, security threats, short connection time, software defined networking, Software-defined vehicular cloud, software-defined vehicular networks, support vector machine, Support vector machines, Training, V2X communication, VANET, vehicular ad hoc networks, vehicular environment, Wireless communication, wireless communication technologies
Abstract

Vehicular ad hoc networks (VANETs) are taking more attention from both the academia and the automotive industry due to a rapid development of wireless communication technologies. And with this development, vehicles called connected cars are increasingly being equipped with more sensors, processors, storages, and communication devices as they start to provide both infotainment and safety services through V2X communication. Such increase of vehicles is also related to the rise of security attacks and potential security threats. In a vehicular environment, security is one of the most important issues and it must be addressed before VANETs can be widely deployed. Conventional VANETs have some unique characteristics such as high mobility, dynamic topology, and a short connection time. Since an attacker can launch any unexpected attacks, it is difficult to predict these attacks in advance. To handle this problem, we propose collaborative security attack detection mechanism in a software-defined vehicular networks that uses multi-class support vector machine (SVM) to detect various types of attacks dynamically. We compare our security mechanism to existing distributed approach and present simulation results. The results demonstrate that the proposed security mechanism can effectively identify the types of attacks and achieve a good performance regarding high precision, recall, and accuracy.

URLhttp://ieeexplore.ieee.org/document/8094172/
DOI10.1109/APNOMS.2017.8094172
Citation Keykim_collaborative_2017