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Learning Based Vehicle Platooning Threat Detection, Identification and Mitigation

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posted on 05.03.2021, 21:58 by Eshaan Khanapuri, Veera Venkata Tarun Kartik Chintalapati, Rajnikant Sharma, Ryan Gerdes

The security of cyber-physical systems, such as vehicle platoons, is critical to ensuring their proper operation and acceptance to society. In platooning, vehicles follow one another according to an agreed upon control law that determines vehicle separation. It has been shown that a vehicle within a platoon and under the control of a malicious actor could cause collisions involving, or decrease the efficiency of, surrounding vehicles. In this paper we focus on detecting, identifying and mitigating so called destabilizing attacks that could cause vehicle collisions. Our approach is decentralized and requires only local sensor information for each vehicle to identify the vehicle responsible for the attack and then deploy an appropriate mitigating controller that prevents collisions. A Deep Learning approach (Convolutional Neural Network) with various data preprocessing techniques are used to detect and identify the malicious vehicle. Results indicate that with noise upto 30% in range/relative speed data we achieve an accuracy upto 96.3%. Also, once the adversarial vehicle is localized, we derive conditions for controller gains using Routh Hurwitz criterion to mitigate the attack and ensure stability of the platoon. Realistic simulator CARLA and MATLAB simulation results validate the effectiveness of our proposed approaches

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Email Address of Submitting Author

raj.drdo@gmail.com

ORCID of Submitting Author

0000-0003-3515-8353

Submitting Author's Institution

University of Cincinnati

Submitting Author's Country

United States of America

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