Vehicle Communication using Secrecy Capacity

TL;DR

This paper investigates how various parameters like vehicle speed, response time, and transmission power affect the secrecy capacity in vehicular wireless networks, aiming to enhance secure autonomous vehicle communication in 5G.

Contribution

It introduces a new vehicle communication model that maintains a desired secrecy capacity by analyzing parameter relationships, improving security in autonomous vehicle networks.

Findings

Secrecy capacity varies with vehicle speed, response time, and transmission power.

Proposed model enhances secure communication in autonomous vehicles.

Improves safety and security in 5G vehicular networks.

Abstract

We address secure vehicle communication using secrecy capacity. In particular, we research the relationship between secrecy capacity and various types of parameters that determine secrecy capacity in the vehicular wireless network. For example, we examine the relationship between vehicle speed and secrecy capacity, the relationship between the response time and secrecy capacity of an autonomous vehicle, and the relationship between transmission power and secrecy capacity. In particular, the autonomous vehicle has set the system modeling on the assumption that the speed of the vehicle is related to the safety distance. We propose new vehicle communication to maintain a certain level of secrecy capacity according to various parameters. As a result, we can expect safer communication security of autonomous vehicles in 5G communications.