Your search keyword '"message contents plausibility"' showing total 3 results

1. Vehicular Sensor Networks. Applications, Advances and Challenges.

Author

Kurugollu, Fatih, Abdelaziz Kerrache, Chaker, Ahmad, Farhan, Ahmed, Syed Hassan, Hussain, Rasheed, and Kurugollu, Fatih

Subjects

Information technology industries, 3D placement, 5G, 5G cellular networks, Caching, D2D communication, ITS, Information Centric Networking, IoT, Named Data Networking, PSO, UAV, V2V communication, Vehicular Ad Hoc Networks, anti-collaborative attack, barrier control, blockchain, blockchain within VANET and VSN, carbon emission, client-cache (CC), connected vehicles, internet of vehicles, cross-validation, cyber security, delay tolerant network, dynamic positioning, emerging IoT applications in VANET and VSN, energy consumption, features extraction, genetic algorithm, information-centric networking (ICN), infrastructure offloading, license plate recognition, machine learning algorithms, medium access control protocol, message contents plausibility, mode selection, modeling and implementation, multi-receiver signcryption, multimedia and cellular communication, opportunistic network, power control, privacy, privacy and trust, raspberry-pi, receiver-initiated MAC protocol, resource-saving, security, sensors platform, simulation, smart city, software defined network, software-defined vehicular network, traffic adaptation, trust computing, vehicle detection, vehicle edge computing, vehicle-to-everything (V2X), vehicle-to-vehicle communication, vehicular ad-hoc network, vehicular ad-hoc networks (VANET), vehicular communications, vehicular mobility, vehicular sensor network (VSN), vehicular sensor networks (VSN), vehicular social network, video on demand (VoD), wake-up radio, wireless sensor networks

Abstract

Summary: The recent years have witnessed tremendous growth in connected vehicles due to major interest in vehicular ad hoc networks (VANET) technology from both the research and industrial communities. VANET involves the generation of data from onboard sensors and its dissemination in other vehicles via vehicle-to-everything (V2X) communication, thus resulting in numerous applications such as steep-curve warnings. However, to increase the scope of applications, VANET has to integrate various technologies including sensor networks, which results in a new paradigm commonly referred to as vehicular sensor networks (VSN). Unlike traditional sensor networks, every node (vehicle) in VSN is equipped with various sensing (distance sensors, GPS, and cameras), storage, and communication capabilities, which can provide a wide range of applications including environmental surveillance and traffic monitoring. VSN has the potential to improve transportation technology and the transportation environment due to its unlimited power supply and resulting minimum energy constraints. However, VSN faces numerous challenges in terms of its design, implementation, network scalability, reliability, and deployment over large-scale networks, which need to be addressed before it is realized. This book comprises 12 outstanding research works related to vehicular sensor networks, addressing various aspects such as security, routing, SDN, and NDN.

2. Vehicle-to-Vehicle (V2V) Message Content Plausibility Check for Platoons through Low-Power Beaconing

Author

Taeho Kim and Hyogon Kim

Subjects

Scheme (programming language), Cover (telecommunications), Computer science, 020209 energy, 02 engineering and technology, Vehicle-to-vehicle, Computer security, computer.software_genre, Biochemistry, Article, Analytical Chemistry, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Wireless, Electrical and Electronic Engineering, Instrumentation, computer.programming_language, 050210 logistics & transportation, business.industry, ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 05 social sciences, Sensor fusion, message contents plausibility, Atomic and Molecular Physics, and Optics, power control, Identifier, V2V communication, Transmission (telecommunications), business, computer, Power control

Abstract

Although the IEEE Wireless Access in Vehicular Environment (WAVE) and 3GPP Cellular V2X deployments are imminent, their standards do not yet cover an important security aspect, the message content plausibility check. In safety-critical driving situations, vehicles cannot blindly trust the content of received safety messages, because an attacker may have forged false values in it in order to cause unsafe response from the receiving vehicles. In particular, the attacks mounted from remote, well-hidden positions around roads are considered the most apparent danger. So far, there have been three approaches to validating V2X message content: checking based on sensor fusion, behavior analysis, and communication constraints. This paper discusses the three existing approaches. In addition, it discusses a communication-based checking scheme that supplements the existing approaches. It uses low-power transmission of vehicle identifiers to identify remote attackers. We demonstrate its potential address in the case of an autonomous vehicle platooning application.

Published

2019

3. Vehicle-to-Vehicle (V2V) Message Content Plausibility Check for Platoons through Low-Power Beaconing †.

Author

Kim, Hyogon and Kim, Taeho

Subjects

*BEHAVIORAL assessment, *AUTONOMOUS vehicles, *BEACONS

Abstract

Although the IEEE Wireless Access in Vehicular Environment (WAVE) and 3GPP Cellular V2X deployments are imminent, their standards do not yet cover an important security aspect; the message content plausibility check. In safety-critical driving situations, vehicles cannot blindly trust the content of received safety messages, because an attacker may have forged false values in it in order to cause unsafe response from the receiving vehicles. In particular, the attacks mounted from remote, well-hidden positions around roads are considered the most apparent danger. So far, there have been three approaches to validating V2X message content: checking based on sensor fusion, behavior analysis, and communication constraints. This paper discusses the three existing approaches. In addition, it discusses a communication-based checking scheme that supplements the existing approaches. It uses low-power transmission of vehicle identifiers to identify remote attackers. We demonstrate its potential address in the case of an autonomous vehicle platooning application. [ABSTRACT FROM AUTHOR]

Published

2019