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2017 | Buch

An Overview of Vehicular Networking and Cyber-Physical Systems Kapitel lesen Erstes Kapitel lesen

Vehicular Cyber Physical Systems

Adaptive Connectivity and Security

verfasst von: Danda B. Rawat, Chandra Bajracharya

Verlag: Springer International Publishing

Enthalten in: Springer Professional "Wirtschaft+Technik" , Springer Professional "Technik" , Springer Professional "Wirtschaft"

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Über dieses Buch

This book provides probabilistic, deterministic and geolocation-aware approaches for adaptive connectivity, robust security and privacy-aware communications for vehicular cyber physical systems (CPS). It presents mathematical models and numerical results obtained from experiments and simulations, and a trade-off between connectivity, security and privacy for vehicular communications.
Connectivity between vehicles is crucial for vehicular CPS. Intelligent vehicular CPS provides not only road safety and traffic efficiency by exchanging information among vehicles, but also offers infotainment services to passengers using a variety of wireless technologies to forward the traffic/trajectory information with Vehicle-to-Vehicle (V2V), vehicular ad hoc network (VANET), and Vehicle-to-Roadside-to-Vehicle (V2R2V) communications.
The book covers how to ensure that the message received from other vehicles is secure and trustworthy, rather than malicious. Further, it reveals how to make sure that the privacy of participants is not revealed while validating the received message. Researchers and professionals working with vehicular networks, smart systems, cyber physical systems, and mobile privacy will find this book valuable.

Inhaltsverzeichnis

Frontmatter
Chapter 1. An Overview of Vehicular Networking and Cyber-Physical Systems
Abstract
Vehicular networking for intelligent transportation cyber-physical system is an emerging technology that has attracted attention of government, industry, and academia notably in USA, Japan, and Europe. The main idea behind vehicular networking and communication is not new, since JSK (Association of Electronic Technology for Automobile Traffic and Driving of Japan) initiated it in the early 1980s.
Danda B. Rawat, Chandra Bajracharya
Chapter 2. Adaptive Connectivity for Vehicular Cyber-Physical Systems
Abstract
Vehicular connectivity is regarded as a backbone for communications in intelligent vehicular CPS to provide timely information to drivers or to provide feedback to the vehicles on the road to enhance road safety and overall traffic efficiency.
Danda B. Rawat, Chandra Bajracharya
Chapter 3. Adaptive Connectivity for Spectrum Agile VANETs in Fading Channels
Abstract
This chapter presents the V2V connectivity for vehicular communications in fading channels by considering vehicles traveling in opposite directions as well as in same direction.
Danda B. Rawat, Chandra Bajracharya
Chapter 4. Securing VANETs for Vehicular CPS
Abstract
This chapter presents trust-based security in vehicular CPS using probabilistic and deterministic approaches, which are based on the local information obtained through interactions among vehicles to determine legitimacy of the messages and to decide whether the messages would be considered for further transmission over the network or be dropped.
Danda B. Rawat, Chandra Bajracharya
Chapter 5. Computing, Communications and Other Open Issues in Vehicular CPS
Abstract
As discussed in the previous chapters, traffic accidents and jams continue to worsen worldwide. Transportation sector is significantly stressed as number of vehicles manufactured and sold every year is increasing. This leads to more accidents and fatalities, and adverse environmental and economic impact. This chapter provides communication and computing aspects for transportation CPS.
Danda B. Rawat, Chandra Bajracharya
Backmatter
Metadaten
Titel
Vehicular Cyber Physical Systems
verfasst von
Danda B. Rawat
Chandra Bajracharya
Copyright-Jahr
2017
Electronic ISBN
978-3-319-44494-9
Print ISBN
978-3-319-44493-2
DOI
https://doi.org/10.1007/978-3-319-44494-9

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