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The Next Generation Vehicular Networks, Modeling, Algorithm and Applications

Name: The Next Generation Vehicular Networks, Modeling, Algorithm and Applications
Brand: Springer International Publishing
Price: 524.53 PLN
Availability: InStock

ISBN-13: 9783030568290 / Angielski / Miękka / 2021 / 172 str.

Zhou Su;Yilong Hui; Tom H. Luan

The Next Generation Vehicular Networks, Modeling, Algorithm and Applications

ISBN-13: 9783030568290 / Angielski / Miękka / 2021 / 172 str.

Zhou Su;Yilong Hui; Tom H. Luan

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This book proposes the novel network envisions and framework design principles, in order to systematically expound the next generation vehicular networks, including the modelling, algorithms and practical applications. It focuses on the key enabling technologies to design the next generation vehicular networks with various vehicular services to realize the safe, convenient and comfortable driving. The next generation vehicular networks has emerged to provide services with a high quality of experience (QoE) to vehicles, where both better network maintainability and sustainability can be obtained than before.

The framework design principles and related network architecture are also covered in this book. Then, the series of research topics are discussed including the reputation based content centric delivery, the contract based mobile edge caching, the Stackelberg game model based computation offloading, the auction game based secure computation offloading, the bargain game based security protection and the deep learning based autonomous driving. Finally, the investigation, development and future works are also introduced for designing the next generation vehicular networks.

The primary audience for this book are researchers, who work in computer science and electronic engineering. Professionals working in the field of mobile networks and communications, as well as engineers and technical staff who work on the development or the standard of computer networks will also find this book useful as a reference.

Kategorie:

Informatyka, Bazy danych

Kategorie BISAC:

Computers > Networking - General
Technology & Engineering > Mobile & Wireless Communications
Computers > Artificial Intelligence - General

Wydawca:

Springer International Publishing

Seria wydawnicza:

Wireless Networks

Język:

Angielski

ISBN-13:

9783030568290

Rok wydania:

2021

Ilość stron:

172

Waga:

0.25 kg

Wymiary:

23.39 x 15.6 x 0.94

Oprawa:

Miękka

Wolumenów:

Dodatkowe informacje:

Wydanie ilustrowane

1 Introduction

1 1.Overview of Vehicular Networks

1 1.1 Architecture of Vehicular Networks

1 1.2 Applications in Vehicular Networks

1.2 Overview of Enabling Technologies

1.2.1 Advanced Communication-5G

1.2.2 Mobile Edge Computing

1.2.3 Network Function Virtualization

1.2.4 Software Deﬁned Network

1.2.5 Computation Ofﬂoading

1.2.6 Blockchain

1.2.7 Information Centric Networks

1.2.8 Edge Caching

1.2.9 Autonomous Driving

1.2.10 Artiﬁcial Intelligence

1.3 Aim of the Book

2 ReputationBasedContentDeliveryinInformationCentricVehicularNetworks

2.1 Introduction

2.2 Overview of Information Centric Vehicular Networks

2.2.1 Content Delivery in Vehicular Networks

2.2.2 ICN Based Content Delivery

2.2.3 Challenges of Content Delivery in Information Centric Vehicular Networks

2.3 Reputation Based Vehicular Networks

2.4 Framework of Reputation Based Content Delivery in Information Centric Vehicular

2.4.1 Network Architecture

2.4.2 FrameworkofReputationBasedContentDeliveryinInformationCentricVehicular Networks

2.5 Simulation

2.5.1 Setting

2.5.2 Results Analysis

2.6 Summary

References

3 Contract Based Edge Cachingi n Vehicular Networks

3.1 Introduction

3.2 Edge Caching in Vehicular Social Networks

3.2.1 Vehicular Social Networks

3.2.2 Edge Caching in Vehicular Networks

3.2.3 Challenges of Edge Caching in Vehicular Networks

3.3 Contract Based Edge Caching in Vehicular Networks

3.4 Framework of Contract Based Edge Caching in Vehicular Networks

3.4.1 Network Architecture

3.4.2 Framework of Contract Based Edge Caching in Vehicular Networks

3.5 Simulation

3.5.1 Setting

3.5.2 Results Analysis

3.6 Summary

References

4 Stackelberg Game Based Computation Ofﬂoading in Vehicular Networks

4.1 Introduction

4.2 System Model

4.2.1 Network Model

4.2.2 Communication Model

4.2.3 Task Execution Model

4.3 Stackelberg Game Analysis

4.3.1 Beneﬁts of Vehicles

4.3.2 Beneﬁts of MEC Server

4.3.3 Stackelberg Game

4.4 The Equilibrium Solution of Stackelberg Game

4.4.1 Stage 2: Ofﬂoading Strategy of Vehicles

4.4.2 Stage 1: Pricing Strategy of MEC Servers

4.4.3 Stackelberg Game Equilibrium

4.5 Simulation

4.5.1 Setting

4.5.2 Results Analysis

4.6 Summary

References

5 Auction Based Secure Computation Ofﬂoading in Vehicular Networks

5.1 Introduction

5.2 System Model

5.2.1 Network Model

5.2.2 Task Model

5.3 Analysis of Secure Ofﬂoading Strategy in Edge-Cloud Networks

5.3.1 Task Ofﬂoading Scheme Based on First Price Sealed Auction

5.3.2 TSVM-based Detection Scheme

5.4 Simulation

5.4.1 Setting

5.4.2 Results Analysis

5.5 Summary

References

6 Bargain Game Based Secure Content Delivery in Vehicular Networks

6.1 Introduction

6.2 Problem Formulation

6.2.1 Deployment of RSUs

6.2.2 Attack and Defence in Vehicular Networks

6.2.3 Trust Evaluation of Vehicles

6.2.4 Trust value of RSUs

6.2.5 Deployment of AU

6.2.6 Bargain Game between RSUs and Vehicles

6.3 Simulation

6.3.1 Setting

6.3.2 Results Analysis

6.4 Summary

References

7 Deep Learning Based Autonomous Driving in Vehicular Networks

7.1 Introduction

7.2 Overview of Deep Learning Based Autonomous Driving in Vehicular Networks

7.2.1 Autonomous Driving

7.2.2 Autonomous Driving with Vehicular Networks

7.2.3 Deep Learning Based Autonomous Driving

7.3 Architecture of Deep Learning Based Autonomous Driving in Vehicular Networks

7.3.1 Network Architecture

7.3.2 Composition of Learning Group

7.4 Learning with Groups: Deep Learning Based Autonomous Driving in Vehicular Networks

7.4.1 Topology of Learning Groups

7.4.2 Cooperative Learning within A Group

7.4.3 Allocation of Proﬁts/Costs within a Group

7.5 Simulation

7.5.1 Setting

7.5.2 Results Analysis

7.6 Summary

References.

8 Conclusions and Future Directions

8.1 Conclusions

8.2 Future Research Directions

8.2.1 Trading Mechanism in Vehicular Networks

8.2.2 Security and Privacy in Vehicular Networks

8.2.3 Big Data in Vehicular Networks

8.2.4 QoE Aware Services in Vehicular Networks

8.2.5 Smart Transportation Systems with Vehicular Networks

8.2.6 Resource Integration and Allocation in Vehicular Networks

References...........................................................................

Prof. Zhou Su works on the topics include Internet of things, wireless communication and network security. He has published more than 100 international journal and conference papers including IEEE/ACM ToN, IEEE JSAC、IEEE TMC、IEEE TMM、IEEE TWC、IEEE TVT、IEEE TBD、IEEE TETC, etc. He received the best paper award of IEEE ICC2020, IEEE BigdataSE2019, IEEE Comsoc TCCGC 2018, IEEE CyberSciTech 2017,etc. He is an associate editor of IEEE Internet of Things Journal and IEEE Open Journal of Computer Society.

Yilong Hui works on the topics include wireless communication, mobile edge computing, vehicular networks, autonomous driving and intelligent transportation system. He is a lecturer with the State Key Laboratory of Integrated Services Networks, and with the School of Telecommunication Engineering, Xidian University, China. Dr. Hui has published over 20 scientific articles in leading journals and international conferences, including IEEE JSAC, IEEE/ACM TON, IEEE TITS, IEEE TVT, IEEE TETC and IEEE Wireless Communications.

Tom H. Luan is a professor with the School of Engineering, Xidian University, Xi'an, China. He received the B.E. degree from the Xi'an Jiaotong University, China, in 2004, the Master degree from the Hong Kong University of Science and Technology, Hong Kong, in 2007, and the Ph.D. degree from the University of Waterloo, Canada, in 2012, all in Electrical and Computer Engineering. Dr. Luan has authored/coauthored around 40 journal papers and 30 technical papers in conference proceedings, and awarded one US patent. He served as a TPC member for IEEE Globecom, ICC, PIMRC and the technical reviewer for multiple IEEE Transactions including TMC, TPDS, TVT, TWC and ITS.

Qiaorong Liu works on the topics include computation offloading and caching in vehicular networks. She received the B.E. degree from the Northwest University for Nationalities, China, in 2016, and the master degree from Shanghai University, China, in 2019.

Rui Xing works on the topics include security and optimization in vehicular networks. He received the B.E. and master degree from Shanghai University, China, in 2017 and 2020, respectively.

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