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Foreword; Preface; Contents; Acronyms; 1 Introduction; 1.1 Principles and Challenges; 1.2 Standardization History and Open Issues; 1.2.1 Worldwide Standardization Process; 1.2.2 European Vision; 1.2.3 American Vision; 1.3 ITS Architecture; 1.3.1 A Global Standardization Effort; 1.3.2 ISO/ETSI ITS Station Architecture; 1.3.3 WAVE Station Architecture; 1.4 ITS Applications; 1.4.1 Traffic Information Services; 1.5 Chapter Outlines; References; 2 Communication Paradigms and Literature Analysis; 2.1 Vehicular Networks; 2.1.1 Terminology and Definition; 2.1.2 Key Challenges in Vehicular Networks
2.1.3 Network Topology2.2 Vehicle-to-X Communications; 2.2.1 Key Features of a V2X Communication Protocol; 2.2.2 Vehicle-to-X Communication Paradigms; 2.3 Centralized Client/Server Technologies; 2.4 Decentralized and Peer-to-Peer Systems; 2.5 Enabling Technologies; 2.5.1 Cellular Networks; 2.5.2 WiFi and WiFi Direct; 2.5.3 IEEE 802.11p and WAVE; 2.5.4 ETSI ITS Protocol Stack; References; 3 Wireless Communications for Vehicular Ad-Hoc Networks; 3.1 Information Dissemination in Loosely-Coupled VANETs; 3.2 Multihop Broadcast Protocols; 3.2.1 Reference Scenario
3.2.2 Performance Metrics of Interest3.3 Average Distribution of Poisson Points in a Segment with Finite Length; 3.4 A Quick Overview of the IEEE 802.11b Standard ; 3.4.1 The IEEE 802.11 Standard; 3.4.2 Physical Layer; 3.4.3 MAC Layer; 3.4.4 Main IEEE 802.11 Parameters; 3.5 Probabilistic Broadcast Protocols with Silencing; 3.5.1 Preliminaries Considerations; 3.5.2 Polynomial Broadcast Protocol; 3.5.3 Silencing Irresponsible Forwarding; 3.6 A Recursive Analytical Performance Evaluation Framework; 3.6.1 Local (Single Transmission Domain) Performance Analysis with a Given Number of Nodes
3.6.2 Global Performance Analysis with Fixed Number of Nodes3.6.3 Generalization to a PPP-Based Scenario; 3.7 Performance Analysis in Realistic Scenarios; 3.7.1 Polynomial Protocol; 3.7.2 Silencing Irresponsible Forwarding; 3.7.3 Comparison with Benchmark Protocols; 3.7.4 Highway-Style Scenarios; 3.8 VANETs as Distributed Wireless Sensor Networks; 3.8.1 System Model; 3.8.2 Clustered VANET Creation and IVCs; References; 4 Hierarchical Architecture for Cross Layer ITS Communications; 4.1 The Big Picture; 4.2 Related Works; 4.3 Cross-network Information Flow
4.3.1 Information Dissemination Through Multihop Communications4.3.2 A Push/Pull Dissemination Approach; 4.3.3 Securing X-NETAD; 4.4 Application Design and Implementation on Android Smartphones; 4.4.1 System Overview and Challenges; 4.4.2 Message Structure and Dissemination Protocol; 4.4.3 System Architecture; 4.5 Experimental Results; 4.5.1 Metrics of Interest; 4.5.2 Preliminary Results; 4.5.3 Tests in Ideal Static Scenarios; 4.5.4 Tests in a Mobile Scenario; 4.5.5 Discussion; References; 5 Novel Distributed Algorithms for Intelligent Transportation Systems; 5.1 Introduction
2.1.3 Network Topology2.2 Vehicle-to-X Communications; 2.2.1 Key Features of a V2X Communication Protocol; 2.2.2 Vehicle-to-X Communication Paradigms; 2.3 Centralized Client/Server Technologies; 2.4 Decentralized and Peer-to-Peer Systems; 2.5 Enabling Technologies; 2.5.1 Cellular Networks; 2.5.2 WiFi and WiFi Direct; 2.5.3 IEEE 802.11p and WAVE; 2.5.4 ETSI ITS Protocol Stack; References; 3 Wireless Communications for Vehicular Ad-Hoc Networks; 3.1 Information Dissemination in Loosely-Coupled VANETs; 3.2 Multihop Broadcast Protocols; 3.2.1 Reference Scenario
3.2.2 Performance Metrics of Interest3.3 Average Distribution of Poisson Points in a Segment with Finite Length; 3.4 A Quick Overview of the IEEE 802.11b Standard ; 3.4.1 The IEEE 802.11 Standard; 3.4.2 Physical Layer; 3.4.3 MAC Layer; 3.4.4 Main IEEE 802.11 Parameters; 3.5 Probabilistic Broadcast Protocols with Silencing; 3.5.1 Preliminaries Considerations; 3.5.2 Polynomial Broadcast Protocol; 3.5.3 Silencing Irresponsible Forwarding; 3.6 A Recursive Analytical Performance Evaluation Framework; 3.6.1 Local (Single Transmission Domain) Performance Analysis with a Given Number of Nodes
3.6.2 Global Performance Analysis with Fixed Number of Nodes3.6.3 Generalization to a PPP-Based Scenario; 3.7 Performance Analysis in Realistic Scenarios; 3.7.1 Polynomial Protocol; 3.7.2 Silencing Irresponsible Forwarding; 3.7.3 Comparison with Benchmark Protocols; 3.7.4 Highway-Style Scenarios; 3.8 VANETs as Distributed Wireless Sensor Networks; 3.8.1 System Model; 3.8.2 Clustered VANET Creation and IVCs; References; 4 Hierarchical Architecture for Cross Layer ITS Communications; 4.1 The Big Picture; 4.2 Related Works; 4.3 Cross-network Information Flow
4.3.1 Information Dissemination Through Multihop Communications4.3.2 A Push/Pull Dissemination Approach; 4.3.3 Securing X-NETAD; 4.4 Application Design and Implementation on Android Smartphones; 4.4.1 System Overview and Challenges; 4.4.2 Message Structure and Dissemination Protocol; 4.4.3 System Architecture; 4.5 Experimental Results; 4.5.1 Metrics of Interest; 4.5.2 Preliminary Results; 4.5.3 Tests in Ideal Static Scenarios; 4.5.4 Tests in a Mobile Scenario; 4.5.5 Discussion; References; 5 Novel Distributed Algorithms for Intelligent Transportation Systems; 5.1 Introduction