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Full Product Details

Author:   Ying Zhang
Publisher:   John Wiley & Sons Inc
Imprint:   Wiley-IEEE Press
Dimensions:   Width: 14.50cm , Height: 1.50cm , Length: 21.80cm
Weight:   0.454kg
ISBN:  

9781119390602

ISBN 10:   1119390605
Pages:   192
Publication Date:   13 February 2018
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
The supplier is temporarily out of stock of this item. It will be ordered for you on backorder and shipped when it becomes available.

Table of Contents

List of Figures ix List of Tables xii Preface xiii List of Abbreviation and Acronyms xv 1 Introduction 1 1.1 Cloud-Enabled 5G: SDN and NFV 3 1.1.1 Benefits 6 1.1.2 Challenges 7 1.2 Supporting Technologies 8 1.2.1 Cloud Computing 8 1.2.2 Network Virtualization 9 1.2.3 Network Functions Virtualization 9 1.2.4 Software-Defined Networking 10 1.3 Outline of Chapters 10 2 Virtualization and Cloud Computing 13 2.1 Cloud Computing 13 2.1.1 Architecture 13 2.1.2 Types of Clouds 15 2.1.3 Challenges 16 2.2 Host Virtualization 18 2.2.1 Overview 18 2.2.1.1 Benefits 19 2.2.1.2 Use Cases 19 2.2.2 Virtualization Techniques 20 2.2.2.1 Hardware-Level Virtualization 20 2.2.2.2 Other Virtualization Techniques 21 2.2.3 Containers 21 2.3 Network Virtualization 22 2.3.1 Overlay Networks 24 2.3.2 Virtual Private Network 24 2.3.3 Virtual Sharing Networks 27 2.3.4 Switch-Based SDN Virtualization 29 2.3.5 Host-Based Network Virtualization 31 2.4 Wireless Virtualization 32 2.5 Summary 36 3 Network Function Virtualization 37 3.1 NFV Architecture 38 3.2 NFV Use Cases and Examples 42 3.3 NFV Challenges 45 3.4 NFV Orchestration 46 3.4.1 NFV Performance Characterization 47 3.4.2 NFV Performance Improvements 49 3.5 NF Modeling 50 3.5.1 Source-Code-Based Modeling 52 3.5.1.1 Background 52 3.5.1.2 Modeling Example 53 3.5.1.3 Models 55 3.5.1.4 Model Extraction Overview 56 3.5.2 Modeling Applications 58 3.6 VNF Placement 59 3.7 Summary 63 4 Software-Defined Networks Principles and Applications 65 4.1 SDN Overview 66 4.1.1 Motivations 66 4.1.2 Architecture 67 4.1.2.1 Separation of Control and Data Plane 67 4.1.2.2 Northbound Open APIs 69 4.1.2.3 Southbound Control/Data Plane Protocol 69 4.1.2.4 Applications 70 4.1.3 Use Cases 70 4.2 SDN Controller 71 4.2.1 Controller Deployment Choices 73 4.2.2 Apps on SDN Controller 75 4.3 SDN Data Plane 76 4.4 SDN Management 78 4.4.1 Anomaly Detection 78 4.4.2 Network Measurement 80 4.4.3 Failure Recovery 82 4.4.4 Controller Placement 84 4.4.4.1 A Special Study: Controller to Switch Connectivity 87 4.4.4.2 Node Versus Link Failure 92 4.4.4.3 Downstream Versus Upstream Nodes 93 4.5 SDN Security Attack Prevention 94 4.6 SDN Traffic Engineering 96 4.6.1 TE Architecture and Solution Overview 98 4.6.1.1 Hierarchical Control Structure 98 4.6.1.2 Control Node Design 99 4.6.1.3 Scalability Benefit 100 4.6.2 Design Challenges 100 4.6.3 TE Solution Overview 101 4.7 Summary 102 5 SDN and NFV in 5G 105 5.1 5G Overview 106 5.1.1 Architecture 106 5.2 Service Function Chaining 108 5.2.1 OpenFlow-Based SFC Solution 110 5.2.1.1 Represent Directions with Port Types 114 5.2.1.2 Realize Policies with Multiple Forwarding Tables 115 5.2.1.3 Handle Dynamics with the Microflow Table 116 5.2.1.4 Encode Service Chaining with Metadata 117 5.2.1.5 Summary of Dataplane Functions 118 5.2.2 SFC Monitoring 118 5.2.2.1 Handling Multiple Monitoring Tasks 121 5.2.3 Optical SFC 122 5.2.3.1 Service Placement in Optical NFV 125 5.2.4 Verification of Service Function Chaining 128 5.3 Core Network Functions Virtualization: vEPC 131 5.3.1 Existing Solutions Problems 133 5.3.2 Virtualization and Cloud-Assisted PC 134 5.4 Virtualized Customer Premises Equipment 137 5.4.1 Requirements 138 5.4.2 Design 140 5.5 Summary 142 6 Open Source and Research Activities 143 6.1 Open Source Initiatives 144 6.1.1 OpenStack 144 6.1.2 OpenDayLight 146 6.1.3 OPNFV 148 6.1.4 CORD: Central Office Re-architected as a Data Center 150 6.2 NFV Research Problems 151 6.3 Summary 152 References 153 Index 163

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Author Information

Ying Zhang is a Software Engineer in the Facebook network infrastructure team. Prior to joining Facebook, she was a senior researcher and research manager at Hewlett Packard Labs. She has served on the technical program committee of several conferences and workshops, and is a senior member of the IEEE. She has been granted 30+ US/International patents. She was reported by Swedish media as a ""Mobile Network 10 Brightest Researcher"" in 2015 and was awarded the N2Women Rising Star in Networking and Communications award in 2017.

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