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E-raamat: Linear and Non-Linear Video and TV Applications: Using IPv6 and IPv6 Multicast

(Stevens Institute of Technology, AT&T, Red Bank, NJ)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 26-Jun-2012
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781118327432
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Linear and Non-Linear Video and TV Applications: Using IPv6 and IPv6 MulticastSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 26-Jun-2012
  • Kirjastus: John Wiley & Sons Inc
  • Keel: eng
  • ISBN-13: 9781118327432
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"This up-to-date resource explores evolving trends in the TV and video services industry, including worldwide deployment of IPv6, IPTV services, web-produced video content, and the plethora of different screens available from TV to iPad. The coverage offers practical suggestions on implementing these technologies in service provider networks to support the cost-effective delivery of entertainment, and how new revenue-generating services can be developed. With this innovative, future-oriented guide, a variety of readers will become familiar with the current and prospective technology and take advantage of its resulting new trends"--



Provides options for implementing IPv6 and IPv6 multicast in service provider networks

New technologies, viewing paradigms, and content distribution approaches are taking the TV/video services industry by storm. Linear and Nonlinear Video and TV Applications: Using IPv6 and IPv6 Multicast identifies five emerging trends in next-generation delivery of entertainment-quality video. These trends are observable and can be capitalized upon by progressive service providers, telcos, cable operators, and ISPs.

This comprehensive guide explores these evolving directions in the TV/video services industry, including worldwide deployment of IPv6, IPTV services, web-produced video content, and the plethora of different screens available, from TV to iPad. It offers practical suggestions as to how these technologies can be implemented in service provider networks to support cost-effective delivery of entertainment, and how new revenue-generating services can be brought to market.

Important topics include:

  • Evolving video consumption habits and possible network implications
  • An overview of IPv6 address capabilities, protocols, quality of service (QoS), and more
  • Process descriptions of IP multicast and IPv6 multicast approaches and challenges
  • A detailed overview of IPTV systems and technologies, including architectural requirements, QoE and QoS, security and content protection, networks, and more
  • Internet-based TV technologies: streaming, content distribution networks, P2P networks, and cloud computing
  • Non-traditional video content sources and their implications

Linear and Nonlinear Video and TV Applications: Using IPv6 and IPv6 Multicast is indispensable reading for planners, CTOs, and engineers at broadcast TV operations, Cable TV operations, satellite operations, Internet and IS providers, telcos, and wireless providers.

Preface xi
1 Evolving Viewing Paradigms
1(44)
1.1 Overview of the Evolving Environment
1(13)
1.2 New Content Sources and Sinks
14(9)
1.3 Technology Trends (Snapshot)
23(6)
1.4 Revenue-Generation Trends
29(1)
1.5 General Infrastructure Implications for Service Providers
29(7)
1.6 Scope of the Investigation
36(1)
References
37(3)
Appendix 1A Background Statistics and Forecast
40(5)
1A.1 2009 Viewing Habits Nielsen's Data
40(3)
1A.2 2011 Viewing Habits Nielsen's Data
43(2)
2 An Overview of IPv6
45(50)
2.1 Overview and Motivations
45(5)
2.2 Address Capabilities
50(6)
2.2.1 IPv4 Addressing and Issues
50(1)
2.2.2 IPv6 Address Space
51(5)
2.3 IPv6 Protocol Overview
56(10)
2.4 Header Compression Schemes
66(4)
2.5 Quality of Service (QoS) in IPv6
70(1)
2.6 Migration Strategies to IPv6
71(9)
2.6.1 Technical Approaches
71(4)
2.6.2 Residential Broadband Services in an IPv6 Environment
75(1)
2.6.3 Deployment Opportunities
76(4)
References
80(1)
Appendix 2A IPv6 RFCs
81(14)
3 An Overview of IP Multicast and Multicast Principles
95(20)
3.1 Multicast Environment
95(3)
3.2 Basic Multicast Concepts and Protocols
98(5)
3.3 IP Multicast Addresses
103(4)
3.4 Internet Group Management Protocol (IGMP)
107(7)
References
114(1)
4 IPv6 Multicast Approaches
115(24)
4.1 Overview
115(1)
4.2 IPv6 Multicast Addresses
116(2)
4.3 Media Access Control (MAC) Layer Addresses Aspects
118(1)
4.4 Signaling
119(1)
4.5 Routing
119(2)
4.6 Rendezvous Point (RP) Approaches
121(2)
4.7 Multicast Listener Discovery (MLD)
123(15)
4.7.1 Overview of MLDv1
123(1)
4.7.2 Message Format
124(2)
4.7.3 Protocol Description
126(2)
4.7.4 State Transition for Nodes
128(2)
4.7.5 State Transition for Routers
130(2)
4.7.6 Overview of MLDv2
132(5)
4.7.7 Source Filtering
137(1)
References
138(1)
5 Evolving Traditional and Nontraditional TV Services
139(8)
5.1 Basic Services
139(3)
5.1.1 Distributed Content Service
140(1)
5.1.2 Interactive Services
141(1)
5.1.3 Public Interest Services
142(1)
5.2 Advanced Services
142(4)
5.2.1 Linear TV with Trick Mode
143(1)
5.2.2 Personal Video Recorder (PVR) Services
143(1)
5.2.3 Advertising Services
144(1)
5.2.4 Audience Measurement Information
145(1)
5.2.5 Interactive Services Requiring High Security
145(1)
Reference
146(1)
6 IPTV Systems and Technologies
147(93)
6.1 Overview and Stakeholder Universe
148(12)
6.1.1 Definitions
148(2)
6.1.2 Services under Consideration
150(6)
6.1.3 IPTV Stakeholder Universe
156(1)
6.1.4 Market Scope
157(2)
6.1.5 Multicast Mechanisms
159(1)
6.2 IPTV Architectures and Architectural Requirements
160(6)
6.3 QoE and QoS
166(10)
6.3.1 QoE Aspects
166(7)
6.3.2 QoS Aspects
173(3)
6.4 Service Security and Content Protection
176(1)
6.5 IPTV Networks
176(12)
6.5.1 IPTV Multicast Frameworks
183(3)
6.5.2 Control and Signaling Aspects
186(1)
6.5.3 Content Delivery
187(1)
6.6 End Systems and Interoperability Aspects
188(16)
6.6.1 IPTV Terminal Devices
188(11)
6.6.2 Home Network
199(3)
6.6.3 Audience Information
202(2)
6.7 Middleware, Application, and Content Platforms
204(13)
6.7.1 IPTV Metadata
204(2)
6.7.2 IPTV Middleware Architecture
206(2)
6.7.3 Content Provisioning
208(1)
6.7.4 Service Discovery
208(2)
6.7.5 Service Navigation
210(2)
6.7.6 Electronic Program Guide
212(1)
6.7.7 User Profiles
213(1)
6.7.8 Protocol Support Machinery for Middleware, Application, and Content Platforms
214(3)
6.8 IPTV Standards: A Comprehensive Process
217(10)
6.8.1 ITU-T
218(2)
6.8.2 ATIS IPTV Interoperability Forum (IIF)
220(6)
6.8.3 Commercial Products and Interworking
226(1)
References
227(2)
Appendix 6A Next-Generation Networks (NGN) and IP Multimedia Subsystem (IMS)
229(3)
6A.1 NGN
229(1)
6A.2 IMS
230(2)
Appendix 6B IPTV Protocols Used by IPTV Terminal Devices
232(8)
6B.1 Network Attachment: E9
232(2)
6B.2 Service Discovery at Various Interface Points
234(1)
6B.3 Service Navigation: E0
235(1)
6B.4 Service Consumption
236(1)
6B.5 Download Services
237(1)
6B.6 Other Relevant Protocols
238(2)
7 Technologies for Internet-Based TV
240(68)
7.1 Streaming
240(12)
7.1.1 Real-Time Transport Protocol/Real-Time Streaming Protocol (RTP/RTSP)
243(5)
7.1.2 Apple HTTP Live Streaming
248(4)
7.1.3 HTTP Flash Progressive Download
252(1)
7.2 Content Delivery Networks
252(4)
7.3 P2P Networks
256(1)
7.4 Cloud Computing
257(3)
7.5 Core Internet Technologies
260(22)
7.5.1 Very High-Capacity Backbone Networks, Transmission
260(8)
7.5.2 Very High-Capacity Backbone Networks, Routing
268(1)
7.5.3 Terrestrial Trends in Access Networks
269(13)
7.6 Storage Technologies to Support IBTV
282(12)
7.7 Service Provider Strategies for NTTV
294(4)
7.7.1 Overview
294(2)
7.7.2 Discussion
296(2)
References
298(1)
Appendix 7A A Perspective on the Future
299(9)
7A.1 Global Internet Highlights
300(1)
7A.2 Global Video Highlights
300(1)
7A.3 Global Mobile Highlights
301(1)
7A.4 Regional Highlights
301(7)
8 Nontraditional Video Display and Content Sources
308(16)
8.1 NTTV Trends
308(1)
8.2 NTTV Display Units
309(2)
8.3 NTTV Content Sources
311(12)
8.3.1 Hulu
316(1)
8.3.2 Apple
316(1)
8.3.3 Boxee
316(3)
8.3.4 Clicker
319(1)
8.3.5 Revision3 Internet Television
319(2)
8.3.6 Next New Networks
321(1)
8.3.7 UltraViolet
321(1)
8.3.8 Netflix
322(1)
References
323(1)
Glossary 324(66)
Index 390(17)
About the Author 407
Daniel Minoli has done extensive work in video engineering, design, and implementation over the years at several organizations including Telcordia (Bellcore), Stevens Institute of Technology, AT&T, and Gartner/DataPro. He has written several video-related books, including 3DTV Content Capture, Encoding, and Transmission: Building the Transport Infrastructure for Commercial Services (Wiley).
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