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Connections for the digital age : multimedia communications for mobile, nomadic, and fixed devices / E. Bryan Carne.

By: Carne, E. Bryan, 1928-.
Contributor(s): IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: materialTypeLabelBookPublisher: Hoboken, New Jersey : Wiley, c2011Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2011]Description: 1 PDF (xiv, 259 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9781118104521.Subject(s): Multimedia communicationsGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 621.3815/422 | 621.382/1 Online resources: Abstract with links to resource Also available in print.
Contents:
Preface xiii -- 1 A Digital World 1 -- 1.1 Digital Natives and Immigrants 3 -- 1.2 Contemporary Communications 6 -- 1.2.1 Public Switched Telephone Network 7 -- 1.2.2 The Internet 11 -- 1.2.3 Enterprise Networks 16 -- 1.2.4 Off-Air and Cable Television 17 -- 1.2.5 Radio Broadcasting 18 -- 1.3 Triple-Play Services 20 -- 1.4 Contemporary Facilities 20 -- 1.5 Competition 21 -- 1.5.1 Legacy Telcos 21 -- 1.5.2 Legacy Cellcos 23 -- 1.5.3 Legacy Cablecos 23 -- 1.5.4 The Dominance of the Internet 23 -- 1.6 The Business of Multimedia Services 24 -- 1.6.1 Residential Market Development 24 -- 1.6.2 Evolving Networks 25 -- 1.6.3 New Business Models 26 -- 1.7 Next Generation Networks 27 -- 1.7.1 Current Activities 28 -- 1.7.2 EUIST Wireless World Initiative 29 -- 2 Signal Formats 31 -- 2.1 Digital Voice 32 -- 2.1.1 Waveform Sampling 32 -- 2.1.2 Plesiochronous and Synchronous Hierarchies 34 -- 2.1.3 Processing to Achieve Lower Bit Rate Coding 36 -- 2.1.4 Aural Modeling 36 -- 2.1.5 Vocal Tract Modeling 37 -- 2.2 Digital Audio 38 -- 2.3 Digital Pictures 39 -- 2.3.1 Computer Graphics 39 -- 2.3.2 Still Scenes 39 -- 2.4 Digital Video 41 -- 2.4.1 MPEG 2 41 -- 2.4.2 MPEG 4 43 -- 2.4.3 MPEG 7 43 -- 2.4.4 Digital TV Systems 43 -- 2.5 Text 46 -- 2.6 A Common Signal Format 47 -- 2.7 Modulated Signals 47 -- 2.7.1 Single-Carrier Modulation 47 -- 2.7.2 Spread Spectrum Techniques 50 -- 2.7.3 Multicarrier Modulation 52 -- 2.8 Optical Fiber Transmission 54 -- 2.8.1 Single Mode Fiber 55 -- 2.8.2 Step Index and Graded Index Fibers 55 -- 2.8.3 Optical Amplifi ers 55 -- 2.8.4 Optical Modulation 57 -- 2.8.5 RF over Glass 58 -- 2.9 Legacy Signal Formats 58 -- 2.9.1 Packet Relay 58 -- 2.9.2 Frame Relay 59 -- 2.9.3 Cell Relay / Asynchronous Transfer Mode 60 -- 3 Frames, TCP/IP, and VoIP 63 -- 3.1 OSI Client-Server Model 64 -- 3.2 Internet Model 66 -- 3.2.1 Transport Layer 68 -- 3.2.2 Internet Layer 70 -- 3.2.3 Private Addresses 73 -- 3.2.4 Link Layer 74 -- 3.3 VoIP 75 -- 3.3.1 Generating VoIP Packets 75.
3.3.2 VoIP Performance 76 -- 3.3.3 Real-Time Transport Protocol 78 -- 3.3.4 H.323 Session Control Protocol 78 -- 3.3.5 SIP Session Initiation Protocol 83 -- 3.3.6 H.323 versus SIP 86 -- 4 Carrier Ethernet 87 -- 4.1 Ethernet Operation 89 -- 4.1.1 Bridging Ethernets 90 -- 4.1.2 Redundant Coding 90 -- 4.1.3 Frame Extensions 91 -- 4.2 Quality of Service 93 -- 4.2.1 Integrated Services Framework 94 -- 4.2.2 Differentiated Services Framework 95 -- 4.2.3 Fairness 96 -- 4.3 Carrier-Grade Ethernet 96 -- 4.3.1 Bridges 98 -- 4.4 Multiprotocol Label Switching 101 -- 4.4.1 MPLS / Traffi c Engineering 102 -- 4.4.2 Generalized MPLS 103 -- 4.4.3 PBB-TE and MPLS-TE 103 -- 4.4.4 Protection, Restoration, Resilience, and OA&M 103 -- 4.5 Pseudowires 105 -- 4.5.1 PWE3 Encapsulation 105 -- 4.5.2 Provisioning Pseudowires 108 -- 5 Wire, Fiber, Cable, and Wireless Access 111 -- 5.1 Digital Subscriber Lines 112 -- 5.1.1 Representative DSL Systems 114 -- 5.1.2 Digital Subscriber Line Access Multiplexer 115 -- 5.1.3 Ethernet in the Access Network 117 -- 5.2 Optical Fiber 118 -- 5.2.1 Optical Fiber Access Links 119 -- 5.2.2 Passive Optical Fiber Access Network 119 -- 5.2.3 EPON and GPON 121 -- 5.3 Cable Access 121 -- 5.3.1 Cable Industry Statistics 122 -- 5.3.2 Cable Network Architecture 122 -- 5.3.3 Cable Connections 124 -- 5.3.4 Data Over Cable 125 -- 5.3.5 Video Headend 126 -- 5.3.6 PacketCable 127 -- 5.4 Wireless Access 129 -- 5.4.1 IEEE 802.11 Wireless LAN Medium Access Control and Physical Layer Specifi cations 130 -- 5.4.2 Wireless LAN 135 -- 5.4.3 WiFi 135 -- 5.4.4 Bluetooth 137 -- 5.4.5 IEEE 802.16 Air Interface for Fixed/Mobile Broadband Wireless Access Systems 137 -- 5.4.6 WiMAX 139 -- 6 Mobile Phones 143 -- 6.1 First Generation Cellular Systems 144 -- 6.2 The Air Interface 146 -- 6.3 Roaming and Handover 147 -- 6.4 Second Generation 148 -- 6.4.1 Global System for Mobile Telecommunication 148 -- 6.4.2 IS-136 149 -- 6.4.3 IS-95 (cdmaOne) 150 -- 6.5 Third Generation 150 -- 6.5.1 Third Generation Partnership Project 151.
6.5.2 Third Generation Partnership Project 2 162 -- 6.6 Fourth Generation 168 -- 6.6.1 Long-Term Evolution 168 -- 6.6.2 IMT / Advanced 170 -- 6.6.3 Seamless Mobility 171 -- 6.6.4 Multiple Antennas 172 -- 6.7 Backhaul 173 -- 6.8 Satellite Mobile Phones 173 -- 6.9 Skype 174 -- 7 Future Networks and Services 175 -- 7.1 IPTV 176 -- 7.1.1 IPTV Network 177 -- 7.1.2 IPTV Architectural Requirements 179 -- 7.1.3 IPTV Middleware 181 -- 7.2 Networked Home 184 -- 7.2.1 G.hn 185 -- 7.2.2 HomeGrid Forum 186 -- 7.2.3 Multimedia Over Coax Alliance 186 -- 7.2.4 Home Plug Powerline Alliance 186 -- 7.2.5 Wi-Fi and Femtocells 187 -- 7.3 Next Generation Networks 187 -- 7.3.1 TISPAN NGN 188 -- 7.3.2 Next Generation Cable Architecture 192 -- 7.4 Omnibus Broadband Initiative 193 -- 7.5 The Digital Future 194 -- 7.5.1 The Activities of Digital Natives and Digital Immigrants 194 -- 7.5.2 Advanced Terminals 198 -- 7.5.3 Future Requirements 200 -- 7.5.4 Provider Perspective 200 -- 7.5.5 Implications for Digital Natives 202 -- Appendix A Security 203 -- A.1 Security Techniques 203 -- A.1.1 Authentication and Authorization 204 -- A.1.2 Privacy 204 -- A.1.3 Integrity 204 -- A.1.4 Nonrepudiation 204 -- A.2 Cryptography 205 -- A.2.1 Symmetrical Cryptosystem 205 -- A.2.2 Asymmetrical Cryptosystem 205 -- A.2.3 Digital Signatures 207 -- A.2.4 Certifi cation Authority 207 -- A.3 Specifi c Techniques 208 -- A.3.1 Wired Equivalent Privacy 208 -- A.3.2 Wi-Fi Protected Access v.2 209 -- A.3.3 Advanced Encryption Standard 209 -- A.3.4 Firewall 210 -- A.3.5 Viruses, Trojans, and Worms 210 -- Appendix B Protocols 213 -- Abbreviations 219 -- Glossary 229 -- Index 251.
Summary: "Most notably used for computer screens and televisions, LCDs (liquid crystal displays) are a widely used technology. Providing both an historical and business-minded context, this extensive resource describes the unique scientific and engineering techniques used to create LCDs. The history of the science and technology behind the LCD is described in a prelude to the development of the device, presenting a rational development theme and pinpointing innovations. Additionally, the book illustrates how mathematics, physics, and chemistry are put to practical use in the LCDs we use everyday. Everyone from science students to engineers and product designers will find this engaging work valuable"-- Provided by publisher.
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Includes bibliographical references and index.

Preface xiii -- 1 A Digital World 1 -- 1.1 Digital Natives and Immigrants 3 -- 1.2 Contemporary Communications 6 -- 1.2.1 Public Switched Telephone Network 7 -- 1.2.2 The Internet 11 -- 1.2.3 Enterprise Networks 16 -- 1.2.4 Off-Air and Cable Television 17 -- 1.2.5 Radio Broadcasting 18 -- 1.3 Triple-Play Services 20 -- 1.4 Contemporary Facilities 20 -- 1.5 Competition 21 -- 1.5.1 Legacy Telcos 21 -- 1.5.2 Legacy Cellcos 23 -- 1.5.3 Legacy Cablecos 23 -- 1.5.4 The Dominance of the Internet 23 -- 1.6 The Business of Multimedia Services 24 -- 1.6.1 Residential Market Development 24 -- 1.6.2 Evolving Networks 25 -- 1.6.3 New Business Models 26 -- 1.7 Next Generation Networks 27 -- 1.7.1 Current Activities 28 -- 1.7.2 EUIST Wireless World Initiative 29 -- 2 Signal Formats 31 -- 2.1 Digital Voice 32 -- 2.1.1 Waveform Sampling 32 -- 2.1.2 Plesiochronous and Synchronous Hierarchies 34 -- 2.1.3 Processing to Achieve Lower Bit Rate Coding 36 -- 2.1.4 Aural Modeling 36 -- 2.1.5 Vocal Tract Modeling 37 -- 2.2 Digital Audio 38 -- 2.3 Digital Pictures 39 -- 2.3.1 Computer Graphics 39 -- 2.3.2 Still Scenes 39 -- 2.4 Digital Video 41 -- 2.4.1 MPEG 2 41 -- 2.4.2 MPEG 4 43 -- 2.4.3 MPEG 7 43 -- 2.4.4 Digital TV Systems 43 -- 2.5 Text 46 -- 2.6 A Common Signal Format 47 -- 2.7 Modulated Signals 47 -- 2.7.1 Single-Carrier Modulation 47 -- 2.7.2 Spread Spectrum Techniques 50 -- 2.7.3 Multicarrier Modulation 52 -- 2.8 Optical Fiber Transmission 54 -- 2.8.1 Single Mode Fiber 55 -- 2.8.2 Step Index and Graded Index Fibers 55 -- 2.8.3 Optical Amplifi ers 55 -- 2.8.4 Optical Modulation 57 -- 2.8.5 RF over Glass 58 -- 2.9 Legacy Signal Formats 58 -- 2.9.1 Packet Relay 58 -- 2.9.2 Frame Relay 59 -- 2.9.3 Cell Relay / Asynchronous Transfer Mode 60 -- 3 Frames, TCP/IP, and VoIP 63 -- 3.1 OSI Client-Server Model 64 -- 3.2 Internet Model 66 -- 3.2.1 Transport Layer 68 -- 3.2.2 Internet Layer 70 -- 3.2.3 Private Addresses 73 -- 3.2.4 Link Layer 74 -- 3.3 VoIP 75 -- 3.3.1 Generating VoIP Packets 75.

3.3.2 VoIP Performance 76 -- 3.3.3 Real-Time Transport Protocol 78 -- 3.3.4 H.323 Session Control Protocol 78 -- 3.3.5 SIP Session Initiation Protocol 83 -- 3.3.6 H.323 versus SIP 86 -- 4 Carrier Ethernet 87 -- 4.1 Ethernet Operation 89 -- 4.1.1 Bridging Ethernets 90 -- 4.1.2 Redundant Coding 90 -- 4.1.3 Frame Extensions 91 -- 4.2 Quality of Service 93 -- 4.2.1 Integrated Services Framework 94 -- 4.2.2 Differentiated Services Framework 95 -- 4.2.3 Fairness 96 -- 4.3 Carrier-Grade Ethernet 96 -- 4.3.1 Bridges 98 -- 4.4 Multiprotocol Label Switching 101 -- 4.4.1 MPLS / Traffi c Engineering 102 -- 4.4.2 Generalized MPLS 103 -- 4.4.3 PBB-TE and MPLS-TE 103 -- 4.4.4 Protection, Restoration, Resilience, and OA&M 103 -- 4.5 Pseudowires 105 -- 4.5.1 PWE3 Encapsulation 105 -- 4.5.2 Provisioning Pseudowires 108 -- 5 Wire, Fiber, Cable, and Wireless Access 111 -- 5.1 Digital Subscriber Lines 112 -- 5.1.1 Representative DSL Systems 114 -- 5.1.2 Digital Subscriber Line Access Multiplexer 115 -- 5.1.3 Ethernet in the Access Network 117 -- 5.2 Optical Fiber 118 -- 5.2.1 Optical Fiber Access Links 119 -- 5.2.2 Passive Optical Fiber Access Network 119 -- 5.2.3 EPON and GPON 121 -- 5.3 Cable Access 121 -- 5.3.1 Cable Industry Statistics 122 -- 5.3.2 Cable Network Architecture 122 -- 5.3.3 Cable Connections 124 -- 5.3.4 Data Over Cable 125 -- 5.3.5 Video Headend 126 -- 5.3.6 PacketCable 127 -- 5.4 Wireless Access 129 -- 5.4.1 IEEE 802.11 Wireless LAN Medium Access Control and Physical Layer Specifi cations 130 -- 5.4.2 Wireless LAN 135 -- 5.4.3 WiFi 135 -- 5.4.4 Bluetooth 137 -- 5.4.5 IEEE 802.16 Air Interface for Fixed/Mobile Broadband Wireless Access Systems 137 -- 5.4.6 WiMAX 139 -- 6 Mobile Phones 143 -- 6.1 First Generation Cellular Systems 144 -- 6.2 The Air Interface 146 -- 6.3 Roaming and Handover 147 -- 6.4 Second Generation 148 -- 6.4.1 Global System for Mobile Telecommunication 148 -- 6.4.2 IS-136 149 -- 6.4.3 IS-95 (cdmaOne) 150 -- 6.5 Third Generation 150 -- 6.5.1 Third Generation Partnership Project 151.

6.5.2 Third Generation Partnership Project 2 162 -- 6.6 Fourth Generation 168 -- 6.6.1 Long-Term Evolution 168 -- 6.6.2 IMT / Advanced 170 -- 6.6.3 Seamless Mobility 171 -- 6.6.4 Multiple Antennas 172 -- 6.7 Backhaul 173 -- 6.8 Satellite Mobile Phones 173 -- 6.9 Skype 174 -- 7 Future Networks and Services 175 -- 7.1 IPTV 176 -- 7.1.1 IPTV Network 177 -- 7.1.2 IPTV Architectural Requirements 179 -- 7.1.3 IPTV Middleware 181 -- 7.2 Networked Home 184 -- 7.2.1 G.hn 185 -- 7.2.2 HomeGrid Forum 186 -- 7.2.3 Multimedia Over Coax Alliance 186 -- 7.2.4 Home Plug Powerline Alliance 186 -- 7.2.5 Wi-Fi and Femtocells 187 -- 7.3 Next Generation Networks 187 -- 7.3.1 TISPAN NGN 188 -- 7.3.2 Next Generation Cable Architecture 192 -- 7.4 Omnibus Broadband Initiative 193 -- 7.5 The Digital Future 194 -- 7.5.1 The Activities of Digital Natives and Digital Immigrants 194 -- 7.5.2 Advanced Terminals 198 -- 7.5.3 Future Requirements 200 -- 7.5.4 Provider Perspective 200 -- 7.5.5 Implications for Digital Natives 202 -- Appendix A Security 203 -- A.1 Security Techniques 203 -- A.1.1 Authentication and Authorization 204 -- A.1.2 Privacy 204 -- A.1.3 Integrity 204 -- A.1.4 Nonrepudiation 204 -- A.2 Cryptography 205 -- A.2.1 Symmetrical Cryptosystem 205 -- A.2.2 Asymmetrical Cryptosystem 205 -- A.2.3 Digital Signatures 207 -- A.2.4 Certifi cation Authority 207 -- A.3 Specifi c Techniques 208 -- A.3.1 Wired Equivalent Privacy 208 -- A.3.2 Wi-Fi Protected Access v.2 209 -- A.3.3 Advanced Encryption Standard 209 -- A.3.4 Firewall 210 -- A.3.5 Viruses, Trojans, and Worms 210 -- Appendix B Protocols 213 -- Abbreviations 219 -- Glossary 229 -- Index 251.

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"Most notably used for computer screens and televisions, LCDs (liquid crystal displays) are a widely used technology. Providing both an historical and business-minded context, this extensive resource describes the unique scientific and engineering techniques used to create LCDs. The history of the science and technology behind the LCD is described in a prelude to the development of the device, presenting a rational development theme and pinpointing innovations. Additionally, the book illustrates how mathematics, physics, and chemistry are put to practical use in the LCDs we use everyday. Everyone from science students to engineers and product designers will find this engaging work valuable"-- Provided by publisher.

Also available in print.

Mode of access: World Wide Web

Description based on PDF viewed 10/24/2017.

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