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Global networks : their design, engineering, and operation / / G. Keith Cambron
| Global networks : their design, engineering, and operation / / G. Keith Cambron |
| Autore | Cambron G. Keith |
| Pubbl/distr/stampa | Hoboken [New Jersey] : , : Wiley, , 2012 |
| Descrizione fisica | 1 online resource (415 p.) |
| Disciplina | 384.5 |
| Collana | Wiley - IEEE |
| Soggetto topico |
Wireless communication systems
Telecommunication Globalization |
| ISBN |
1-118-39452-6
1-118-39457-7 1-118-39451-8 |
| Classificazione | TEC061000 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
List of Figures xv -- About the Author xix -- Foreword xxi -- Preface xxiii -- Acknowledgments xxv -- List of Acronyms xxvii -- Part I NETWORKS -- 1 Carrier Networks 3 -- 1.1 Operating Global Networks 3 -- 1.1.1 The Power of Redundancy 4 -- 1.1.2 The Virtuous Cycle 6 -- 1.1.3 Measurement and Accountability 7 -- 1.2 Engineering Global Networks 8 -- 1.2.1 Architecture 8 -- 1.2.2 Systems Engineering 8 -- 1.2.3 Capacity Management 8 -- 1.3 Network Taxonomy 10 -- 1.3.1 Voice Systems 10 -- 1.3.2 Data Systems 12 -- 1.3.3 Networks 13 -- 1.3.4 Network Systems 13 -- 1.4 Summary 14 -- References 14 -- 2 Network Systems Hardware 15 -- 2.1 Models 15 -- 2.2 Telco Systems Model 16 -- 2.2.1 Form and Function 16 -- 2.2.2 Frames and Shelves 20 -- 2.2.3 Chassis 20 -- 2.2.4 Line I/O 21 -- 2.2.5 Power Supply Cards 25 -- 2.2.6 Network Fabric Cards 25 -- 2.2.7 Application Processing 28 -- 2.3 Modular Computing - Advanced Telecommunications Computing Architecture (AdvancedTCA*) 29 -- 2.3.1 Chassis 29 -- 2.4 Blade Center Model 30 -- 2.4.1 Midplane Design 31 -- 2.4.2 Flexible High Speed Interconnection 32 -- 2.4.3 Management Controller 32 -- 2.4.4 Power and Fans 33 -- 2.5 Summary 33 -- References 33 -- 3 Network Systems Software 35 -- 3.1 Carrier Grade Software 35 -- 3.1.1 Real-Time 35 -- 3.1.2 Reliable 36 -- 3.1.3 Scalable 36 -- 3.1.4 Upgradable and Manageable 38 -- 3.2 Defensive Programming 38 -- 3.2.1 Are You Really Sure? 38 -- 3.2.2 Default Parameters 39 -- 3.2.3 Heap Management 39 -- 3.2.4 Exception Handling and Phased Recovery 39 -- 3.2.5 Last Gasp Forensics 40 -- 3.2.6 Buffer Discards and Dumps 40 -- 3.3 Managed Objects 40 -- 3.3.1 Administrative States 42 -- 3.3.2 Service States 42 -- 3.4 Operational Tests and Fault Conditions 43 -- 3.4.1 Service Turn Up 43 -- 3.4.2 Interrupt or Fault Induced 43 -- 3.4.3 Out of Service Retries 43 -- 3.4.4 On Demand 44 -- 3.5 Alarms 44 -- 3.5.1 Notifications 44 -- 3.5.2 Severity 44 -- 3.5.3 Scope 45 -- 3.5.4 Creation and Persistence 46 -- 3.5.5 Ethernet NIC Example 46.
3.6 Network System Data Management 49 -- 3.6.1 Management Information Bases (MIBs) 51 -- 3.6.2 Syslog 52 -- 3.6.3 Audits 53 -- 3.7 Summary 54 -- References 54 -- 4 Service and Network Objectives 55 -- 4.1 Consumer Wireline Voice 55 -- 4.1.1 Service Request 55 -- 4.1.2 Address Signaling 56 -- 4.1.3 Call Setup 56 -- 4.1.4 Alerting 56 -- 4.1.5 Call Completion 56 -- 4.1.6 Disconnect 56 -- 4.1.7 Network Service Objectives 57 -- 4.1.8 Consumer Wireline Voice Network Model 57 -- 4.1.9 Local Loops 58 -- 4.1.10 Originating Office A 58 -- 4.1.11 Toll Connect Group A-C 59 -- 4.1.12 Tandem Office C 60 -- 4.1.13 Toll Completing Group C-B 60 -- 4.1.14 Terminating Office B 60 -- 4.1.15 Long Term Downtime 60 -- 4.1.16 Measurement Summary 60 -- 4.2 Enterprise Voice over IP Service 61 -- 4.2.1 Five 9's 61 -- 4.2.2 Meaningful and Measurable Objectives 61 -- 4.3 Technology Transitions 65 -- 4.4 Summary 66 -- References 66 -- 5 Access and Aggregation Networks 69 -- 5.1 Wireline Networks 70 -- 5.1.1 Voice Services 70 -- 5.1.2 Broadband Services 74 -- 5.1.3 DSL 74 -- 5.1.4 DSL Design and Engineering 76 -- 5.1.5 DSL Operations 79 -- 5.1.6 DSL Objectives, Metrics, and Line Management 80 -- 5.1.7 ADSL Aggregation Networks 82 -- 5.1.8 ADSL2+ and VDSL Aggregation Networks 82 -- 5.1.9 Fiber to the Home (FTTH) 83 -- 5.1.10 Fiber to the Curb (FTTC) 87 -- 5.1.11 Fiber to the Node (FTTN) 87 -- 5.1.12 FTTH Design and Engineering 87 -- 5.1.13 FTTH Operations 90 -- 5.1.14 FTTH Aggregation Networks 91 -- 5.2 Hybrid Fiber Coax (HFC) Networks 92 -- 5.2.1 Node Design 93 -- 5.2.2 Digital TV 93 -- 5.2.3 DOCSIS 94 -- 5.2.4 HFC Design and Engineering 94 -- 5.2.5 HFC Operations 95 -- 5.3 Wireless Mobile Networks 96 -- 5.3.1 GSM 97 -- 5.3.2 Universal Mobile Telecommunications Systems (UMTS) 106 -- 5.3.3 Long Term Evolution (LTE) 111 -- 5.4 Wireless Design and Engineering 118 -- 5.4.1 Air Interface 118 -- 5.4.2 Mobility 121 -- 5.4.3 Inter-Radio Access Technology (IRAT) 122 -- 5.4.4 Device Behavior 122 -- 5.5 Summary 123. References 123 -- 6 Backbone Networks 125 -- 6.1 Transport 127 -- 6.1.1 Transport Services 127 -- 6.1.2 Transport Resiliency and Protection 130 -- 6.2 IP Core 135 -- 6.2.1 Regional IP Backbones 136 -- 6.2.2 Points of Presence (POPs) 137 -- 6.2.3 Multiprotocol Label Switching (MPLS) 137 -- 6.2.4 Route Reflectors 143 -- 6.3 Backbone Design and Engineering 143 -- 6.3.1 Location and Size of POPs 144 -- 6.3.2 Fault Recovery 144 -- 6.3.3 Quality of Service QoS 145 -- 6.3.4 Traffic Demand 146 -- 6.3.5 Control Plane 146 -- 6.4 Summary 147 -- References 147 -- 7 Cloud Services 149 -- 7.1 Competition 149 -- 7.2 Defining the Cloud 150 -- 7.2.1 Architecture 150 -- 7.2.2 Infrastructure 151 -- 7.2.3 Intelligent Networks and Intelligent Clouds 152 -- 7.2.4 Internet Protocol Multimedia Subsystem (IMS) 156 -- 7.2.5 Application Servers and Enablers 162 -- 7.2.6 IMS Design and Engineering 164 -- 7.3 Cloud Services 166 -- 7.3.1 Network-Based Security 166 -- 7.3.2 Voice over IP (VoIP) Services 167 -- 7.3.3 Conferencing 170 -- 7.3.4 Compute and Storage 170 -- 7.3.5 The Mobile Cloud 170 -- 7.4 Summary 171 -- References 171 -- 8 Network Peering and Interconnection 173 -- 8.1 Wireline Voice 173 -- 8.1.1 Interexchange Carriers (IXCs) 174 -- 8.1.2 Competitive Local Exchange Carriers (CLECs) 177 -- 8.2 SS7 Interconnection 178 -- 8.2.1 Services 178 -- 8.3 IP Interconnection 180 -- 8.3.1 VPN Peering 180 -- 8.3.2 Internet Peering 180 -- 8.3.3 Public Peering 183 -- 8.3.4 Mobility Peering 185 -- 8.4 Summary 187 -- References 188 -- Part II TEAMS AND SYSTEMS -- 9 Engineering and Operations 191 -- 9.1 Engineering 192 -- 9.1.1 Systems Engineers 192 -- 9.1.2 Network Planning 196 -- 9.1.3 Network and Central Office Engineers 196 -- 9.1.4 Outside Plant Engineers 197 -- 9.1.5 Common Systems Engineers 197 -- 9.2 Operations 197 -- 9.2.1 Network Operations Center (NOCs) 198 -- 9.2.2 Tiered Maintenance 202 -- 9.3 Summary 204 -- References 205 -- 10 Customer Marketing, Sales, and Care 207 -- 10.1 Industry Markets 207. 10.1.1 Competitive Local Exchange Carriers (CLECs) 207 -- 10.1.2 Interexchange Carriers (IXCs) 210 -- 10.2 Consumer Markets 211 -- 10.2.1 Product Marketing 212 -- 10.2.2 Consumer Care 214 -- 10.3 Enterprise Markets 218 -- 10.3.1 Pre-Sales Support 219 -- 10.3.2 Sales Support 220 -- 10.3.3 Engineering and Implementation 220 -- 10.4 Summary 220 -- References 221 -- 11 Fault Management 223 -- 11.1 Network Management Work Groups 223 -- 11.2 Systems Planes 224 -- 11.2.1 Bearer Planes 224 -- 11.2.2 Control Planes 225 -- 11.2.3 Management Planes 226 -- 11.3 Management Systems 227 -- 11.3.1 Network Management Systems 227 -- 11.3.2 Element Management Systems 230 -- 11.3.3 Network Elements 231 -- 11.3.4 Management Interfaces 231 -- 11.3.5 Specialized Management Systems 240 -- 11.4 Management Domains 244 -- 11.4.1 Optical Networks 245 -- 11.4.2 IP/MPLS Networks 246 -- 11.4.3 Other Domains 247 -- 11.5 Network Management and the Virtuous Cycle 247 -- 11.5.1 Notifications 247 -- 11.5.2 Sectionalization 249 -- 11.5.3 Fault Isolation 249 -- 11.6 Summary 250 -- References 251 -- 12 Support Systems 253 -- 12.1 Support Systems Standards and Design 253 -- 12.2 Capacity Management Systems 255 -- 12.2.1 Work Groups 256 -- 12.2.2 Data Collection 257 -- 12.2.3 Engineering Rules 259 -- 12.2.4 Capacity Management Applications 260 -- 12.2.5 Supply Chain Management 261 -- 12.3 Service Fulfillment 261 -- 12.3.1 Offers and Proposals 262 -- 12.3.2 Service Ordering 264 -- 12.3.3 Service Activation 267 -- 12.4 Design and Engineering 268 -- 12.5 Summary 268 -- References 268 -- Part III TRANSFORMATION -- 13 Integration and Innovation 271 -- 13.1 Technology Integration 271 -- 13.1.1 Technology Scanning 272 -- 13.1.2 Technology Selection 273 -- 13.1.3 Network System Testing and Verification 277 -- 13.1.4 Support Systems Integration 287 -- 13.2 Lifecycle Support 288 -- 13.3 Invention and Innovation 290 -- 13.3.1 The Role of Research 291 -- 13.3.2 The Bridge to Research 292 -- 13.4 Summary 295 -- References 296. 14 Disasters and Outages 297 -- 14.1 Disasters 297 -- 14.1.1 Carrier Teams 298 -- 14.1.2 Disaster Response 300 -- 14.1.3 Engineering and Design 300 -- 14.2 Outages 302 -- 14.2.1 Anatomy of an Outage 302 -- 14.2.2 Congestion Onset 307 -- 14.2.3 Congestion Propagation 307 -- 14.2.4 Root Cause 308 -- 14.2.5 Contributing Cause 309 -- 14.2.6 Triggering Events 309 -- 14.2.7 Teams in an Outage 309 -- 14.2.8 Press and External Affairs 311 -- 14.3 The Vicious Cycle 313 -- 14.3.1 Engineering and Operational Defense 314 -- 14.4 Summary 316 -- References 316 -- 15 Technologies that Matter 317 -- 15.1 Convergence or Conspiracy? 317 -- 15.1.1 Enter the World Wide Web 318 -- 15.1.2 Silicon Valley - A Silent Partner 318 -- 15.1.3 US Telecommunication Policy 318 -- 15.1.4 The Conspiracy - A Confluence of Events 319 -- 15.1.5 Local Phone Service in Jeopardy 320 -- 15.1.6 Technologies in Response 322 -- 15.2 Technologies Beyond 2012 324 -- 15.2.1 IPv6 324 -- 15.2.2 Invisible Computing 332 -- 15.2.3 Beyond 400G 334 -- 15.3 HTML5 and WEBRTC 335 -- 15.3.1 Video Evolution 337 -- 15.3.2 High Definition Voice 338 -- 15.4 Summary 340 -- References 341 -- 16 Carriers Transformed 343 -- 16.1 Historical Transformations 343 -- 16.1.1 Stored Program Control Switching 1965-1985 343 -- 16.1.2 Digital Wireline Communications 1975-2000 344 -- 16.1.3 Digital Wireless Communication 1990-Onwards 345 -- 16.2 Regulation and Investment 346 -- 16.2.1 Regulation 346 -- 16.2.2 Investment 347 -- 16.3 Consumer Wireline Networks and Services 347 -- 16.3.1 Market Trends 347 -- 16.3.2 Technology 348 -- 16.4 Wireless Networks and Services 351 -- 16.4.1 Market Trends 351 -- 16.4.2 Technology 352 -- 16.5 Backbone Networks 352 -- 16.6 Science and Technology Matter 353 -- References 353 -- Appendix A: IPv6 Technologies 355 -- Appendix B: The Next Generation Network and Why We'll Never See It 361 -- Index 367. |
| Record Nr. | UNINA-9910131133303321 |
Cambron G. Keith
|
||
| Hoboken [New Jersey] : , : Wiley, , 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Global networks : their design, engineering, and operation / / G. Keith Cambron
| Global networks : their design, engineering, and operation / / G. Keith Cambron |
| Autore | Cambron G. Keith |
| Pubbl/distr/stampa | Hoboken [New Jersey] : , : Wiley, , 2012 |
| Descrizione fisica | 1 online resource (415 p.) |
| Disciplina | 384.5 |
| Collana | Wiley - IEEE |
| Soggetto topico |
Wireless communication systems
Telecommunication Globalization |
| ISBN |
1-118-39452-6
1-118-39457-7 1-118-39451-8 |
| Classificazione | TEC061000 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
List of Figures xv -- About the Author xix -- Foreword xxi -- Preface xxiii -- Acknowledgments xxv -- List of Acronyms xxvii -- Part I NETWORKS -- 1 Carrier Networks 3 -- 1.1 Operating Global Networks 3 -- 1.1.1 The Power of Redundancy 4 -- 1.1.2 The Virtuous Cycle 6 -- 1.1.3 Measurement and Accountability 7 -- 1.2 Engineering Global Networks 8 -- 1.2.1 Architecture 8 -- 1.2.2 Systems Engineering 8 -- 1.2.3 Capacity Management 8 -- 1.3 Network Taxonomy 10 -- 1.3.1 Voice Systems 10 -- 1.3.2 Data Systems 12 -- 1.3.3 Networks 13 -- 1.3.4 Network Systems 13 -- 1.4 Summary 14 -- References 14 -- 2 Network Systems Hardware 15 -- 2.1 Models 15 -- 2.2 Telco Systems Model 16 -- 2.2.1 Form and Function 16 -- 2.2.2 Frames and Shelves 20 -- 2.2.3 Chassis 20 -- 2.2.4 Line I/O 21 -- 2.2.5 Power Supply Cards 25 -- 2.2.6 Network Fabric Cards 25 -- 2.2.7 Application Processing 28 -- 2.3 Modular Computing - Advanced Telecommunications Computing Architecture (AdvancedTCA*) 29 -- 2.3.1 Chassis 29 -- 2.4 Blade Center Model 30 -- 2.4.1 Midplane Design 31 -- 2.4.2 Flexible High Speed Interconnection 32 -- 2.4.3 Management Controller 32 -- 2.4.4 Power and Fans 33 -- 2.5 Summary 33 -- References 33 -- 3 Network Systems Software 35 -- 3.1 Carrier Grade Software 35 -- 3.1.1 Real-Time 35 -- 3.1.2 Reliable 36 -- 3.1.3 Scalable 36 -- 3.1.4 Upgradable and Manageable 38 -- 3.2 Defensive Programming 38 -- 3.2.1 Are You Really Sure? 38 -- 3.2.2 Default Parameters 39 -- 3.2.3 Heap Management 39 -- 3.2.4 Exception Handling and Phased Recovery 39 -- 3.2.5 Last Gasp Forensics 40 -- 3.2.6 Buffer Discards and Dumps 40 -- 3.3 Managed Objects 40 -- 3.3.1 Administrative States 42 -- 3.3.2 Service States 42 -- 3.4 Operational Tests and Fault Conditions 43 -- 3.4.1 Service Turn Up 43 -- 3.4.2 Interrupt or Fault Induced 43 -- 3.4.3 Out of Service Retries 43 -- 3.4.4 On Demand 44 -- 3.5 Alarms 44 -- 3.5.1 Notifications 44 -- 3.5.2 Severity 44 -- 3.5.3 Scope 45 -- 3.5.4 Creation and Persistence 46 -- 3.5.5 Ethernet NIC Example 46.
3.6 Network System Data Management 49 -- 3.6.1 Management Information Bases (MIBs) 51 -- 3.6.2 Syslog 52 -- 3.6.3 Audits 53 -- 3.7 Summary 54 -- References 54 -- 4 Service and Network Objectives 55 -- 4.1 Consumer Wireline Voice 55 -- 4.1.1 Service Request 55 -- 4.1.2 Address Signaling 56 -- 4.1.3 Call Setup 56 -- 4.1.4 Alerting 56 -- 4.1.5 Call Completion 56 -- 4.1.6 Disconnect 56 -- 4.1.7 Network Service Objectives 57 -- 4.1.8 Consumer Wireline Voice Network Model 57 -- 4.1.9 Local Loops 58 -- 4.1.10 Originating Office A 58 -- 4.1.11 Toll Connect Group A-C 59 -- 4.1.12 Tandem Office C 60 -- 4.1.13 Toll Completing Group C-B 60 -- 4.1.14 Terminating Office B 60 -- 4.1.15 Long Term Downtime 60 -- 4.1.16 Measurement Summary 60 -- 4.2 Enterprise Voice over IP Service 61 -- 4.2.1 Five 9's 61 -- 4.2.2 Meaningful and Measurable Objectives 61 -- 4.3 Technology Transitions 65 -- 4.4 Summary 66 -- References 66 -- 5 Access and Aggregation Networks 69 -- 5.1 Wireline Networks 70 -- 5.1.1 Voice Services 70 -- 5.1.2 Broadband Services 74 -- 5.1.3 DSL 74 -- 5.1.4 DSL Design and Engineering 76 -- 5.1.5 DSL Operations 79 -- 5.1.6 DSL Objectives, Metrics, and Line Management 80 -- 5.1.7 ADSL Aggregation Networks 82 -- 5.1.8 ADSL2+ and VDSL Aggregation Networks 82 -- 5.1.9 Fiber to the Home (FTTH) 83 -- 5.1.10 Fiber to the Curb (FTTC) 87 -- 5.1.11 Fiber to the Node (FTTN) 87 -- 5.1.12 FTTH Design and Engineering 87 -- 5.1.13 FTTH Operations 90 -- 5.1.14 FTTH Aggregation Networks 91 -- 5.2 Hybrid Fiber Coax (HFC) Networks 92 -- 5.2.1 Node Design 93 -- 5.2.2 Digital TV 93 -- 5.2.3 DOCSIS 94 -- 5.2.4 HFC Design and Engineering 94 -- 5.2.5 HFC Operations 95 -- 5.3 Wireless Mobile Networks 96 -- 5.3.1 GSM 97 -- 5.3.2 Universal Mobile Telecommunications Systems (UMTS) 106 -- 5.3.3 Long Term Evolution (LTE) 111 -- 5.4 Wireless Design and Engineering 118 -- 5.4.1 Air Interface 118 -- 5.4.2 Mobility 121 -- 5.4.3 Inter-Radio Access Technology (IRAT) 122 -- 5.4.4 Device Behavior 122 -- 5.5 Summary 123. References 123 -- 6 Backbone Networks 125 -- 6.1 Transport 127 -- 6.1.1 Transport Services 127 -- 6.1.2 Transport Resiliency and Protection 130 -- 6.2 IP Core 135 -- 6.2.1 Regional IP Backbones 136 -- 6.2.2 Points of Presence (POPs) 137 -- 6.2.3 Multiprotocol Label Switching (MPLS) 137 -- 6.2.4 Route Reflectors 143 -- 6.3 Backbone Design and Engineering 143 -- 6.3.1 Location and Size of POPs 144 -- 6.3.2 Fault Recovery 144 -- 6.3.3 Quality of Service QoS 145 -- 6.3.4 Traffic Demand 146 -- 6.3.5 Control Plane 146 -- 6.4 Summary 147 -- References 147 -- 7 Cloud Services 149 -- 7.1 Competition 149 -- 7.2 Defining the Cloud 150 -- 7.2.1 Architecture 150 -- 7.2.2 Infrastructure 151 -- 7.2.3 Intelligent Networks and Intelligent Clouds 152 -- 7.2.4 Internet Protocol Multimedia Subsystem (IMS) 156 -- 7.2.5 Application Servers and Enablers 162 -- 7.2.6 IMS Design and Engineering 164 -- 7.3 Cloud Services 166 -- 7.3.1 Network-Based Security 166 -- 7.3.2 Voice over IP (VoIP) Services 167 -- 7.3.3 Conferencing 170 -- 7.3.4 Compute and Storage 170 -- 7.3.5 The Mobile Cloud 170 -- 7.4 Summary 171 -- References 171 -- 8 Network Peering and Interconnection 173 -- 8.1 Wireline Voice 173 -- 8.1.1 Interexchange Carriers (IXCs) 174 -- 8.1.2 Competitive Local Exchange Carriers (CLECs) 177 -- 8.2 SS7 Interconnection 178 -- 8.2.1 Services 178 -- 8.3 IP Interconnection 180 -- 8.3.1 VPN Peering 180 -- 8.3.2 Internet Peering 180 -- 8.3.3 Public Peering 183 -- 8.3.4 Mobility Peering 185 -- 8.4 Summary 187 -- References 188 -- Part II TEAMS AND SYSTEMS -- 9 Engineering and Operations 191 -- 9.1 Engineering 192 -- 9.1.1 Systems Engineers 192 -- 9.1.2 Network Planning 196 -- 9.1.3 Network and Central Office Engineers 196 -- 9.1.4 Outside Plant Engineers 197 -- 9.1.5 Common Systems Engineers 197 -- 9.2 Operations 197 -- 9.2.1 Network Operations Center (NOCs) 198 -- 9.2.2 Tiered Maintenance 202 -- 9.3 Summary 204 -- References 205 -- 10 Customer Marketing, Sales, and Care 207 -- 10.1 Industry Markets 207. 10.1.1 Competitive Local Exchange Carriers (CLECs) 207 -- 10.1.2 Interexchange Carriers (IXCs) 210 -- 10.2 Consumer Markets 211 -- 10.2.1 Product Marketing 212 -- 10.2.2 Consumer Care 214 -- 10.3 Enterprise Markets 218 -- 10.3.1 Pre-Sales Support 219 -- 10.3.2 Sales Support 220 -- 10.3.3 Engineering and Implementation 220 -- 10.4 Summary 220 -- References 221 -- 11 Fault Management 223 -- 11.1 Network Management Work Groups 223 -- 11.2 Systems Planes 224 -- 11.2.1 Bearer Planes 224 -- 11.2.2 Control Planes 225 -- 11.2.3 Management Planes 226 -- 11.3 Management Systems 227 -- 11.3.1 Network Management Systems 227 -- 11.3.2 Element Management Systems 230 -- 11.3.3 Network Elements 231 -- 11.3.4 Management Interfaces 231 -- 11.3.5 Specialized Management Systems 240 -- 11.4 Management Domains 244 -- 11.4.1 Optical Networks 245 -- 11.4.2 IP/MPLS Networks 246 -- 11.4.3 Other Domains 247 -- 11.5 Network Management and the Virtuous Cycle 247 -- 11.5.1 Notifications 247 -- 11.5.2 Sectionalization 249 -- 11.5.3 Fault Isolation 249 -- 11.6 Summary 250 -- References 251 -- 12 Support Systems 253 -- 12.1 Support Systems Standards and Design 253 -- 12.2 Capacity Management Systems 255 -- 12.2.1 Work Groups 256 -- 12.2.2 Data Collection 257 -- 12.2.3 Engineering Rules 259 -- 12.2.4 Capacity Management Applications 260 -- 12.2.5 Supply Chain Management 261 -- 12.3 Service Fulfillment 261 -- 12.3.1 Offers and Proposals 262 -- 12.3.2 Service Ordering 264 -- 12.3.3 Service Activation 267 -- 12.4 Design and Engineering 268 -- 12.5 Summary 268 -- References 268 -- Part III TRANSFORMATION -- 13 Integration and Innovation 271 -- 13.1 Technology Integration 271 -- 13.1.1 Technology Scanning 272 -- 13.1.2 Technology Selection 273 -- 13.1.3 Network System Testing and Verification 277 -- 13.1.4 Support Systems Integration 287 -- 13.2 Lifecycle Support 288 -- 13.3 Invention and Innovation 290 -- 13.3.1 The Role of Research 291 -- 13.3.2 The Bridge to Research 292 -- 13.4 Summary 295 -- References 296. 14 Disasters and Outages 297 -- 14.1 Disasters 297 -- 14.1.1 Carrier Teams 298 -- 14.1.2 Disaster Response 300 -- 14.1.3 Engineering and Design 300 -- 14.2 Outages 302 -- 14.2.1 Anatomy of an Outage 302 -- 14.2.2 Congestion Onset 307 -- 14.2.3 Congestion Propagation 307 -- 14.2.4 Root Cause 308 -- 14.2.5 Contributing Cause 309 -- 14.2.6 Triggering Events 309 -- 14.2.7 Teams in an Outage 309 -- 14.2.8 Press and External Affairs 311 -- 14.3 The Vicious Cycle 313 -- 14.3.1 Engineering and Operational Defense 314 -- 14.4 Summary 316 -- References 316 -- 15 Technologies that Matter 317 -- 15.1 Convergence or Conspiracy? 317 -- 15.1.1 Enter the World Wide Web 318 -- 15.1.2 Silicon Valley - A Silent Partner 318 -- 15.1.3 US Telecommunication Policy 318 -- 15.1.4 The Conspiracy - A Confluence of Events 319 -- 15.1.5 Local Phone Service in Jeopardy 320 -- 15.1.6 Technologies in Response 322 -- 15.2 Technologies Beyond 2012 324 -- 15.2.1 IPv6 324 -- 15.2.2 Invisible Computing 332 -- 15.2.3 Beyond 400G 334 -- 15.3 HTML5 and WEBRTC 335 -- 15.3.1 Video Evolution 337 -- 15.3.2 High Definition Voice 338 -- 15.4 Summary 340 -- References 341 -- 16 Carriers Transformed 343 -- 16.1 Historical Transformations 343 -- 16.1.1 Stored Program Control Switching 1965-1985 343 -- 16.1.2 Digital Wireline Communications 1975-2000 344 -- 16.1.3 Digital Wireless Communication 1990-Onwards 345 -- 16.2 Regulation and Investment 346 -- 16.2.1 Regulation 346 -- 16.2.2 Investment 347 -- 16.3 Consumer Wireline Networks and Services 347 -- 16.3.1 Market Trends 347 -- 16.3.2 Technology 348 -- 16.4 Wireless Networks and Services 351 -- 16.4.1 Market Trends 351 -- 16.4.2 Technology 352 -- 16.5 Backbone Networks 352 -- 16.6 Science and Technology Matter 353 -- References 353 -- Appendix A: IPv6 Technologies 355 -- Appendix B: The Next Generation Network and Why We'll Never See It 361 -- Index 367. |
| Record Nr. | UNINA-9910817373703321 |
|
Cambron G. Keith
|
||
| Hoboken [New Jersey] : , : Wiley, , 2012 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||