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Ethernet in the first mile : access for everyone / / Wael William Diab, Howard Frazier
| Ethernet in the first mile : access for everyone / / Wael William Diab, Howard Frazier |
| Autore | Diab Wael William <1976-> |
| Pubbl/distr/stampa | New York : , : IEEE, , 2006 |
| Descrizione fisica | 1 PDF |
| Disciplina | 341.7/577/094 |
| Altri autori (Persone) | FrazierHoward <1961-> (Howard M.) |
| Soggetto topico |
Telecommunication - Law and legislation - European Union countries
Telecommunication equipment industry - Law and legislation - European Union countries Law - Non-U.S Law, Politics & Government Law - Europe, except U.K Ethernet (Local area network system) Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-118-12862-1
1-118-12199-6 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Introduction xxii -- Chapter 1 Background and History 1 -- 1. Introduction 2 -- 1.1 Overview of the chapter 2 -- 1.2 What to expect and who would benefit from reading this chapter 2 -- 1.3 What is the IEEE and where did that 802 number come from? 2 -- 1.4 A few words on the structure of IEEE 802 and its sub-groups 3 -- 1.5 What is an IEEE 802 standard? 5 -- 1.6 The IEEE 802.3 family -- Ethernet 11 -- 1.7 History of IEEE Std 802.3ah 11 -- 1.8 EFM as a new addition to the IEEE 802.3 family 12 -- 1.9 Summary of Concepts Covered in this Chapter 13 -- 1.10 Additional References 13 -- Chapter 2 The Evolution of Broadband Ethernet 15 -- 2. Introduction 16 -- 2.1 Overview of the chapter 16 -- 2.2 What to expect, and who would benefit from reading this chapter 16 -- 2.3 Broadband access -- Data to the people! 17 -- 2.4 Ethernet to the rescue 26 -- 2.5 Defining the scope of work 28 -- 2.6 Summary and concepts covered in this chapter 36 -- 2.7 Additional References 36 -- Chapter 3 Overview of the EFM Standard 37 -- 3. Introduction 38 -- 3.1 Overview of the chapter 38 -- 3.2 What to expect and the benefit of reading this chapter 38 -- 3.3 Overview of the solutions introduced by EFM 38 -- 3.4 The scope of ethernet: The 7-layer OSI model 39 -- 3.5 The Ethernet Naming Convention and the Physical Layer Signaling System 43 -- 3.6 EFM's nine technologies and fourteen port types 45 -- 3.7 A closer look at the architectural positioning of EFM 53 -- 3.8 The scope of EFM 60 -- 3.9 What to read and where to find it: Structure of the EFM document 61 -- 3.10 Summary of concepts covered in this chapter 61 -- Chapter 4 Overview of the EFM Optical Specifications 63 -- 4. Introduction 64 -- 4.1 Overview of the chapter 65 -- 4.2 What to expect and who would benefit from reading this chapter 65 -- 4.3 What is an optical PMD, and why should I care? 65 -- 4.4. A Cost enabling philosophy 66 -- 4.5 The style and structure of the optical clauses 68 -- 4.6 Common framework 69 -- 4.7 An introduction to the optical tests 92 -- 4.8 Killer packets: A life-saving contribution to the system folks 93 -- 4.9 Jitter: The important 'normative' information 97 -- 4.10 Summary and concepts covered in this chapter 98 -- 4.11 Additional references 98 -- Chapter 5 EFM's point-to-point optical solutions 99
5. Introduction 100 -- 5.1 Overview of the chapter 100 -- 5.2 What to expect and who would benefit from reading this chapter 101 -- 5.3 A few more words on the transceiver and the underlying laser technologies 101 -- 5.4 Architectural decisions 104 -- 5.5 100 Mbps dual fiber P2P 114 -- 5.6 100 Mbps single fiber P2P 120 -- 5.7 1000 Mbps dual fiber P2P 126 -- 5.8 1000 Mbps single fiber P2P 139 -- 5.9 Extended temperature operation 146 -- 5.10 Platform design: Leveraging the optical commonalities for cost-effective implementations 149 -- 5.11 Summary of concepts covered in this chapter 150 -- 5.12 Additional references 150 -- Chapter 6 Looking above the PMDs for EFM's Point-to-Point Optical Solutions 151 -- 6. Introduction 152 -- 6.1 Overview of the chapter 152 -- 6.2 What to expect and who would benefit from reading this chapter 152 -- 6.3 The purpose of Clause 66 152 -- 6.4 Review of the layer model for EFM optical point-to-point links 153 -- 6.5 Layers common to 100 Mbps and 1000 Mbps 154 -- 6.6 100BASE-X 156 -- 6.7 1000BASE-X 162 -- 6.8 Summary of concepts covered in this chapter 175 -- 6.9 Additional References 175 -- Chapter 7 An Introduction to EPONs and a Discussion of the P2MP PMDs 177 -- 7. Introduction 178 -- 7.1 Overview of the chapter 178 -- 7.2 What to expect and who would benefit from reading this chapter 179 -- 7.3 Background and Basic PON and EPON Frameworks 179 -- 7.4 An architectural introduction 185 -- 7.5 Architectural decisions 186 -- 7.6 The guts of an EPON transceiver: Similarities between 1000BASE-BX and 1000BASE-PX transceivers 189 -- 7.7 New PMD parameters 190 -- 7.8 1000BASE-PX10: Single fiber 10 km P2MP 192 -- 7.9 1000BASE-PX20: Single fiber 20 km P2MP 208 -- 7.10 Interoperability between the various EPON PMDs 220 -- 7.11 EPON topologies 221 -- 7.12 Summary of concepts covered in this chapter 223 -- Chapter 8 The EPON PHY 225 -- 8. Introduction 226 -- 8.1 Overview of the chapter 227 -- 8.2 What to expect and who would benefit from reading this chapter 227 -- 8.3 65: The "reader's digest" 227 -- 8.4 The Gigabit Ethernet layers 228 -- 8.5 Point-to-point emulation 232 -- 8.6 Burst mode operation 240 -- 8.7 Forward error correction (FEC) for 1000BASE-PX 260 -- 8.8 Delay through the PHY 268 -- 8.9 Summary of concepts covered in this chapter 269 -- 8.10 Additional references 269 -- Chapter 9 EPON Multipoint Control Protocol 271 -- 9. Introduction 272 -- 9.1 Overview of the chapter 272 -- 9.2 Who will benefit from reading this chapter 272 -- 9.3 Overview of MPCP 272 -- 9.4 MPCPDUs 284 -- 9.5 Discovery and registration process 291 -- 9.6 GATE and REPORT messages 292 -- 9.7 Single copy broadcasting 293 -- 9.8 Summary of concepts covered in this chapter 293 -- 9.9 Additional References 293 -- Chapter 10 Copper Physical Layers 295. 10. Introduction 296 -- 10.1 Overview of the chapter 296 -- 10.2 Who will benefit from reading this chapter 296 -- 10.3 The premise of Ethernet over telephone wire 296 -- 10.4 Relationship to ATIS, ETSI, and ITU-T 298 -- 10.5 The need for two modulation techniques 301 -- 10.6 Layering and sublayer interfaces 305 -- 10.7 Physical coding sublayer (PCS) functions 310 -- 10.8 Transmission convergence (TC) sublayer functions 314 -- 10.9 Management 321 -- 10.10 Summary of the concepts presented in this chapter 324 -- 10.11 For further reference 324 -- Chapter 11 Copper Physical Layer Signalling 325 -- 11. Introduction 326 -- 11.1 Overview of the chapter 326 -- 11.2 Who will benefit from reading this chapter 326 -- 11.3 10PASS-TS (Ethernet over VDSL) 326 -- 11.4 2BASE-TL (Ethernet over SHDSL) 339 -- 11.5 Summary of concepts covered in this chapter 344 -- 11.6 Additional references 345 -- Chapter 12 Simplified Full-Duplex Media Access Control 347 -- 12. Introduction 348 -- 12.1 Overview of the chapter 348 -- 12.2 Who will benefit from reading this chapter 348 -- 12.3 The evolution of the Ethernet MAC 348 -- 12.4 Full-duplex flow control using 'Pause' 352 -- 12.5 IPG stretching 354 -- 12.6 Full-duplex flow control using carrier deferral 355 -- 12.7 The simplified full-duplex MAC 356 -- 12.8 Applicability for EFM 360 -- 12.9 Applicability beyond EFM 360 -- 12.10 Summary of the concepts presented in this chapter 361 -- 12.11 For further reference 361 -- Chapter 13 Management 363 -- 13. Introduction 364 -- 13.1 Overview of the chapter 364 -- 13.2 What to expect and who would benefit from reading this chapter 364 -- 13.3 Enterprise network management 364 -- 13.4 Broadband subscriber access network management 368 -- 13.5 Review of the OAM objective 369 -- 13.6 Overview of the protocol 374 -- 13.7 OAM protocol data units 377 -- 13.8 Modes 386 -- 13.9 Discovery 387 -- 13.10 Multiplexer and parser 388 -- 13.11 Additions to Clause 30 390 -- 13.12 Additions to Clause 45 394 -- 13.13 Summary of concepts covered in this chapter 394 -- 13.14 Additional references 395 -- Chapter 14 Summary and Conclusions 397 -- 14. Introduction 398 -- 14.1 Overview of the chapter 398 -- 14.2 What to expect, and who would benefit from reading this chapter 398 -- 14.3 Summary 398 -- 14.4 Conclusions 414 -- Annex A The Different PONs 417 -- A. Introduction 418 -- A.l Overview of the Annex 418 -- A.2 What to expect and who would benefit from reading this Annex 418 -- A.3 What are the other PONs? 418 -- A.4 Physical layer and protocol differences 420 -- A.4.1 APON/BPON 421 -- A.4.2GPON 425 -- A.5 Summary of concepts covered in this Annex 432 -- A.6 Additional references 432 -- Index 433. |
| Record Nr. | UNINA-9910133688403321 |
Diab Wael William <1976->
|
||
| New York : , : IEEE, , 2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Ethernet in the first mile : access for everyone / / Wael William Diab, Howard Frazier
| Ethernet in the first mile : access for everyone / / Wael William Diab, Howard Frazier |
| Autore | Diab Wael William <1976-> |
| Pubbl/distr/stampa | New York : , : IEEE, , 2006 |
| Descrizione fisica | 1 PDF |
| Disciplina | 341.7/577/094 |
| Altri autori (Persone) | FrazierHoward <1961-> (Howard M.) |
| Soggetto topico |
Telecommunication - Law and legislation - European Union countries
Telecommunication equipment industry - Law and legislation - European Union countries Law - Non-U.S Law, Politics & Government Law - Europe, except U.K Ethernet (Local area network system) Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-118-12862-1
1-118-12199-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Introduction xxii -- Chapter 1 Background and History 1 -- 1. Introduction 2 -- 1.1 Overview of the chapter 2 -- 1.2 What to expect and who would benefit from reading this chapter 2 -- 1.3 What is the IEEE and where did that 802 number come from? 2 -- 1.4 A few words on the structure of IEEE 802 and its sub-groups 3 -- 1.5 What is an IEEE 802 standard? 5 -- 1.6 The IEEE 802.3 family -- Ethernet 11 -- 1.7 History of IEEE Std 802.3ah 11 -- 1.8 EFM as a new addition to the IEEE 802.3 family 12 -- 1.9 Summary of Concepts Covered in this Chapter 13 -- 1.10 Additional References 13 -- Chapter 2 The Evolution of Broadband Ethernet 15 -- 2. Introduction 16 -- 2.1 Overview of the chapter 16 -- 2.2 What to expect, and who would benefit from reading this chapter 16 -- 2.3 Broadband access -- Data to the people! 17 -- 2.4 Ethernet to the rescue 26 -- 2.5 Defining the scope of work 28 -- 2.6 Summary and concepts covered in this chapter 36 -- 2.7 Additional References 36 -- Chapter 3 Overview of the EFM Standard 37 -- 3. Introduction 38 -- 3.1 Overview of the chapter 38 -- 3.2 What to expect and the benefit of reading this chapter 38 -- 3.3 Overview of the solutions introduced by EFM 38 -- 3.4 The scope of ethernet: The 7-layer OSI model 39 -- 3.5 The Ethernet Naming Convention and the Physical Layer Signaling System 43 -- 3.6 EFM's nine technologies and fourteen port types 45 -- 3.7 A closer look at the architectural positioning of EFM 53 -- 3.8 The scope of EFM 60 -- 3.9 What to read and where to find it: Structure of the EFM document 61 -- 3.10 Summary of concepts covered in this chapter 61 -- Chapter 4 Overview of the EFM Optical Specifications 63 -- 4. Introduction 64 -- 4.1 Overview of the chapter 65 -- 4.2 What to expect and who would benefit from reading this chapter 65 -- 4.3 What is an optical PMD, and why should I care? 65 -- 4.4. A Cost enabling philosophy 66 -- 4.5 The style and structure of the optical clauses 68 -- 4.6 Common framework 69 -- 4.7 An introduction to the optical tests 92 -- 4.8 Killer packets: A life-saving contribution to the system folks 93 -- 4.9 Jitter: The important 'normative' information 97 -- 4.10 Summary and concepts covered in this chapter 98 -- 4.11 Additional references 98 -- Chapter 5 EFM's point-to-point optical solutions 99
5. Introduction 100 -- 5.1 Overview of the chapter 100 -- 5.2 What to expect and who would benefit from reading this chapter 101 -- 5.3 A few more words on the transceiver and the underlying laser technologies 101 -- 5.4 Architectural decisions 104 -- 5.5 100 Mbps dual fiber P2P 114 -- 5.6 100 Mbps single fiber P2P 120 -- 5.7 1000 Mbps dual fiber P2P 126 -- 5.8 1000 Mbps single fiber P2P 139 -- 5.9 Extended temperature operation 146 -- 5.10 Platform design: Leveraging the optical commonalities for cost-effective implementations 149 -- 5.11 Summary of concepts covered in this chapter 150 -- 5.12 Additional references 150 -- Chapter 6 Looking above the PMDs for EFM's Point-to-Point Optical Solutions 151 -- 6. Introduction 152 -- 6.1 Overview of the chapter 152 -- 6.2 What to expect and who would benefit from reading this chapter 152 -- 6.3 The purpose of Clause 66 152 -- 6.4 Review of the layer model for EFM optical point-to-point links 153 -- 6.5 Layers common to 100 Mbps and 1000 Mbps 154 -- 6.6 100BASE-X 156 -- 6.7 1000BASE-X 162 -- 6.8 Summary of concepts covered in this chapter 175 -- 6.9 Additional References 175 -- Chapter 7 An Introduction to EPONs and a Discussion of the P2MP PMDs 177 -- 7. Introduction 178 -- 7.1 Overview of the chapter 178 -- 7.2 What to expect and who would benefit from reading this chapter 179 -- 7.3 Background and Basic PON and EPON Frameworks 179 -- 7.4 An architectural introduction 185 -- 7.5 Architectural decisions 186 -- 7.6 The guts of an EPON transceiver: Similarities between 1000BASE-BX and 1000BASE-PX transceivers 189 -- 7.7 New PMD parameters 190 -- 7.8 1000BASE-PX10: Single fiber 10 km P2MP 192 -- 7.9 1000BASE-PX20: Single fiber 20 km P2MP 208 -- 7.10 Interoperability between the various EPON PMDs 220 -- 7.11 EPON topologies 221 -- 7.12 Summary of concepts covered in this chapter 223 -- Chapter 8 The EPON PHY 225 -- 8. Introduction 226 -- 8.1 Overview of the chapter 227 -- 8.2 What to expect and who would benefit from reading this chapter 227 -- 8.3 65: The "reader's digest" 227 -- 8.4 The Gigabit Ethernet layers 228 -- 8.5 Point-to-point emulation 232 -- 8.6 Burst mode operation 240 -- 8.7 Forward error correction (FEC) for 1000BASE-PX 260 -- 8.8 Delay through the PHY 268 -- 8.9 Summary of concepts covered in this chapter 269 -- 8.10 Additional references 269 -- Chapter 9 EPON Multipoint Control Protocol 271 -- 9. Introduction 272 -- 9.1 Overview of the chapter 272 -- 9.2 Who will benefit from reading this chapter 272 -- 9.3 Overview of MPCP 272 -- 9.4 MPCPDUs 284 -- 9.5 Discovery and registration process 291 -- 9.6 GATE and REPORT messages 292 -- 9.7 Single copy broadcasting 293 -- 9.8 Summary of concepts covered in this chapter 293 -- 9.9 Additional References 293 -- Chapter 10 Copper Physical Layers 295. 10. Introduction 296 -- 10.1 Overview of the chapter 296 -- 10.2 Who will benefit from reading this chapter 296 -- 10.3 The premise of Ethernet over telephone wire 296 -- 10.4 Relationship to ATIS, ETSI, and ITU-T 298 -- 10.5 The need for two modulation techniques 301 -- 10.6 Layering and sublayer interfaces 305 -- 10.7 Physical coding sublayer (PCS) functions 310 -- 10.8 Transmission convergence (TC) sublayer functions 314 -- 10.9 Management 321 -- 10.10 Summary of the concepts presented in this chapter 324 -- 10.11 For further reference 324 -- Chapter 11 Copper Physical Layer Signalling 325 -- 11. Introduction 326 -- 11.1 Overview of the chapter 326 -- 11.2 Who will benefit from reading this chapter 326 -- 11.3 10PASS-TS (Ethernet over VDSL) 326 -- 11.4 2BASE-TL (Ethernet over SHDSL) 339 -- 11.5 Summary of concepts covered in this chapter 344 -- 11.6 Additional references 345 -- Chapter 12 Simplified Full-Duplex Media Access Control 347 -- 12. Introduction 348 -- 12.1 Overview of the chapter 348 -- 12.2 Who will benefit from reading this chapter 348 -- 12.3 The evolution of the Ethernet MAC 348 -- 12.4 Full-duplex flow control using 'Pause' 352 -- 12.5 IPG stretching 354 -- 12.6 Full-duplex flow control using carrier deferral 355 -- 12.7 The simplified full-duplex MAC 356 -- 12.8 Applicability for EFM 360 -- 12.9 Applicability beyond EFM 360 -- 12.10 Summary of the concepts presented in this chapter 361 -- 12.11 For further reference 361 -- Chapter 13 Management 363 -- 13. Introduction 364 -- 13.1 Overview of the chapter 364 -- 13.2 What to expect and who would benefit from reading this chapter 364 -- 13.3 Enterprise network management 364 -- 13.4 Broadband subscriber access network management 368 -- 13.5 Review of the OAM objective 369 -- 13.6 Overview of the protocol 374 -- 13.7 OAM protocol data units 377 -- 13.8 Modes 386 -- 13.9 Discovery 387 -- 13.10 Multiplexer and parser 388 -- 13.11 Additions to Clause 30 390 -- 13.12 Additions to Clause 45 394 -- 13.13 Summary of concepts covered in this chapter 394 -- 13.14 Additional references 395 -- Chapter 14 Summary and Conclusions 397 -- 14. Introduction 398 -- 14.1 Overview of the chapter 398 -- 14.2 What to expect, and who would benefit from reading this chapter 398 -- 14.3 Summary 398 -- 14.4 Conclusions 414 -- Annex A The Different PONs 417 -- A. Introduction 418 -- A.l Overview of the Annex 418 -- A.2 What to expect and who would benefit from reading this Annex 418 -- A.3 What are the other PONs? 418 -- A.4 Physical layer and protocol differences 420 -- A.4.1 APON/BPON 421 -- A.4.2GPON 425 -- A.5 Summary of concepts covered in this Annex 432 -- A.6 Additional references 432 -- Index 433. |
| Record Nr. | UNISA-996218690803316 |
|
Diab Wael William <1976->
|
||
| New York : , : IEEE, , 2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Ethernet in the first mile : access for everyone / / Wael William Diab, Howard Frazier
| Ethernet in the first mile : access for everyone / / Wael William Diab, Howard Frazier |
| Autore | Diab Wael William <1976-> |
| Pubbl/distr/stampa | New York : , : IEEE, , 2006 |
| Descrizione fisica | 1 PDF |
| Disciplina | 341.7/577/094 |
| Altri autori (Persone) | FrazierHoward <1961-> (Howard M.) |
| Soggetto topico |
Telecommunication - Law and legislation - European Union countries
Telecommunication equipment industry - Law and legislation - European Union countries Law - Non-U.S Law, Politics & Government Law - Europe, except U.K Ethernet (Local area network system) Electrical & Computer Engineering Engineering & Applied Sciences Telecommunications |
| ISBN |
1-118-12862-1
1-118-12199-6 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Introduction xxii -- Chapter 1 Background and History 1 -- 1. Introduction 2 -- 1.1 Overview of the chapter 2 -- 1.2 What to expect and who would benefit from reading this chapter 2 -- 1.3 What is the IEEE and where did that 802 number come from? 2 -- 1.4 A few words on the structure of IEEE 802 and its sub-groups 3 -- 1.5 What is an IEEE 802 standard? 5 -- 1.6 The IEEE 802.3 family -- Ethernet 11 -- 1.7 History of IEEE Std 802.3ah 11 -- 1.8 EFM as a new addition to the IEEE 802.3 family 12 -- 1.9 Summary of Concepts Covered in this Chapter 13 -- 1.10 Additional References 13 -- Chapter 2 The Evolution of Broadband Ethernet 15 -- 2. Introduction 16 -- 2.1 Overview of the chapter 16 -- 2.2 What to expect, and who would benefit from reading this chapter 16 -- 2.3 Broadband access -- Data to the people! 17 -- 2.4 Ethernet to the rescue 26 -- 2.5 Defining the scope of work 28 -- 2.6 Summary and concepts covered in this chapter 36 -- 2.7 Additional References 36 -- Chapter 3 Overview of the EFM Standard 37 -- 3. Introduction 38 -- 3.1 Overview of the chapter 38 -- 3.2 What to expect and the benefit of reading this chapter 38 -- 3.3 Overview of the solutions introduced by EFM 38 -- 3.4 The scope of ethernet: The 7-layer OSI model 39 -- 3.5 The Ethernet Naming Convention and the Physical Layer Signaling System 43 -- 3.6 EFM's nine technologies and fourteen port types 45 -- 3.7 A closer look at the architectural positioning of EFM 53 -- 3.8 The scope of EFM 60 -- 3.9 What to read and where to find it: Structure of the EFM document 61 -- 3.10 Summary of concepts covered in this chapter 61 -- Chapter 4 Overview of the EFM Optical Specifications 63 -- 4. Introduction 64 -- 4.1 Overview of the chapter 65 -- 4.2 What to expect and who would benefit from reading this chapter 65 -- 4.3 What is an optical PMD, and why should I care? 65 -- 4.4. A Cost enabling philosophy 66 -- 4.5 The style and structure of the optical clauses 68 -- 4.6 Common framework 69 -- 4.7 An introduction to the optical tests 92 -- 4.8 Killer packets: A life-saving contribution to the system folks 93 -- 4.9 Jitter: The important 'normative' information 97 -- 4.10 Summary and concepts covered in this chapter 98 -- 4.11 Additional references 98 -- Chapter 5 EFM's point-to-point optical solutions 99
5. Introduction 100 -- 5.1 Overview of the chapter 100 -- 5.2 What to expect and who would benefit from reading this chapter 101 -- 5.3 A few more words on the transceiver and the underlying laser technologies 101 -- 5.4 Architectural decisions 104 -- 5.5 100 Mbps dual fiber P2P 114 -- 5.6 100 Mbps single fiber P2P 120 -- 5.7 1000 Mbps dual fiber P2P 126 -- 5.8 1000 Mbps single fiber P2P 139 -- 5.9 Extended temperature operation 146 -- 5.10 Platform design: Leveraging the optical commonalities for cost-effective implementations 149 -- 5.11 Summary of concepts covered in this chapter 150 -- 5.12 Additional references 150 -- Chapter 6 Looking above the PMDs for EFM's Point-to-Point Optical Solutions 151 -- 6. Introduction 152 -- 6.1 Overview of the chapter 152 -- 6.2 What to expect and who would benefit from reading this chapter 152 -- 6.3 The purpose of Clause 66 152 -- 6.4 Review of the layer model for EFM optical point-to-point links 153 -- 6.5 Layers common to 100 Mbps and 1000 Mbps 154 -- 6.6 100BASE-X 156 -- 6.7 1000BASE-X 162 -- 6.8 Summary of concepts covered in this chapter 175 -- 6.9 Additional References 175 -- Chapter 7 An Introduction to EPONs and a Discussion of the P2MP PMDs 177 -- 7. Introduction 178 -- 7.1 Overview of the chapter 178 -- 7.2 What to expect and who would benefit from reading this chapter 179 -- 7.3 Background and Basic PON and EPON Frameworks 179 -- 7.4 An architectural introduction 185 -- 7.5 Architectural decisions 186 -- 7.6 The guts of an EPON transceiver: Similarities between 1000BASE-BX and 1000BASE-PX transceivers 189 -- 7.7 New PMD parameters 190 -- 7.8 1000BASE-PX10: Single fiber 10 km P2MP 192 -- 7.9 1000BASE-PX20: Single fiber 20 km P2MP 208 -- 7.10 Interoperability between the various EPON PMDs 220 -- 7.11 EPON topologies 221 -- 7.12 Summary of concepts covered in this chapter 223 -- Chapter 8 The EPON PHY 225 -- 8. Introduction 226 -- 8.1 Overview of the chapter 227 -- 8.2 What to expect and who would benefit from reading this chapter 227 -- 8.3 65: The "reader's digest" 227 -- 8.4 The Gigabit Ethernet layers 228 -- 8.5 Point-to-point emulation 232 -- 8.6 Burst mode operation 240 -- 8.7 Forward error correction (FEC) for 1000BASE-PX 260 -- 8.8 Delay through the PHY 268 -- 8.9 Summary of concepts covered in this chapter 269 -- 8.10 Additional references 269 -- Chapter 9 EPON Multipoint Control Protocol 271 -- 9. Introduction 272 -- 9.1 Overview of the chapter 272 -- 9.2 Who will benefit from reading this chapter 272 -- 9.3 Overview of MPCP 272 -- 9.4 MPCPDUs 284 -- 9.5 Discovery and registration process 291 -- 9.6 GATE and REPORT messages 292 -- 9.7 Single copy broadcasting 293 -- 9.8 Summary of concepts covered in this chapter 293 -- 9.9 Additional References 293 -- Chapter 10 Copper Physical Layers 295. 10. Introduction 296 -- 10.1 Overview of the chapter 296 -- 10.2 Who will benefit from reading this chapter 296 -- 10.3 The premise of Ethernet over telephone wire 296 -- 10.4 Relationship to ATIS, ETSI, and ITU-T 298 -- 10.5 The need for two modulation techniques 301 -- 10.6 Layering and sublayer interfaces 305 -- 10.7 Physical coding sublayer (PCS) functions 310 -- 10.8 Transmission convergence (TC) sublayer functions 314 -- 10.9 Management 321 -- 10.10 Summary of the concepts presented in this chapter 324 -- 10.11 For further reference 324 -- Chapter 11 Copper Physical Layer Signalling 325 -- 11. Introduction 326 -- 11.1 Overview of the chapter 326 -- 11.2 Who will benefit from reading this chapter 326 -- 11.3 10PASS-TS (Ethernet over VDSL) 326 -- 11.4 2BASE-TL (Ethernet over SHDSL) 339 -- 11.5 Summary of concepts covered in this chapter 344 -- 11.6 Additional references 345 -- Chapter 12 Simplified Full-Duplex Media Access Control 347 -- 12. Introduction 348 -- 12.1 Overview of the chapter 348 -- 12.2 Who will benefit from reading this chapter 348 -- 12.3 The evolution of the Ethernet MAC 348 -- 12.4 Full-duplex flow control using 'Pause' 352 -- 12.5 IPG stretching 354 -- 12.6 Full-duplex flow control using carrier deferral 355 -- 12.7 The simplified full-duplex MAC 356 -- 12.8 Applicability for EFM 360 -- 12.9 Applicability beyond EFM 360 -- 12.10 Summary of the concepts presented in this chapter 361 -- 12.11 For further reference 361 -- Chapter 13 Management 363 -- 13. Introduction 364 -- 13.1 Overview of the chapter 364 -- 13.2 What to expect and who would benefit from reading this chapter 364 -- 13.3 Enterprise network management 364 -- 13.4 Broadband subscriber access network management 368 -- 13.5 Review of the OAM objective 369 -- 13.6 Overview of the protocol 374 -- 13.7 OAM protocol data units 377 -- 13.8 Modes 386 -- 13.9 Discovery 387 -- 13.10 Multiplexer and parser 388 -- 13.11 Additions to Clause 30 390 -- 13.12 Additions to Clause 45 394 -- 13.13 Summary of concepts covered in this chapter 394 -- 13.14 Additional references 395 -- Chapter 14 Summary and Conclusions 397 -- 14. Introduction 398 -- 14.1 Overview of the chapter 398 -- 14.2 What to expect, and who would benefit from reading this chapter 398 -- 14.3 Summary 398 -- 14.4 Conclusions 414 -- Annex A The Different PONs 417 -- A. Introduction 418 -- A.l Overview of the Annex 418 -- A.2 What to expect and who would benefit from reading this Annex 418 -- A.3 What are the other PONs? 418 -- A.4 Physical layer and protocol differences 420 -- A.4.1 APON/BPON 421 -- A.4.2GPON 425 -- A.5 Summary of concepts covered in this Annex 432 -- A.6 Additional references 432 -- Index 433. |
| Record Nr. | UNINA-9910830248203321 |
|
Diab Wael William <1976->
|
||
| New York : , : IEEE, , 2006 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||