Broadband optical access networks and fiber-to-the-home [[electronic resource] ] : systems technologies and deployment strategies / / edited by Chinlon Lin |
Pubbl/distr/stampa | Chichester, England ; ; Hoboken, NJ, : Wiley, c2006 |
Descrizione fisica | 1 online resource (336 p.) |
Disciplina |
004.6/4
004.64 621.3821 |
Altri autori (Persone) | LinChinlon |
Soggetto topico |
Optical fiber subscriber loops
Broadband communication systems |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-51930-4
9786610519309 0-470-09480-X 0-470-09479-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Broadband Optical Access Networks and Fiber-to-the-Home; Contents; Foreword; Preface and Overview; Acronyms; Contributors List; 1 Broadband Optical Access Technologies and FTTH Deployment in NTT; 1.1 Introduction; 1.2 History of Optical Technology in Japan; 1.2.1 The First Research on Subscriber Optical Transmission Systems; 1.2.2 From Multi-Mode Fiber to Single-Mode Fiber; 1.2.3 Development of CT/RT System; 1.2.4 Moving Towards FTTH; 1.2.5 Optical Systems at Metal-Wire Costs; 1.2.6 Access Network Optical Upgrading Program; 1.3 Trends in Broadband Services
1.3.1 Growth of Broadband Services in Japan1.3.2 Vision for a New Optical Generation; 1.4 Optical Access Technology Behind Broadband Services; 1.4.1 Optical Access Technology for Current Broadband Services; 1.4.2 Broadband Access Network Technology in the Future; 1.5 Conclusion; References; 2 Today's Broadband Fiber Access Technologies and Deployment Considerations at SBC; 2.1 Introduction; 2.2 Fiber-to-the-Neighborhood (FTTX) Architecture; 2.2.1 FTTH Access Architecture; 2.2.2 FTTN Access Architecture; 2.3 ITU-T PON Standards; 2.3.1 ITU-T G.983 B-PON Standards Series 2.3.2 ITU-T G.984 G-PON for Higher Speeds2.3.3 The Role of Standards in Interoperability; 2.4 PON Technology Background; 2.4.1 Upstream Bandwidth Assignment; 2.4.2 Ranging; 2.4.3 Splitters; 2.5 The SBC FTTH Network; 2.5.1 The Optical Fiber/Distribution Network; 2.5.2 FTTH ONTs; 2.5.3 SBC's Mission Bay Trial; 2.6 SBC Fiber to the Node (FTTN) NETWORK; 2.7 The Home Network; 2.8 Motivating the New Network - IPTV; Summary; General References; 3 FTTH: The Swedish Perspective; 3.1 Introduction; 3.2 Contents; 3.3 Definitions; 3.3.1 Broadband Definition; 3.3.2 FTTH Definition 3.3.3 Muni Net Definition3.3.4 Residential Area Network, Definition; 3.4 Background for the Swedish FTTH Boom; 3.5 The Swedish Broadband Market Today; 3.5.1 Broadband Penetration Compared to the OECD; 3.5.2 The Broadband Market and Access Technologies in Sweden; 3.5.3 Equipment Suppliers; 3.5.4 The Swedish Broadband Industry; 3.5.5 Collaboration Between Industry and Academia; 3.6 Open Networks Versus Vertical Integration; 3.6.1 The Open Network; 3.6.2 Functions When Operating Muni Nets; 3.6.3 Relationships and Monetary Flows in Muni Nets; 3.6.4 Open Networks Versus Vertical Integration 3.7 Access Network Technologies3.7.1 PON Versus Point-to-Point Ethernet; 3.7.2 L2 Versus L3 Access Architectures; 3.8 Drivers, Services and Trends for the Future Broadband Networks; 3.8.1 Operators and Network Owners; 3.8.2 Authorities; 3.9 Description of Key Swedish FTTH Players; 3.9.1 PacketFront; 3.9.2 Ericsson; 3.9.3 TeliaSonera; 3.9.4 Svenska Bosta ̈der in Va ̈llingby: A Greenfield Deployment; 3.9.5 Stockholm and the Va ̈llingby Model: A Brownfield Deployment; 3.10 Summary; Acknowledgements; References; 4 Broadband Access Networks and Services in Korea 4.1 Changing Environments and FITL Plan |
Record Nr. | UNINA-9910143714603321 |
Chichester, England ; ; Hoboken, NJ, : Wiley, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Broadband optical access networks and fiber-to-the-home [[electronic resource] ] : systems technologies and deployment strategies / / edited by Chinlon Lin |
Pubbl/distr/stampa | Chichester, England ; ; Hoboken, NJ, : Wiley, c2006 |
Descrizione fisica | 1 online resource (336 p.) |
Disciplina |
004.6/4
004.64 621.3821 |
Altri autori (Persone) | LinChinlon |
Soggetto topico |
Optical fiber subscriber loops
Broadband communication systems |
ISBN |
1-280-51930-4
9786610519309 0-470-09480-X 0-470-09479-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Broadband Optical Access Networks and Fiber-to-the-Home; Contents; Foreword; Preface and Overview; Acronyms; Contributors List; 1 Broadband Optical Access Technologies and FTTH Deployment in NTT; 1.1 Introduction; 1.2 History of Optical Technology in Japan; 1.2.1 The First Research on Subscriber Optical Transmission Systems; 1.2.2 From Multi-Mode Fiber to Single-Mode Fiber; 1.2.3 Development of CT/RT System; 1.2.4 Moving Towards FTTH; 1.2.5 Optical Systems at Metal-Wire Costs; 1.2.6 Access Network Optical Upgrading Program; 1.3 Trends in Broadband Services
1.3.1 Growth of Broadband Services in Japan1.3.2 Vision for a New Optical Generation; 1.4 Optical Access Technology Behind Broadband Services; 1.4.1 Optical Access Technology for Current Broadband Services; 1.4.2 Broadband Access Network Technology in the Future; 1.5 Conclusion; References; 2 Today's Broadband Fiber Access Technologies and Deployment Considerations at SBC; 2.1 Introduction; 2.2 Fiber-to-the-Neighborhood (FTTX) Architecture; 2.2.1 FTTH Access Architecture; 2.2.2 FTTN Access Architecture; 2.3 ITU-T PON Standards; 2.3.1 ITU-T G.983 B-PON Standards Series 2.3.2 ITU-T G.984 G-PON for Higher Speeds2.3.3 The Role of Standards in Interoperability; 2.4 PON Technology Background; 2.4.1 Upstream Bandwidth Assignment; 2.4.2 Ranging; 2.4.3 Splitters; 2.5 The SBC FTTH Network; 2.5.1 The Optical Fiber/Distribution Network; 2.5.2 FTTH ONTs; 2.5.3 SBC's Mission Bay Trial; 2.6 SBC Fiber to the Node (FTTN) NETWORK; 2.7 The Home Network; 2.8 Motivating the New Network - IPTV; Summary; General References; 3 FTTH: The Swedish Perspective; 3.1 Introduction; 3.2 Contents; 3.3 Definitions; 3.3.1 Broadband Definition; 3.3.2 FTTH Definition 3.3.3 Muni Net Definition3.3.4 Residential Area Network, Definition; 3.4 Background for the Swedish FTTH Boom; 3.5 The Swedish Broadband Market Today; 3.5.1 Broadband Penetration Compared to the OECD; 3.5.2 The Broadband Market and Access Technologies in Sweden; 3.5.3 Equipment Suppliers; 3.5.4 The Swedish Broadband Industry; 3.5.5 Collaboration Between Industry and Academia; 3.6 Open Networks Versus Vertical Integration; 3.6.1 The Open Network; 3.6.2 Functions When Operating Muni Nets; 3.6.3 Relationships and Monetary Flows in Muni Nets; 3.6.4 Open Networks Versus Vertical Integration 3.7 Access Network Technologies3.7.1 PON Versus Point-to-Point Ethernet; 3.7.2 L2 Versus L3 Access Architectures; 3.8 Drivers, Services and Trends for the Future Broadband Networks; 3.8.1 Operators and Network Owners; 3.8.2 Authorities; 3.9 Description of Key Swedish FTTH Players; 3.9.1 PacketFront; 3.9.2 Ericsson; 3.9.3 TeliaSonera; 3.9.4 Svenska Bosta ̈der in Va ̈llingby: A Greenfield Deployment; 3.9.5 Stockholm and the Va ̈llingby Model: A Brownfield Deployment; 3.10 Summary; Acknowledgements; References; 4 Broadband Access Networks and Services in Korea 4.1 Changing Environments and FITL Plan |
Record Nr. | UNINA-9910830868203321 |
Chichester, England ; ; Hoboken, NJ, : Wiley, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Broadband optical access networks and fiber-to-the-home : systems technologies and deployment strategies / / edited by Chinlon Lin |
Pubbl/distr/stampa | Chichester, England ; ; Hoboken, NJ, : Wiley, c2006 |
Descrizione fisica | 1 online resource (336 p.) |
Disciplina | 004.6/4 |
Altri autori (Persone) | LinChinlon |
Soggetto topico |
Optical fiber subscriber loops
Broadband communication systems |
ISBN |
1-280-51930-4
9786610519309 0-470-09480-X 0-470-09479-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Broadband Optical Access Networks and Fiber-to-the-Home; Contents; Foreword; Preface and Overview; Acronyms; Contributors List; 1 Broadband Optical Access Technologies and FTTH Deployment in NTT; 1.1 Introduction; 1.2 History of Optical Technology in Japan; 1.2.1 The First Research on Subscriber Optical Transmission Systems; 1.2.2 From Multi-Mode Fiber to Single-Mode Fiber; 1.2.3 Development of CT/RT System; 1.2.4 Moving Towards FTTH; 1.2.5 Optical Systems at Metal-Wire Costs; 1.2.6 Access Network Optical Upgrading Program; 1.3 Trends in Broadband Services
1.3.1 Growth of Broadband Services in Japan1.3.2 Vision for a New Optical Generation; 1.4 Optical Access Technology Behind Broadband Services; 1.4.1 Optical Access Technology for Current Broadband Services; 1.4.2 Broadband Access Network Technology in the Future; 1.5 Conclusion; References; 2 Today's Broadband Fiber Access Technologies and Deployment Considerations at SBC; 2.1 Introduction; 2.2 Fiber-to-the-Neighborhood (FTTX) Architecture; 2.2.1 FTTH Access Architecture; 2.2.2 FTTN Access Architecture; 2.3 ITU-T PON Standards; 2.3.1 ITU-T G.983 B-PON Standards Series 2.3.2 ITU-T G.984 G-PON for Higher Speeds2.3.3 The Role of Standards in Interoperability; 2.4 PON Technology Background; 2.4.1 Upstream Bandwidth Assignment; 2.4.2 Ranging; 2.4.3 Splitters; 2.5 The SBC FTTH Network; 2.5.1 The Optical Fiber/Distribution Network; 2.5.2 FTTH ONTs; 2.5.3 SBC's Mission Bay Trial; 2.6 SBC Fiber to the Node (FTTN) NETWORK; 2.7 The Home Network; 2.8 Motivating the New Network - IPTV; Summary; General References; 3 FTTH: The Swedish Perspective; 3.1 Introduction; 3.2 Contents; 3.3 Definitions; 3.3.1 Broadband Definition; 3.3.2 FTTH Definition 3.3.3 Muni Net Definition3.3.4 Residential Area Network, Definition; 3.4 Background for the Swedish FTTH Boom; 3.5 The Swedish Broadband Market Today; 3.5.1 Broadband Penetration Compared to the OECD; 3.5.2 The Broadband Market and Access Technologies in Sweden; 3.5.3 Equipment Suppliers; 3.5.4 The Swedish Broadband Industry; 3.5.5 Collaboration Between Industry and Academia; 3.6 Open Networks Versus Vertical Integration; 3.6.1 The Open Network; 3.6.2 Functions When Operating Muni Nets; 3.6.3 Relationships and Monetary Flows in Muni Nets; 3.6.4 Open Networks Versus Vertical Integration 3.7 Access Network Technologies3.7.1 PON Versus Point-to-Point Ethernet; 3.7.2 L2 Versus L3 Access Architectures; 3.8 Drivers, Services and Trends for the Future Broadband Networks; 3.8.1 Operators and Network Owners; 3.8.2 Authorities; 3.9 Description of Key Swedish FTTH Players; 3.9.1 PacketFront; 3.9.2 Ericsson; 3.9.3 TeliaSonera; 3.9.4 Svenska Bosta ̈der in Va ̈llingby: A Greenfield Deployment; 3.9.5 Stockholm and the Va ̈llingby Model: A Brownfield Deployment; 3.10 Summary; Acknowledgements; References; 4 Broadband Access Networks and Services in Korea 4.1 Changing Environments and FITL Plan |
Record Nr. | UNINA-9910877646103321 |
Chichester, England ; ; Hoboken, NJ, : Wiley, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Fiber to the home [[electronic resource] ] : the new empowerment / / Paul E. Green, Jr |
Autore | Green Paul Eliot <1924-> |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2006 |
Descrizione fisica | 1 online resource (158 p.) |
Disciplina |
004.6/4
621.3981 |
Collana | Wiley survival guides in engineering and science |
Soggetto topico | Optical fiber subscriber loops |
ISBN |
1-280-23575-6
9786610235759 0-470-32576-3 0-471-75564-8 0-471-75563-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
FIBER TO THE HOME; Contents; Foreword; Preface; CHAPTER 1 The Evolution of the Broadband Last Mile; 1.1 Introduction; 1.2 A Few Definitions; 1.3 Cable Competition; 1.4 Triple Play; 1.5 International Competition; 1.6 End-User Pressures; 1.7 Specific End-User Application Needs; 1.8 The Digital Divide; 1.9 Cost Improvements; 1.10 Needs of the Supplier Industries; 1.11 Needs of the Telecomm Service Providers; 1.12 Deficiencies of the Legacy Solutions-DSL, Cable, and Wireless; 1.13 Future-Proof Nature of the Fiber Last Mile; 1.14 Why Bringing Fiber Only to the Curb is Insufficient
1.15 The Wireless ""Alternative""1.16 The Position of the Skeptics; References; Vocabulary Quiz; CHAPTER 2 Architectures and Standards; 2.1 Introduction; 2.2 What Does a PON Look Like?; 2.3 ATM Cells or Ethernet Packets?; 2.4 How the Architectures Will Be Presented in This Book; 2.5 ITU's BPON (Broadband Passive Optical Network) Standard G.983; 2.5.1 BPON Portrayed as Layers; 2.5.2 BPON Portrayed as Formats; 2.5.3 BPON Portrayed as a Sequence of Events; 2.5.4 Ranging; 2.5.5 Security; 2.5.6 Protection Switching; 2.5.7 Analog Video Delivery over a BPON 2.6 ITU's GPON (Gigabit Passive Optical Network) Standard G.9842.6.1 GPON Portrayed as Layers; 2.6.2 GPON Portrayed as Formats; 2.6.3 GPON Portrayed as Sequences of Events; 2.6.4 GPON Encryption; 2.7 IEEE Ethernet Passive Optical Network (EPON) Standard 802.3ah; 2.7.1 EPON Portrayed as Layers; 2.7.2 EPON Portrayed as Formats; 2.7.3 EPON Portrayed as Sequences of Events; 2.8 Comparison of ATM-Based and Ethernet-Based PONS; 2.9 An Example of Architecture vs. Implementation; References; Vocabulary Quiz; CHAPTER 3 Base Technologies; 3.1 Optical Fiber Basics; 3.2 Impairments 3.2.1 Chromatic Dispersion3.2.2 Loss and Rayleigh Scattering; 3.2.3 Stimulated Brillouin Scattering (SBS); 3.2.4 Stimulated Raman Scattering (SRS); 3.2.5 Self- and Cross-Phase Modulation (SPM and CPM); 3.2.6 Four-Wave Mixing (FWM); 3.3 Optical Amplifiers; 3.4 Splitters and Couplers; 3.5 Connectors and Splices; 3.6 Lasers and Transmitters; 3.7 Photodiodes and Receivers; 3.8 The Physics of Lasing and Photodetection; 3.9 Summary; References; Vocabulary Quiz; CHAPTER 4 Deploying the System; 4.1 Introduction; 4.2 The Link Budget; 4.3 Aerial Deployment; 4.4 Underground Deployment 4.5 Reuse of Underground Facilities4.6 Cabinets, Pedestals, Closures, and Vaults; 4.7 Subscriber Premises Optical Network Unit; 4.8 Head-End Optical Line Terminal; 4.9 Slack Management; 4.10 In-Building Installation; 4.11 Safety Considerations; 4.12 Powering; 4.13 Testing and Maintenance; 4.14 Costs; References; Vocabulary Quiz; CHAPTER 5 Current Deployments; 5.1 Introduction; 5.2 United States; 5.3 Japan; 5.4 Korea; 5.5 China; 5.6 Australia; 5.7 Europe; References; Vocabulary Quiz; CHAPTER 6 The Future; Index |
Record Nr. | UNINA-9910143417203321 |
Green Paul Eliot <1924-> | ||
Hoboken, N.J., : Wiley-Interscience, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Fiber to the home [[electronic resource] ] : the new empowerment / / Paul E. Green, Jr |
Autore | Green Paul Eliot <1924-> |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2006 |
Descrizione fisica | 1 online resource (158 p.) |
Disciplina |
004.6/4
621.3981 |
Collana | Wiley survival guides in engineering and science |
Soggetto topico | Optical fiber subscriber loops |
ISBN |
1-280-23575-6
9786610235759 0-470-32576-3 0-471-75564-8 0-471-75563-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
FIBER TO THE HOME; Contents; Foreword; Preface; CHAPTER 1 The Evolution of the Broadband Last Mile; 1.1 Introduction; 1.2 A Few Definitions; 1.3 Cable Competition; 1.4 Triple Play; 1.5 International Competition; 1.6 End-User Pressures; 1.7 Specific End-User Application Needs; 1.8 The Digital Divide; 1.9 Cost Improvements; 1.10 Needs of the Supplier Industries; 1.11 Needs of the Telecomm Service Providers; 1.12 Deficiencies of the Legacy Solutions-DSL, Cable, and Wireless; 1.13 Future-Proof Nature of the Fiber Last Mile; 1.14 Why Bringing Fiber Only to the Curb is Insufficient
1.15 The Wireless ""Alternative""1.16 The Position of the Skeptics; References; Vocabulary Quiz; CHAPTER 2 Architectures and Standards; 2.1 Introduction; 2.2 What Does a PON Look Like?; 2.3 ATM Cells or Ethernet Packets?; 2.4 How the Architectures Will Be Presented in This Book; 2.5 ITU's BPON (Broadband Passive Optical Network) Standard G.983; 2.5.1 BPON Portrayed as Layers; 2.5.2 BPON Portrayed as Formats; 2.5.3 BPON Portrayed as a Sequence of Events; 2.5.4 Ranging; 2.5.5 Security; 2.5.6 Protection Switching; 2.5.7 Analog Video Delivery over a BPON 2.6 ITU's GPON (Gigabit Passive Optical Network) Standard G.9842.6.1 GPON Portrayed as Layers; 2.6.2 GPON Portrayed as Formats; 2.6.3 GPON Portrayed as Sequences of Events; 2.6.4 GPON Encryption; 2.7 IEEE Ethernet Passive Optical Network (EPON) Standard 802.3ah; 2.7.1 EPON Portrayed as Layers; 2.7.2 EPON Portrayed as Formats; 2.7.3 EPON Portrayed as Sequences of Events; 2.8 Comparison of ATM-Based and Ethernet-Based PONS; 2.9 An Example of Architecture vs. Implementation; References; Vocabulary Quiz; CHAPTER 3 Base Technologies; 3.1 Optical Fiber Basics; 3.2 Impairments 3.2.1 Chromatic Dispersion3.2.2 Loss and Rayleigh Scattering; 3.2.3 Stimulated Brillouin Scattering (SBS); 3.2.4 Stimulated Raman Scattering (SRS); 3.2.5 Self- and Cross-Phase Modulation (SPM and CPM); 3.2.6 Four-Wave Mixing (FWM); 3.3 Optical Amplifiers; 3.4 Splitters and Couplers; 3.5 Connectors and Splices; 3.6 Lasers and Transmitters; 3.7 Photodiodes and Receivers; 3.8 The Physics of Lasing and Photodetection; 3.9 Summary; References; Vocabulary Quiz; CHAPTER 4 Deploying the System; 4.1 Introduction; 4.2 The Link Budget; 4.3 Aerial Deployment; 4.4 Underground Deployment 4.5 Reuse of Underground Facilities4.6 Cabinets, Pedestals, Closures, and Vaults; 4.7 Subscriber Premises Optical Network Unit; 4.8 Head-End Optical Line Terminal; 4.9 Slack Management; 4.10 In-Building Installation; 4.11 Safety Considerations; 4.12 Powering; 4.13 Testing and Maintenance; 4.14 Costs; References; Vocabulary Quiz; CHAPTER 5 Current Deployments; 5.1 Introduction; 5.2 United States; 5.3 Japan; 5.4 Korea; 5.5 China; 5.6 Australia; 5.7 Europe; References; Vocabulary Quiz; CHAPTER 6 The Future; Index |
Record Nr. | UNINA-9910830729303321 |
Green Paul Eliot <1924-> | ||
Hoboken, N.J., : Wiley-Interscience, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Fiber to the home : the new empowerment / / Paul E. Green, Jr |
Autore | Green Paul Eliot <1924-> |
Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2006 |
Descrizione fisica | 1 online resource (158 p.) |
Disciplina | 004.6/4 |
Collana | Wiley survival guides in engineering and science |
Soggetto topico | Optical fiber subscriber loops |
ISBN |
1-280-23575-6
9786610235759 0-470-32576-3 0-471-75564-8 0-471-75563-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
FIBER TO THE HOME; Contents; Foreword; Preface; CHAPTER 1 The Evolution of the Broadband Last Mile; 1.1 Introduction; 1.2 A Few Definitions; 1.3 Cable Competition; 1.4 Triple Play; 1.5 International Competition; 1.6 End-User Pressures; 1.7 Specific End-User Application Needs; 1.8 The Digital Divide; 1.9 Cost Improvements; 1.10 Needs of the Supplier Industries; 1.11 Needs of the Telecomm Service Providers; 1.12 Deficiencies of the Legacy Solutions-DSL, Cable, and Wireless; 1.13 Future-Proof Nature of the Fiber Last Mile; 1.14 Why Bringing Fiber Only to the Curb is Insufficient
1.15 The Wireless ""Alternative""1.16 The Position of the Skeptics; References; Vocabulary Quiz; CHAPTER 2 Architectures and Standards; 2.1 Introduction; 2.2 What Does a PON Look Like?; 2.3 ATM Cells or Ethernet Packets?; 2.4 How the Architectures Will Be Presented in This Book; 2.5 ITU's BPON (Broadband Passive Optical Network) Standard G.983; 2.5.1 BPON Portrayed as Layers; 2.5.2 BPON Portrayed as Formats; 2.5.3 BPON Portrayed as a Sequence of Events; 2.5.4 Ranging; 2.5.5 Security; 2.5.6 Protection Switching; 2.5.7 Analog Video Delivery over a BPON 2.6 ITU's GPON (Gigabit Passive Optical Network) Standard G.9842.6.1 GPON Portrayed as Layers; 2.6.2 GPON Portrayed as Formats; 2.6.3 GPON Portrayed as Sequences of Events; 2.6.4 GPON Encryption; 2.7 IEEE Ethernet Passive Optical Network (EPON) Standard 802.3ah; 2.7.1 EPON Portrayed as Layers; 2.7.2 EPON Portrayed as Formats; 2.7.3 EPON Portrayed as Sequences of Events; 2.8 Comparison of ATM-Based and Ethernet-Based PONS; 2.9 An Example of Architecture vs. Implementation; References; Vocabulary Quiz; CHAPTER 3 Base Technologies; 3.1 Optical Fiber Basics; 3.2 Impairments 3.2.1 Chromatic Dispersion3.2.2 Loss and Rayleigh Scattering; 3.2.3 Stimulated Brillouin Scattering (SBS); 3.2.4 Stimulated Raman Scattering (SRS); 3.2.5 Self- and Cross-Phase Modulation (SPM and CPM); 3.2.6 Four-Wave Mixing (FWM); 3.3 Optical Amplifiers; 3.4 Splitters and Couplers; 3.5 Connectors and Splices; 3.6 Lasers and Transmitters; 3.7 Photodiodes and Receivers; 3.8 The Physics of Lasing and Photodetection; 3.9 Summary; References; Vocabulary Quiz; CHAPTER 4 Deploying the System; 4.1 Introduction; 4.2 The Link Budget; 4.3 Aerial Deployment; 4.4 Underground Deployment 4.5 Reuse of Underground Facilities4.6 Cabinets, Pedestals, Closures, and Vaults; 4.7 Subscriber Premises Optical Network Unit; 4.8 Head-End Optical Line Terminal; 4.9 Slack Management; 4.10 In-Building Installation; 4.11 Safety Considerations; 4.12 Powering; 4.13 Testing and Maintenance; 4.14 Costs; References; Vocabulary Quiz; CHAPTER 5 Current Deployments; 5.1 Introduction; 5.2 United States; 5.3 Japan; 5.4 Korea; 5.5 China; 5.6 Australia; 5.7 Europe; References; Vocabulary Quiz; CHAPTER 6 The Future; Index |
Record Nr. | UNINA-9910877657403321 |
Green Paul Eliot <1924-> | ||
Hoboken, N.J., : Wiley-Interscience, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
FTTX concepts and applications / / Gerd Keiser |
Autore | Keiser Gerd |
Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, , c2006 |
Descrizione fisica | 1 online resource (313 p.) |
Disciplina |
621.382
621.3827 |
Collana | Wiley series in telecommunications and signal processing |
Soggetto topico |
Optical communications
Optical fiber subscriber loops |
ISBN |
1-280-45044-4
9786610450442 0-470-24050-4 0-471-76910-X 0-471-76909-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- Chapter 1 Access Technologies -- 1.1 General Network Concepts -- 1.1.1 Network Architecture Concepts -- 1.1.2 Types of Networks -- 1.1.3 Network Terminology -- 1.1.4 First-Mile Concept -- 1.1.5 Network Market Opportunities -- 1.1.6 Terminology for Premises -- 1.2 Comparison of Access Technologies -- 1.2.1 Hybrid Fiber-Coax -- 1.2.2 Digital Subscriber Line -- 1.2.3 WiMAX -- 1.3 Passive Optical Networks -- 1.3.1 Basic PON Architectures -- 1.3.2 What Is FTTx? -- 1.4 Point-to-Point Links -- 1.5 Summary -- Further Reading -- Chapter 2 Optical Communications Essentials -- 2.1 Definitions of Units and Terms -- 2.1.1 Metric Prefixes -- 2.1.2 Electromagnetic Spectral Bands -- 2.1.3 Optical Spectral Band -- 2.1.4 Digital Multiplexing Hierarchy -- 2.1.5 Decibel Units -- 2.1.6 Refractive Index -- 2.2 Elements of an Optical Link -- 2.3 Optical Fibers -- 2.3.1 Fiber Structures -- 2.3.2 Rays and Modes -- 2.4 Optical Fiber Attenuation -- 2.5 Fiber Information Capacity -- 2.5.1 Modal Dispersion -- 2.5.2 Chromatic Dispersion -- 2.5.3 Polarization Mode Dispersion -- 2.6 Nonlinear Effects in Fibers -- 2.6.1 Stimulated Brillouin Scattering -- 2.6.2 Stimulated Raman Scattering -- 2.7 Optical Fiber Standards -- 2.8 Summary -- Problems -- Further Reading -- Chapter 3 Wavelength-Division Multiplexing -- 3.1 Operational Principles of WDM -- 3.1.1 WDM Operating Regions -- 3.1.2 Generic WDM Link -- 3.2 Standard WDM Spectral Grids -- 3.2.1 Dense WDM -- 3.2.2 Coarse WDM -- 3.2.3 PON Spectral Regions -- 3.3 Optical Couplers -- 3.3.1 Basic 22 Coupler -- 3.3.2 Coupler Performance -- 3.3.3 Tap Coupler -- 3.4 Bidirectional WDM Links -- 3.5 Summary -- Problems -- Further Reading -- Chapter 4 PON Transceivers -- 4.1 Optical Sources for PONs -- 4.1.1 Source Characteristics -- 4.1.2 DFB and FP Lasers -- 4.1.3 Modulation Speed -- 4.1.4 Optical Transmitter Packages -- 4.2 Optical Receivers -- 4.2.1 Photodetector Types -- 4.2.2 Quantum Efficiency -- 4.2.3 Responsivity -- 4.2.4 Speed of Detector Response.
4.2.5 Receiver Bandwidth -- 4.2.6 Photodetector Noise -- 4.3 Receiver BER and OSNR -- 4.4 Burst-Mode Receiver Concept -- 4.5 Burst-Mode ONT Transmission -- 4.6 PON Transceiver Packages -- 4.7 Summary -- Problems -- Further Reading -- Chapter 5 Passive Optical Components -- 5.1 WDM Couplers for PONs -- 5.1.1 Thin-Film Filters -- 5.1.2 Transmission Diffraction Gratings -- 5.2 Optical Power Splitter -- 5.2.1 Splitting Loss -- 5.2.2 Optical Splitter Structure -- 5.3 Optical Cables for PONs -- 5.3.1 Cable Structures -- 5.3.2 Fiber and Jacket Color Coding -- 5.4 Fiber Interconnections -- 5.4.1 Optical Connectors -- 5.4.2 Connector Losses -- 5.4.3 Optical Splices -- 5.5 Summary -- Problems -- Further Reading -- Chapter 6 Passive Optical Networks -- 6.1 Fundamental PON Architecture -- 6.2 Active PON Modules -- 6.2.1 Optical Line Terminal -- 6.2.2 Optical Network Terminal -- 6.2.3 Optical Network Unit -- 6.3 Traffic Flows -- 6.4 Passive Component Applications -- 6.4.1 Optical Cables for PONs -- 6.4.2 Optical Power Splitters -- 6.4.3 Splitter Enclosures -- 6.4.4 Wavelength Couplers -- 6.5 PON Alternatives -- 6.5.1 BPON Basics -- 6.5.2 EPON and EFM -- 6.5.3 GPON Basics -- 6.6 Optics Path Attenuation Ranges -- 6.7 Standards Development -- 6.7.1 ITU-T -- 6.7.2 FSAN -- 6.7.3 IEEE -- 6.8 Summary -- Problems -- Further Reading -- Chapter 7 BPON Characteristics -- 7.1 BPON Architecture -- 7.1.1 Traffic Flow Schemes -- 7.1.2 OLT Capabilities -- 7.2 ATM Basics -- 7.2.1 Use of ATM Cells -- 7.2.2 ATM Service Categories -- 7.2.3 Service Level Agreements -- 7.3 BPON Operational Characteristics -- 7.3.1 Voice and Data Traffic Flows -- 7.3.2 Protection of Grants -- 7.3.3 Video Traffic -- 7.4 Traffic Control -- 7.4.1 Fixed Bandwidth Allocation -- 7.4.2 Dynamic Bandwidth Allocation -- 7.5 Standards Details -- 7.5.1 Recommendation G.983.1 -- 7.5.2 Recommendation G.983.2 -- 7.5.3 Recommendation G.983.3 -- 7.5.4 Recommendation G.983.4 -- 7.5.5 Recommendation G.983.5 -- 7.5.6 Recommendation G.983.6. 7.5.7 Recommendation G.983.7 -- 7.5.8 Recommendation G.983.8 -- 7.6 Summary -- Problems -- Further Reading -- Chapter 8 Ethernet in the First Mile -- 8.1 EFM Options -- 8.2 EPON Architecture -- 8.2.1 OLT and ONT/ONU Functions -- 8.2.2 EPON Traffic Flows -- 8.2.3 Power Levels Received -- 8.3 MPCP Functions -- 8.3.1 Discovery Process -- 8.3.2 Bandwidth Assignment -- 8.3.3 Transmission Timing -- 8.4 Point-to-Point Ethernet -- 8.4.1 P2P Ethernet Over Fiber -- 8.4.2 P2P Ethernet Over Copper -- 8.5 Main EPON and P2P EFM Standards -- 8.6 Summary -- Problems -- Further Reading -- Chapter 9 GPON Characteristics -- 9.1 GPON Architecture -- 9.1.1 GSR Specification -- 9.1.2 GPON Protection Switching -- 9.1.3 Information Security in a GPON -- 9.2 GPON Recommendation G.984.2 -- 9.2.1 Optical Performances -- 9.2.2 Timing and Optical Power Control -- 9.2.3 Forward Error Correction -- 9.3 GPON Transmission Convergence Layer -- 9.3.1 Downstream GPON Frame Format -- 9.3.2 Upstream GPON Frame Format -- 9.3.3 GEM Segment -- 9.4 ONT Management and Control -- 9.5 Summary -- Problems -- Further Reading -- Chapter 10 FTTP Concepts and Applications -- 10.1 Implementation Scenarios -- 10.1.1 Application Alternatives -- 10.1.2 Installation Types -- 10.2 Network Architectures -- 10.2.1 Optical Splitter Locations -- 10.2.2 Network Design Variations -- 10.3 Local Powering Options -- 10.3.1 Indoor Power Supply -- 10.3.2 Outdoor Power Supply -- 10.3.3 Network Powering -- 10.4 Service Applications -- 10.4.1 Bandwidth Requirements -- 10.4.2 Video Service Issues -- 10.5 Expanded WDM PON -- 10.6 Summary -- Problems -- Further Reading -- Chapter 11 FTTP Network Design -- 11.1 Design Criteria -- 11.1.1 System Requirements -- 11.1.2 System Margin -- 11.1.3 Power Penalties -- 11.2 Link Power Budget -- 11.2.1 Power-Budgeting Process -- 11.2.2 FTTP 1310-nm Power Budget -- 11.2.3 FTTP 1490-nm Power Budget -- 11.3 Photonic Design Automation Tools -- 11.3.1 Modeling Tool Characteristics -- 11.3.2 FTTP Network Modeling Tool. 11.4 Link Capacity Estimates -- 11.4.1 Basic Formulation -- 11.4.2 Basic Rise Times -- 11.4.3 FTTP Link Rise Time -- 11.5 Network Protection Schemes -- 11.6 Summary -- Problems -- Further Reading -- Chapter 12 FTTP Network Implementations -- 12.1 Central Office Configuration -- 12.1.1 Service Inputs to the FTTP Network -- 12.1.2 Cable Layout and Interfaces -- 12.1.3 WDM Coupler Placement -- 12.1.4 Patch Cords and Intrafacility Cables -- 12.2 Feeder Cables -- 12.2.1 Feeder Cable Structures -- 12.2.2 OSP Distribution Cabinet -- 12.3 Distribution Section -- 12.4 Installation of PON Cables -- 12.4.1 Direct-Burial Installations -- 12.4.2 Horizontal Drilling -- 12.4.3 Pulling Cable into Ducts -- 12.4.4 Cable Jetting Installation -- 12.4.5 Aerial Installation -- 12.4.6 Cable Warning and Identification Markers -- 12.5 Summary -- Problems -- Further Reading -- Chapter 13 Network Installation Testing -- 13.1 International Measurement Standards -- 13.2 Basic Test Instruments -- 13.3 Optical Power Measurements -- 13.3.1 Definition of Optical Power -- 13.3.2 Optical Power Meter -- 13.3.3 Power Meter Applications -- 13.4 Optical Time-Domain Reflectometer -- 13.4.1 OTDR Trace -- 13.4.2 OTDR Dead Zone -- 13.4.3 Fiber Fault Location -- 13.5 Optical Return Loss -- 13.6 Visual Fault Locator -- 13.7 Optical-Loss Test Set -- 13.8 Multifunction Test Instrument -- 13.9 Device Conformance Testing -- 13.10 FTTP Network Testing -- 13.10.1 Checking Individual Link Losses -- 13.10.2 Optical-Loss Budget Check -- 13.10.3 End-to-End Link Characterization -- 13.10.4 ORL Measurements -- 13.10.5 OLT and Video Output Checks -- 13.10.6 ONT Output Check -- 13.11 FTTP Network Troubleshooting -- 13.11.1 Resolutions of Network Problems -- 13.11.2 Troubleshooting Guidelines -- 13.12 Summary -- Problems -- References and Further Reading -- Chapter 14 Network Management Functions -- 14.1 Basic Network Management -- 14.2 Management Functions -- 14.2.1 Performance Management -- 14.2.2 Configuration Management. 14.2.3 Accounting Management -- 14.2.4 Fault Management -- 14.2.5 Security Management -- 14.3 OAM&P in FTTP Networks -- 14.4 Summary -- Problems -- Further Reading -- Appendix A Units, Physical Constants, and Conversion Factors -- Appendix B Acronyms -- Appendix C Video Transmission -- Appendix D Communication Signals -- Appendix E Telcordia Generic Requirements for PON Applications -- Index. |
Record Nr. | UNINA-9910143565503321 |
Keiser Gerd | ||
Hoboken, New Jersey : , : John Wiley & Sons, , c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
FTTX concepts and applications / / Gerd Keiser |
Autore | Keiser Gerd |
Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, , c2006 |
Descrizione fisica | 1 online resource (313 p.) |
Disciplina |
621.382
621.3827 |
Collana | Wiley series in telecommunications and signal processing |
Soggetto topico |
Optical communications
Optical fiber subscriber loops |
ISBN |
1-280-45044-4
9786610450442 0-470-24050-4 0-471-76910-X 0-471-76909-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- Chapter 1 Access Technologies -- 1.1 General Network Concepts -- 1.1.1 Network Architecture Concepts -- 1.1.2 Types of Networks -- 1.1.3 Network Terminology -- 1.1.4 First-Mile Concept -- 1.1.5 Network Market Opportunities -- 1.1.6 Terminology for Premises -- 1.2 Comparison of Access Technologies -- 1.2.1 Hybrid Fiber-Coax -- 1.2.2 Digital Subscriber Line -- 1.2.3 WiMAX -- 1.3 Passive Optical Networks -- 1.3.1 Basic PON Architectures -- 1.3.2 What Is FTTx? -- 1.4 Point-to-Point Links -- 1.5 Summary -- Further Reading -- Chapter 2 Optical Communications Essentials -- 2.1 Definitions of Units and Terms -- 2.1.1 Metric Prefixes -- 2.1.2 Electromagnetic Spectral Bands -- 2.1.3 Optical Spectral Band -- 2.1.4 Digital Multiplexing Hierarchy -- 2.1.5 Decibel Units -- 2.1.6 Refractive Index -- 2.2 Elements of an Optical Link -- 2.3 Optical Fibers -- 2.3.1 Fiber Structures -- 2.3.2 Rays and Modes -- 2.4 Optical Fiber Attenuation -- 2.5 Fiber Information Capacity -- 2.5.1 Modal Dispersion -- 2.5.2 Chromatic Dispersion -- 2.5.3 Polarization Mode Dispersion -- 2.6 Nonlinear Effects in Fibers -- 2.6.1 Stimulated Brillouin Scattering -- 2.6.2 Stimulated Raman Scattering -- 2.7 Optical Fiber Standards -- 2.8 Summary -- Problems -- Further Reading -- Chapter 3 Wavelength-Division Multiplexing -- 3.1 Operational Principles of WDM -- 3.1.1 WDM Operating Regions -- 3.1.2 Generic WDM Link -- 3.2 Standard WDM Spectral Grids -- 3.2.1 Dense WDM -- 3.2.2 Coarse WDM -- 3.2.3 PON Spectral Regions -- 3.3 Optical Couplers -- 3.3.1 Basic 22 Coupler -- 3.3.2 Coupler Performance -- 3.3.3 Tap Coupler -- 3.4 Bidirectional WDM Links -- 3.5 Summary -- Problems -- Further Reading -- Chapter 4 PON Transceivers -- 4.1 Optical Sources for PONs -- 4.1.1 Source Characteristics -- 4.1.2 DFB and FP Lasers -- 4.1.3 Modulation Speed -- 4.1.4 Optical Transmitter Packages -- 4.2 Optical Receivers -- 4.2.1 Photodetector Types -- 4.2.2 Quantum Efficiency -- 4.2.3 Responsivity -- 4.2.4 Speed of Detector Response.
4.2.5 Receiver Bandwidth -- 4.2.6 Photodetector Noise -- 4.3 Receiver BER and OSNR -- 4.4 Burst-Mode Receiver Concept -- 4.5 Burst-Mode ONT Transmission -- 4.6 PON Transceiver Packages -- 4.7 Summary -- Problems -- Further Reading -- Chapter 5 Passive Optical Components -- 5.1 WDM Couplers for PONs -- 5.1.1 Thin-Film Filters -- 5.1.2 Transmission Diffraction Gratings -- 5.2 Optical Power Splitter -- 5.2.1 Splitting Loss -- 5.2.2 Optical Splitter Structure -- 5.3 Optical Cables for PONs -- 5.3.1 Cable Structures -- 5.3.2 Fiber and Jacket Color Coding -- 5.4 Fiber Interconnections -- 5.4.1 Optical Connectors -- 5.4.2 Connector Losses -- 5.4.3 Optical Splices -- 5.5 Summary -- Problems -- Further Reading -- Chapter 6 Passive Optical Networks -- 6.1 Fundamental PON Architecture -- 6.2 Active PON Modules -- 6.2.1 Optical Line Terminal -- 6.2.2 Optical Network Terminal -- 6.2.3 Optical Network Unit -- 6.3 Traffic Flows -- 6.4 Passive Component Applications -- 6.4.1 Optical Cables for PONs -- 6.4.2 Optical Power Splitters -- 6.4.3 Splitter Enclosures -- 6.4.4 Wavelength Couplers -- 6.5 PON Alternatives -- 6.5.1 BPON Basics -- 6.5.2 EPON and EFM -- 6.5.3 GPON Basics -- 6.6 Optics Path Attenuation Ranges -- 6.7 Standards Development -- 6.7.1 ITU-T -- 6.7.2 FSAN -- 6.7.3 IEEE -- 6.8 Summary -- Problems -- Further Reading -- Chapter 7 BPON Characteristics -- 7.1 BPON Architecture -- 7.1.1 Traffic Flow Schemes -- 7.1.2 OLT Capabilities -- 7.2 ATM Basics -- 7.2.1 Use of ATM Cells -- 7.2.2 ATM Service Categories -- 7.2.3 Service Level Agreements -- 7.3 BPON Operational Characteristics -- 7.3.1 Voice and Data Traffic Flows -- 7.3.2 Protection of Grants -- 7.3.3 Video Traffic -- 7.4 Traffic Control -- 7.4.1 Fixed Bandwidth Allocation -- 7.4.2 Dynamic Bandwidth Allocation -- 7.5 Standards Details -- 7.5.1 Recommendation G.983.1 -- 7.5.2 Recommendation G.983.2 -- 7.5.3 Recommendation G.983.3 -- 7.5.4 Recommendation G.983.4 -- 7.5.5 Recommendation G.983.5 -- 7.5.6 Recommendation G.983.6. 7.5.7 Recommendation G.983.7 -- 7.5.8 Recommendation G.983.8 -- 7.6 Summary -- Problems -- Further Reading -- Chapter 8 Ethernet in the First Mile -- 8.1 EFM Options -- 8.2 EPON Architecture -- 8.2.1 OLT and ONT/ONU Functions -- 8.2.2 EPON Traffic Flows -- 8.2.3 Power Levels Received -- 8.3 MPCP Functions -- 8.3.1 Discovery Process -- 8.3.2 Bandwidth Assignment -- 8.3.3 Transmission Timing -- 8.4 Point-to-Point Ethernet -- 8.4.1 P2P Ethernet Over Fiber -- 8.4.2 P2P Ethernet Over Copper -- 8.5 Main EPON and P2P EFM Standards -- 8.6 Summary -- Problems -- Further Reading -- Chapter 9 GPON Characteristics -- 9.1 GPON Architecture -- 9.1.1 GSR Specification -- 9.1.2 GPON Protection Switching -- 9.1.3 Information Security in a GPON -- 9.2 GPON Recommendation G.984.2 -- 9.2.1 Optical Performances -- 9.2.2 Timing and Optical Power Control -- 9.2.3 Forward Error Correction -- 9.3 GPON Transmission Convergence Layer -- 9.3.1 Downstream GPON Frame Format -- 9.3.2 Upstream GPON Frame Format -- 9.3.3 GEM Segment -- 9.4 ONT Management and Control -- 9.5 Summary -- Problems -- Further Reading -- Chapter 10 FTTP Concepts and Applications -- 10.1 Implementation Scenarios -- 10.1.1 Application Alternatives -- 10.1.2 Installation Types -- 10.2 Network Architectures -- 10.2.1 Optical Splitter Locations -- 10.2.2 Network Design Variations -- 10.3 Local Powering Options -- 10.3.1 Indoor Power Supply -- 10.3.2 Outdoor Power Supply -- 10.3.3 Network Powering -- 10.4 Service Applications -- 10.4.1 Bandwidth Requirements -- 10.4.2 Video Service Issues -- 10.5 Expanded WDM PON -- 10.6 Summary -- Problems -- Further Reading -- Chapter 11 FTTP Network Design -- 11.1 Design Criteria -- 11.1.1 System Requirements -- 11.1.2 System Margin -- 11.1.3 Power Penalties -- 11.2 Link Power Budget -- 11.2.1 Power-Budgeting Process -- 11.2.2 FTTP 1310-nm Power Budget -- 11.2.3 FTTP 1490-nm Power Budget -- 11.3 Photonic Design Automation Tools -- 11.3.1 Modeling Tool Characteristics -- 11.3.2 FTTP Network Modeling Tool. 11.4 Link Capacity Estimates -- 11.4.1 Basic Formulation -- 11.4.2 Basic Rise Times -- 11.4.3 FTTP Link Rise Time -- 11.5 Network Protection Schemes -- 11.6 Summary -- Problems -- Further Reading -- Chapter 12 FTTP Network Implementations -- 12.1 Central Office Configuration -- 12.1.1 Service Inputs to the FTTP Network -- 12.1.2 Cable Layout and Interfaces -- 12.1.3 WDM Coupler Placement -- 12.1.4 Patch Cords and Intrafacility Cables -- 12.2 Feeder Cables -- 12.2.1 Feeder Cable Structures -- 12.2.2 OSP Distribution Cabinet -- 12.3 Distribution Section -- 12.4 Installation of PON Cables -- 12.4.1 Direct-Burial Installations -- 12.4.2 Horizontal Drilling -- 12.4.3 Pulling Cable into Ducts -- 12.4.4 Cable Jetting Installation -- 12.4.5 Aerial Installation -- 12.4.6 Cable Warning and Identification Markers -- 12.5 Summary -- Problems -- Further Reading -- Chapter 13 Network Installation Testing -- 13.1 International Measurement Standards -- 13.2 Basic Test Instruments -- 13.3 Optical Power Measurements -- 13.3.1 Definition of Optical Power -- 13.3.2 Optical Power Meter -- 13.3.3 Power Meter Applications -- 13.4 Optical Time-Domain Reflectometer -- 13.4.1 OTDR Trace -- 13.4.2 OTDR Dead Zone -- 13.4.3 Fiber Fault Location -- 13.5 Optical Return Loss -- 13.6 Visual Fault Locator -- 13.7 Optical-Loss Test Set -- 13.8 Multifunction Test Instrument -- 13.9 Device Conformance Testing -- 13.10 FTTP Network Testing -- 13.10.1 Checking Individual Link Losses -- 13.10.2 Optical-Loss Budget Check -- 13.10.3 End-to-End Link Characterization -- 13.10.4 ORL Measurements -- 13.10.5 OLT and Video Output Checks -- 13.10.6 ONT Output Check -- 13.11 FTTP Network Troubleshooting -- 13.11.1 Resolutions of Network Problems -- 13.11.2 Troubleshooting Guidelines -- 13.12 Summary -- Problems -- References and Further Reading -- Chapter 14 Network Management Functions -- 14.1 Basic Network Management -- 14.2 Management Functions -- 14.2.1 Performance Management -- 14.2.2 Configuration Management. 14.2.3 Accounting Management -- 14.2.4 Fault Management -- 14.2.5 Security Management -- 14.3 OAM&P in FTTP Networks -- 14.4 Summary -- Problems -- Further Reading -- Appendix A Units, Physical Constants, and Conversion Factors -- Appendix B Acronyms -- Appendix C Video Transmission -- Appendix D Communication Signals -- Appendix E Telcordia Generic Requirements for PON Applications -- Index. |
Record Nr. | UNINA-9910829939703321 |
Keiser Gerd | ||
Hoboken, New Jersey : , : John Wiley & Sons, , c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
FTTX concepts and applications / / Gerd Keiser |
Autore | Keiser Gerd |
Pubbl/distr/stampa | Hoboken, N.J., : John Wiley & Sons, : IEEE, c2006 |
Descrizione fisica | 1 online resource (313 p.) |
Disciplina | 621.382/7 |
Collana | Wiley series in telecommunications and signal processing |
Soggetto topico |
Optical communications
Optical fiber subscriber loops |
ISBN |
1-280-45044-4
9786610450442 0-470-24050-4 0-471-76910-X 0-471-76909-6 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- Chapter 1 Access Technologies -- 1.1 General Network Concepts -- 1.1.1 Network Architecture Concepts -- 1.1.2 Types of Networks -- 1.1.3 Network Terminology -- 1.1.4 First-Mile Concept -- 1.1.5 Network Market Opportunities -- 1.1.6 Terminology for Premises -- 1.2 Comparison of Access Technologies -- 1.2.1 Hybrid Fiber-Coax -- 1.2.2 Digital Subscriber Line -- 1.2.3 WiMAX -- 1.3 Passive Optical Networks -- 1.3.1 Basic PON Architectures -- 1.3.2 What Is FTTx? -- 1.4 Point-to-Point Links -- 1.5 Summary -- Further Reading -- Chapter 2 Optical Communications Essentials -- 2.1 Definitions of Units and Terms -- 2.1.1 Metric Prefixes -- 2.1.2 Electromagnetic Spectral Bands -- 2.1.3 Optical Spectral Band -- 2.1.4 Digital Multiplexing Hierarchy -- 2.1.5 Decibel Units -- 2.1.6 Refractive Index -- 2.2 Elements of an Optical Link -- 2.3 Optical Fibers -- 2.3.1 Fiber Structures -- 2.3.2 Rays and Modes -- 2.4 Optical Fiber Attenuation -- 2.5 Fiber Information Capacity -- 2.5.1 Modal Dispersion -- 2.5.2 Chromatic Dispersion -- 2.5.3 Polarization Mode Dispersion -- 2.6 Nonlinear Effects in Fibers -- 2.6.1 Stimulated Brillouin Scattering -- 2.6.2 Stimulated Raman Scattering -- 2.7 Optical Fiber Standards -- 2.8 Summary -- Problems -- Further Reading -- Chapter 3 Wavelength-Division Multiplexing -- 3.1 Operational Principles of WDM -- 3.1.1 WDM Operating Regions -- 3.1.2 Generic WDM Link -- 3.2 Standard WDM Spectral Grids -- 3.2.1 Dense WDM -- 3.2.2 Coarse WDM -- 3.2.3 PON Spectral Regions -- 3.3 Optical Couplers -- 3.3.1 Basic 22 Coupler -- 3.3.2 Coupler Performance -- 3.3.3 Tap Coupler -- 3.4 Bidirectional WDM Links -- 3.5 Summary -- Problems -- Further Reading -- Chapter 4 PON Transceivers -- 4.1 Optical Sources for PONs -- 4.1.1 Source Characteristics -- 4.1.2 DFB and FP Lasers -- 4.1.3 Modulation Speed -- 4.1.4 Optical Transmitter Packages -- 4.2 Optical Receivers -- 4.2.1 Photodetector Types -- 4.2.2 Quantum Efficiency -- 4.2.3 Responsivity -- 4.2.4 Speed of Detector Response.
4.2.5 Receiver Bandwidth -- 4.2.6 Photodetector Noise -- 4.3 Receiver BER and OSNR -- 4.4 Burst-Mode Receiver Concept -- 4.5 Burst-Mode ONT Transmission -- 4.6 PON Transceiver Packages -- 4.7 Summary -- Problems -- Further Reading -- Chapter 5 Passive Optical Components -- 5.1 WDM Couplers for PONs -- 5.1.1 Thin-Film Filters -- 5.1.2 Transmission Diffraction Gratings -- 5.2 Optical Power Splitter -- 5.2.1 Splitting Loss -- 5.2.2 Optical Splitter Structure -- 5.3 Optical Cables for PONs -- 5.3.1 Cable Structures -- 5.3.2 Fiber and Jacket Color Coding -- 5.4 Fiber Interconnections -- 5.4.1 Optical Connectors -- 5.4.2 Connector Losses -- 5.4.3 Optical Splices -- 5.5 Summary -- Problems -- Further Reading -- Chapter 6 Passive Optical Networks -- 6.1 Fundamental PON Architecture -- 6.2 Active PON Modules -- 6.2.1 Optical Line Terminal -- 6.2.2 Optical Network Terminal -- 6.2.3 Optical Network Unit -- 6.3 Traffic Flows -- 6.4 Passive Component Applications -- 6.4.1 Optical Cables for PONs -- 6.4.2 Optical Power Splitters -- 6.4.3 Splitter Enclosures -- 6.4.4 Wavelength Couplers -- 6.5 PON Alternatives -- 6.5.1 BPON Basics -- 6.5.2 EPON and EFM -- 6.5.3 GPON Basics -- 6.6 Optics Path Attenuation Ranges -- 6.7 Standards Development -- 6.7.1 ITU-T -- 6.7.2 FSAN -- 6.7.3 IEEE -- 6.8 Summary -- Problems -- Further Reading -- Chapter 7 BPON Characteristics -- 7.1 BPON Architecture -- 7.1.1 Traffic Flow Schemes -- 7.1.2 OLT Capabilities -- 7.2 ATM Basics -- 7.2.1 Use of ATM Cells -- 7.2.2 ATM Service Categories -- 7.2.3 Service Level Agreements -- 7.3 BPON Operational Characteristics -- 7.3.1 Voice and Data Traffic Flows -- 7.3.2 Protection of Grants -- 7.3.3 Video Traffic -- 7.4 Traffic Control -- 7.4.1 Fixed Bandwidth Allocation -- 7.4.2 Dynamic Bandwidth Allocation -- 7.5 Standards Details -- 7.5.1 Recommendation G.983.1 -- 7.5.2 Recommendation G.983.2 -- 7.5.3 Recommendation G.983.3 -- 7.5.4 Recommendation G.983.4 -- 7.5.5 Recommendation G.983.5 -- 7.5.6 Recommendation G.983.6. 7.5.7 Recommendation G.983.7 -- 7.5.8 Recommendation G.983.8 -- 7.6 Summary -- Problems -- Further Reading -- Chapter 8 Ethernet in the First Mile -- 8.1 EFM Options -- 8.2 EPON Architecture -- 8.2.1 OLT and ONT/ONU Functions -- 8.2.2 EPON Traffic Flows -- 8.2.3 Power Levels Received -- 8.3 MPCP Functions -- 8.3.1 Discovery Process -- 8.3.2 Bandwidth Assignment -- 8.3.3 Transmission Timing -- 8.4 Point-to-Point Ethernet -- 8.4.1 P2P Ethernet Over Fiber -- 8.4.2 P2P Ethernet Over Copper -- 8.5 Main EPON and P2P EFM Standards -- 8.6 Summary -- Problems -- Further Reading -- Chapter 9 GPON Characteristics -- 9.1 GPON Architecture -- 9.1.1 GSR Specification -- 9.1.2 GPON Protection Switching -- 9.1.3 Information Security in a GPON -- 9.2 GPON Recommendation G.984.2 -- 9.2.1 Optical Performances -- 9.2.2 Timing and Optical Power Control -- 9.2.3 Forward Error Correction -- 9.3 GPON Transmission Convergence Layer -- 9.3.1 Downstream GPON Frame Format -- 9.3.2 Upstream GPON Frame Format -- 9.3.3 GEM Segment -- 9.4 ONT Management and Control -- 9.5 Summary -- Problems -- Further Reading -- Chapter 10 FTTP Concepts and Applications -- 10.1 Implementation Scenarios -- 10.1.1 Application Alternatives -- 10.1.2 Installation Types -- 10.2 Network Architectures -- 10.2.1 Optical Splitter Locations -- 10.2.2 Network Design Variations -- 10.3 Local Powering Options -- 10.3.1 Indoor Power Supply -- 10.3.2 Outdoor Power Supply -- 10.3.3 Network Powering -- 10.4 Service Applications -- 10.4.1 Bandwidth Requirements -- 10.4.2 Video Service Issues -- 10.5 Expanded WDM PON -- 10.6 Summary -- Problems -- Further Reading -- Chapter 11 FTTP Network Design -- 11.1 Design Criteria -- 11.1.1 System Requirements -- 11.1.2 System Margin -- 11.1.3 Power Penalties -- 11.2 Link Power Budget -- 11.2.1 Power-Budgeting Process -- 11.2.2 FTTP 1310-nm Power Budget -- 11.2.3 FTTP 1490-nm Power Budget -- 11.3 Photonic Design Automation Tools -- 11.3.1 Modeling Tool Characteristics -- 11.3.2 FTTP Network Modeling Tool. 11.4 Link Capacity Estimates -- 11.4.1 Basic Formulation -- 11.4.2 Basic Rise Times -- 11.4.3 FTTP Link Rise Time -- 11.5 Network Protection Schemes -- 11.6 Summary -- Problems -- Further Reading -- Chapter 12 FTTP Network Implementations -- 12.1 Central Office Configuration -- 12.1.1 Service Inputs to the FTTP Network -- 12.1.2 Cable Layout and Interfaces -- 12.1.3 WDM Coupler Placement -- 12.1.4 Patch Cords and Intrafacility Cables -- 12.2 Feeder Cables -- 12.2.1 Feeder Cable Structures -- 12.2.2 OSP Distribution Cabinet -- 12.3 Distribution Section -- 12.4 Installation of PON Cables -- 12.4.1 Direct-Burial Installations -- 12.4.2 Horizontal Drilling -- 12.4.3 Pulling Cable into Ducts -- 12.4.4 Cable Jetting Installation -- 12.4.5 Aerial Installation -- 12.4.6 Cable Warning and Identification Markers -- 12.5 Summary -- Problems -- Further Reading -- Chapter 13 Network Installation Testing -- 13.1 International Measurement Standards -- 13.2 Basic Test Instruments -- 13.3 Optical Power Measurements -- 13.3.1 Definition of Optical Power -- 13.3.2 Optical Power Meter -- 13.3.3 Power Meter Applications -- 13.4 Optical Time-Domain Reflectometer -- 13.4.1 OTDR Trace -- 13.4.2 OTDR Dead Zone -- 13.4.3 Fiber Fault Location -- 13.5 Optical Return Loss -- 13.6 Visual Fault Locator -- 13.7 Optical-Loss Test Set -- 13.8 Multifunction Test Instrument -- 13.9 Device Conformance Testing -- 13.10 FTTP Network Testing -- 13.10.1 Checking Individual Link Losses -- 13.10.2 Optical-Loss Budget Check -- 13.10.3 End-to-End Link Characterization -- 13.10.4 ORL Measurements -- 13.10.5 OLT and Video Output Checks -- 13.10.6 ONT Output Check -- 13.11 FTTP Network Troubleshooting -- 13.11.1 Resolutions of Network Problems -- 13.11.2 Troubleshooting Guidelines -- 13.12 Summary -- Problems -- References and Further Reading -- Chapter 14 Network Management Functions -- 14.1 Basic Network Management -- 14.2 Management Functions -- 14.2.1 Performance Management -- 14.2.2 Configuration Management. 14.2.3 Accounting Management -- 14.2.4 Fault Management -- 14.2.5 Security Management -- 14.3 OAM&P in FTTP Networks -- 14.4 Summary -- Problems -- Further Reading -- Appendix A Units, Physical Constants, and Conversion Factors -- Appendix B Acronyms -- Appendix C Video Transmission -- Appendix D Communication Signals -- Appendix E Telcordia Generic Requirements for PON Applications -- Index. |
Record Nr. | UNINA-9910877289403321 |
Keiser Gerd | ||
Hoboken, N.J., : John Wiley & Sons, : IEEE, c2006 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
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