Gigabit-capable Passive Optical Networks
Published on 9. July 2012
Software
Other digital
448 pages
978-1-118-15607-0 (ISBN)
Description
Gigabit-capable passive optical networks (G-PON) have a large and increasing base of support among telecommunications operators around the world. Written by two of the experts in the field, this book explains G-PON in detail. As well as a history that clarifies the reasons for many of the existing features, the book looks at current and evolving technology and discusses some of the alternatives for future access networks.
More details
Language
English
Place of publication
New York
United States
Target group
Professional and scholarly
Dimensions
Height: 250 mm
Width: 150 mm
Thickness: 15 mm
Weight
666 gr
ISBN-13
978-1-118-15607-0 (9781118156070)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
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Person
Dave Hood is a Senior Systems Engineer at Ericsson AB. He has been involved with passive optical networks since they were first conceived in the 1980s. He is presently active in the FSAN and ITU communities, where, among other responsibilities, he serves as editor of OMCI Recommendation G.988. Elmar Trojer is a Senior Systems Engineer at Ericsson AB, where he has developed dynamic line management solutions for ADSL2+ and VDSL2 and prototyped the DSL automatic optimizer that became an Ericsson product. He also prototyped the world's first Gb/s passive optical network system.
Content
Acknowledgments xi 1 Introduction 1 1.1 Target Audience / 3 1.2 Evolution of G-PON Technology and Standards / 3 2 System Requirements 9 2.1 G-PON Operation / 10 2.2 ONU Types / 13 2.3 Network Considerations / 16 2.4 OLT Variations and Reach Extenders / 26 2.5 ONU Powering / 33 2.6 Technology Requirements / 42 2.7 Management Requirements / 44 2.8 Maintenance / 46 3 Optical Layer 49 3.1 Introduction / 50 3.2 Optical Fiber / 54 3.3 Connectors and Splices / 61 3.4 WDM Devices and Optical Filters / 64 3.5 Passive Optical Splitters / 67 3.6 Power Budget / 71 3.7 Coexistence / 77 3.8 Optical Transmitters / 82 3.9 Optical Receivers / 91 3.10 G-PON Transceiver Modules / 106 3.11 Optical Amplifiers / 113 3.12 Reach Extension / 118 4 Transmission Convergence Layer 127 4.1 Framing / 129 4.2 ONU Activation / 166 4.3 ONU Transmission Timing and Equalization Delay / 177 4.4 ONU Registration / 187 4.5 ONU Energy Conservation / 190 4.6 Security / 200 5 Management 219 5.1 The Toolkit / 219 5.2 Equipment Management / 240 5.3 Reach Extender Management / 249 5.4 PON Maintenance / 252 5.5 Obsolete Fragments of Information Model / 254 6 Services 255 6.1 Basic Ethernet Management / 256 6.2 Multicast / 275 6.3 Quality of Service / 285 6.4 IP Services / 303 6.5 POTS / 306 6.6 Pseudowires / 317 6.7 Digital Subscriber Line UNIs / 333 6.8 RF Video / 337 7 Other Technologies 339 7.1 Ethernet PON, EPON / 340 7.2 Wireless Broadband / 352 7.3 Copper / 353 7.4 Ethernet, Point to Point / 354 7.5 WDM PON / 357 7.6 Access Migration / 360 Appendix I - FEC and HEC in G-PON 363 I.1 Redundancy and Error Correction / 363 I.2 Forward Error Correction / 364 I.3 Hybrid Error Correction / 374 Appendix II - PLOAM Messages 375 II.1. PLOAM Messages in G.987 XG-PON / 375 II.2. PLOAM Messages in G.984 G-PON / 388 References 403 International Telecommunications Union, Telecommunication Standardization Sector / 403 Broadband Forum / 405 Institute of Electrical and Electronics Engineers / 405 Internet Engineering Task Force / 406 Other / 407 Acronyms 409 Index 423