1.0 Introduction
1.1 General 1.2 PON Appearance 1.3 PON: Ethernet Family 1.4 FSAN-ITU - 10G-PON 1.5 W-PON 1.6 RFoG 1.7 POL 1.8 Enhanced DSL 1.9 Scope 1.10 Research Methodology 1.11 Target Audience
2.0 PON: Concept
2.1 PON Development 2.1.1 PON Benefits 2.1.2 The PON Proposition 2.1.3 Details 2.1.4 PON Classification 2.1.5 PON Elements 2.1.5.1 Optical Line Termination (OLT) 2.1.5.1.1 OLT Core Shell 2.1.5.1.2 Cross-connect Shell 2.1.5.1.3 Service Shell 2.1.5.2 Optical Network Unit (ONU) 2.1.5.3 Optical Distribution Network (ODN)
3.0 PON: First Generation
3.1 A/B-PON - G.983.x 3.2 G-PON - G.984.x 3.2.1 Passive Optical LAN 3.3 GE-PON - IEEE 802.3ah
4.0 PON: Second Generation
4.1 10GE-PON - IEEE 802.3av 4.1.1 Goal 4.1.2 IEEE - Standardization 4.1.2.1 Status 4.1.2.2 Standard's Scope and Objectives 4.1.2.3 10GE-PON Technology Specific 4.1.2.3.1 Inheritance 4.1.2.3.2 ONU Types 4.1.2.3.3 Dynamic Bandwidth Allocation 4.1.3 Drivers and Target Applications 4.2 10G-PON (NG-PON1) 4.2.1 ITU Efforts 4.2.2 Scope 4.2.3 Status 4.2.4 History 4.2.5 Migration 4.2.6 Support 4.2.7 Physical Layer
5.0 NG-PON2 and Further development
5.1 Stages 5.1.1 Plans - NG-PON2 5.1.2 ITU G.989.x (2013 Status) 5.2 Ethernet PON Standardization Advances 5.2.1 IEEE 1904.1 5.2.2 IEEE P802.3bk and IEEE P802.3bn: Amendments to IEEE 802.3-2012 5.3 Summary
6.0 PON Market
6.1 PON Commercialized 6.2 Factor 6.3 Services 6.4 Market Estimate 6.4.1 Equipment Sale 6.4.2 Service Providers Revenue 6.4.3 Industry Alcatel-Lucent (NG-PON1, G-PON) Ad-Net (GE-PON, PLC Splitters) Adtran (G-PON) Alphion (G-PON) Broadcom (GE-PON and G-PON IC) Cortina (10GE-PON, E-PON) Calix (G-PON, 10G E-PON and 10 G-PON) Corecess (GE- PON W- and G-PON) Dasan Networks (G-PON, GE-PON) Ericsson (40G-W-PON, G-PON) - Calix Finisar (E-PON, G-PON) GigaLight (10GE-PON, E-PON, G-PON, W-PON) Hisense (10GE-PON) Hitachi (GE-PON, 10GE-PON, DePON, MW-PON) Huawei (10G-PON, G-PON) MegoChips -K-Micro (10GE-PON) Motorola Solutions (10G-PON, G-PON, XG-PON) Marvell (GE-PON; 10GE-PON, G-PON) Mitsubishi Electric (GE-PON) NeoPhotonics (NG-PON, G-PON, GE-PON) NEC (GE-PON, 10GE-PON) OBN (GE-PON) OFN (E-PON) PBN (GE-PON) PMC (GE-PON, 10GE-PON, G-PON) Qualcomm Atheros (E-PON) Raisecom (GE-PON) Source Photonics (GE-PON, 10GE-PON) Sun Telecom (GE-PON) Sumitomo Electric Networks (GE-PON) Tainet (GE-PON) Wuhan Xunten (GE-PON) Zhone (G-PON ZTE ( GE-PON, G-PON)
7.0 RFoG Technology Development
7.1 Hybrid Fiber Coaxial (HFC) Technology 7.2 RFoG Solution 7.2.1 General 7.2.2 Standardization 7.2.2.1 Process 7.2.2.2 Details 7.2.2.2.1 ANSI/SCTE 174 2010 7.2.2.2.2 IEC 7.2.2.3 Industry Needs 7.2.2.4 Target 7.3 Similarities and Differences (HFC and RFoG) 7.4 RFoG Major Benefits and Issues 7.5 Future Extensions - RF-PON 7.6 Projects Samples 7.7 Market Estimate 7.7.1 Need 3.7.2 Forecast 7.8 RFoG Industry Arris Aurora Networks BKtel Calix Cisco CTDI Commscope Electroline Enablence Hitachi Lootom OptiLab PBN Tellion Titan Photonics
8.0 DSL Evolution
8.1 General - DSL Family 8.1.1 ADSL 8.1.2. R-ADSL 8.1.3 HDSL 8.1.4 IDSL 8.1.5 VDSL 8.1.6 HDSL 8.1.7 SDSL 8.1.8 Summary 8.2 Vectored DSL - G.993.5-2010 8.2.1 Scope 8.2.2 Details 8.2.3 Initial Market 8.3 G.fast 8.3.1 Trial 8.4 Phantom DSL 8.5 FTTdp 8.6 Industry Adtran Alcatel-Lucent Assia Broadcom Calix Huawei Ikanos Lantiq Sckipio Zhone ZTE
9.0 Conclusions
List Of Figures and Tabels:
Figure 1: PON Reference Model Figure 2: PON Details Figure 3: PON Architecture Illustration Figure 4: OLT Functional Block Diagram Figure 5: ONU Functional Block Diagram Figure 6: B-PON Characteristics Figure 7: POL - G-PON Extension Figure 8: GE-PON - 10GE-PON Scenario Figure 9: 10GE-PON Spectrum Allocation Figure 10: Process Figure 11: Timeline Figure 12: Advances Figure 13: ITU Stages Figure 14: Evolution Illustration Figure 15: Road Map Figure 16: Penetration Dependence Figure 17: TAM: PON Equipment Sales - Global ($B) Figure 18: PON Technology Geography - Major Regions (2012) Figure 19: U.S. Providers (2012) Figure 20: TAM: U.S. PON - based Service Providers Revenue ($B) Figure 21: HFC Frequencies Assignment Illustration Figure 22: RFoG Reference Architecture Figure 23: ONU-R Illustration Figure 24: HFC and RFoG Illustration Figure 25: RFoG and GE-PON Frequencies Allocation Figure 26: Illustration: PON Overlay Figure 27: Comparative Characteristics Figure 28: TAM: U.S. RFoG Equipment Sales ($B) Figure 29: TAM: U.S. RFoG Service Providers Revenue ($B) Figure 30: FEXT Illustration Figure 31: Reference Model - Vectored System Figure 32: Vectored DSL - Characteristics Improvement Figure 33: Vectored DSL Channel Figure 34: TAM: Global Shipments of Vectored VDSL2 Ports (mil. units) Figure 35: Service Providers Revenue Estimate - Vectored VDSL ($B) Figure 36: G.fast Illustration Figure 37: Illustration - G.fast Link Figure 38: Phantom DSL - Illustration Figure 39: FTTdp
Table 1: G-PON Transmission Rates Table 2: Interfaces Table 3: Interfaces Table 4: G.987 Family Table 5: 10G-PON Classes Table 6: Comparison Table 7: PON Standardization Table 8: PONs Characteristics Comparison Table 9: PON Service Scenarios Table 10: Optical Budget Table 11: Downstream Transmission Table 12: Frequency Plans Table 13: DSL Family Evolution Table 14: ADSL Rates Table 15: Parameters
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