Physical Layer Aspects of NG-PON2 Standards-Part 1: Optical Link Design

被引：64

作者：

Wey, Jun Shan ^{[1
]}

Nesset, Derek ^{[2
]}

Valvo, Maurizio ^{[3
]}

Grobe, Klaus ^{[4
]}

Roberts, Hal ^{[5
]}

Luo, Yuanqiu ^{[6
]}

Smith, Joe ^{[7
]}

机构：

[1] Lightnotes Consulting, Sammamish, WA 98074 USA

[2] British Telecommun Plc, Martlesham Heath, Adastral Pk, Ipswich, Suffolk, England

[3] Telecom Italia Lab, Turin, Italy

[4] ADVA Opt Networking, Munich, Germany

[5] Calix, Minneapolis, MN 55331 USA

[6] Huawei Technol, Bridgewater, NJ 08807 USA

[7] Alcatel Lucent, Raleigh, NC 27612 USA

来源：

JOURNAL OF OPTICAL COMMUNICATIONS AND NETWORKING | 2016年 / 8卷 / 01期

关键词：

Multiaccess communication; Optical fiber network; Passive optical network; Standards; NEXT-GENERATION;

D O I：

10.1364/JOCN.8.000033

中图分类号：

TP3 [计算技术、计算机技术];

学科分类号：

0812 ;

摘要：

NG-PON2 is the industry's first multiple wavelength (per direction), standards-based passive optical network system that is compatible with power-split optical distribution networks. The physical media dependent layer recommendation (ITU-T G.989.2) is the result of over three years of collaborative work by members of the FSAN and ITU-T Study Group 15, Question 2 groups. This two-part paper provides the technical insight and rationales behind the recently approved standard. The first part of the paper focuses on optical link design topics, including the optical distribution network characteristics, wavelength plan, Raman fiber nonlinearity related degradation, and interchannel cross-talk tolerance. It also describes the wavelength-tuning capability of optical network units and its impact on the physical media dependent layer specification.

引用

页码：33 / 42

页数：10

共 48 条

[1] Physical Layer Aspects of NG-PON2 Standards-Part 2: System Design and Technology Feasibility
Luo, Yuanqiu
Roberts, Hal
Grobe, Klaus
Valvo, Maurizio
Nesset, Derek
Asaka, Kota
Rohde, Harald
Smith, Joe
Wey, Jun Shan
Effenberger, Frank
JOURNAL OF OPTICAL COMMUNICATIONS AND NETWORKING, 2016, 8 (01) : 43 - 52
[2] NG-PON2 Technology and Standards
Nesset, Derek
JOURNAL OF LIGHTWAVE TECHNOLOGY, 2015, 33 (05) : 1136 - 1143
[3] Optical design and analysis of CWDM upstream TWDM PON for NG-PON2
Kim, Jongdeog
Park, Chang-Soo
OPTICAL FIBER TECHNOLOGY, 2013, 19 (03) : 250 - 258
[4] NG-PON2 Transmission Convergence Layer: A Tutorial
Khotimsky, Denis A.
JOURNAL OF LIGHTWAVE TECHNOLOGY, 2016, 34 (05) : 1424 - 1432
[5] NG-PON2 Transmission Convergence Layer: A Tutorial
Khotimsky, Denis A.
ECOC 2015 41ST EUROPEAN CONFERENCE ON OPTICAL COMMUNICATION, 2015,
[6] N:1 Fast Protection in NG-PON2
Luo, Yuanqiu
Gao, Bo
Jiang, Ming
Effenberger, Frank
2015 OPTO-ELECTRONICS AND COMMUNICATIONS CONFERENCE (OECC), 2015,
[7] Implementation of NG-PON2 Transmission Convergence Layer into OPNET Modeler
Horvath, Tomas
Munster, Petr
Cymorek, Patrik
Oujezsky, Vaclav
Vojtech, Josef
2017 INTERNATIONAL WORKSHOP ON FIBER OPTICS IN ACCESS NETWORK (FOAN), 2017,
[8] Thermal Distribution Change of Optical Fiber Terminal Based NG-PON2 Link Security Monitoring Technology
Ye, Xiaokai
Sun, Xiaohan
FUTURE NETWORK SYSTEMS AND SECURITY, FNSS 2019, 2019, 1113 : 128 - 133
[9] XG-PON1 versus NG-PON2: Which One Will Win?
Effenberger, Frank
2012 38TH EUROPEAN CONFERENCE AND EXHIBITION ON OPTICAL COMMUNICATIONS (ECOC), 2012,
[10] DSP-Based Optical Access Approaches for Enhancing NG-PON2 Systems
Yoshimoto, Naoto
Kani, Jun-ichi
Kim, Sang-Yuep
Iiyama, Noriko
Terada, Jun
IEEE COMMUNICATIONS MAGAZINE, 2013, 51 (03) : 58 - 64

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