Publication detail

Transmission Convergence Layer of NG-PON2 in VPIphotonics Tool

HORVÁTH, T. MÜNSTER, P. VOJTĚCH, J. HAVLIŠ, O. GALLO, M.

Original Title

Transmission Convergence Layer of NG-PON2 in VPIphotonics Tool

English Title

Transmission Convergence Layer of NG-PON2 in VPIphotonics Tool

Type

journal article - other

Language

en

Original Abstract

Passive optical networks are the most promising solution for access networks. The first standard provided only 155 Mbit/s but current networks work according to ITU-T G.984.3 with 2.5 Gbit/s in downstream. However, NG-PON2 offers up to 40 Gbit/s in downstream by 4 different wavelengths. This article deals with an implementation of transmission convergence layer in VPIphotonics. This tool is dedicated only for simulations of physical layer. The main aim is to present a simulation of physical layer for NG-PON2 in comparison with our implementation of transmission convergence layer and encapsulated frames according to ITU-T G.989.3. Our results confirm expanding the entire system reach with the real encapsulation method of 3 sublayers model and error correction mechanism. The 3 sublayers model can be easily extended to all passive optical networks simulations in VPIphotonics simulation tool.

English abstract

Passive optical networks are the most promising solution for access networks. The first standard provided only 155 Mbit/s but current networks work according to ITU-T G.984.3 with 2.5 Gbit/s in downstream. However, NG-PON2 offers up to 40 Gbit/s in downstream by 4 different wavelengths. This article deals with an implementation of transmission convergence layer in VPIphotonics. This tool is dedicated only for simulations of physical layer. The main aim is to present a simulation of physical layer for NG-PON2 in comparison with our implementation of transmission convergence layer and encapsulated frames according to ITU-T G.989.3. Our results confirm expanding the entire system reach with the real encapsulation method of 3 sublayers model and error correction mechanism. The 3 sublayers model can be easily extended to all passive optical networks simulations in VPIphotonics simulation tool.

Keywords

NG-PON2, Matlab, VPIphotonics, transmission convergence layer, G.989

Released

07.11.2017

ISBN

1845-6421

Periodical

Journal of Communications Software and Systems

Year of study

13

Number

3

State

HR

Pages from

101

Pages to

107

Pages count

7

Documents

BibTex


@article{BUT141372,
  author="Tomáš {Horváth} and Petr {Münster} and Josef {Vojtěch} and Ondřej {Havliš} and Martin {Gallo}",
  title="Transmission Convergence Layer of NG-PON2 in VPIphotonics Tool",
  annote="Passive optical networks are the most promising solution for access networks. The first standard provided only 155 Mbit/s but current networks work according to ITU-T G.984.3 with 2.5 Gbit/s in downstream. However, NG-PON2 offers up to 40 Gbit/s in downstream by 4 different wavelengths. This article deals with an implementation of transmission convergence layer in VPIphotonics. This tool is dedicated only for simulations of physical layer. The main aim is to present a simulation of physical layer for NG-PON2 in comparison with our implementation of transmission convergence layer and encapsulated frames according to ITU-T G.989.3. Our results confirm expanding the entire system reach with the real encapsulation method of 3 sublayers model and error correction mechanism. The 3 sublayers model can be easily extended to all passive optical networks simulations in VPIphotonics simulation tool.
",
  chapter="141372",
  doi="10.24138/jcomss.v13i3.359",
  howpublished="online",
  number="3",
  volume="13",
  year="2017",
  month="november",
  pages="101--107",
  type="journal article - other"
}