Title :
Coverage capabilities of a multi-wavelength passive optical network architecture
Author :
Yiannopoulos, K. ; Varvarigos, E. ; Katopodis, V. ; Christodoulopoulos, K. ; Klonidis, D. ; Tomkos, I. ; Lazarou, I. ; Bakopoulos, P. ; Avramopoulos, H. ; Dimos, P. ; Heliotis, G.
Author_Institution :
Comput. Technol. Inst. & Press “Diophantus, Univ. of Patras Campus, Rio, Greece
Abstract :
We present a coverage capability analysis for a multi-wavelength passive optical network architecture that is designed for supporting broadband xDSL access. The analysis takes into account the physical layer impairments of optical fibers and components and, via extensive simulations, provides results concerning the reach that can be obtained and the number of wavelengths that can be utilized. Given the physical layer study results, we evaluate the applicability of the proposed scheme in real networking topologies and determine the number of end-users that can be served and the line rates they can enjoy for nine application scenarios in rural, semi-urban, urban and dense urban areas. Our results show that the proposed architecture is perfectly suitable for attaining the 2020 Digital Agenda objectives in terms of penetration and end-user bandwidth.
Keywords :
digital subscriber lines; optical fibres; passive optical networks; telecommunication network topology; broadband xDSL access; coverage capability analysis; digital agenda objectives; extensive simulations; multiwavelength passive optical network architecture; optical fibers; physical layer impairments; real networking topology; Bit error rate; Fiber nonlinear optics; Optical fibers; Optical network units; Passive optical networks; Physical layer; access coverage analysis; passive optical networks; physical layer study; wavelength division multiplexing;
Conference_Titel :
Computer Aided Modeling and Design of Communication Links and Networks (CAMAD), 2014 IEEE 19th International Workshop on
Conference_Location :
Athens
DOI :
10.1109/CAMAD.2014.7033204
