Wide-Sense NonblockingW-S-W Node Architectures for Elastic Optical Networks

Wojciech KABACIŃSKI; Mustafa ABDULSAHIB; Marek MICHALSKI

doi:10.1587/transcom.2018EUP0004

This article has now been updated. Please use the final version.

Wide-Sense NonblockingW-S-W Node Architectures for Elastic Optical Networks

Wojciech KABACIŃSKI, Mustafa ABDULSAHIB, Marek MICHALSKI

Author information

Keywords: Elastic optical networks, photonic switching systems, optical switching fabrics, nonblocking conditions

JOURNAL RESTRICTED ACCESS Advance online publication

Article ID: 2018EUP0004

DOI https://doi.org/10.1587/transcom.2018EUP0004

The final version of this article is now available: Vol. E102.B (2019), No. 5 pp. 978-991

Details

Abstract

This paper considers wide-sense nonblocking operation of the Wavelength-Space-Wavelength elastic optical switch. Six control algorithms, based on functional spectrum decomposition in interstage links and functional decomposition of center stage switches, are proposed for two switching fabric architectures. For these algorithms we derived wide-sense nonblocking conditions and compared them with strict-sense nonblocking ones. The results show that the proposed algorithm reduces the required number of frequency slot units (FSUs) or center stage switches, depending on the switching fabric architecture. Savings occur even when connections use small number of frequency slot units.

Corresponding author

Register with J-STAGE for free!