Dynamic Subwavelength Protection Using High-Speed Optical Switches for Optical Metro Networks

Flexible resource utilization in terms of adaptive use of optical bandwidth with agile reconfigurability is key for future metro networks. To address this issue, we focus on optical subwavelength switched network architectures that leverage high-speed optical switching technologies and can accommoda...

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Veröffentlicht in:	IEICE Transactions on Electronics 2016/02/01, Vol.E99.C(2), pp.203-211
Hauptverfasser:	NAKAGAWA, Masahiro, HATTORI, Kyota, MATSUDA, Toshiya, KATAYAMA, Masaru, KODA, Katsutoshi
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptive algorithms Allocations Bandwidth dynamic bandwidth re-optimization Dynamics High speed Optical communication optical subwavelength switched networks optical switch Optical switching protection Switching theory time-slot allocation
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container_title	IEICE Transactions on Electronics
container_volume	E99.C
creator	NAKAGAWA, Masahiro HATTORI, Kyota MATSUDA, Toshiya KATAYAMA, Masaru KODA, Katsutoshi
description	Flexible resource utilization in terms of adaptive use of optical bandwidth with agile reconfigurability is key for future metro networks. To address this issue, we focus on optical subwavelength switched network architectures that leverage high-speed optical switching technologies and can accommodate dynamic traffic cost-effectively. Although optical subwavelength switched networks have been attracting attention, most conventional studies apply static (pre-planned) protection scenarios in the networks of limited sizes. In this paper, we discuss optical switch requirements, the use of transceivers, and protection schemes to cost-effectively create large-scale reliable metro networks. We also propose a cost-effective adaptive protection scheme appropriate for optical subwavelength switched networks using our fast time-slot allocation algorithm. The proposed scheme periodically re-optimizes the bandwidth of both working and protection paths to prevent bandwidth resources from being wasted. The numerical examples verify the feasibility of our proposed scheme and the impact on network resources.
doi_str_mv	10.1587/transele.E99.C.203
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subjects	Adaptive algorithms Allocations Bandwidth dynamic bandwidth re-optimization Dynamics High speed Optical communication optical subwavelength switched networks optical switch Optical switching protection Switching theory time-slot allocation
title	Dynamic Subwavelength Protection Using High-Speed Optical Switches for Optical Metro Networks
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