Virtual Edge Architecture with Optical Bandwidth Resource Control

A virtual network edge using live migration of virtualized network functions (VNFs) can be expected to reduce computation time and save resources instead of conventional network edge routers that have complex functions. Wavelength-division-multiplexing/time-division-multiplexing (WDM/TDM) photonic s...

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Veröffentlicht in:	IEICE transactions on communications 2016-07, Vol.E99.B (8), p.1805-1812
Hauptverfasser:	Misawa, Akira, Mochizuki, Konomi, Tsuchiya, Hideo, Nakagawa, Masahiro, Hattori, Kyota, Katayama, Masaru, Kani, Jun-Ichi
Format:	Artikel
Sprache:	jpn
Schlagworte:	Architecture Bandwidth Computer networks Migration Networks Resource allocation Switching Switching theory
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creator	Misawa, Akira Mochizuki, Konomi Tsuchiya, Hideo Nakagawa, Masahiro Hattori, Kyota Katayama, Masaru Kani, Jun-Ichi
description	A virtual network edge using live migration of virtualized network functions (VNFs) can be expected to reduce computation time and save resources instead of conventional network edge routers that have complex functions. Wavelength-division-multiplexing/time-division-multiplexing (WDM/TDM) photonic switching technology for metro ring networks is proposed to provide fast bandwidth resource allocation for rapidly changing service-flow demand. However, there are no reports on the coexistence of high-speed path switching for live migration with fast bandwidth resource allocation, as far as we know. We propose an architecture that achieves both high-speed path switching and fast dynamic bandwidth allocation control for service flows with in-service live migration. The feature of this architecture is that the VNF for the virtual edge corresponds to each 10-gigabit Ethernet-passive optical network (10G-EPON) and fast route change can be achieved with a simple point-to-point path between VNFs and optical line terminals (OLTs). The second feature is that the live migration of a VNF is limited to a part of it that contains a larger number of subscribers. Owing to the reduction in the number of total paths, fast resource allocation can be provided.
doi_str_mv	10.1587/transcom.2015CCT0001
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subjects	Architecture Bandwidth Computer networks Migration Networks Resource allocation Switching Switching theory
title	Virtual Edge Architecture with Optical Bandwidth Resource Control
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