Title :
Big file protocol for OTN and ethernet transport systems
Author :
Albanese, Ilijc ; Yazır, Yagız ; Neville, Stephen ; Ganti, Sudhakar ; Darcie, Thomas
Author_Institution :
Univ. of Victoria, Victoria, BC, Canada
Abstract :
Demand for high-bandwidth services is rapidly increasing, placing current network infrastructure under significant stress. Many interesting approaches have been studied in order to cope with this growth, but most require major redesigns of current network architectures as well as large-scale hardware redeployments. Recently, the Big File Protocol (BFP), a network protocol designed to efficiently handle large file transactions, was proposed to provide improvements over traditional IP protocols (TCP/UDP) in terms of bandwidth utilization and end-toend delay. This paper presents an integration strategy for BFP within the currently deployed optical transport network (OTN) transport infrastructure relying as much as possible on current hardware and functions, thereby minimizing the deployment impact. Simulation results show capacity utilization improvement of more than 40% relative to TCP.
Keywords :
optical fibre LAN; telecommunication standards; transport protocols; BFP; Ethernet transport systems; IP protocols; OTN transport systems; TCP-UDP; bandwidth utilization; big file protocol; capacity utilization improvement; deployment impact minimization; end-to-end delay; high-bandwidth services; integration strategy; large file transactions; large-scale hardware redeployments; network protocol design; optical transport network transport infrastructure redesign; Bandwidth; Hardware; Payloads; Ports (Computers); Routing; Routing protocols; G.709; Large file transfer; Optical transport networks; Packet optical transport platform (P-OTP); System integration;
Journal_Title :
Optical Communications and Networking, IEEE/OSA Journal of
DOI :
10.1364/JOCN.7.000096