DocumentCode
505305
Title
Adaptive Routing and Contention Resolution approaches for OBS networks with QoS differentiation
Author
Belbekkouche, Abdeltouab ; Hafid, Abdelhakim ; Gendreau, Michel
Author_Institution
Network Res. Lab., Univ. of Montreal, Montreal, QC, Canada
fYear
2009
fDate
14-16 Sept. 2009
Firstpage
1
Lastpage
8
Abstract
Optical Burst Switching (OBS) is a promising switching paradigm for the next generation Internet. A bufferless OBS network can be implemented simply and cost-effectively without the need for either wavelength converters or optical buffers which are, currently, neither cost-effective nor technologically mature. However, this type of OBS networks suffers from relatively high loss probability caused by wavelength contentions at core nodes. This issue could prevent or, at least, delay the adoption of OBS networks as a solution for the next generation optical Internet. To enhance the performance of buffer-less OBS networks, we propose two approaches: a) a proactive multi-path approach, called Reinforcement Learning-based Alternative Routing (RLAR), that tries to prevent wavelength contentions; and b) an approach, called Integrated Reinforcement Learning-based Routing and Contention Resolution (IRLRCR) that deals with wavelength contentions proactively and reactively conjointly. We also show relative QoS differentiation capability of the proposed schemes. Simulation results show the ability of the proposed approaches to reduce loss probability and to provide Quality of Service (QoS) differentiation.
Keywords
quality of service; telecommunication network routing; telecommunication switching; QoS differentiation; adaptive routing; contention resolution; core nodes; integrated reinforcement learning-based routing; loss probability; next generation optical Internet; optical buffers; optical burst switching; quality of service differentiation; reinforcement learning-based alternative routing; wavelength contentions; IP networks; Internet; Next generation networking; Optical buffering; Optical burst switching; Optical fiber networks; Optical losses; Optical wavelength conversion; Quality of service; Wavelength routing; Deflection Routing; Multi-path routing; Optical Burst Switching; QoS differentiation; Unsupervised learning; Wavelength Division Multiplexing;
fLanguage
English
Publisher
ieee
Conference_Titel
Broadband Communications, Networks, and Systems, 2009. BROADNETS 2009. Sixth International Conference on
Conference_Location
Madrid
Print_ISBN
978-963-9799-49-3
Electronic_ISBN
978-963-9799-49-3
Type
conf
DOI
10.4108/ICST.BROADNETS2009.7233
Filename
5336378
Link To Document