Sparse partial optical Code and Wavelength Conversion architecture in hybrid WDM/OCDM OBS networks

The performance of Optical Code/Wavelength Conversion (OCWC) switch architectures are investigated in this work. We employed hybrid technologies within in Optical Burst Switching (OBS) networks, which include wavelength and optical code division multiplexing. The simulated results demonstrate the co...

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Main Authors: Galdino, L., Maranhao, J., Furtado, M. T., Moschim, E., Bonani, L. H., Durand, F. R.
Format: Conference Proceeding
Language:English
Subjects:
burst blocking probability
Code division multiplexing
code/wavelength conversion architectures
Optical buffering
optical burst switching (OBS)
Optical fiber networks
Optical switches
Optical wavelength conversion
WDM networks
WDM/OCDM networks
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creator Galdino, L.
Maranhao, J.
Furtado, M. T.
Moschim, E.
Bonani, L. H.
Durand, F. R.
description The performance of Optical Code/Wavelength Conversion (OCWC) switch architectures are investigated in this work. We employed hybrid technologies within in Optical Burst Switching (OBS) networks, which include wavelength and optical code division multiplexing. The simulated results demonstrate the concomitant increase of optical codes per wavelength and the utilization of Sparse Partial Optical Code/Wavelength Conversion. Both lead to a considerable decrease of the Burst Blocking Probability (BBP). In addition, such hybrid approach also improves the utilization of network resources.
doi_str_mv 10.1109/CTS.2011.5898921
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subjects burst blocking probability
Code division multiplexing
code/wavelength conversion architectures
Optical buffering
optical burst switching (OBS)
Optical fiber networks
Optical switches
Optical wavelength conversion
WDM networks
WDM/OCDM networks
title Sparse partial optical Code and Wavelength Conversion architecture in hybrid WDM/OCDM OBS networks
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