The Effects of Optimized Regenerator Allocation in Trans-lucent Networks under Inaccurate Physical information

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Document typeConference lecture
Defense date2010-02-04
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Abstract
Optimized regenerator allocation techniques select
which of the already installed regenerators in a translucent
network must be used in order to maximize the quality of the
optical signal while minimizing the opaqueness of the network.
Unfortunately, the performance of an optimized regenerator
allocation strategy strongly depends on the accuracy of the
physical-layer information. In this paper, we investigate the
effects of optimized regenerator allocation techniques when the
physical-layer information is inaccurate. According to the performed
experiments, we conclude that mostly of the current
techniques of regenerator usage optimization are only possible
when perfect knowledge of physical information is available.
Hence, new regenerator allocation schemes taking into account
the inherent inaccuracy in the physical-layer information need
to be designed.
CitationMarín, E. [et al.]. The Effects of Optimized Regenerator Allocation in Trans-lucent Networks under Inaccurate Physical information. A: 14th Conference on Optical Network Design and Modeling. "14th conference on Optical Network Design and Modeling". Kyoto: 2010.
DLIEEE Catalog Number: CFP1055D-USB
ISBN978-3-901882-41-8
Publisher versionhttp://www-mura.ist.osaka-u.ac.jp/ondm2010/participants.html
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