Delay-constraint fair resource allocation scheme for an optical overlapped code-division multiple access-based optical network: a cross-layer approach

E. Inaty; R. Raad; P. Fortier; M. Maier

Delay-constraint fair resource allocation scheme for an optical overlapped code-division multiple access-based optical network: a cross-layer approach

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Delay-constraint fair resource allocation scheme for an optical overlapped code-division multiple access-based optical network: a cross-layer approach

Author(s): E. Inaty ; R. Raad ; P. Fortier ; M. Maier
DOI: 10.1049/iet-com.2010.0411

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Author(s): E. Inaty ¹ ; R. Raad ¹ ; P. Fortier ² ; M. Maier ³
- Affiliations: 1: Faculty of Engineering, University of Balamand, Lebanon
  2: Faculty of Science and Engineering, Laval University, Quebec, Canada
  3: Optical Zeitgeist Laboratory, INRS, Quebec, Canada
Source: Volume 5, Issue 10, 1 July 2011, p. 1421 – 1429
DOI: 10.1049/iet-com.2010.0411 , Print ISSN 1751-8628, Online ISSN 1751-8636

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This study addresses the problem of resource allocation for a multi-class time-slotted optical overlapped code-division multiple access network. A delay-constraint fair resource allocation (DC-FRA) scheme is considered with the quality of service requirements on both physical layer signal-to-interference ratio and network layer average packet delay. A cross-layer approach in allocating the transmission power and rate for every class of users in the network is considered. The performances of the S-ALOHA, R-ALOHA and R3T medium access control protocols have been investigated in the DC-FRA scheme. It is shown that the R-ALOHA protocol has the highest throughput and the minimum average packet delay. On the other hand, although the DC-FRA allocates the largest bandwidth under the R-ALOHA protocol, it forces the users to transmit with relatively higher power in comparison with the power required for the S-ALOHA and the R3T protocols. In addition, the packets exhibit much smaller delay when using the DC-FRA, especially at low and moderate throughput for the three protocols.

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Delay-constraint fair resource allocation scheme for an optical overlapped code-division multiple access-based optical network: a cross-layer approach

Delay-constraint fair resource allocation scheme for an optical overlapped code-division multiple access-based optical network: a cross-layer approach

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