Novel algorithm for optimal wavelength and bandwidth allotment in ethernet passive optical network
By: Karma, Shyam Sunder
.
Publisher: Chennai ICT Academy 2022Edition: Vol.13 (01) - March.Description: 2591-2597p.Subject(s): Electronics & Computer Science (ECS)Online resources: Click here to access online
In:
ICTACT journal on communication technologySummary: bstract
Ethernet Passive Optical Network (EPON) is that technology that can
rule out the congestion in local loop at the level of user and local
exchange. At present, there are many simulators to analyze the EPON
but the simplest one is using MATLAB. In this paper, we have first
analyzed the bit rate performance of WDM EPON and verified the
result using NS2 software. After that in the presented WDM EPON
model, we proposed an algorithm for wavelength and bandwidth
allocation with full QoS support. The result indicates that traffic
generation in both NS2 and MATLAB follow the same trend and the
proposed algorithm optimizes the various throughput parameters. We
found that the bit error rate varies from 14-22 Mbps, 14-55 Mbps, and
36-48 Mbps for EF, AF, and BE traffic respectively.
Keywords:
EPON, EF Traffic, AF Traffic, BE Traffic
| Item type | Current location | Call number | Status | Date due | Barcode | Item holds |
|---|---|---|---|---|---|---|
Articles Abstract Database
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School of Engineering & Technology Archieval Section | Not for loan | 2022-1037 |
bstract
Ethernet Passive Optical Network (EPON) is that technology that can
rule out the congestion in local loop at the level of user and local
exchange. At present, there are many simulators to analyze the EPON
but the simplest one is using MATLAB. In this paper, we have first
analyzed the bit rate performance of WDM EPON and verified the
result using NS2 software. After that in the presented WDM EPON
model, we proposed an algorithm for wavelength and bandwidth
allocation with full QoS support. The result indicates that traffic
generation in both NS2 and MATLAB follow the same trend and the
proposed algorithm optimizes the various throughput parameters. We
found that the bit error rate varies from 14-22 Mbps, 14-55 Mbps, and
36-48 Mbps for EF, AF, and BE traffic respectively.
Keywords:
EPON, EF Traffic, AF Traffic, BE Traffic
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