Manuscript Title:

OPTIMIZING LOAD DISTRIBUTION FOR EFFICIENT CONTENT DELIVERY NETWORKS IN SUBURBAN AREAS

Author:

PADMINI BHAT, Dr. K. V.S.S.S.S.SAIRAM, Dr. ANJALI GANESH, Dr. DHARMANANDA M

DOI Number:

DOI:10.5281/zenodo.13119983

Published : 2024-07-23

About the author(s)

1. PADMINI BHAT - St. Joseph Engineering College, Mangalore.
2. Dr. K. V.S.S.S.S.SAIRAM - N. M. A. M. Institute of Technology, Nitte.
3. Dr. ANJALI GANESH - St. Joseph Engineering College, Mangalore.
4. Dr. DHARMANANDA M - Nitte Meenakshi Institute of Technology, Bengaluru.

Full Text : PDF

Abstract

Ensuring uninterrupted traffic flow is crucial for the efficient design and deployment of content delivery networks. The growing need for internet bandwidth in suburban areas has pushed service providers to upgrade their networks in order to meet the increasing demands. Nevertheless, it is essential to consider the importance of resource optimization in terms of reducing costs. An alternative plan must be devised by the service provider to effectively manage unpredictable fluctuations in demand. Enhancing the efficiency of computational resources enables network operators to adjust resource quantities in response to fluctuating traffic demands. Datacenters are interconnected using optical networking technologies. Our research focuses on developing a load distribution architecture that optimizes network utilization by minimizing redundancy. To optimize the utilization of these resources, it is crucial to strategically arrange the placement of SMF in OXCs. This will enable the establishment of a network of optical paths that effectively connect the data centers catering to users. Using SFPs of higher order will result in higher initial installation costs. However, the cost of upgrading the switches to meet the growing demand can be fairly substantial. Various devices can be used to establish network connectivity and facilitate the exchange of data. Afterwards, the proposed work is validated to assess its optimization and efficiency through the application of the Porter 5 force model. The results indicate that the proposed method of implementing higher order SFP is an effective approach for addressing the growing need for increased bandwidth.


Keywords

Small Form Factor Pluggable (SFP), Optical Cross Connect (OXC), Five Force Model, Dense Wavelength Division Multiplexing (DWDM), Shortest Distance Algorithm.