An Efficient Controller Placement Algorithm using Clustering in Software Defined Networks

Q4 Engineering Journal of Telecommunications and Information Technology Pub Date : 2023-10-31 DOI:10.26636/jtit.2023.4.1371

Joshua Jacob, Sumedha Shinde, Narayan D.G.

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Abstract

Software-defined networking (SDN) is an emerging network paradigm that separates the control plane from data plane and provides programmable network management. The control plane within SDN is responsible for decision-making, while packet forwarding is handled by the data plane based on flow entries defined by the control plane. The placement of controllers is an important research issue that significantly impacts performance of SDN. In this work, we utilize clustering algorithms to group networks into multiple clusters and propose an algorithm for optimal controller placement within each cluster. Initially, using the silhouette score, we determine the optimal number of controllers for various topologies. Additionally, to enhance network performance, we employ the meeting point algorithm to calculate the optimal location for placing the controller within each cluster. We implement the proposed work in the Mininet emulator with POX as the SDN controller. Furthermore, we compare our proposed approach to existing work in terms of throughput, delay, and jitter using six topologies from the Internet Zoo dataset.

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软件定义网络中一种有效的聚类控制器布局算法

软件定义网络(SDN)是一种新兴的网络模式，它将控制平面与数据平面分离，并提供可编程的网络管理。SDN内的控制平面负责决策，数据包转发由数据平面根据控制平面定义的流项进行处理。控制器的放置是影响SDN性能的一个重要研究问题。在这项工作中，我们利用聚类算法将网络分组为多个簇，并提出了在每个簇内最优控制器放置的算法。首先，使用轮廓分数，我们确定了各种拓扑的最优控制器数量。此外，为了提高网络性能，我们采用会合点算法来计算在每个集群中放置控制器的最佳位置。我们以POX作为SDN控制器，在Mininet仿真器中实现了所提出的工作。此外，我们使用来自Internet Zoo数据集的六种拓扑，将我们提出的方法与现有工作在吞吐量、延迟和抖动方面进行了比较。

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来源期刊

Journal of Telecommunications and Information Technology Engineering-Electrical and Electronic Engineering

CiteScore

1.20

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0.00%

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