Controller Placement in Software Defined Internet of Things Using Optimization Algorithm

Aman Kataria,Vinod Karar,Sarika Sharma,Smarajit Ghosh,Sikander Hans

doi:10.32604/cmc.2022.019971

Abstract

The current and future status of the internet is represented by the upcoming Internet of Things (IoT). The internet can connect the huge amount of data, which contains lot of processing operations and efforts to transfer the pieces of information. The emerging IoT technology in which the smart ecosystem is enabled by the physical object fixed with software electronics, sensors and network connectivity. Nowadays, there are two trending technologies that take the platform i.e., Software Defined Network (SDN) and IoT (SD-IoT). The main aim of the IoT network is to connect and organize different objects with the internet, which is managed with the control panel and data panel in the SD network. The main issue and the challenging factors in this network are the increase in the delay and latency problem between the controllers. It is more significant for wide area networks, because of the large packet propagation latency and the controller placement problem is more important in every network. In the proposed work, IoT is implementing with adaptive fuzzy controller placement using the enhanced sunflower optimization (ESFO) algorithm and Pareto Optimal Controller placement tool (POCO) for the placement problem of the controller. In order to prove the efficiency of the proposed system, it is compared with other existing methods like PASIN, hybrid SD and PSO in terms of load balance, reduced number of controllers and average latency and delay. With 2 controllers, the proposed method obtains 400 miles as average latency, which is 22.2% smaller than PSO, 76.9% lesser than hybrid SD and 91.89% lesser than PASIN.

Highlights

Physical devices are connected to the internet with the help of Internet of Things (IoT) in which that is used to collect, share and analyze huge number of data
IoT is implemented with adaptive fuzzy controller placement using the enhanced sunflower optimization and Pareto optimal controller (POCO) placement tool for the placement problem of controller
The controller placement problem for the distributed network has been focussed, for the IoT network, and the concept of optimization algorithm has been applied to solve the class of controller placement problem, which is common in real systems

Summary

Introduction

Physical devices are connected to the internet with the help of Internet of Things (IoT) in which that is used to collect, share and analyze huge number of data. CMC, 2022, vol., no.3 scalability and management problems rises due to the interconnection of large number of devices Benefits are considered as advance IoT applications like smart buildings, smart energy systems, intelligent healthcare systems and smart transport systems [2]. Another one advantage is that the devices in IoT can be connected with other devices at anytime and anywhere. Granular traffic filtering issues and security threats are quickly enabled by this controller [4]

Methods

Discussion

Conclusion