Allocation of Channels for Channelizing the IoT Traffic

Sonali A.  Patil; L. Arun  Raj; Lakshmi Harika  Palivela

Authors

Sonali A. Patil Department of CSE, B.S.Abdur Rahman Crescent Institute of Science & Technology, Chennai, Department of Computer Engg, , G H Raisoni College of Engg. and Management, Pune
L. Arun Raj Department of CSE, B.S.Abdur Rahman Crescent Institute of Science & Technology, Chennai
Lakshmi Harika Palivela School of Computer Science and Engineering, VIT Chennai, India

Keywords:

PROMETHEE-II, channel selection, channel allocation, IoT, sensors, MCDA, IoT traffic

Abstract

With the evolution of Internet of Things (IoT), the generation of data has been increased to a remarkable extent. The sensors generate the data all the time and it is significant to transmit the data through Internet gateways with a good transmission speed. There are multiple links between the transmitting and receiving nodes and each link may have multiple channels. The selection of suitable channels is very important aspect for the faster transmission of the data and is a great challenging job for IoT based data transmissions due to enormous quantity of data. In this paper, a statistical MCDA technique based on SAW and PROMETHEE has been utilized for analyzing all the parameters that impact the channel selection mechanism and on the basis of the PROMETHEE outranking scores; the channel with the highest score is picked for data transmission. The statistical SAW method first obtains the priorities of each parameter which effects the decision of selecting the channel and then performs a pairwise comparison of the available channels. Finally, PROMETHEE method generates the scores for all the channels. The IoT node or gateway can select the channel with the maximum AHP score to forward the data for getting faster transmission speed. The result outcome of the proposed channel allocation scheme states that the channel selection based on MCDA method not only provides good data transmission speed but it also enhances the network capabilities by reducing delay in transmissions, by enhancing overall throughput of the channel and by balancing the network load.

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Allocation of Channels for Channelizing the IoT Traffic

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