Litcius/Paper detail

DESIGN OF A MINIMAL OVERHEAD CONTROL TRAFFIC TOPOLOGY DISCOVERY AND DATA FORWARDING PROTOCOL FOR SOFTWARE-DEFINED WIRELESS SENSOR NETWORKS

Simon Atuah Asakipaam, Jerry John Kponyo, Justice Owusu Agyemang, Fredrick Appiah-Twum

2022International Journal of Communication Networks and Information Security (IJCNIS)13 citationsDOIOpen Access PDF

Abstract

Software-defined networking is a novel concept that is ported into wireless sensor networks to make them more manageable and customizable. unfortunately, the topology discovery and maintenance processes generate high overhead control packet exchange between the sensor nodes and the central controller leading to a deterioration of the network's performance. In this paper, a novel minimal overhead control traffic topology discovery and data forwarding protocol is proposed and detailed. The proposed protocol requires some changes to the topology discovery protocol implemented in SDN-WISE to improve its performance. The proposed protocol has been implemented within the IT-SDN framework for evaluation. The results show reduced overhead control traffic and increase, of about 20%, data packet delivery rate over the protocol in SDN-WISE.

Topics & Concepts

Computer networkComputer scienceOverhead (engineering)Network packetNetwork topologyDistributed computingNeighbor Discovery ProtocolSoftware-defined networkingInternet protocol suiteThe InternetOperating systemEnergy Efficient Wireless Sensor NetworksEnergy Harvesting in Wireless NetworksSoftware-Defined Networks and 5G
DESIGN OF A MINIMAL OVERHEAD CONTROL TRAFFIC TOPOLOGY DISCOVERY AND DATA FORWARDING PROTOCOL FOR SOFTWARE-DEFINED WIRELESS SENSOR NETWORKS | Litcius