Abstract
The sink hole attack is a typical wireless sensor network attack. The sink hole node advertises itself as the best route to the sink node or the base station. The nodes in the communication zone of the sink hole node then redirects their observed data to the sink hole node upon receiving the broadcasted supposedly the best route. The sink node receives the packets and then drops them. It can also modify them before relaying them to the sink node or base station. This study proposes a scheme designed to address the effects of the sink hole attack called the Hop Count-Based Detection Scheme for Sinkhole Attack. The performance of the scheme is evaluated using Matlab. The scheme is compared to Ibrahim’s algorithm which is the best algorithm in literature. The simulation results show that HCODESSA achieves good results in comparison to Ibrahim’s. The results show that the sinkhole attack has adverse effect on the performance of the network and that its severity depends on the number of nodes it can mislead. We further evaluated the two schemes using statistical techniques which proved that HCODESSA performs better.
Highlights
Software-defined wireless sensor cognitive radio network (SDWSCRN) is an emerging technology which is the integration of the software-defined networking (SDN) [1] and wireless sensor cognitive radio networks (WSCRN)
The sensor nodes in the software-defined wireless sensor cognitive radio network reports local observed data to the sink node which is known as the base station in an infrastructure based environment
The results show that HCODESSA outperformed the Ibrahim’s algorithm
Summary
Software-defined wireless sensor cognitive radio network (SDWSCRN) is an emerging technology which is the integration of the software-defined networking (SDN) [1] and wireless sensor cognitive radio networks (WSCRN). Software-defined wireless sensor cognitive radio network enhances the simplicity and flexibility of WSN management [2]. Velempini of things (IoT) which enables sensor actuator to be embedded onto physical objects to exchange observed data. It has the same structure as the SDN and it consists of the application layer, the control layer/plane which controls the network and the flow of data [3]. The sensor nodes in the software-defined wireless sensor cognitive radio network reports local observed data to the sink node which is known as the base station in an infrastructure based environment. The sinkhole attack prevents the sink node or base station from receiving observed data or correct data
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
