Sensor Node Failure Detection using Multiway Tree based Round Trip Path in Wireless Sensor Networks

Abstract

To upgrade the Quality of Services among the sensor node correspondence in WSN, the recognizing confirmation of sensor node range, ID of reduced sensor nodes, amounts of sensor nodes included, recognizable proof of issue nodes are the over the top testing civil argument. The main objective of this work is to identify the faulty node, its readings, detection of the malfunctioning nodes. Round Trip Path is used to evaluate the Round Trip Delay time with which the information about the sensor nodes is accomplished. In perspective of the round trek deferral time esteem, the deficiency node is diagnosed. The detection of the faulty node is determined by the previous work but the obtained path for the detection is more. In the proposed Multi way Tree based Round Trip Path (MTrTP) system, the faulty node is identified with less number of paths when compared to the existing work. In this method, the shortcoming sensor node is recognized, by measuring the RTD time of every single possible way and the results are appeared differently in relation to edge esteem. MTrTP system is had a go at using six at mega sensor nodes with Xbee Series2 ZigBee modules. By taking a gander at the distinctive results got using the RTD examination, MTrTP strategy exhibits that, it will give raised results in regards to number of RTP and investigation time. In this work, diverse gained results are plotted and the relating examinations are inspected. The plotted result of the existing work and the current work is compared. The proposed work has much more advantages when compared to existing because the number of path obtained and the analysis time for the fault node detection is less. Thus, the detection of the fault node is determined by the MTrTP algorithm. Therefore, the lifetime of the wireless sensor network, the degree of coverage and connectivity among the sensor network are increased. This work can be used for industrial automation and all WSN applications.