Nishant Jakhar, International Journal of Computer Science and Mobile Computing, Vol.5 Issue.7, July- 2016, pg. 113-117 © 2016, IJCSMC All Rights Reserved 113 Available Online at www.ijcsmc.com International Journal of Computer Science and Mobile Computing A Monthly Journal of Computer Science and Information Technology ISSN 2320–088X IMPACT FACTOR: 5.258 IJCSMC, Vol. 5, Issue. 7, July 2016, pg.113 – 117 A Trust Adaptive Model for Mesh Network Reconfiguration Nishant Jakhar Asstt. Prof., CSE Dept Indus Degree College Nishant.jaks@gmail.com Abstract— A Mesh network is more reliable wireless technology that provides the low cost and reliable communication with maximum coverage. The network is formed with two kinds of nodes called clients and the mesh routers. Mesh Routers are the fixed position devices that control the region nodes. The placement of these routers is the greater challenge to improve the communication reliability. In this paper, a trust and reliability driven model is provided to configure the mesh network so that the effective load sharing will be done with minimum traffic disruption. The paper has defined the algorithmic model to improve the network communication. Keywords: Mesh Network, Reconfiguration, Routers, Recovery I. INTRODUCTION A dynamic network with adhoc connectivity gives the link failure because of the operating period specific drop or the communication drop because of channel interference, obstacle occurrence or the bandwidth restriction. The link specific channel estimation and coexisting network tracking was provided by the author. The demand specific link formation and communication control is observed to achieve the link maintainance so that the performance will be improved and the failure will be reduced. The number of failures in such network degrades the network performances and affects the communication reliability. The communication recovery is here defined from the deployment specific analysis so that the situation adaptive or the performance adaptive communication will be formed. The existence of different type of devices in such network also increases the communication challenge. A typical mesh network in which the mobility specific communication is performed is shown here in figure 1. The network also defined the communication with channel sharing and interference analysis. The synchronized and scheduled communication is the primary requirement of this network. The linear defined network used the TDMA and FDMA in integrated form to achieve maximum channel utilization. The bandwidth preserved communication is the key strength of this network form. The mesh controller ensures the communication reliability along with load and the channel sharing.