Collaborator Homed Routing: a Mechanism for Fault Free Routing on Wireless Sensor Network

Abstract

A Wireless Sensor Network (WSN) normally consists of an exceptionally large number of inexpensive, disposable, robust, small, and low power sensor nodes operational considerately. A Distributed and Scalable Scheduling Access (DSSA) scheme that mitigates in wireless sensor networks handles some mobility with high data loss due to the faults. A virtual grid network in distributed and scalable scheduling access scheme is an effortless method to cluster local sensors but fails in network scalability improvement. Existing, Information Controlled Transmission Power (ICTP) alteration method uses higher transmission powers with additional information than individuals that are less instructive to distribute their object state information with the neighboring nodes. ICTP does not detect faults and outlier sensor nodes in the network and probable safety measures have to be taken against them. To overcome these faulty and energy saving issues, Collaborator Homed Routing (CHR) mechanism is developed in WSN. In CHR, cluster heads aggregate information and relay information to the base station independently for improving system’s transmission power with half amount of energy consuming. Non Cluster Head (NCH) nodes choose a restricted number of objects in the information transmission. Based on the CHR principles, designed and implemented a novel mechanism to handle faulty situations. Using CHR in WSN, cluster head faults are installed to observe the scalability of these mechanisms. Therefore CHR consumes less energy with minimal faults. Experimental results show that proposed routing considerably reduces energy consumption, fault free routing, and reduces the possibility of communication disturbance, network scalability, throughout and link failure ratio is compared to existing method