TO PROPOSE A SMART ROUTING MODEL FOR MAXIMUM USE OF BANDWIDTH IN WIRELESS SENSOR & ACTUATOR NETWORKS

Cooperation of sensors and actors is a vital analysis field in WSAN. This paper emphasizes on the sensible topology to manage period of network lifetime and load over WSAN. The wireless sensor and actuator networks (WSANs) are group of sensors and actuators distributed geographically. A smart energy efficient routing model is proposed in this paper. The proposed protocol or algorithm is cluster and hierarchical based. In this, simulation aims towards evaluating the performance of the wireless sensor networks (WSNs) and the wireless sensor and actuator networks (WSANs) within the planned simulation. The Neighbour Formation method was used for the WSN connectivity. Next, Localization Group Formation method is used for making the interconnections between the detector nodes. Lastly, the final step comes to the design topology using aggregation process. The proposed smart routing model is being evaluated for the execution time, energy consumption, overhead, load, delay and plenty of other network parameters. The WSN and WSAN are being enforced in very balanced topology together with an adequate diversity of device nodes. The device nodes are going to be evaluated beneath varied simulations in both the WSNs and WSANs to have energy efficient routing than the previously developed routing protocols.