K.Ramanan and E.Baburaj
With limited amount of energy, nodes are powered by batteries in wireless networks. Increasing the life Span of the network and reducing the usage of energy are two severe problems in Wireless Sensor Networks. A small number of energy utilization path algorithms like minimum spanning tree reduces total energy consumption of a Wireless Sensor Network, however very heavy load of sending data packets on many key nodes is used with the intention that the nodes quickly consumes battery energy, by raising the life span of the network reduced. Our proposal work aimed on presenting an Energy Conserved Fast and Secure Data Aggregation Scheme for WSN in time and security logic occurrence data collection application. To begin with, initially the goal is made on energy preservation of sensed data gathering from event identified sensor nodes to destination. Invention is finished on Energy Efficient Utilization Path Algorithm (EEUPA), to extend the lifespan by processing the collecting series with path mediators depending on gene characteristics sequencing of node energy drain rate, energy consumption rate, and message overhead together with extended network life span. Additionally, a mathematical programming technique is designed to improve the lifespan of the network. Simulation experiments carried out among different relating conditions of wireless sensor network by different path algorithms to analyze the efficiency and effectiveness of planned Efficient Energy Utilization Path Algorithm in wireless sensor network (EEUPA).
BIND, DNS server, DNS protocols, RAD, UCB