Revamp energy efficiency in Homogeneous Wireless Sensor Networks using Optimized Radio Energy Algorithm (OREA) and Power-Aware Distance Source Routing protocol

摘要

AbstractWireless Sensor Networks (WSNs) are often used to monitor the physical world. By using sensor nodes, various types of environmental conditions can be sensed and also it can communicate with the sensed data via wireless communication. The sensor nodes are provided with a battery, and the reduction of the power consumption may lead to the prolonged anticipation of a lifetime of sensor nodes. Researchers worked on sensor nodes to gain energy efficiency and increase its lifetime. Reliable and effective communication among nodes routing algorithms is often used for WSNs. The important objective of routing algorithms is energy saving. Clustering algorithm improves energy efficiency in Homogeneous WSNs. The clustering technique identifies the shortest path, and it is used for cluster head selection. To dissipate energy efficiently, Optimized Radio Energy Algorithm (OREA) is used. Power-Aware Distance Source Routing (PADSR) clustering algorithm has been proposed for increasing Network lifetime of WSNs. Energy consumption and data quality are balanced by Quality of Service based routing protocols. Power-Aware Distance Source Routing (PADSR) decides performance evaluation of Quality of Service.Highlights•Sensor network deployment is well organized in the proposed system in order to increase the lifetime of the sensor network.•Optimized Radio Energy clustering algorithm is used to minimize the energy level (i.e. save energy) through homogenous WSN.•The PADSR routing protocol used in the sensor networks to identify the route path and to establish the communication between nodes in an efficient manner.•PADSR is used in the election of cluster head and also used to identify the dead nodes. This routing protocol decides the performance evaluation of QoS.•The data quality is balanced by measuring the quality metrics such as packet delivery ratio, loads etc.