Abstract
In Wireless Sensor Networks (WSN), the lifetime of sensors is the crucial issue. Numerous schemes are proposed to augment the life time of sensors based on the wide range of parameters. In majority of the cases, the center of attraction will be the nodes’ lifetime enhancement and routing. In the scenario of cluster based WSN, multi-hop mode of communication reduces the communication cast by increasing average delay and also increases the routing overhead. In this proposed scheme, two ideas are introduced to overcome the delay and routing overhead. To achieve the higher degree in the lifetime of the nodes, the residual energy (remaining energy) of the nodes for multi-hop node choice is taken into consideration first. Then the modification in the routing protocol is evolved (Multi-Hop Dynamic Path-Selection Algorithm—MHDP). A dynamic path updating is initiated in frequent interval based on nodes residual energy to avoid the data loss due to path extrication and also to avoid the early dying of nodes due to elevation of data forwarding. The proposed method improves network’s lifetime significantly. The diminution in the average delay and increment in the lifetime of network are also accomplished. The MHDP offers 50% delay lesser than clustering. The average residual energy is 20% higher than clustering and 10% higher than multi-hop clustering. The proposed method improves network lifetime by 40% than clustering and 30% than multi-hop clustering which is considerably much better than the preceding methods.
Highlights
Wireless Sensor Network is principally composed of a base station and several sensor nodes scattered over a finite geographical area
D RSSi RSSmax where RSSi denotes the received signal strength of node i for the signal broadcasted by the base station, RSSmax is a constant which is decided by the deployment of the base station, and the function D is the estimation of the distance between node i and the Base Station (BS)
A dynamic path updating is initiated in frequent interval based on nodes residual energy to avoid the data loss due to path extrication and to avoid the early dying of nodes due to elevation of data forwarding [11]
Summary
Wireless Sensor Network is principally composed of a base station and several sensor nodes scattered over a finite geographical area. In the scenario of cluster based WSN [2], multi-hop mode of communication with Low Energy Adaptive Clustering Hierarchy (LEACH) reduces the communication cast by increasing average delay and increases the routing overhead. The inspiration behind this effort is to decrease the energy consumption of the sensor nodes by increasing the clustering hierarchy. In WSNs, the information about the amount of residual energy found dispersed in the network is called an energy map. Managing power consumption in wireless sensor network from low level node architecture to high level communication protocols is a tedious task.
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