Abstract
One of the important factors of Wireless Sensor Networks (WSNs) is sensors lifetime. Elongating sensors lifetime increases the benefits from the network capabilities as much as possible. To elongate WSNs lifetime, power consumption should be reduced. To do so, load balance technique is applied to distribute the energy consumption among cluster’s nodes in the WSN. In each cluster, the node that acts as Cluster Head (CH) is the one that significantly suffers from power consumption problem. To elongate the WSNs lifetime, different sensor node is elected to act as CH for a period of time (round). Choosing the proper CH per round greatly affects the energy efficiency in the network. In this study, a new protocol for clustered heterogeneous WSNs (called LBEACH) is suggested to reduce power consumption and prolong the network lifetime. Distributed clustering methodology, with a novel algorithm to elect cluster heads in each round, is applied and tested. The elected CH is the node that has the minimal estimated broadcast cost and the highest residual energy. The estimated broadcast cost of each node is the estimated cost needed for sending a message to all other nodes within the same cluster and to the base-station. LBEACH performance is measured using network lifetime, power consumption and throughput. By comparing LBEACH performance with other protocols, Low Energy Adaptive Clustering Hierarchy (LEACH) and Stable Election Protocol (SEP) protocols, it was found that LBEACH shows a significant improvement in the network lifetime, power consumption and throughputs toward Base-Station (BS).
Highlights
The importance of Wireless Sensor Networks (WSNs) increased dramatically due to their significant utilizations in various domains
We develop a protocol to improve the performance of WSN
WSN environment managed by three scenarios for LBEACH protocol
Summary
The importance of Wireless Sensor Networks (WSNs) increased dramatically due to their significant utilizations in various domains. In WSNs, the network is established at the first phase, where each node has a location, job and attributes These parameters will help in the process of electing the CH (specify the most proper node to act as CH). On the other hand, choosing a node far from cluster center increases the power consumption when broadcasting to far nodes (Kim et al, 2008) Both cases could cause premature death of the elected CH, which affects the network lifetime (Ramesh and Somasundaram, 2011). A developed protocol, called Load-balancing based on Broadcasting and Energy using Adaptive Clustering Hierarchy Protocol (LBEACH) is proposed. LBEACH is an adaptive clustering hierarchy protocol that applies load balancing technique based on broadcasting cost and the residual energy in the nodes.
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