Journal Title : International Journal of Modern Trends in Engineering and Science

Author’s Name : S Kalaivani  unnamed

Volume 03 Issue 06 2016

ISSN no:  2348-3121

Page no: 154-159

Abstract – The wireless sensor network are liked due to monitoring the presence of situation in many applications like industrial, environmental sensing, health care monitoring.The energy capability is a crucial view in wireless sensor networks to overcome this problem the efficient technique of clustering is used to achieve more data transmission, long network lifetime, less time consuming process, minimize energy utilization.The WSN architectures have been proposed based on Mobile Elements.It consist of three layer framework for mobile data collection,which includes the sensor layer, cluster head layer, and mobile collector  layer it is also called SenCar layer.This framework employs distributed load balanced clustering and dual data uploading (LBC-DDU). At the sensor layer a distributed load balanced clustering (LBC) algorithm is used for sensors to self-organize into clusters.In the cluster head layer use inter-cluster transmission range it is carefully chosen to guarantee the connectivity among the clusters.The multiple cluster heads within a cluster co-operate with each other and it perform energy saving in the inter-cluster communications. By using this  transmission cluster head information is send to the SenCar by its moving trajectory planning.This is done by utilizing multi-user multiple input and multiple output it is refered as MU-MIMO technique.The results show each cluster has at most two cluster heads. If sencar has low energy consumption then it is energised by sink is  the base station it controls the entire network .As the Simulation results exhibit that the  load balanced clustering technique maintains the energy level and also more data gathering for increased  network life time.

KeywordsLoad balanced clustering  dual data uploading(LBC-DDU), multi-user multiple input and multiple output (MU-MIMO), Sencar,mobility control, polling point 


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