Research Paper | Computer Science & Engineering | India | Volume 4 Issue 6, June 2015
A Novel Approach for Reducing Energy Consumption Using K-Medoids in Clustering Based WSN
Pavithra M K | Poonam Ghuli
Abstract: Enormous information has considered being promising application in the field of data and correspondence innovation (ICT). WSNs are utilized to assemble enormous information in correspondence innovation. In the vast majority of case the information from single sensor is insufficient useful to client. To assemble huge information, it is important to accumulate data from appropriated sensors. Due to constrained power in WSNs enormous information get-together is testing assignment. To expand system lifetime in WSNs the ways for information move are picked in such a route, to the point that the aggregate vitality devoured along the way is diminished. To backing enhanced information accumulation and high adaptability, sensor hubs are frequently gathered into non-covering, disjoint subsets called groups. Bunches make progressive WSNs which fuse effective use of restricted assets of sensor hubs and henceforth augments lifetime of system. In this paper we proposed a productive route for information social event utilizing bunching based strategy. Here we utilized k-medoids grouping procedure for the ideal number of groups and made sink hub direction, utilized as effective information gatherer.
Keywords: WSN, Big Data, lifetime, Aggregation, overlapping, Clusters, k-medoids, trajectory
Edition: Volume 4 Issue 6, June 2015,
Pages: 2279 - 2282
How to Cite this Article?
Pavithra M K, Poonam Ghuli, "A Novel Approach for Reducing Energy Consumption Using K-Medoids in Clustering Based WSN", International Journal of Science and Research (IJSR), Volume 4 Issue 6, June 2015, pp. 2279-2282, https://www.ijsr.net/get_abstract.php?paper_id=SUB155623
How to Share this Article?
Similar Articles with Keyword 'WSN'
Study of Power Management in Adhoc Networks
Anandhi Giri | S. K. Srivatsa 
Light Weight WSN Authentication Protocol Suite
Rahul K Drolia