An energy minimizing score based optimal data gathering in wireless sensor networks
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2018-05-29 https://doi.org/10.14419/ijet.v7i2.31.13431 -
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Abstract
In wireless sensor networks, Sensor nodes are arranged randomly in unkind physical surroundings to collect data and distribute the data to the remote base station. However the sensor nodes have to preserve the power source that has restricted estimation competence. The sensed information is difficult to be transmitted over the sensor network for a long period of time in an energy efficient manner. In this paper, it finds the problem of communication data between sink nodes and remote data sources via intermediate nodes in sensor field. So this paper proposes a score based data gathering algorithm in wireless sensor networks. The high-level contribution of this study is the enhancement of a score- based data gathering algorithm and the impact of energy entity for Wireless Sensor Networks. Then the energy and delay of data gathering are evaluated. Unlike PEGASIS and LEACH, the delay for every process of data gathering is considerably lower when SBDG is employed. The energy consumed per round of data gathering for both SBDG and EE-SBDG is less than half of that incurred with PEGASIS and LEACH. Compared with LEACH and PEGASIS, SBDG and EE-SBDG are fair with node usage because of the scoring system and residual energy respectively. Overall, the Score-based data gathering algorithm provides a significant solution to maximize the network lifetime as well as minimum delay per round of data gathering.
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How to Cite
Balamurugan, P., Shyamala Devi, M., & Sharmila, V. (2018). An energy minimizing score based optimal data gathering in wireless sensor networks. International Journal of Engineering & Technology, 7(2.31), 161-164. https://doi.org/10.14419/ijet.v7i2.31.13431Received date: 2018-05-29
Accepted date: 2018-05-29
Published date: 2018-05-29