Wireless Communication

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Energy and Link-Solidity Aware Timeserving Routing in Wireless Sensor Network


Affiliations
1 Sree Sowdambika College of Engineering, Aruppukottai, Tamil nadu, India
     

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Emerging wireless sensor network’s main challenge is to keep up the energy and link solidity throughout the computation. In this paper a timeserving routing has been explored to minimize the energy consumption by selecting and prioritizing nodes to generate a forwarder list. The forwarder list has been examined for link strength by using link solidity index. From this an optimal forwarder list has been generated and the data packets are forwarded through higher priority node. If there is any lower priority nodes, later that will be discarded in the optimal forwarder list. So that energy and link solidity aware timeserving routing can be attaining to preserve in terms Energy consumption, Link firmness, Nodes lifetime, Delivery ratio and End to End delay.

Keywords

Wireless Sensor Networks, Timeserving Routing, Energy Consumption, Link-Solidity.
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  • Energy and Link-Solidity Aware Timeserving Routing in Wireless Sensor Network

Abstract Views: 142  |  PDF Views: 3

Authors

S. Senthil Siva Manikandan
Sree Sowdambika College of Engineering, Aruppukottai, Tamil nadu, India

Abstract


Emerging wireless sensor network’s main challenge is to keep up the energy and link solidity throughout the computation. In this paper a timeserving routing has been explored to minimize the energy consumption by selecting and prioritizing nodes to generate a forwarder list. The forwarder list has been examined for link strength by using link solidity index. From this an optimal forwarder list has been generated and the data packets are forwarded through higher priority node. If there is any lower priority nodes, later that will be discarded in the optimal forwarder list. So that energy and link solidity aware timeserving routing can be attaining to preserve in terms Energy consumption, Link firmness, Nodes lifetime, Delivery ratio and End to End delay.

Keywords


Wireless Sensor Networks, Timeserving Routing, Energy Consumption, Link-Solidity.