Browsing by Author "Akshay, A.L."

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    RPRDC: Reliable Proliferation Routing with low Duty-cycle in Wireless Sensor Networks
    (2015) Venkatesha; Ashwini, T.N.; Akshay, A.L.; Tejaswi, V.; Venugopal, K.R.; Iyengar, S.S.; Patnaik, L.M.
    Ensuring reliable energy efficient data communication in resource constrained Wireless Sensor Networks (WSNs) is of primary concern. Traditionally, two types of re-transmission have been proposed for the data-loss, namely, End-to-End loss recovery (E2E) and per hop. In these mechanisms, lost packets are re-transmitted from a source node or an intermediate node with a low success rate. The proliferation routing1 for QoS provisioning in WSNs low End-to-End reliability, not energy efficient and works only for transmissions from sensors to sink. This paper proposes a Reliable Proliferation Routing with low Duty Cycle [RPRDC] in WSNs that integrates three core concepts namely, (i) reliable path finder, (ii) a randomized dispersity, and (iii) forwarding. Simulation results demonstrates that packet successful delivery rate can be maintained upto 93% in RPRDC and outperform Proliferation Routing1. � 2015 The Authors.
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    RPRDC: Reliable Proliferation Routing with low Duty-cycle in Wireless Sensor Networks
    (Elsevier, 2015) Venkatesha, n.; Ashwini, T.N.; Akshay, A.L.; Tejaswi, V.; Venugopal, K.R.; Iyengar, S.S.; Patnaik, L.M.
    Ensuring reliable energy efficient data communication in resource constrained Wireless Sensor Networks (WSNs) is of primary concern. Traditionally, two types of re-transmission have been proposed for the data-loss, namely, End-to-End loss recovery (E2E) and per hop. In these mechanisms, lost packets are re-transmitted from a source node or an intermediate node with a low success rate. The proliferation routing1 for QoS provisioning in WSNs low End-to-End reliability, not energy efficient and works only for transmissions from sensors to sink. This paper proposes a Reliable Proliferation Routing with low Duty Cycle [RPRDC] in WSNs that integrates three core concepts namely, (i) reliable path finder, (ii) a randomized dispersity, and (iii) forwarding. Simulation results demonstrates that packet successful delivery rate can be maintained upto 93% in RPRDC and outperform Proliferation Routing1. © 2015 The Authors.