2 research outputs found
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Network performance optimization using Odd and Even routing algorithm
The revolution on static wireless sensor network (WSN) had gained popularity in remote monitoring especially in oil and gas pipeline integrity. The use of WSN in oil and gas pipelines facilitates real time data transmission from sensors to the monitoring station located miles away. WSN for pipeline network are critical performance driven communication mechanism due to its unique linear geographical set up. The network performance of linear topology is compromised proportionally to the number of nodes. Such a drawback results in poor delivery ratio, throughput, latency and fairness due to its snowball effect towards the destination node. In this paper, we proposed a novel routing method, Odd-Even Linear Static Routing Path (OE-LSRP) to achieve significant improvements in overall network performance in TCP traffic. Various simulation experiments are tested with OE-LSRP in accordance to IEEE 802.11standard to achieve results in making it feasible for the
pipeline network
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Enhancing Pipeline Network Performance Using Dual Interleaving Cluster Head Routing Protocol
Remote monitoring of oil and gas pipelines has been the most prevalent application of static wireless sensor network (WSN). WSN has a great potential in facilitating real-time data transfer between sensor nodes and a centralise monitoring station. For pipeline WSN, network performance is critical among sensor nodes in a linear chain topology. Expanding the communication range by increasing number of nodes in a linear architecture compromises the performance of WSN. Thus, WSN results in a severe impact on low throughput, high latency, poor delivery ratio, high energy consumption and network inequality. In this paper, we proposed Dual Interleaving Cluster Head Linear Static Routing Protocol (DICH-LSRP), a routing protocol for cluster-based topology. DICH-LSRP in a pipeline simulation environment were evaluated with compliance to IEEE 802.11 standard on impending factors of WSN performance. The simulation results help to better understand some key areas of WSN performance metrics and the implementation of DICH-LSRP in a multi-hop linear topology