M. A. Al Rasyid, Ferry Astika Saputra, MH. Ramdhani Ismar
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引用次数: 17
摘要
无线传感器网络(WSN)在工业、环境、医疗等领域有着广阔的应用前景。无线传感器网络的首要要求是提高网络节点的能量利用率,以提高网络节点的生存时间。其次是可靠性,因为在关键时间应用程序中不能容忍丢包。本文采用NS2仿真的方法,对基于IEEE 802.15.4的树型多跳无线传感器网络中的IEEE 802.15.4标准进行了评价和分析。有槽位的CSMA/CA采用信标使能模式,无槽位的CSMA/CA采用非信标使能模式。对信标启用和非信标启用的性能进行了评估和分析,以了解协议参数(如Superframe Order (SO)、beacon Order (BO)和Traffic Load)的影响。对网络的性能进行了详细的评估,包括吞吐量、能耗、端到端时延、数据包成功率、丢包率和能效百分比。仿真结果表明,在吞吐量、丢包、能耗和能效方面,使能信标优于不使能信标。
Performance of multi-hop networks using beacon and non-beacon scheduling in Wireless Sensor Network (WSN)
Wireless Sensor Network (WSN) is a promising technology for many applications, such as industrial, environment, and health-care application. The first requirement of WSN is energy efficiency in order to increase the network node lifetime. The second is reliability because packet drop cannot be tolerated in critical time applications. In this paper, we use NS2 simulation to evaluate and analyze the IEEE 802.15.4 standard in multi-hop WSN with a tree topology base on IEEE 802.15.4. Beacon enabled mode is used slotted CSMA/CA and non-beacon enabled mode is used unslotted CSMA/CA. Performance of beacon enabled and non-beacon enabled were evaluated and analyzed to understand the impact of protocol parameters such as Superframe Order (SO), Beacon Order (BO), and Traffic Load. The performance of the network which have been evaluated in detail are the throughput, energy consumption, end to end delay, packet success probability, drop packets and the percentage of the energy efficiency. The simulation result show that of beacon enabled is better than non beacon enabled in terms of the throughput, drop packet, energy consumption, and energy efficiency.
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