Minimum energy transmission forest-based geocast in software-defined wireless sensor networks,Transactions on Emerging Telecommunications Technologies

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Minimum energy transmission forest-based geocast in software-defined wireless sensor networks
Transactions on Emerging Telecommunications Technologies ( IF 2.5 ) Pub Date : 2021-04-05 , DOI: 10.1002/ett.4253
Anuradha Banerjee ₁ , Abu Sufian ₂ , Ali Safaa Sadiq ₃ , Seyedali Mirjalili _{4,

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Affiliation

Wireless Sensor Networks (WSNs)-based geographic addressing and routing have many potential applications. Geocast protocols should be made energy efficient to increase the lifetime of nodes and packet delivery ratio. This technique will increase the number of live nodes, reduce message costs, and enhance network throughput. All geocast protocols in the literature of WSN apply mostly restricted flooding and perimeter flooding, which is why still the redundancy they produce significantly high message transmission costs and unnecessarily eats up immense energy of the nodes. Moreover, perimeter flooding cannot succeed in the presence of holes. The present article models WSN with software-defined (SD) constructs where the network area is divided into some zones. Energy-efficient transmission tree(s) are constructed in the geocast area to organize the flow of data packets and their links. Therefore, redundancy in the transmission is eliminated while maintaining network throughput as good as regular flooding. Besides, this study introduces a fuzzy controllers named SELECT-STARTER and GEOCAST-PROPAGATOR for intellgent energy tansmission control-making. The proposed technique significantly reduces energy cost and improves nodes' lifetime to function for higher time duration and produce a higher data packet delivery ratio. To the best of the author's knowledge, this is the first work on geocast in SD-WSNs.

中文翻译：

软件定义无线传感器网络中基于最小能量传输森林的地理广播

基于无线传感器网络 (WSN) 的地理寻址和路由具有许多潜在的应用。Geocast 协议应该提高能源效率，以增加节点的寿命和数据包传输率。这种技术将增加活动节点的数量，降低消息成本，并提高网络吞吐量。WSN文献中的所有geocast协议大多采用限制性泛洪和周边泛洪，这就是为什么它们仍然会产生显着高的消息传输成本并且不必要地消耗节点的巨大能量的冗余。此外，在存在孔洞的情况下，周边洪水无法成功。本文使用软件定义 (SD) 构造对 WSN 进行建模，其中网络区域被划分为一些区域。在地理广播区域构建节能传输树，以组织数据包及其链接的流向。因此，消除了传输中的冗余，同时保持了与常规泛洪一样好的网络吞吐量。此外，本研究引入了一种名为SELECT-STARTER 和GEOCAST-PROPAGATOR 的模糊控制器，用于智能能源传输控制。所提出的技术显着降低了能源成本并提高了节点的寿命，以在更长的时间内运行并产生更高的数据包传输率。据作者所知，这是关于 SD-WSN 中地理广播的第一部作品。本研究引入了一种名为 SELECT-STARTER 和 GEOCAST-PROPAGATOR 的模糊控制器，用于智能能量传输控制。所提出的技术显着降低了能源成本并提高了节点的寿命，以在更长的时间内运行并产生更高的数据包传输率。据作者所知，这是关于 SD-WSN 中地理广播的第一部作品。本研究引入了一种名为 SELECT-STARTER 和 GEOCAST-PROPAGATOR 的模糊控制器，用于智能能量传输控制。所提出的技术显着降低了能源成本并提高了节点的寿命，以在更长的时间内运行并产生更高的数据包传输率。据作者所知，这是关于 SD-WSN 中地理广播的第一部作品。

更新日期：2021-04-05

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