Energy Efficient Low Latency Routing Design for Target Tracking Applications of Wireless Sensor Network

Deepika Lokesh, N. V. U. Reddy
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Abstract

Target tracking is the greatest important applications in Wireless Sensor Networks (WSNs). The wireless sensor network applications have been increasing since the IoT has been established. Most of the applications have various kind of sensors to transmit the information from one source to another. The basic operation of a wireless sensor network is to sense the data, collect the data and transmit the data from time to time whenever the base station requires the data for evaluation. Improving the reliability, performance for the collection of the data is the main role of the wireless sensor device. Moreover, the objective of the wireless sensor network device is to minimize the latency and improve the energy efficiency in order to provide more reliability is a major performance metric for provisioning WSNs. In this paper, we have presented an Energy Efficient Low Latency Routing (EELLR) design for Target Tracking (TT) Applications of Wireless Sensor Network. This model provides reliability and has a better performance in terms of communication overhead, energy efficiency and packet processing latency reduction when compared with the existing routing-based models.
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面向无线传感器网络目标跟踪应用的高能效低延迟路由设计
目标跟踪是无线传感器网络中最重要的应用。自物联网建立以来,无线传感器网络的应用不断增加。大多数应用都有各种各样的传感器来将信息从一个源传输到另一个源。无线传感器网络的基本操作是在基站需要数据进行评估时,对数据进行感知、采集和传输。提高数据采集的可靠性、性能是无线传感器设备的主要作用。此外,无线传感器网络设备的目标是最小化延迟和提高能源效率,以提供更高的可靠性,这是配置wsn的主要性能指标。在本文中,我们提出了一种用于无线传感器网络目标跟踪应用的节能低延迟路由(EELLR)设计。与现有的基于路由的模型相比,该模型在通信开销、能源效率和数据包处理延迟降低方面具有更高的可靠性和性能。
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来源期刊
International Journal of Circuits, Systems and Signal Processing
International Journal of Circuits, Systems and Signal Processing Engineering-Electrical and Electronic Engineering
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