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Precision agriculture and farming using Internet of Things based on wireless sensor network
Transactions on Emerging Telecommunications Technologies ( IF 3.6 ) Pub Date : 2020-04-27 , DOI: 10.1002/ett.3978 P. Sanjeevi 1 , S. Prasanna 2 , B. Siva Kumar 3 , G. Gunasekaran 2 , I. Alagiri 2 , R. Vijay Anand 2
Transactions on Emerging Telecommunications Technologies ( IF 3.6 ) Pub Date : 2020-04-27 , DOI: 10.1002/ett.3978 P. Sanjeevi 1 , S. Prasanna 2 , B. Siva Kumar 3 , G. Gunasekaran 2 , I. Alagiri 2 , R. Vijay Anand 2
Affiliation
In the recent past, the agriculture and farming industry has become the precision network connectivity of sensors with a new dimension of Internet of Things (IoT) technology. The cloud computing and wireless sensor network‐ (WSN) based extensive distance network in IoT can be applied to the agriculture and farming industry in a remote area. In this paper, we propose scalable wireless sensor network architecture for monitoring and control using IoT for agriculture and farming in a remote area. One of the significant managements in precision agriculture and farming (PAF) is water resource irrigation and proper utilization of water resources. Appropriate utilization of water irrigation management can be achieved by applying WSN technology using IoT. The efficient communication of various wireless sensors is processed using IoT in PAF to improve the productivity of farmers. We have analyzed the WSN structure based on throughput maximization, latency minimization, high signal‐to‐noise ratio (SNR), minimum mean square error, and improved coverage area. The experimental results have proved that the proposed methodology provides better performance than conventional IoT‐based agriculture and farming.
中文翻译:
基于无线传感器网络的物联网精准农业
在最近的过去,农业和农业行业已成为具有物联网(IoT)技术新维度的传感器的精确网络连接。物联网中基于云计算和无线传感器网络(WSN)的广泛距离网络可应用于偏远地区的农业和农业。在本文中,我们提出了可扩展的无线传感器网络架构,用于使用IoT进行监视和控制,以用于偏远地区的农业和农业。精准农业的重要管理之一是水资源灌溉和水资源的合理利用。通过使用物联网应用WSN技术,可以适当利用水灌溉管理。在PAF中使用IoT处理各种无线传感器的有效通信,以提高农民的生产率。我们已经基于吞吐量最大化,等待时间最小化,高信噪比(SNR),最小均方误差和改进的覆盖区域来分析WSN结构。实验结果证明,与传统的基于物联网的农业和农业相比,该方法具有更好的性能。
更新日期:2020-04-27
中文翻译:
基于无线传感器网络的物联网精准农业
在最近的过去,农业和农业行业已成为具有物联网(IoT)技术新维度的传感器的精确网络连接。物联网中基于云计算和无线传感器网络(WSN)的广泛距离网络可应用于偏远地区的农业和农业。在本文中,我们提出了可扩展的无线传感器网络架构,用于使用IoT进行监视和控制,以用于偏远地区的农业和农业。精准农业的重要管理之一是水资源灌溉和水资源的合理利用。通过使用物联网应用WSN技术,可以适当利用水灌溉管理。在PAF中使用IoT处理各种无线传感器的有效通信,以提高农民的生产率。我们已经基于吞吐量最大化,等待时间最小化,高信噪比(SNR),最小均方误差和改进的覆盖区域来分析WSN结构。实验结果证明,与传统的基于物联网的农业和农业相比,该方法具有更好的性能。