A Scalable Hybrid Network for Agriculture Environment Monitoring

2021 IEEE 9th International Conference on Information, Communication and Networks (ICICN) Pub Date : 2021-11-25 DOI:10.1109/icicn52636.2021.9674009

Susheng Ding, Junbao Zheng, Lurong Jiang, Wei Li, Meng Li, Fengcheng Mei

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Abstract

Nowadays, agricultural production needs to improve the quality and yield of crops by monitoring their growth environment. The monitoring locations have the characteristics of wide distribution, high density, and large quantity. Thus, a networking method suitable for agricultural environmental monitoring is required. LoRa wireless communication technology has the advantages of long range and strong diffraction ability, while its date rate is low. NRF24L01P is a single-chip wireless transceiver working in the 2.4 to 2.5 GHz ISM band. It has the advantages of high data rate, low energy consumption and cost effectiveness, but the communication range is short. By the combination of the two technologies, this article proposes a scalable hybrid networking method based on the needs of agricultural environment monitoring. This method takes the advantage of LoRa and NRF24L01P networking and is suitable for agricultural environmental data collection. The collected data is finally uploaded to the cloud via WiFi so that end users can remotely access the agricultural data. The experimental results show that the proposed hybrid network can improve the data collection efficiency and data transmission distance.

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一种可扩展的农业环境监测混合网络

如今，农业生产需要通过监测作物生长环境来提高作物的质量和产量。监测点具有分布广、密度大、数量大的特点。因此，需要一种适合农业环境监测的网络化方法。LoRa无线通信技术具有距离远、衍射能力强的优点，但数据速率较低。NRF24L01P是一款工作在2.4 ~ 2.5 GHz ISM频段的单片无线收发器。它具有数据速率高、能耗低、性价比高等优点，但通信范围较短。本文结合这两种技术，提出了一种基于农业环境监测需求的可扩展混合组网方法。该方法利用LoRa和NRF24L01P组网优势，适用于农业环境数据采集。收集到的数据最后通过WiFi上传到云端，这样终端用户就可以远程访问农业数据。实验结果表明，该混合网络可以提高数据采集效率和数据传输距离。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 IEEE 9th International Conference on Information, Communication and Networks (ICICN)

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