5G-based agricultural Internet of Things construction system and method

Abstract

The invention provides a 5G-based agricultural Internet of Things construction system. The system comprises a remote terminal unit (RTU), a data summarization subsystem, a data grouping subsystem and a data scheduling subsystem, wherein the RTU sends field agricultural sensing data acquired by a combined sensor to the data summarization subsystem through 5G; the data summarization subsystem comprises a data summarization queue; the data grouping subsystem comprises a plurality of data pipelines, each data pipeline is connected with at least one data summarization queue, and the data pipelines are used for obtaining field agricultural sensing data stored in the data summarization queues and then carrying out grouping analysis on the field agricultural sensing data; and the data scheduling subsystem is used for generating a data scheduling strategy based on a grouping analysis result, and is used for indicating the combined sensor to adjust a sensing acquisition mode of the combined sensor, and / or updating a corresponding data local identification model of the combined sensor. According to the invention, the big data transmission pressure in a 5G transmission environment can be reduced. The invention further provides a corresponding construction method and a storage medium for implementing the method.

Description

technical field [0001] The invention belongs to the technical field of 5G and agricultural Internet of Things, and in particular relates to a 5G-based agricultural Internet of Things construction system, method and computer program instruction medium for realizing the method. Background technique [0002] Smart agriculture has become an inevitable trend of China's agricultural development. At present, Internet giants such as Alibaba, Baidu, and JD.com have applied advanced technologies such as big data, cloud computing, Internet of Things, and artificial intelligence to the agricultural field to create smart agriculture. However, in order to implement the above technologies in the agricultural field, it is necessary to have massive data support in terms of meteorology, soil, diseases and insect pests, etc. As a new generation of communication technology following 4G, 5G has ultra-high speed and ultra-low timeliness. It can focus on solving various problems in wireless netwo...

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Problems solved by technology

[0005] However, the agricultural Internet of Things related solutions in the prior art cannot make full use of the transmission characteristics of the 5G network, resulting in high data transmission pressure and a large number of unnecessary high-frequency transmissions; at the same time, the agricultural Internet of Things field terminals in the prior art are all Using the static (unchanged) mode to perform data collection cannot meet the dynamic feedback needs of the data itself; finally, in the layout scenario of massive Internet of Things terminals, the above-mentioned solutions in the prior art will lead to data transmission blockage, although the 5G transmission speed is faster, However, it is still impossible to send valid data to the background for analysis in time, which reduces the efficiency of data processing

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