Monitoring system

Abstract

The invention discloses a monitoring system which comprises a monitoring subsystem, a cloud-end monitoring platform and a terminal. The monitoring subsystem monitors and controls an environment of an area to be monitored, and makes data interaction with the cloud-end monitoring platform; the cloud-end monitoring platform receives environment-related data detected by the monitoring subsystem, and makes data interaction with the monitoring subsystem and the terminal; and the terminal receives data of the cloud-end monitoring platform, generates a control signal on the basis of the received data, and back feeds the control signal to the monitoring subsystem via the cloud-end monitoring platform. A 433M communication module is used to form a tree-shaped / mesh automatic switching network, characteristics of high diffraction capability, long transmission distance, stable networking, low frequency and low power consumption of the 433M communication module are utilized effectively, LTE wireless communication and cloud-service technologies are utilized, the networking cost of remote monitoring is reduced greatly, and a PC and a mobile client can be monitored at any time and place.

Description

technical field [0001] The present application relates to the field of computer technology, in particular to a monitoring system. Background technique [0002] The Internet of Things technology that has emerged in recent years has greatly promoted the development of smart agriculture. The existing Internet of Things smart agricultural greenhouses use the 2.4G Zigbee networking protocol to realize the monitoring of the above-mentioned agricultural greenhouse sensors and environmental regulation control modules. and control; due to the shortcomings of 2.4G IoT devices such as short transceiver distance, high power consumption, and weak penetrating ability, its application in large-scale agricultural greenhouses is limited; in order to realize remote agricultural greenhouse monitoring, Internet wired network remote monitoring is often used However, it will suffer from the disadvantages of high cost of wired network wiring and difficult wiring in remote areas; and the data throu...

AI Technical Summary

Problems solved by technology

[0002] The Internet of Things technology that has emerged in recent years has greatly promoted the development of smart agriculture. The existing Internet of Things smart agricultural greenhouses use the 2.4G Zigbee networking protocol to realize the monitoring of the above-mentioned agricultural greenhouse sensors and environmental regulation control modules. and control; due to the shortcomings of 2.4G IoT devices such as short transceiver distance, high power consumption, and weak penetrating ability, its application in large-scale agricultural greenhouses is limited; in order to realize remote agricultural greenhouse monitoring, Internet wired network remote monitoring is often used However, it will suffer from the disadvantages of high cost of wired network wiring and difficult wiring in remote areas; and the data throughput of 2G wireless communication network is not suitable for remote monitoring of agricultural greenhouses

[0003] Therefore, there is no good solution in the prior art to realize the monitoring needs of agricultural greenhouses.

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