Vegetable breeding isolating shed control system and method based on internet of things

Abstract

The invention belongs to the technical field of agricultural production systems, and discloses a vegetable breeding isolating shed control system and method based on the internet of things. The systemcomprises a breeding culture pot, a soil humidity detector, a single-chip microcomputer, a wireless signal receiver, a wireless signal transmitter, an air conditioner, a fluorescent lamp, a sprayer and an isolating net. The breeding culture pot is placed in the isolating shed. The soil humidity detector is inserted in the breeding culture pot. The single-chip microcomputer is fixed to the inner wall of the isolating shed through screws. Based on the internet of things technology, by controlling switches of the air conditioner, the fluorescent lamp and the sprayer through the single-chip microcomputer, detecting the humidity in soil of a vegetable culture medium through the soil humidity detector, supplementing water for seedlings through the sprayer and arranging the wireless signal transmitter on the single-chip microcomputer, remote control can be conducted through a cell phone and other mobile devices, the systematic degree is high, operation is simple, the inconvenience of manualcontrol and the like is solved, and the system is quite worthy of use and popularization.

Description

technical field [0001] The invention belongs to the field of agricultural production systems, and in particular relates to a control system and control method for vegetable breeding isolation sheds based on the Internet of Things. Background technique [0002] At present, the existing technologies commonly used in the industry are as follows: [0003] At present, the breeding isolation shed has been widely used in the traditional planting industry, and has achieved remarkable results in the purebred breeding of different varieties. During the breeding process of vegetables, they need to be isolated through isolation sheds to prevent cross-pollination by insects, resulting in a decrease in the purity of vegetable varieties, which seriously affects the quality of vegetables. However, most of the existing breeding isolation shed control systems require technicians to manually operate, and record the parameters such as temperature and humidity separately one by one, which is ti...

AI Technical Summary

Problems solved by technology

[0005] Most of the traditional breeding isolation shed control systems require technicians to manually operate and record the parameters such as temperature and humidity separately, which is time-consuming, laborious, low in production efficiency, and low in intelligence, which seriously affects the production efficiency of vegetable breeding and cannot meet the needs of users. ;

[0006] The workload of the wireless signal receiver and wireless signal transmitter in the calibration stage is relatively large, and the algorithm of the single-chip microcomputer for the standard particle swarm lags behind the PID parameter setting of the industrial process system

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