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Automatic irrigation system based on farmland moisture monitoring

An automatic irrigation system and moisture technology, applied in agriculture, watering devices, horticulture, etc., can solve the problems of increasing system installation and maintenance costs, restricting the popularization and application of research results, and reducing system reliability, so as to promote rapid and healthy development. , to achieve the effect of quantitative, convenient installation and maintenance

Active Publication Date: 2018-11-16
江苏智达达物联有限公司
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  • Description
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AI Technical Summary

Problems solved by technology

[0003] (1) The communication technology mainly adopts wired communication technologies such as serial bus technology and field bus technology. Although it has the advantages of good equipment interoperability and strong anti-interference ability, the actual application environment has long-term high temperature, humidity, soil and The air has the characteristics of high acidity and alkalinity, which can easily lead to the aging of communication cables, thereby reducing the reliability of the system;
[0004] (2) The sensor works in a wired mode. In actual agricultural production applications, sensor nodes need to be densely distributed to achieve effective coverage of the monitoring area. This will lead to criss-crossing cables inside agricultural facilities, and the cost of system installation and maintenance will increase sharply.
These factors greatly limit the promotion and application of research results in actual production.

Method used

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  • Automatic irrigation system based on farmland moisture monitoring
  • Automatic irrigation system based on farmland moisture monitoring
  • Automatic irrigation system based on farmland moisture monitoring

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Embodiment Construction

[0019] The present invention is further described in conjunction with the following examples.

[0020] see figure 1 , the embodiment of the present invention provides an automatic irrigation system based on farmland moisture monitoring, the system includes a wireless sensor network 1 for monitoring the moisture status of crops in the farmland, the wireless sensor network 1 includes a sink node and randomly deployed in Sensor nodes around the field, the sensor nodes collect crop moisture status data at monitored locations and send them to the sink node; the system also includes a data analysis device 2 for performing irrigation demand analysis based on the crop moisture status data sent by the sink node;

[0021] The sensor node is connected to the DC solenoid valve used to control the irrigation device, and receives the signal of the data analysis device 2 in real time; the data analysis device 2 sends a control signal to the corresponding sensor node when the crops need to be...

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Abstract

The invention provides an automatic irrigation system based on farmland moisture monitoring which comprises a wireless sensor network for monitoring the moisture condition of the crop in the farmland,the wireless sensor network comprises a convergent node and sensor nodes randomly deployed throughout the farmland, the sensor nodes acquire the crop moisture condition data of the monitored positions and send the crop moisture condition data to the convergent node; the system also comprises a data analysis device for performing irrigation demand analysis according to crop moisture condition datasent by the convergent node; the sensor nodes are connected with a direct current electromagnetic valve used for controlling an irrigation device and receives the signal of the data analysis device in real time; the data analysis device sends a control signal to a corresponding sensor node when the irrigation is needed for the crop, so that the sensor node controls the corresponding direct current electromagnetic valve according to the control signal, opens the irrigation device and carries out precise irrigation.

Description

technical field [0001] The invention relates to the field of agricultural monitoring devices, in particular to an automatic irrigation system based on farmland water monitoring. Background technique [0002] The existing crop moisture status real-time monitoring system also has the following obvious deficiencies: [0003] (1) The communication technology mainly adopts wired communication technologies such as serial bus technology and field bus technology. Although it has the advantages of good equipment interoperability and strong anti-interference ability, the actual application environment has long-term high temperature, humidity, soil and The air has the characteristics of high acidity and alkalinity, which can easily lead to the aging of communication cables, thereby reducing the reliability of the system; [0004] (2) The sensor works in a wired mode. In actual agricultural production applications, sensor nodes need to be densely distributed to achieve effective covera...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01G25/00A01G25/16
CPCA01G25/00A01G25/167
Inventor 杨林
Owner 江苏智达达物联有限公司
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