Aquaculture aerator automatic control method and system
An aerator and aquaculture technology, applied in various fluid ratio control directions, can solve the problems of poor accuracy and single control elements, and achieve the effects of simple management, accurate control, and saving manpower and material resources.
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[0059] Example one
[0060] The following is an automatic control method for aquaculture aerators provided in the first embodiment of the present invention. The aerators are controlled through data collected by a mobile platform, such as figure 1 Shown, including
[0061] S101, extract current environmental data in the water area and historical data recorded by the mobile platform;
[0062] Specifically, current environmental data and historical environmental data are usually collected by sensors and transmitted to the mobile platform; the sensors that collect environmental data include temperature sensors, humidity sensors, air pressure sensors, and dissolved oxygen sensors. The environmental data collected in the breeding waters includes the waters. Dissolved oxygen value, outside air pressure value, temperature value, humidity value, PH value or ammonia nitrogen content value in the water body.
[0063] The temperature, humidity, and air pressure values collected at the same time...
Example Embodiment
[0099] Example two
[0100] The second embodiment of the present invention provides an automatic control method for aquaculture aerators, such as figure 2 Shown, including
[0101] S201, start
[0102] S202: Extract current environmental data in the water area and historical data recorded by the mobile platform;
[0103] S203: Calculate the average value of historical data;
[0104] Specifically, the historical data average value may be the average value of the data after filtering the historical data, for example, selecting the value of the difference between adjacent data in the historical data within the set difference fluctuation range to calculate the average value.
[0105] For example, the set difference fluctuation range is the acceptable difference fluctuation range set on the mobile platform data processor by the breeder according to the breeding experience. For example, the set difference fluctuation range is 0-5, then when the The X2n value recorded on the mobile platform d...
Example Embodiment
[0127] Example 3
[0128] The following is an automatic control system for aquaculture aerators provided in the third embodiment of the present invention. The aerators are controlled by data collected by a mobile platform, such as image 3 Shown, including:
[0129] The extraction module 10 is used to extract current environmental data in the water area and historical data recorded by the mobile platform;
[0130] The analysis and determination module 20 is used to analyze current environmental data and historical data in the water area to determine when the aerator is turned on and when it is turned off;
[0131] The switch controller 30 is used to control the opening and closing of the aerator according to the determined opening and closing moments of the aerator.
[0132] Specifically, the current environmental data and historical environmental data extracted by the extraction module 10 are usually collected by sensors and transmitted to the mobile platform; the sensors that collect ...
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