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System and method for producing fingerling and breeding fry of tilapia mossambica based on internet of things

A technology of tilapia and the Internet of Things, which is applied in the field of nursery, can solve the problems of complex pairing operation, inability to achieve precise feeding requirements, and affecting the acquisition of temperature parameters.

Active Publication Date: 2018-12-18
GUANGXI ACADEMY OF FISHERY SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the existing communication methods for tilapia seedling-related equipment, there are shortcomings such as short transmission distance, poor compatibility, and complicated pairing operations; and in the method of binding serial numbers and accounts, for one device to multiple terminals In some cases, the data cannot be correctly transmitted to the target terminal; at the same time, the existing fish farming bait mainly relies on mechanical bait throwing machines, which need to be manually set based on farming experience, and there are problems such as low automation, no bait feeding algorithm, and no intelligent control. The problem is that the precise feeding requirements of fish farming production cannot be realized
[0003] To sum up, the problems existing in the existing technology are: in the existing communication methods of tilapia seedling-related equipment, there are shortcomings such as short transmission distance, poor compatibility, and complicated pairing operations; In the case of one device pairing multiple terminals, the data cannot be correctly transmitted to the target terminal; at the same time, the existing fishery breeding bait mainly relies on mechanical bait throwing machines, which need to be set manually based on farming experience, and there is a lack of automation. High, no baiting algorithm, no intelligent control, etc., can not meet the precise baiting requirements of fish farming production
[0004] In the prior art, the determination of the temperature is easily affected by the ambient temperature, so that the temperature parameters cannot be accurately obtained, which affects the acquisition of the temperature parameters in the tilapia seed production and nursery, and hinders the progress of the tilapia seed production and nursery; Insufficient data storage for seed production and seedlings often results in loss and lack of data, which is not conducive to the storage of server control information; in addition, the display does not have the advantages of low noise, low loss and high brightness, and cannot be more accurately Constructing the background information of the defect image is not conducive to the accurate acquisition of the living environment parameters of tilapia

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  • System and method for producing fingerling and breeding fry of tilapia mossambica based on internet of things

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Embodiment Construction

[0072] In order to make the objectives, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail below in conjunction with embodiments. It should be understood that the specific embodiments described herein are only used to explain the present invention, but not to limit the present invention.

[0073] The application principle of the present invention will be further described below with reference to the drawings and specific embodiments.

[0074] Such as figure 1 As shown, a tilapia seed production method based on the Internet of Things provided by the present invention includes the following steps:

[0075] Step S101, use the temperature sensor to detect the temperature data information of the cultivated tilapia water body through the temperature detection module; use the salinity detector to detect the salinity data information of the cultivated tilapia water body through the salinity detection module; use the...

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Abstract

The invention belongs to the technical field of fry breeding, and discloses a system and method for producing fingerlings and breeding fries of tilapia mossambica based on the internet of things. Thesystem comprises a temperature detecting module, a salinity detecting module, an oxygen content detecting module, a central control module, a communication module, a server, a mobile terminal, a powersupply module, a sterilizing module, a bait throwing module and a display module. Through the communication module, a unique communication code is used for binding measuring equipment to the mobile terminal, so that one-to-one communication is established between the measuring equipment and the mobile terminal, and the original mode that the equipment and a control terminal are communicated directly is replaced; in this way, binding operation is simpler and more convenient, it is unnecessary to directly perform communicating and pairing on the equipment and the terminal, no distance limit exists, and compatibility is good; management is more convenient when fingerling producing and fry breeding of tilapia mossambica are performed; meanwhile, through the bait throwing module, baits can beautomatically thrown, in this way, the automation degree is high, the demand for accurate bait throwing in fishery industry can be met, and operation is easy and convenient.

Description

Technical field [0001] The invention belongs to the technical field of seedling breeding, and in particular relates to a tilapia seedling breeding system and method based on the Internet of Things. Background technique [0002] Tilapia, commonly known as: African crucian carp, non-crucian carp, Vietnamese fish, South Sea crucian carp, etc. Originally refers to the mouth-hatched non-crucian fish species with Mozambique as the model place of production: Mozambique mouth-hatched non-crucian carp (scientific name: Oreochromismossambicus), now it is common to several species of non-crucian and mouth-hatched non-crucian fish of the cichlid family Common name; collectively called Tilapia in English. It is now a freshwater farmed fish cultivated by the key scientific research of the world aquaculture industry, and is known as one of the main sources of animal protein in the future. It usually lives in fresh water, can also live in salty water with different salt content, and can also l...

Claims

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Application Information

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IPC IPC(8): A01K63/04A01K61/80A01K63/06
CPCA01K63/04A01K63/042A01K63/065A01K61/80Y02A40/81
Inventor 肖俊罗永巨郭忠宝杨弘于凡钟欢周毅梁军能唐瞻杨严欣雷燕
Owner GUANGXI ACADEMY OF FISHERY SCI
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