CN109145137B - Agricultural big data platform - Google Patents

Abstract

The invention discloses an agricultural big data platform which comprises a data acquisition center, wherein the data acquisition center comprises a server, an output end of the server is provided with an acquisition database, an input end of the server is provided with an encryption unit and a coding unit, the input end of the data acquisition center is provided with a solar wireless monitoring camera, a solar soil monitoring module and a planting production management system, the output end of the data acquisition center is provided with a central processing unit, the central processing unit comprises an agricultural big database, and the output end of the agricultural big database is provided with a data processing module. According to the method, the farm land data and the crop growth data are collected, the domestic existing agricultural land is divided into blocks, reliable reference information is provided for agricultural investment enterprises, meanwhile, the domestic land utilization rate is enhanced, the change from the 'barren land' to the treasure land of agriculture is effectively increased, meanwhile, agricultural product supply information is provided for the government, the commodity circulation is effectively increased, and the price of the commodity is controlled.

Description

Agricultural big data platform

Technical Field

The invention relates to the technical field of agricultural big data platforms, in particular to an agricultural big data platform.

Background

China has a wide land area, but the development of what plants are suitable for being planted in the land and some barren lands does not have detailed and clear planning, and if the development and utilization of the barren lands and the re-planning of the land planting are needed, a large amount of data acquisition is needed, so that time and labor are wasted.

Therefore, it is necessary to invent a large agricultural data platform to solve the above problems.

Disclosure of Invention

The invention aims to provide an agricultural big data platform, which collects farm land data and crop growth data through a solar wireless monitoring camera, a solar soil monitoring module and a planting production management system, the collected data are encrypted, encoded, classified and transmitted, and finally sent to a farmer information processing module and a regional government information processing module for processing respectively to obtain different information about land and planting concerned by the farmer and the regional government, so that the block division of the domestic existing agricultural land can be better performed, reliable reference information is provided for agricultural investment enterprises, meanwhile, the domestic land utilization rate is enhanced, the change of the agricultural 'barren land' into treasure land is effectively increased, and obtain better planting scheme and convenient regional government to manage and control the price of the thing and understand the market trend to solve the problem that proposes in the above-mentioned background art.

In order to achieve the purpose, the invention provides the following technical scheme: an agricultural big data platform comprises a data acquisition center, wherein the data acquisition center comprises a server, an output end of the server is provided with an acquisition database, an input end of the server is provided with an encryption unit and a coding unit, an input end of the data acquisition center is provided with a solar wireless monitoring camera, a solar soil monitoring module and a planting production management system, an output end of the data acquisition center is provided with a central processing unit, the central processing unit comprises an agricultural big database, an output end of the agricultural big database is provided with a data processing module, and an output end of the central processing unit is provided with a cloud server and a terminal;

the collection database is used for storing data about planting time, planting mode, planting variety, planting nutrient, planting cost, output proportion, planting income, land area in the planting area, land property, soil nutrient index and soil temperature and humidity collected by the solar wireless monitoring camera, the solar soil monitoring module and the planting production management system;

the encryption unit is used for encrypting the data collected in the collection database;

the coding unit is used for classifying and coding the data collected in the collection database;

the agricultural big database is used for storing the data after the codes in the acquisition database are encrypted;

the data processing module comprises a data classification unit, a farmer information processing module and a regional government information processing module, and the input ends of the farmer information processing module and the regional government information processing module are connected with the output end of the data classification unit;

the data classification unit is used for preliminarily classifying the data sent by the agricultural big database according to codes, classifying the data of different monitoring projects, and then respectively sending the data to the farmer information processing module and the regional government information processing module for processing;

the farmer information processing module is used for sorting the classified data to obtain information about land and planting concerned by the farmer, such as: the system is suitable for planting in which area, estimating cost, planting and income, and is displayed through a terminal, so that the farmer can conveniently watch the system;

the regional government information processing module is used for sorting the classified data to obtain the information which is concerned by the regional government and is about land and planting, such as: the system is suitable for the developed area, helps the local farmers to control the scheme, the price and the market trend, and is displayed through the terminal, so that the system is convenient for the local government personnel to watch.

Preferably, the solar wireless monitoring camera comprises a camera body, a screen capture unit, a microcontroller, a picture comparison unit and a picture database are arranged in the camera, the output end of the screen capture unit is connected with the input end of the picture comparison unit, the connecting end of the picture comparison unit is connected with the picture database, the output end of the picture comparison unit is connected with the input end of the microcontroller, the microcontroller is connected with a server through a solar G/lora wireless gateway, and the solar soil monitoring module and the solar wireless monitoring camera are both connected with an external solar storage battery.

Preferably, the solar soil monitoring module comprises a soil temperature sensor, a soil moisture sensor, a soil ph sensor and a soil nutrient tachymeter, and is connected with the server through a solar G/lora wireless gateway.

Preferably, the planting production management system comprises a manual data entry unit and a PLC controller.

Preferably, the information processing module of the farmer and the information processing module of the regional government both comprise a code identification receiving unit, the output end of the code identification receiving unit is provided with a data comparison and extraction unit, the output end of the data comparison and extraction unit is provided with a coding database, and the connecting end of the coding database is provided with a data updating unit.

Preferably, the code identification receiving unit is used for identifying and separately receiving data with codes and then sending the data to the data comparison extracting unit, the code database is used for storing situations and data information which can occur when different plants are planted on different lands, planting lands suitable for the different plants and plant situations and data information suitable for the different lands, the data comparison extracting unit is used for comparing the received data with data stored in the code database to obtain information corresponding to the detected data, and the data updating unit is used for updating the information stored in the code database in real time to ensure that the data stored in the code database is synchronized with the latest research conclusion.

Preferably, the central processing unit is connected with the cloud server and the terminal through a network, and the terminal comprises a mobile phone and a computer.

The invention has the technical effects and advantages that:

1. according to the method, by collecting farm land data and crop growth data, the domestic existing agricultural land is divided into blocks, reliable reference information is provided for agricultural investment enterprises, meanwhile, the domestic land utilization rate is enhanced, the change from ' barren land ' to treasure land ' of agriculture is effectively increased, agricultural product supply information is provided for governments, the commodity circulation is effectively increased, and the price of goods is controlled;

2. the solar wireless monitoring camera, the solar soil monitoring module and the planting production management system are used for encrypting the collected data and carrying out coding and classified transmission, the data encryption ensures the safety of data transmission and storage, the detection is fast and smooth after the data are coded, disorder cannot occur, the platform is stable in operation, and the whole platform is convenient to use;

3. the solar wireless monitoring camera and the solar soil monitoring module are powered by the solar storage battery, sufficient sunlight in the field is utilized, the solar generated energy is more, the solar utilization rate is high, and the solar energy wireless monitoring camera is energy-saving and environment-friendly.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic diagram of a data processing module according to the present invention.

Fig. 3 is a schematic view of the structure of the farmer information processing module and the regional government information processing module of the present invention.

Fig. 4 is a schematic structural diagram of the planting production management system of the invention.

In the figure: the system comprises a data acquisition center, a server 2, a data acquisition database 3, an encryption unit 4, a coding unit 5, a solar wireless monitoring camera 6, a solar soil monitoring module 7, a planting production management system 8, a central processing unit 9, a large agricultural database 10, a data processing module 11, a cloud server 12, a terminal 13, a data classification unit 14, a farmer information processing module 15, a regional government information processing module 16, a manual data entry unit 17, a PLC (programmable logic controller) 18, a coding identification receiving unit 19, a data comparison and extraction unit 20, a coding data base 21 and a data updating unit 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1:

the agricultural big data platform shown in the figures 1-2 comprises a data acquisition center 1, wherein the data acquisition center 1 comprises a server 2, the output end of the server 2 is provided with an acquisition database 3, the input end of the server 2 is provided with an encryption unit 4 and a coding unit 5, the input end of the data acquisition center 1 is provided with a solar wireless monitoring camera 6, a solar soil monitoring module 7 and a planting production management system 8, the solar wireless monitoring camera 6 comprises a camera body, a screenshot unit, a microcontroller, a picture comparison unit and a picture database are arranged in the camera, the output end of the screenshot unit is connected with the input end of the picture comparison unit, the connecting end of the picture comparison unit is connected with the picture database, the output end of the picture comparison unit is connected with the input end of the microcontroller and can shoot plants so as to judge the growth condition of the plants according to leaves and the like, the micro-controller is connected with the server 2 through a solar 4G/lora wireless gateway, the solar soil monitoring module 7 comprises a soil temperature sensor, a soil moisture sensor, a soil ph sensor and a soil nutrient tachymeter, the solar soil monitoring module 7 is connected with the server 2 through the solar 4G/lora wireless gateway, the solar soil monitoring module 7 and the solar wireless monitoring camera 6 are both connected with an external solar storage battery, the electric energy is saved, the environment is protected, the output end of the data acquisition center 1 is provided with a central processing unit 9, the central processing unit 9 comprises an agricultural big database 10, the output end of the agricultural big database 10 is provided with a data processing module 11, the output end of the central processing unit 9 is provided with a cloud server 12 and a terminal 13, the central processing unit 9 is connected with the cloud server 12 and the terminal 13 through a network, the terminal 13 comprises a mobile phone and a computer, the cloud server 12 is used for backing up transmitted data in time to avoid data loss, and in addition, the terminal 13 is convenient for monitoring by farmers and local governments;

the collection database 3 is used for storing data about planting time, planting mode, planting variety, planting nutrient, planting cost, output proportion, planting income, land area in the planting area, land property, soil nutrient degree and soil temperature and humidity collected by the solar wireless monitoring camera 6, the solar soil monitoring module 7 and the planting production management system 8;

the encryption unit 4 is used for encrypting the data collected in the collection database 3;

the coding unit 5 is used for classifying and coding the data collected in the collection database 3;

the agricultural big database 10 is used for storing and acquiring data encrypted by codes in the database 3 and sending the data to the data processing module 11;

the data processing module 11 comprises a data classification unit 14, a farmer information processing module 15 and a regional government information processing module 16, wherein the input ends of the farmer information processing module 15 and the regional government information processing module 16 are connected with the output end of the data classification unit 14;

the data classification unit 14 is used for preliminarily classifying the data sent by the agricultural big database 10 according to codes, classifying the data of different monitoring projects, and then sending the data to the farmer information processing module 15 and the regional government information processing module 16 for processing;

the farmer information processing module 15 is configured to collate the sorted data to obtain information about land and planting that is of interest to the farmer, such as: the method is suitable for planting in which area, estimating cost, suitable for planting and the amount of income, and finally, the method is displayed through the terminal 13, so that the farmer can conveniently watch the method;

the regional government information processing module 16 is used for collating the classified data to obtain the information about land and planting concerned by the regional government, such as: the area suitable for development, the scheme of helping local farmers, the price of the controlled goods and the market trend are displayed through the terminal 13, and the controlled goods and the market trend are convenient for local government personnel to watch.

Through the wireless surveillance camera head of solar energy 6, the farm land data of solar energy soil monitoring module 7 and planting production management system 8, crops growth data are collected, and encrypt and encode categorised the transmission the data of gathering, send farmer information processing module 15 and regional government information processing module 16 respectively at last and handle, obtain the different information about soil and planting that owner and farm regional government concerned about, can be better carry out block division to domestic current agricultural land, provide reliable reference information for agricultural investment enterprise, and simultaneously, strengthen domestic land usage, effectively increase agriculture "wasteland" and become treasure, and obtain better planting scheme and make things convenient for regional government to manage and control the price of things and know market trend.

Example 2:

according to an agricultural big data platform shown in fig. 3, the farmer information processing module 15 and the regional government information processing module 16 both comprise a code identification receiving unit 19, the output end of the code identification receiving unit 19 is provided with a data comparison extracting unit 20, the output end of the data comparison extracting unit 20 is provided with a code database 21, the connection end of the code database 21 is provided with a data updating unit 22, the code identification receiving unit 19 is used for identifying and separately receiving data with codes and then sending the data to the data comparison extracting unit 20, the code database 21 is used for storing situations and data information which can occur when different plants are planted on different lands, planting lands suitable for different plants and plant situations and data information suitable for different lands, the data comparison extracting unit 20 is used for comparing the received data with the data stored in the code database 21, and information corresponding to the detection data is obtained, and the data updating unit 22 is used for updating the information stored in the coding database 21 in real time to ensure that the internally stored data is synchronized with the latest research conclusion.

According to the agricultural big data platform shown in fig. 4, the planting production management system 8 comprises a manual data entry unit 17 and a PLC controller 18, so that manual input is facilitated, or some data of the plants and the land are detected and input by using an intelligent device, and the agricultural big data platform is flexible to operate and convenient to use.

The working principle of the invention is as follows:

referring to the attached drawings 1-2 of the specification, when in use, the solar wireless monitoring camera 6, the solar soil monitoring module 7 and the planting production management system 8 respectively send collected data about planting time, planting mode, planting variety, planting nutrient, planting cost, output ratio, planting income, land area in the planting area, land property, soil nutrient index and soil temperature and humidity to the server 2, and stored in the collection database 3, the data is encrypted by the encryption unit 4 and classified and encoded by the encoding unit 5 during storage, then sent to the agricultural big database 10, the agricultural big database 10 stores the data and sends it to the data processing module 11 for processing, the farmer information processing module 15 collates the classified data to obtain the information about land and planting concerned by the farmer, such as: suitable in which regional planting, estimate expense, suitable planting what, what kind and income are how much, show through terminal 13 at last, the farmer of being convenient for watches, regional government information processing module 16 arranges the data after categorised, obtains the information about land and planting that regional government concerned about, for example: the system is suitable for a developed area, helps a local farmer to control the scheme, the price of goods and know the market trend, and is displayed through the terminal 13, so that the system is convenient for local government personnel to watch, the whole platform is convenient to use, data encryption ensures the safety of data transmission and storage, the detection is rapid and smooth after data coding, disorder cannot occur, and the platform is stable to operate;

referring to the attached figure 3 of the specification, after data is sent to the data processing module 11, the code identification receiving unit 19 identifies and separately receives data with codes, and then sends the data to the data comparison extracting unit 20, the coding database 21 stores situations and data information which can occur when different plants are planted on different lands, planting lands suitable for different plants, and plant situations and data information suitable for different lands, the data comparison extracting unit 20 compares the received data with the data stored in the coding database 21 to obtain information corresponding to detected data, and the data updating unit 22 updates the information stored in the coding database 21 in real time, so that the latest research conclusion of data synchronization stored in the coding database is ensured, and the accuracy of the obtained result is ensured;

referring to the attached figure 4 of the specification, the planting production management system 8 comprises a manual data entry unit 17 and a PLC (programmable logic controller) 18, so that the data of the plants and the land can be conveniently input manually or detected and input by an intelligent device, and the planting production management system is flexible to operate and convenient to use.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides an agricultural big data platform, includes data acquisition center (1), its characterized in that: the data acquisition center (1) comprises a server (2), an acquisition database (3) is arranged at the output end of the server (2), an encryption unit (4) and a coding unit (5) are arranged at the input end of the server, a solar wireless monitoring camera (6), a solar soil monitoring module (7) and a planting production management system (8) are arranged at the input end of the data acquisition center (1), a central processing unit (9) is arranged at the output end of the data acquisition center (1), the central processing unit (9) comprises a large agricultural database (10), a data processing module (11) is arranged at the output end of the large agricultural database (10), and a cloud server (12) and a terminal (13) are arranged at the output end of the central processing unit (9);

the collection database (3) is used for storing data about planting time, planting mode, planting variety, planting nutrient, planting cost, output proportion, planting income, land area in the planting area, land property, soil nutrient degree and soil temperature and humidity collected by the solar wireless monitoring camera (6), the solar soil monitoring module (7) and the planting production management system (8);

the encryption unit (4) is used for encrypting the data acquired in the acquisition database (3);

the coding unit (5) is used for classifying and coding the data collected in the collection database (3);

the agricultural big database (10) is used for storing and acquiring data encrypted by codes in the database (3);

the data processing module (11) comprises a data classification unit (14), a farmer information processing module (15) and a regional government information processing module (16), and the input ends of the farmer information processing module (15) and the regional government information processing module (16) are connected with the output end of the data classification unit (14);

the data classification unit (14) is used for preliminarily classifying the data sent by the agricultural big database (10) according to codes, classifying the data of different monitoring projects, and then respectively sending the data to the farmer information processing module (15) and the regional government information processing module (16) for processing;

the farmer information processing module (15) is used for sorting the classified data to obtain land and planting information concerned by the farmer, and finally displaying the land and planting information through the terminal (13) to be convenient for the farmer to watch;

the regional government information processing module (16) is used for sorting the classified data to obtain land and planting information concerned by the regional government, and finally displaying the land and planting information through the terminal (13) to be convenient for regional government personnel to watch.

2. The agricultural big data platform according to claim 1, wherein: the solar wireless monitoring camera (6) comprises a camera body, wherein a screenshot unit, a microcontroller, a picture comparison unit and a picture database are arranged in the camera, the output end of the screenshot unit is connected with the input end of the picture comparison unit, the connecting end of the picture comparison unit is connected with the picture database, the output end of the picture comparison unit is connected with the input end of the microcontroller, and the microcontroller is connected with a server (2) through a solar 4G/lora wireless gateway.

3. The agricultural big data platform according to claim 1, wherein: solar energy soil monitoring module (7) include soil temperature sensor, soil moisture sensor, soil ph sensor and soil nutrient tachymeter, solar energy soil monitoring module (7) are connected with server (2) through solar energy 4G lora wireless gateway, solar energy soil monitoring module (7) and solar energy wireless surveillance camera head (6) all are connected with outside solar battery.

4. The agricultural big data platform according to claim 1, wherein: the planting production management system (8) comprises a manual data entry unit (17) and a PLC (programmable logic controller) controller (18).

5. The agricultural big data platform according to claim 1, wherein: the information processing module (15) for the farmers and the information processing module (16) for the regional government comprise code identification receiving units (19), data comparison extracting units (20) are arranged at the output ends of the code identification receiving units (19), coded databases (21) are arranged at the output ends of the data comparison extracting units (20), and data updating units (22) are arranged at the connecting ends of the coded databases (21).

6. The agricultural big data platform according to claim 5, wherein: the code identification receiving unit (19) is used for identifying and separately receiving data with codes and then sending the data to the data comparison extracting unit (20), the code database (21) is used for storing situations and data information which can occur when different plants are planted on different lands, planting lands suitable for different plants and plant situations and data information suitable for different lands, the data comparison extracting unit (20) is used for comparing the received data with the data stored in the code database (21) to obtain information corresponding to the detected data, and the data updating unit (22) is used for updating the information stored in the code database (21) in real time to ensure that the data stored in the code database is synchronous with the latest research conclusion.

7. The agricultural big data platform according to claim 1, wherein: the central processing unit (9) is connected with the cloud server (12) and the terminal (13) through a network, and the terminal (13) comprises a mobile phone and a computer.

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