CN114358630A - Crop cultivation method and device, electronic equipment and storage medium - Google Patents

Abstract

The application provides a crop cultivation method, a device, an electronic device and a storage medium, wherein the crop cultivation method comprises the following steps: acquiring basic information of crops in a target planting area; creating a tube culture database of the crops according to the basic information; acquiring growth information of crops, and updating a tube culture database according to the growth information; the crop cultivation method provided by the application realizes the full-flow accurate cultivation in the crop growth process by controlling each link of crop growth, and improves the quality and yield of crops.

Description

Crop cultivation method and device, electronic equipment and storage medium

Technical Field

The application relates to the field of Internet of things, in particular to a crop cultivation method, a crop cultivation device, electronic equipment and a storage medium.

Background

The past decade is one of the fastest agricultural development periods, the largest rural change and the most benefits of farmers in China, is the 'gold period' of the 'three-farmer' development, and lays a solid foundation for the development of the next decade.

Techniques currently exist to improve plant scientificity and yield and quality: generally, one or more links in the production process of the special crops are controlled according to the planting of the special crops, such as recording of tube culture measures, monitoring of the growth state of the crops, yield statistics and the like. However, the current technology for improving the planting scientificity, the yield and the quality is single in functionality, the effect of improving the planting scientificity, the yield and the quality is not obvious, and the threshold for use is high, so that the technology is difficult to widely popularize and use.

Disclosure of Invention

Aiming at the problem of single functionality of pipe culture of crops in the prior art, the embodiment of the application aims to provide a crop pipe culture method, a crop pipe culture device, electronic equipment and a storage medium, and the method, the device, the electronic equipment and the storage medium are used for accurately pipe culture of all the processes of controlling the growth of crops in order to realize more scientific planting and obtain higher yield and quality.

In a first aspect, an embodiment of the present application provides a crop cultivation method, including: acquiring basic information of crops in a target planting area; creating a tube culture database of the crop according to the basic information; acquiring growth information of the crops, and updating the tube culture database according to the growth information; and managing the planting of the crops in the target planting area according to the tube culture database.

According to the crop tube culture method, the growth state and the growth environment of crops are monitored in real time, tube culture measures such as pesticide application, fertilizer application, pruning weeding and the like of the crops are recorded, all the information is integrated for analysis, and an analysis conclusion is provided for a user for reference, so that the full-flow accurate tube culture of the crop growth process is realized, and the scientificity, the quality and the yield of the crop tube culture are improved.

With reference to the first aspect, optionally, wherein the tube culture database has a unique identifier; managing planting of crops in the target planting area according to the pipe culture database, comprising: when a user purchases the agricultural materials required by the crops, acquiring and storing the purchasing conditions of the agricultural materials according to the unique identification; and monitoring and recording the use condition of the agricultural materials, and carrying out early warning when the use amount of the agricultural materials exceeds a threshold value.

According to the agricultural crop management and cultivation method, the farmers and the management and cultivation data are in one-to-one correspondence through the unique identification of the management and cultivation database, and when the farmers purchase agricultural materials, the purchasing conditions of the agricultural materials are recorded in the management and cultivation database, so that the condition that the farmers purchase the agricultural materials is mastered. In a specific embodiment, the agricultural materials purchased by the farmers are pesticide and fertilizer, the pipe culture database monitors and records the use condition of the pesticide and fertilizer, and when the used pesticide and fertilizer amount exceeds a threshold value, the user is suspected of overusing the pesticide and fertilizer, so that the method prevents the farmers from overusing the pesticide and fertilizer to a certain extent.

With reference to the first aspect, optionally, wherein the basic information includes longitude and latitude information of a location where the crop is located, and the managing, according to the cultivation database, the planting of the crop in the target planting area includes: acquiring meteorological information according to the longitude and latitude information; and pushing weather early warning information to a user according to the weather information, and storing the weather early warning information to the management and cultivation database.

According to the crop cultivation method, the longitude and latitude information of crop planting is acquired, the meteorological information of the crop planting position is acquired according to the longitude and latitude information, and when weather which is not beneficial to crop growth occurs, the meteorological early warning information is pushed to a user, so that the user can do prevention work according to the meteorological early warning information, and the loss of the yield and the quantity of crops caused by severe weather is avoided.

With reference to the first aspect, optionally, wherein the tube culture database comprises preset information of the crop; the creating a tube culture database of the crop according to the basic information comprises: matching corresponding preset information of the crops according to the basic information; and determining whether the basic information includes a plurality of crops; and if so, forming a pipe culture sub-database corresponding to each of the multiple crops in the pipe culture database, and matching corresponding preset information of the crops in each pipe culture sub-database according to the basic information.

According to the crop cultivation method, the variety and type information of the crops is preset in the cultivation database, so that the step that a user manually creates the variety according to the planted crops is saved, and the method provided by the application is simple and convenient; meanwhile, crops of the same kind are divided into the same tube cultivation database, so that tube cultivation is more organized for different crops.

With reference to the first aspect, optionally, wherein the growth information includes growth state information and growth environment information of the crop; managing planting of crops in the target planting area according to the pipe culture database, comprising: acquiring growth state information and growth environment information of the crops by monitoring equipment; the monitoring equipment comprises an image acquisition device, a temperature sensor, an illumination intensity sensor, a soil nutrient detector and a humidity sensor.

According to the crop cultivation method, the growth condition and the growth environment of the crops are monitored through the image acquisition device, the temperature sensor, the illumination intensity sensor, the soil nutrient detector, the humidity sensor and the like, so that the parameters of the growth condition and the growth environment of the crops are more comprehensive and detailed, the control of the growth process of the crops is more accurate, and the management cultivation of the crops is more scientific.

With reference to the first aspect, optionally, wherein the tube culture database comprises guidance information for tube culture crops; the managing planting of the crop in the target planting area according to the tube culture database comprises: and pushing guide information for delivering the tube-cultured crops to the user according to the growth information.

According to the crop management and cultivation method, the user pushes the corresponding guidance information according to the different types and varieties of crops, so that the step that the user screens the required guidance information according to the planted crops is saved, the efficiency of the user in learning scientific knowledge is improved, and the scientificity of crop management and cultivation is also improved.

With reference to the first aspect, optionally, wherein the managing planting of the crop in the target planting area according to the tube culture database comprises: and analyzing and judging the future growth condition of the crop according to the growth information, obtaining the growth prediction information of the crop, and pushing the growth prediction information to a user.

According to the crop cultivation method, the yield of the crops is predicted by judging the future growth condition of the crops, and the user can conveniently plan the sales strategy in advance.

In a second aspect, an embodiment of the present application further provides an agricultural crop cultivation device, including: the system comprises an information acquisition module, a data recording module and a planting management module; the information acquisition module is used for acquiring basic information of crops in a target planting area and growth information of the crops; the data recording module is used for creating a tube culture database of the crops according to the basic information and updating the tube culture database according to the growth information; and the planting management module manages the planting of the crops in the target planting area according to the tube culture database.

With reference to the second aspect, optionally, wherein the tube culture database has a unique identifier, and the data recording module is further configured to: when the agricultural materials required by the crops are purchased, recording the purchasing condition of the agricultural materials according to the unique identification; the planting management module is further configured to: and monitoring and recording the use condition of the agricultural materials, and giving an early warning when the use amount of the agricultural materials exceeds a threshold value.

With reference to the second aspect, optionally, wherein the planting management module is further configured to: acquiring latitude and longitude information of the position of the crop, acquiring meteorological information according to the latitude information, pushing meteorological early warning information to a user according to the meteorological information, and storing the meteorological early warning information to the management and cultivation database.

With reference to the second aspect, optionally, the tube culture database further includes preset information of the crop, and the planting management module is further configured to match the corresponding preset information of the crop according to the basic information; and, determining whether the basic information includes a plurality of crops; and if so, forming a pipe culture sub-database corresponding to each of the multiple crops in the pipe culture database, and matching corresponding preset information of the crops in each pipe culture sub-database according to the basic information.

In combination with the second aspect, optionally, wherein the planting management module further includes a monitoring unit, the monitoring unit is configured to obtain growth information of the crop, the growth information further includes growth state information and growth environment information of the crop, and the monitoring unit includes an image collector, a temperature sensor, an illumination intensity sensor, a soil nutrient detector, and a humidity sensor.

With reference to the second aspect, optionally, wherein the tube culture database further includes guidance information of tube culture crops, and the planting management module is further configured to push the guidance information of tube culture crops to the user according to the growth information.

With reference to the second aspect, optionally, the planting management module is further configured to analyze and judge a future growth condition of the crop according to the growth information, obtain growth prediction information of the crop, and push the growth prediction information to a user.

In the above embodiments, the provided crop cultivation device has similar beneficial effects to the first aspect or the crop cultivation method provided in any optional implementation manner of the first aspect, and details are not repeated here.

In a third aspect, an embodiment of the present application further provides an electronic device, including: a processor and a memory, the memory storing processor-executable machine-readable instructions, the machine-readable instructions when executed by the processor performing the method as described above.

In a fourth aspect, the present application further provides a computer-readable storage medium, on which a computer program is stored, where the computer program is executed by a processor to perform the above-described method.

In summary, the method, the device, the electronic device and the storage medium for crop cultivation provided by the invention can get through necessary links in the crop growth process from the whole process by integrating the location of the planting area, the purchasing and use of crops and agricultural materials, the crop harvesting, the weather early warning, the record of the crop growth process, the access of the monitoring device, the intelligent recommendation of planting suggestions and attention points, etc., and can accurately control the growth of crops from each link, thereby improving the yield and quality of crops.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a schematic flow chart of a crop cultivation method according to an embodiment of the present disclosure;

fig. 2 is a schematic flowchart of creating a cyber-culture database according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a crop cultivation apparatus according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a planting management module in the crop cultivation device according to the embodiment of the present application;

fig. 5 is a schematic structural diagram of a monitoring unit in a planting management module according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are merely used to more clearly illustrate the technical solutions of the present application, and therefore are only examples, and the protection scope of the present application is not limited thereby.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs; the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application.

In the description of the embodiments of the present application, the technical terms "first", "second", and the like are used only for distinguishing different objects, and are not to be construed as indicating or implying relative importance or implicitly indicating the number, specific order, or primary-secondary relationship of the technical features indicated. In the description of the embodiments of the present application, "a plurality" means two or more unless explicitly specifically defined otherwise.

Please refer to fig. 1, which illustrates a flow chart of a crop cultivation method according to an embodiment of the present application.

Step S110: basic information of crops in a target planting area is obtained.

The embodiment of the step S110 includes: and obtaining the information of the variety, the type, the quantity and the like of the crops.

After step S110, step S120 is performed: and creating a tube culture database of the crop according to the basic information.

The embodiment of step S120 described above: the tube culture database comprises the variety, type and quantity information of the crops.

After step S120, step S130 is performed: and acquiring growth information of crops, and updating the tube culture database according to the growth information.

The embodiment of step S130 described above: the growth information includes the number of plants per unit area of the crop, coverage rate, leaf area index, plant color, presence or absence of weeds, presence or absence of diseases and pests, and the like, and the updating of the culture management database according to the growth information can be but is not limited to updating of characters and images.

After step S130, step S140 is performed: and managing the planting of the crops in the target planting area according to the tube culture database.

The embodiment of step S140 described above: and performing pipe culture measures such as pruning, weeding, fertilizing, pesticide application and the like on the crops according to the information such as the number of plants in unit area, the coverage rate, the leaf area index, the plant color, the existence of diseases and pests and the like, and recording the measures into a pipe culture database.

According to the crop cultivation method, all links for controlling the crop growth are controlled, so that the full-flow accurate cultivation of crops in the growth process is realized, and the quality and the yield of the crops are improved.

Further, the tube culture database has a unique identifier, and in one embodiment, step S140 includes:

step S141, when the user purchases agricultural materials required by crops, the purchasing condition of the agricultural materials is obtained and stored according to the unique identification; and monitoring and recording the use condition of the agricultural materials, and carrying out early warning when the use amount of the agricultural materials exceeds a threshold value.

Embodiment of the above step S141: the unique identifier may be, but is not limited to, registration information of the user, such as: name, registered account number, etc., a preferred embodiment is: the method comprises the steps of generating a user two-dimensional code according to registration information of a user, obtaining and storing agricultural conditions of agricultural purchase of the user according to the user two-dimensional code when the user purchases agricultural materials, wherein the agricultural conditions comprise types and quantity of purchased pesticides, types and quantity of purchased fertilizers and corresponding purchase dates, the threshold value of the agricultural usage is set according to the types, quantities and other information of crops, the types and quantity of purchased pesticides, the types and quantity of purchased fertilizers and the corresponding purchase dates of the purchased fertilizers are compared with the threshold value, when the use of the agricultural materials by the user exceeds the threshold value, early warning is conducted on the user, and the early warning is recorded.

In the embodiment, the farmers are in one-to-one correspondence with the management data through the unique identification of the management database, when the farmers purchase the agricultural materials, the purchasing conditions of the agricultural materials are recorded in the management database, the condition that the farmers purchase the agricultural materials is mastered, and when the using amount of the agricultural materials exceeds a threshold value, the suspicion that the users use the pesticide and the chemical fertilizer excessively is shown, so that the method prevents the farmers from using the pesticide and the chemical fertilizer excessively to a certain extent.

Further, the basic information includes longitude and latitude information of the crop, and in one embodiment, the step S140 includes:

step S142: and acquiring meteorological information according to the longitude and latitude information, pushing meteorological early warning information to a user according to the meteorological information, and storing the meteorological early warning information to a management and culture database.

The embodiment of step S142 described above: according to the longitude and latitude information of the position of the crop, the method for acquiring the longitude and latitude information can be but not limited to a method of positioning through a GPS, weather information of the position of the crop is acquired from a cloud, and weather early warning information is pushed to a user when weather which is not beneficial to crop growth occurs.

Above-mentioned embodiment, through the longitude and latitude information that acquires crops and plant, acquire the meteorological information of crops planting position according to longitude and latitude information, when the weather that is unfavorable for crops to grow appears, to user propelling movement meteorological early warning information for the user does the prevention work according to meteorological early warning information, has avoided because the loss that severe weather led to the fact the output and the quantity of crops.

Referring to fig. 2, further, the tube culture database includes preset information of the crop, and in one embodiment, the step S120 includes:

step S121: matching preset information of corresponding crops according to the basic information;

embodiment of the above step S121: the preset information comprises varieties and types of crops, and when the management culture database is updated according to the growth information, a user only needs to update related information under the names of the crops corresponding to the varieties and the types in the preset information;

step S122: judging whether the basic information comprises various crops;

step S123: and if so, forming a pipe culture database corresponding to each crop in the pipe culture database, and matching the preset information of the corresponding crop in each pipe culture database according to the basic information.

Embodiment of the above step S123: if the user name contains multiple crops, a pipe bank database corresponding to each crop is created, and preset information of the corresponding crop is matched in each pipe bank database according to basic information of the crop.

In the embodiment, the variety and variety information of the crops are preset in the tube culture database, so that the step of manually creating the crops according to the planted varieties by a user is saved, and the method provided by the application is simple and convenient; meanwhile, crops of the same kind and the same variety are divided into the same tube cultivation database, so that tube cultivation is more organized for different crops.

With continued reference to fig. 1, in the above embodiment, step S140 includes:

step S143: acquiring growth information of crops by monitoring equipment; the growth information also comprises growth state information and growth environment information of crops; the monitoring equipment comprises an image acquisition device, a temperature sensor, an illumination intensity sensor, a soil nutrient detector and a humidity sensor.

Embodiment of the above step S143: the crop growth environment monitoring system comprises an image acquisition device, a controller and a controller, wherein the image acquisition device monitors crops in real time and acquires the crop growth environment information, the number of plants in unit area, the coverage rate, the leaf area index, the plant color, the existence of weeds and the existence of diseases and pests are detected, the image acquisition device can be but not limited to a camera, the information can be acquired in real time at night, the image acquisition device can further comprise a night vision device, a temperature sensor is used for acquiring the self temperature information of the crops and the temperature information of the growth environment, an illumination intensity sensor is used for acquiring the illumination intensity information of the crop growth environment, a soil nutrient detector is used for acquiring the soil nutrient content information of the crop growth environment, and a humidity sensor is used for acquiring the air humidity information of the crop growth environment.

Above-mentioned embodiment, through image acquisition device, temperature sensor, illumination intensity sensor, soil nutrient detector and humidity transducer etc. to the growth situation and the control of growing environment of crops for the growth situation of crops and the parameter of growing environment are more comprehensive meticulous, and then, make the control more accurate, to the pipe cultivation of crops more scientific to the crops growth process.

Further, the tube culture database includes guidance information of the crop, and in the last embodiment, the step S140 includes:

step S144: and pushing guide information for delivering the tube culture crops to the user according to the growth information.

Embodiment of the above step S144: according to the growth state information and the growth environment information of crops, the management and cultivation suggestion information and the attention information related to the crops planted by the user are pushed to the user, and are classified according to different periods and pushed to the user in the modes of pictures, texts, videos, audios and the like.

According to the embodiment, the corresponding guide information is pushed by the user aiming at planting different types and varieties, so that the step that the user selects the required guide information according to the planted crops is saved, the efficiency of the user for learning scientific knowledge is improved, and the scientificity of crop management is also improved.

In the above embodiment, step S140 includes:

step S145: and analyzing and judging the future growth condition of the crops according to the growth information to obtain the growth prediction information of the crops, and pushing the growth prediction information to the user.

The embodiment of step S145 described above: the method comprises the steps of comparing previously stored crop growth information with current crop yield information, analyzing and judging the growth prediction information of the current crop, pushing the growth prediction information to a corresponding user, harvesting the crops in batches after the crops are mature, recording harvested quantity information, time information and the like to generate batch numbers, and inquiring the harvested quantity information, the harvested time information and the like through the batch numbers.

In the embodiment, the crop management and cultivation method predicts the yield of the crops by judging the future growth conditions of the crops, facilitates the user to plan the sales strategy in advance, and facilitates the query of the collected quantity information, the time information and the like by collecting and generating batch numbers according to batches.

In a preferred embodiment, the cultivation database may be a virtual farm that presents users with a first class of crops, such as: grains, vegetables, fruits, etc., wherein each of the first class further comprises a second class, such as: the fruit categories include apple, pear, orange, etc.

In a preferred embodiment, when implementing the scheme of the application, a user of apple planting creates a corresponding apple virtual farm according to the types of crops planted by the user, the virtual farm creates apple tree icons corresponding to the number of apple trees planted by the user, each icon is provided with pipe cultivation operation icons such as fertilization, pesticide application, pruning, weeding and earthing, the pipe cultivation operation related to metering such as fertilization is provided with unit metering, and the metering of the pipe cultivation operation is obtained according to the number of times of user operation; meanwhile, according to various parameters acquired by the monitoring equipment, the parameters are embodied on the virtual farm in a text or graphic mode, for example, the color of the blade is one of the parameters for judging the growth state of the crops, and the color of the blade on the icon is the same as the parameter.

Further, the whole virtual farm presents real-time weather information to users in a simple animation and is provided with relevant text descriptions, such as temperature, wind direction, wind level and the like. The virtual farm pushes related cultivation advice to the user by integrating and analyzing the information, and pushes related apple planting guidance information to the user regularly or irregularly in combination with the analysis result.

Furthermore, the yield of the apples of the user in the current season is analyzed and predicted by combining the information, and the predicted yield is updated along with the updating change of the information.

The embodiment enables the method process provided by the application to be more intuitive, and the effect of simple and easy operation is achieved.

Please refer to fig. 3 for a schematic structural diagram of a crop cultivation device provided in the embodiment of the present application; the embodiment of the present application provides a crop cultivation device 300, including:

the information acquisition module 310 is used for acquiring basic information of crops in the target planting area and growth information of the crops;

the data recording module 320 is used for creating a management culture database of crops according to the basic information and updating the management culture database according to the growth information;

the planting management module 330 manages the planting of crops in the target planting area according to the tube culture database;

in one embodiment, optionally, the tube culture database has a unique identification; the data recording module 320 is further configured to: when the agricultural materials required by the crops are purchased, recording the purchasing condition of the agricultural materials according to the unique identification; the planting management module 330 is further configured to: and monitoring and recording the use condition of the agricultural materials, and giving an early warning when the use amount of the agricultural materials exceeds a threshold value.

In one embodiment, optionally, the planting management module 330 is further configured to: acquiring latitude and longitude information of the position of a crop, acquiring meteorological information according to the latitude information, pushing meteorological early warning information to a user according to the meteorological information, and storing the meteorological early warning information to a pipe culture database.

In an embodiment, optionally, the tube culture database further includes preset information of crops, and the planting management module is further configured 330 to further: matching preset information of corresponding crops according to the basic information; judging whether the basic information comprises various crops; and if so, forming a pipe culture database corresponding to each variety of crops in the pipe culture database, and matching the preset information of the corresponding crops in each pipe culture database according to the basic information.

In one embodiment, optionally, the tube culture database further includes guidance information of the tube culture crop, and the planting management module 330 is further configured to push the guidance information of the tube culture crop to the user according to the growth information.

In one embodiment, optionally, the planting management module 330 is further configured to: and analyzing and judging the future growth condition of the crops according to the growth information to obtain the growth prediction information of the crops, and pushing the growth prediction information to the user.

Referring to fig. 4, in the previous embodiment, optionally, the planting management module 330 further includes a monitoring unit 331, where the monitoring unit 331 is configured to obtain and monitor growth information of the crop, and the growth information further includes growth state information and growth environment information of the crop.

Referring to fig. 5, the monitoring unit 331 includes: an image collector 331a, a temperature sensor 331b, an illumination intensity sensor 331c, a soil nutrient detector 331d, and a humidity sensor 331 e.

It should be understood that the apparatus corresponds to the crop method embodiment described above, and can perform various steps related to the method embodiment described above, and the specific functions of the apparatus can be referred to the description above, and the detailed description is appropriately omitted here to avoid redundancy. The device includes at least one software function that can be stored in memory in the form of software or firmware (firmware) or solidified in the Operating System (OS) of the device.

Please refer to fig. 5, which illustrates a schematic structural diagram of an electronic device according to an embodiment of the present application. An electronic device 500 provided in an embodiment of the present application includes: a processor 510 and a memory 520, the memory 520 storing machine readable instructions executable by the processor 510, the machine readable instructions when executed by the processor 510 performing the method as above.

The embodiment of the application also provides a storage medium, wherein the storage medium is stored with a computer program, and the computer program is executed by a processor to execute the method.

The storage medium may be implemented by any type of volatile or nonvolatile storage device or combination thereof, such as a Static Random Access Memory (SRAM), an Electrically Erasable Programmable Read-Only Memory (EEPROM), an Erasable Programmable Read-Only Memory (EPROM), a Programmable Read-Only Memory (PROM), a Read-Only Memory (ROM), a magnetic Memory, a flash Memory, a magnetic disk, or an optical disk.

In the embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The apparatus embodiments described above are merely illustrative, and for example, the flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of apparatus, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

In addition, functional modules in the embodiments of the present application may be integrated together to form an independent part, or each module may exist separately, or two or more modules may be integrated to form an independent part.

The above description is only an alternative embodiment of the embodiments of the present application, but the scope of the embodiments of the present application is not limited thereto, and any person skilled in the art can easily conceive of changes or substitutions within the technical scope of the embodiments of the present application, and all the changes or substitutions should be covered by the scope of the embodiments of the present application.

Claims (10)

1. A method of crop cultivation, the method comprising:

acquiring basic information of crops in a target planting area;

creating a tube culture database of the crop according to the basic information;

acquiring growth information of the crops, and updating the tube culture database according to the growth information; and

and managing the planting of the crops in the target planting area according to the tube culture database.

2. The crop cultivation method according to claim 1, wherein the tube cultivation database has a unique identification; managing planting of crops in the target planting area according to the pipe culture database, comprising:

when a user purchases the agricultural materials required by the crops, acquiring and storing the purchasing conditions of the agricultural materials according to the unique identification; and

and monitoring and recording the use condition of the agricultural materials, and giving an early warning when the use amount of the agricultural materials exceeds a threshold value.

3. The crop cultivation method of claim 1, wherein the basic information includes latitude and longitude information of a location where the crop is located; managing planting of crops in the target planting area according to the pipe culture database, comprising:

acquiring meteorological information according to the longitude and latitude information;

and pushing weather early warning information to a user according to the weather information, and storing the weather early warning information to the management and cultivation database.

4. The crop cultivation method as claimed in claim 1, wherein the pipe cultivation database includes preset information of the crop; the creating a tube culture database of the crop according to the basic information comprises:

matching corresponding preset information of the crops according to the basic information; and

judging whether the basic information comprises various crops; and if so, forming a pipe culture sub-database corresponding to each of the multiple crops in the pipe culture database, and matching corresponding preset information of the crops in each pipe culture sub-database according to the basic information.

5. The crop cultivation method according to claim 1, wherein the growth information includes growth state information and growth environment information of the crop;

managing planting of crops in the target planting area according to the pipe culture database, comprising: acquiring growth state information and growth environment information of the crops by monitoring equipment;

the monitoring equipment comprises an image acquisition device, a temperature sensor, an illumination intensity sensor, a soil nutrient detector and a humidity sensor.

6. The crop cultivation method as claimed in claim 1, wherein the tube cultivation database includes guidance information for tube cultivation of crops; the managing planting of the crop in the target planting area according to the tube culture database comprises:

and pushing guide information for delivering the tube-cultured crops to the user according to the growth information.

7. The crop cultivation method according to claim 1, wherein the managing the planting of the crop in the target planting area according to the cultivation-by-tube database comprises:

and analyzing and judging the future growth condition of the crop according to the growth information, obtaining the growth prediction information of the crop, and pushing the growth prediction information to a user.

8. An crop cultivation system, comprising: the system comprises an information acquisition module, a data recording module and a planting management module;

the information acquisition module is used for acquiring basic information of crops in a target planting area and growth information of the crops;

the data recording module is used for creating a tube culture database of the crops according to the basic information and updating the tube culture database according to the growth information;

and the planting management module manages the planting of the crops in the target planting area according to the tube culture database.

9. An electronic device, comprising: a processor and a memory, the memory storing machine-readable instructions executable by the processor, the machine-readable instructions, when executed by the processor, performing the method of any of claims 1 to 7.

10. A computer-readable storage medium, having stored thereon a computer program which, when executed by a processor, performs the method of any one of claims 1 to 7.

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