KR20220134220A - System for smart plant cultivation controlling and managing using block coding - Google Patents

Abstract

The present invention relates to a control and management system for user-customized smart plant cultivation using block coding. The control and management system comprises: a user terminal device that provides, in order to cultivate at least one plant selected by a user, a service so that at least one growth environment element for plant cultivation and multiple coding blocks for coding growth environment conditions therefor are combined with each other, and compiles a code block combined by the user in a predefined format to generate a plant cultivation content file for a user-customized plant cultivation project for each corresponding plant; and a smart plant cultivation device that receives from the user terminal device and analyzes the plant cultivation content file for the user-customized plant cultivation project for growing each plant, generated by the user terminal device, and controls the operation of at least one control module among a temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) concentration control module, and lighting control module so that environmental resources of a growth environment element for the user-customized cultivation of each plant can be distributed in accordance with an execution logic of the plant cultivation content file for the user-customized plant cultivation project. Therefore, the system allows non-experts or general users to easily grow a variety of plants, even in homes with insufficient cultivation space without investing a significant amount of time and effort, enabling them to grow high-quality crops in a short time.

Description

User-customized smart plant cultivation control and management system using block coding method

The present invention relates to a user-customized smart plant cultivation control and management system using a block coding method.

In modern times, plant cultivation has been developed into automated cultivation or remote control management according to scientific farming, but there is a limit to the cultivation of various plants, and many problems occur in unit price increase, safety, and distribution channels. Consumer confidence in it is low.

Therefore, there is a demand for anyone in the general public to directly grow plants, and there is an increasing number of cases where various crops are grown.

In addition, since it is difficult to apply them to computers even if they have experience and technology, it is very difficult for modern people who are pressed for time, especially consumers living in large cities, to try plant cultivation without proper cultivation places such as weekend farms or vegetable gardens and a lot of investment. .

Accordingly, there is no big restriction according to the cultivation space, and it is possible to grow crops without investing a lot of time and effort, and there is a need for a method for cultivating various crops in a short time.

Domestic Patent Publication No. 10-2020-0030586 (published on March 20, 2020)

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a growth environment suitable for plant cultivation easily by a block coding method even in a situation where it is difficult to control a growth environment suitable for plant cultivation, By effectively controlling the plant growth environment according to the information necessary for the growth of crops, non-experts and the general public can easily grow various plants, and crops of excellent quality in a short time without investing a lot of time and effort even in a home with insufficient cultivation space It is to provide a user-customized smart plant cultivation control and management system using a block coding method to cultivate

In order to achieve the above object, one aspect of the present invention is a plurality of coding for coding at least one plant cultivation and growth environment element and its growth environment conditions in order to cultivate at least one plant selected by the user. Provides a service so that blocks are combined with each other, and compiles in a predefined format according to the code block combined by the user to create a plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant. generating a user terminal device; And according to the execution logic of the plant cultivation content file for the user-customized plant cultivation project by receiving the plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant generated from the user terminal device and analyzing it Preloaded temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) concentration control module, And to provide a user-customized smart plant cultivation control and management system using a block coding method comprising a smart plant cultivation device for controlling the operation of at least one control module of the lighting control module.

Here, the user terminal device, the user input module for outputting a specific input signal of the user according to the user's request; a plant cultivation and growth environment element coding block module including at least one plant cultivation and growth environment element code block for generating control command information corresponding to an external growth environment element for cultivating each corresponding plant; a plant cultivation and growth environment coding block module including at least one plant cultivation and growth environment code block for generating control command information corresponding to the growth environment conditions for cultivating each corresponding plant; Each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module, including the type of each plant, and each plant cultivation and growth environment condition code block of the plant cultivation growth environment coding block module, together with the corresponding user a display module for displaying an area for combining a plurality of code blocks according to a plant cultivation project of each plant on a display screen; and each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module in order to grow each plant selected by the user according to the user's specific input signal output from the user input module, and the plant Controls the operation of the display module so that each plant cultivation and growth environment code block of the coding block module is moved and positioned in a predetermined specific area to be combined with each other to be displayed on the display screen, and the code combined by the user It is preferable to include a plant cultivation control module that compiles in a predefined format according to the block and generates a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each corresponding plant.

Preferably, each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module is at least one unit code of light, temperature, humidity, lighting, water, nutrients, carbon dioxide (CO ₂ ) concentration, and wind. It can be made of blocks.

Preferably, each plant cultivation and growth environment code block of the plant cultivation and growth environmental condition coding block module includes the external growth environment element for each cultivation period, date, and time zone according to the growth period or harvest time of each plant. It may consist of at least one unit code block for selecting and inputting a growth environment condition variable.

Preferably, the user terminal device, according to the control of the plant cultivation control module, plant cultivation content file information for the user-customized plant cultivation project for the cultivation of each plant generated for each type of each plant in the database (DB) ), a user-customized plant cultivation storage module for storing and managing may be further included.

Preferably, the plant cultivation control module, the user through a graphical user interface (Graphical User Interface, GUI) according to the specific input signal of the user output from the user input module correction, addition of the combined code block, and deletion, providing a service to perform at least one editing operation, and compiling in a predefined format according to the edited code block, and plant cultivation for a user-customized plant cultivation project for cultivation of each corresponding plant You can create and update content files.

Preferably, the user terminal device, according to the control of the plant cultivation control module, a communication module for transmitting a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant through wired or wireless communication may be further included. have.

Preferably, the plant cultivation control module controls the operation of the communication module so that a plant cultivation content file for a user-customized plant cultivation project for cultivation of each plant is transmitted by wire or wirelessly to a remote plant cultivation management server through a communication network. can be controlled

Preferably, the user terminal device, for each type of each plant, the optimal growth environment condition information on the external growth environment factors for each cultivation period, date, and time according to the growth period or harvest time of each plant in the database. (DB), a plant cultivation information storage module that stores and manages may be further included.

Preferably, the plant cultivation control module, when receiving a request for optimal plant cultivation information for each type of plant selected by the user according to the user's specific input signal output from the user input module, the plant cultivation By reading the optimal growth environment information about the external growth environment factors by cultivation period, date, and time of each plant type stored in advance in the information storage module, an optimally combined plant cultivation code block is generated, By compiling in a predefined format according to the generated and combined optimal plant cultivation code block, it is possible to generate an optimal plant cultivation content file for the cultivation of each corresponding plant.

Preferably, the plant cultivation control module, the user through a graphical user interface (GUI) in accordance with the specific input signal of the user output from the user input module, the modification of the optimal plant cultivation code block generated and combined, Provides a service to perform at least one editing operation of addition and deletion, and compiles it into a predefined format according to the edited user-customized optimal plant cultivation code block for the cultivation of each plant You can create and update customized optimal plant cultivation content files.

Preferably, according to the control of the plant cultivation control module, a communication module for transmitting an optimal plant cultivation content file for cultivation of each corresponding plant through wired or wireless communication may be further included.

Preferably, the plant cultivation control module can control the operation of the communication module so that the optimal plant cultivation content file for cultivation of each corresponding plant is transmitted by wire or wirelessly to a remote plant cultivation management server through a communication network.

Preferably, the plant cultivation control module, when receiving a request for optimal plant cultivation information for each type of plant selected by the user according to the user's specific input signal output from the user input module, separate communication From the remote plant cultivation management server through the module, information on optimal growth environment conditions for external growth environment factors by cultivation period, date, and time according to the growth or harvest period of each plant for each type of plant is retrieved. Based on the information on optimal growth environment conditions for external growth environment factors by cultivation period, date, and time for each type of plant, an optimally combined plant cultivation code block is generated, and the generated optimal By compiling in a predefined format according to the combined plant cultivation code block of

Preferably, the user terminal device may be composed of at least one mobile communication terminal of a smart phone, a smart pad, or a smart note.

Preferably, the smart plant cultivation device is a device operated based on an open source hardware platform for cultivation of each plant, and a user-customized plant cultivation for cultivation of each plant from the user terminal device through a short-distance wireless communication method Receives the plant cultivation content file for the project and analyzes it. According to the control command information included in the execution logic of the plant cultivation content file for the user-customized plant cultivation project, The operation of at least one of the preloaded temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) concentration control module, and lighting control module is controlled so that environmental resources are distributed. can be controlled

Preferably, the smart plant cultivation device is a device having a movable body so that each plant can be grown in any place, and is a device having a main body, Bluetooth (Bluetooth), ZigBee (ZigBee), Beacon (Beacon), RFID (Radio) Data communication may be performed with the user terminal device using at least one short-range wireless communication method of Frequency Identification), Ultra Wideband (UWB), or Infrared (IR) communication.

Preferably, the smart plant cultivation device is a device operated based on an open source hardware platform for cultivation of each plant, and a user-customized plant cultivation for cultivation of each plant from the user terminal device through a short-distance wireless communication method Receive the plant cultivation content file or the optimal plant cultivation content file for the project, analyze it, and include it in the execution logic of the plant cultivation content file or the optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant Pre-loaded temperature control module, humidity control module, irrigation control module, nutrient control module, wind control so that environmental resources of growth environment factors for user customization or optimal cultivation for each plant are distributed according to the control command information. The operation of at least one control module among the module, the carbon dioxide (CO2) concentration control module, and the lighting control module may be controlled.

Preferably, the smart plant cultivation device includes a light quantity measuring sensor for measuring the amount of light supplied to each plant, a soil humidity measuring sensor for measuring the humidity of the soil supplied to each plant, and ambient air temperature of each plant. An air temperature measuring sensor for measuring the air humidity measuring sensor for measuring the ambient air humidity of each plant, a carbon dioxide measuring sensor for measuring the concentration of carbon dioxide (CO ₂ ) in the surrounding air of each plant, and each plant It may include at least one measuring sensor among the remaining amount of the water tank check measuring sensor for measuring the remaining amount of water in the water tank for storing the water supplied to the.

Preferably, the smart plant cultivation device receives a plant cultivation content file or an optimal plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant from the user terminal device and analyzes it, The growth environment condition input value for each growth environment element according to the control command information included in the execution logic of the plant cultivation content file or the optimal plant cultivation content file for the user-customized plant cultivation project for cultivation and measured from each measurement sensor Temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) concentration control module preloaded to converge to the input value of the growth environment condition for each growth environment element compared with the sensing value , and it is possible to control the operation of the at least one control module of the lighting control module.

Preferably, the smart plant cultivation device, the control command according to the control command included in the execution logic of the plant cultivation content file or the optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant through the communication network At least one of the performance result information and the sensing value information measured from each measurement sensor may be periodically or in real time transmitted to the user terminal device or a remote plant cultivation management server by wire or wirelessly.

Preferably, the smart plant cultivation apparatus may further include a camera module for acquiring an image or a video for the growth/growth state of each plant.

Preferably, the smart plant cultivation device is wired to the user terminal device or a remote plant cultivation management server periodically or in real time for images or videos about the growth/growth state of each plant obtained from the camera module through a communication network. Or it can be transmitted wirelessly.

Preferably, the user terminal device receives the image or video about the growth/growth state of each plant transmitted from the smart plant cultivation device through a pre-loaded plant cultivation related application service periodically or in real time, so that the user The growth/growth information of each plant may be displayed on the display screen so that the information can be visually viewed.

Preferably, it is connected to the user terminal device or the smart plant cultivation device through a communication network, and a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant generated from the user terminal device through the communication network, or Unique identification information for each user terminal device or smart plant cultivation device for cultivating each plant based on receiving the preset user terminal device unique identification information or smart plant cultivation device unique identification information together with the optimal plant cultivation content file Plants that register plant cultivation contents file information or optimal plant cultivation contents file information for user-customized plant cultivation projects for the cultivation of each plant together with It may further include a cultivation management server.

Preferably, the plant cultivation management server receives information data related to the growth/growth state of each plant from the smart plant cultivation device through the communication network, and based on this, the cultivation process and cultivation result information of each plant is provided to social media. A service may be provided to be shared on a network (Social Network).

Preferably, the plant cultivation management server receives information data related to the growth/growth state of each plant from the smart plant cultivation device through the communication network, and based on this, unique identification for each user terminal device or smart plant cultivation device Plant cultivation contents file information or optimal plant cultivation contents file information for a user-customized plant cultivation project for the cultivation of each corresponding plant together with information, information on the cultivation process and cultivation result of each corresponding plant, or corresponding to each type of each plant Provides a service to store and manage information on optimal growth environment conditions for external growth environmental factors by cultivation period, date, and time according to the growth period or harvest period of each plant into a database (DB) and store and manage in the storage device can do.

Preferably, the plant cultivation management server may provide a cloud computing service in response to a request from an external client terminal.

Preferably, the client terminal uses the client member login cloud web service of the plant cultivation management server, along with unique identification information for each user terminal device or smart plant cultivation device stored in the plant cultivation management server of each plant. Plant cultivation contents file information for user-customized plant cultivation projects for cultivation, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or growth period or harvest of each plant for each type of plant It is possible to search and display at least one piece of information among the optimal growth environment condition information for the external growth environment factors for each cultivation period, each date, and each time period in real time on the display screen.

Preferably, the plant cultivation management server, along with unique identification information for each user terminal device or for each smart plant cultivation device, plant cultivation content file information for the user-customized plant cultivation project for the cultivation of each corresponding plant, optimal plant cultivation contents Optimal information on external growth environment factors by growing period, date, and time according to file information, the cultivation process and cultivation result information of each plant, or the growth period or harvest period of each plant for each plant type When storing at least one of the growth environment condition information into a database (DB), using a symmetric or asymmetric encryption method, the user for cultivation of each plant together with unique identification information for each user terminal device or each smart plant cultivation device Plant cultivation contents file information for a customized plant cultivation project, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or cultivation according to the growth or harvest period of each plant for each type of plant It is possible to provide a service such that a decryption key capable of decrypting at least one of information on optimal growth environment conditions for external growth environment elements for each period, date, and time period is transmitted to the client terminal.

Preferably, the client terminal is encrypted and stored in the plant cultivation management server by using the decryption key transmitted from the plant cultivation management server together with the client member login information, and is stored by each user terminal device or smart plant cultivation device unique identification information together with plant cultivation contents file information for user-customized plant cultivation projects for the cultivation of each plant, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or each corresponding plant type for each plant type It is possible to decode at least one of the optimal growth environment information on the external growth environment factors by cultivation period, date, and time according to the growth period or harvest period of plants, and search and display it on the display screen in real time. have.

Preferably, the plant cultivation management server, plant cultivation content file information for a user-customized plant cultivation project for the cultivation of each plant together with unique identification information for each user terminal device or for each smart plant cultivation device through the client terminal, Optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or external growth environment by cultivation period, date, and time according to the growth or harvest period of each plant for each type of plant A cloud web service may be provided so that at least one piece of information among the optimal growth environment condition information for the element can be downloaded.

Preferably, the client terminal is, through the plant cultivation-related cloud application downloaded from the plant cultivation management server, each user terminal device or smart plant cultivation device unique identification information stored in the plant cultivation management server Cultivation of each plant Plant cultivation content file information, optimal plant cultivation content file information, information on the cultivation process and cultivation result of each plant, or the growth period or harvest time of each plant for each plant type At least one of information on optimal growth environment conditions for external growth environmental factors for each cultivation period, date, and time according to the present invention may be searched in real time and displayed on the display screen.

According to the user-customized smart plant cultivation control and management system using the block coding method of the present invention as described above, even in a situation in which it is difficult to control the growth environment suitable for plant cultivation, a growth environment suitable for plant cultivation can be easily created by the block coding method. By effectively controlling the plant growth environment according to the information necessary for the growth of crops, non-specialists or ordinary people can easily grow various plants, and even in a home that lacks growing space, It has the advantage of being able to grow good quality crops in time.

1 is an overall block diagram for explaining a user-customized smart plant cultivation control and management system using a block coding method according to an embodiment of the present invention.
2 is a detailed block diagram illustrating a user terminal device applied to an embodiment of the present invention.
3 is an exemplary view of an actual screen for explaining a process in which coding blocks are combined with each other through a user terminal device applied to an embodiment of the present invention.
4 is a detailed block diagram for explaining a smart plant cultivation apparatus applied to an embodiment of the present invention.
5 is a view showing an actual appearance of a smart plant cultivation apparatus applied to an embodiment of the present invention as an example.

The above-described objects, features and advantages will be described below in detail with reference to the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted.

Terms including ordinal numbers such as first, second, etc. may be used to describe various elements, but the elements are not limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

The terms used in the present invention have been selected as currently widely used general terms as possible while considering the functions in the present invention, but these may vary depending on the intention or precedent of a person skilled in the art, the emergence of new technology, and the like. In addition, in a specific case, there is a term arbitrarily selected by the applicant, and in this case, the meaning will be described in detail in the description of the corresponding invention. Therefore, the term used in the present invention should be defined based on the meaning of the term and the overall content of the present invention, rather than the name of a simple term.

In the entire specification, when a part "includes" a certain component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation, which may be implemented as hardware or software, or a combination of hardware and software. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the embodiments of the present invention illustrated below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below. The embodiments of the present invention are provided to more completely explain the present invention to those of ordinary skill in the art.

Each block in the accompanying block diagram and combinations of steps in the flowchart may be executed by computer program instructions (execution engine), which computer program instructions may be executed by a processor of a general-purpose computer, special-purpose computer, or other programmable data processing equipment. It may be mounted so that its instructions, which are executed by the processor of a computer or other programmable data processing equipment, create means for performing the functions described in each block of the block diagram or in each step of the flowchart. These computer program instructions may also be stored in a computer-usable or computer-readable memory, which may direct a computer or other programmable data processing equipment to implement a function in a particular manner, the computer-usable or computer-readable memory. It is also possible for the instructions stored in the block diagram to produce an article of manufacture containing instruction means for performing a function described in each block of the block diagram or each step of the flowchart.

And, since the computer program instructions may be mounted on a computer or other programmable data processing equipment, a series of operating steps are performed on the computer or other programmable data processing equipment to create a computer-executed process to create a computer or other program It is also possible that instructions for performing the possible data processing equipment provide steps for carrying out the functions described in each block of the block diagram and each step of the flowchart.

Additionally, each block or step may represent a module, segment, or portion of code comprising one or more executable instructions for executing specified logical functions, and in some alternative embodiments the blocks or steps referred to in the block or step. It should be noted that it is also possible for functions to occur out of sequence. For example, it is possible that two blocks or steps shown one after another may be performed substantially simultaneously, and also the blocks or steps may be performed in the reverse order of the corresponding functions, if necessary.

1 is an overall block diagram for explaining a user-customized smart plant cultivation control and management system using a block coding method according to an embodiment of the present invention, and FIG. 2 is a user terminal device applied to an embodiment of the present invention. It is a detailed block configuration diagram for explanation, and FIG. 3 is an exemplary screen view for explaining a process in which coding blocks are combined with each other through a user terminal device applied to an embodiment of the present invention, and FIG. 4 is an embodiment of the present invention. It is a detailed block diagram for explaining the smart plant cultivation apparatus applied to the example, and FIG. 5 is a view showing the actual appearance of the smart plant cultivation apparatus applied to an embodiment of the present invention as an example.

1 to 5, the user-customized smart plant cultivation control and management system using a block coding method according to an embodiment of the present invention is largely composed of a user terminal device 100, a smart plant cultivation device 200, and the like. consists of including. In addition, the user-customized smart plant cultivation control and management system using the block coding method according to an embodiment of the present invention may further include a plant cultivation management server 300 , a client terminal 20 , and the like. On the other hand, since the components shown in FIGS. 1 to 5 are not essential, the user-customized smart plant cultivation control and management system using the block coding method according to an embodiment of the present invention has more components or fewer than that. It may have components.

Hereinafter, the components of the user-customized smart plant cultivation control and management system using the block coding method according to an embodiment of the present invention will be described in detail as follows.

The user terminal device 100 includes a plurality of coding blocks for coding at least one plant cultivation growth environment element and a corresponding growth environment condition to grow at least one plant 1 selected by the user. It performs the function of providing services to be combined with each other.

In addition, the user terminal device 100 compiles in a predefined format according to the code block combined by the user, and plant cultivation content for the user-customized plant cultivation project for the cultivation of each corresponding plant (1) It performs the function of creating a file.

In addition, the user terminal device 100 transmits from the smart plant cultivation device 200 through the pre-loaded plant cultivation related application service images and/or videos about the growth and/or growth state of each plant (1). It may be provided periodically and/or in real time to perform a function of displaying on the display screen so that the user can visually see the growth and/or growth information of each corresponding plant 1 .

This user terminal device 100, as shown in FIG. 2, is largely a user input module 110, a plant cultivation growth environment element coding block module 120, a plant cultivation growth environment condition coding block module 130, a display A module 140, a plant cultivation control module 150, and a power supply module 160 and the like are included. In addition, the user terminal device 100 applied to an embodiment of the present invention may further include a user-customized plant cultivation storage module 170 , a plant cultivation information storage module 180 , a communication module 190 , and the like. Meanwhile, since the components shown in FIG. 2 are not essential, the user terminal device 100 applied to an embodiment of the present invention may have more components or fewer components.

Here, the user input module 110 is a module that includes at least one key button to output a specific input signal of the user according to the user's request, and includes a plurality of character keys, number keys, and various function keys. Thus, a function of outputting a key input signal corresponding to a key input by the user to the plant cultivation control module 150 is performed.

The user input module 110 is preferably implemented as a plurality of key buttons or a touch screen, but is not limited thereto, and may include, for example, a keyboard, a mouse, and the like.

The plant cultivation and growth environment element coding block module 120 includes at least one plant cultivation and growth environment element code block that generates control command information corresponding to an external growth environment element for cultivating each corresponding plant (1). can

In addition, each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module 120 is, for example, at least one of light, temperature, humidity, lighting, water, nutrients, carbon dioxide (CO ₂ ) concentration, and/or wind. It is preferable to consist of one unit code block.

The plant cultivation growth environment condition coding block module 130 may include at least one plant cultivation growth environment condition code block that generates control command information corresponding to the growth environment conditions for cultivating each corresponding plant (1). .

In addition, each plant cultivation and growth environmental condition code block of the plant cultivation and growth environmental condition coding block module 130 is, for example, by cultivation period, by date, and/or according to the growth period and/or harvest time of each plant (1). It is preferable that it consists of at least one unit code block for selecting and/or inputting a growth environment condition variable for an external growth environment element for each time period.

The display module 140 includes each plant cultivation and growth environment element code block and / or plant cultivation growth environment condition coding block module of the plant cultivation and growth environment element coding block module 120, including the type of each plant (1). It performs a function of displaying on the display screen an area for the user to combine a plurality of code blocks according to the plant cultivation project of each plant (1) together with each plant cultivation growth environment condition code block of

The display module 140 includes, for example, a liquid crystal display (LCD), a light emitting diode display (LED), a thin film transistor liquid crystal display (TFT LCD), and an organic light emitting diode. (Organic Light Emitting Diode, OLED), Flexible Display, Plasma Display Panel (PDP), Surface Alternate Lighting (ALiS), Digital Light Emitting Diode (DLP), Silicon Liquid Crystal (LCoS), Surface Conduction Electron Emitting Device Display (SED), Field Emission Display (FED), Laser TV (Quantum Dot Laser, Liquid Crystal Laser), Optoelectric Liquid Display (FLD), Interferometric Modulator Display (iMoD), Thick Film Dielectric Electric (TDEL), It may include, but is not limited to, at least one of a quantum dot display (QD-LED), a telescopic pixel display (TPD), an organic light emitting transistor (OLET), a laser fluorescence display (LPD), and a three-dimensional display (3D display). Any data that can display at least one of external image, text, or document data or information related to plant cultivation can be included.

The plant cultivation control module 150 performs overall control of the user terminal device 100 applied to an embodiment of the present invention, in particular, according to the user's specific input signal output from the user input module 110, the corresponding user In order to cultivate each corresponding plant (1) selected by each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module 120 and / or each of the plant cultivation growth environment condition coding block module 130 It performs a function of controlling the operation of the display module 140 so that the code blocks of the plant cultivation and growth environment conditions are displayed on the display screen by moving and/or positioning them in a predetermined specific area to be combined with each other.

In addition, the plant cultivation control module 150 compiles in a predefined format according to the code block combined by the user, and the plant cultivation content file for the user-customized plant cultivation project for the cultivation of each corresponding plant (1). function to create.

In addition, the plant cultivation control module 150 through a graphical user interface (Graphical User Interface, GUI) according to the specific input signal of the user outputted from the user input module 110, the user corrects the combined code block, It may perform a function of providing a service to perform at least one editing operation of addition and/or deletion.

In addition, the plant cultivation control module 150 compiles in a predefined format according to the edited code block to generate a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each corresponding plant (1) and An update function can be performed.

In addition, the plant cultivation control module 150 receives a request for optimal plant cultivation information for the type of each plant 1 selected by the user according to the user's specific input signal output from the user input module 110. In this case, by reading the optimal growth environment condition information for the external growth environment factors for each cultivation period, date, and/or time period for the type of each plant 1 stored in advance in the plant cultivation information storage module 180, An optimal plant cultivation code block is generated, and the optimal plant cultivation content file for the cultivation of each plant (1) is compiled by compiling it in a predefined format according to the generated and combined optimal plant cultivation code block. The function to create can be performed.

In addition, the plant cultivation control module 150 allows the user through a graphical user interface (GUI) according to the user's specific input signal output from the user input module 110 to determine the optimal plant cultivation code block generated and combined. A function of providing a service may be performed so that at least one of editing, addition, and/or deletion may be performed.

In addition, the plant cultivation control module 150 compiles in a predefined format according to the edited user-customized optimal plant cultivation code block, and the user-customized optimal plant cultivation content file for the cultivation of each plant (1). Create and update functions.

In addition, when the plant cultivation control module 150 receives a request for optimal plant cultivation information for the type of each plant selected by the user according to the user's specific input signal output from the user input module 110, separately From the remote plant cultivation management server 300 through the communication module 190 of / or receive optimal growth environmental condition information on external growth environmental factors for each time period, and optimal growth conditions for external growth environmental factors for each type of plant (1) by cultivation period, date, and/or time zone For the cultivation of each plant (1) by generating an optimally combined plant cultivation code block based on growth environment condition information, and compiling it in a predefined format according to the generated optimal combined plant cultivation code block It can perform the function of creating an optimal plant cultivation content file.

In addition, the plant cultivation control module 150 transmits the plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant 1 through the communication network 10 to the remote plant cultivation management server 300 by wire and / or may perform a function of controlling the operation of the communication module 190 to be transmitted wirelessly.

In addition, the plant cultivation control module 150 transmits the optimal plant cultivation content file for the cultivation of each plant 1 to the remote plant cultivation management server 300 through the communication network 10 by wire and/or wireless transmission. A function of controlling the operation of the communication module 190 may be performed.

On the other hand, the communication network 10 is a communication network that is a high-speed backbone network of a large-scale communication network capable of large-capacity, long-distance voice and data services, and includes Wi-Fi, WiGig, It may be a next-generation wireless communication network including WiBro (Wireless Broadband Internet, Wibro), Wimax (World Interoperability for Microwave Access, Wimax), and the like.

The Internet includes the TCP/IP protocol and various services existing in its upper layers, namely HTTP (Hyper Text Transfer Protocol), Telnet, FTP (File Transfer Protocol), DNS (Domain Name System), SMTP (Simple Mail Transfer Protocol), It means a worldwide open computer network structure that provides SNMP (Simple Network Management Protocol), NFS (Network File Service), NIS (Network Information Service), etc., and the user terminal device 100 is a smart plant cultivation device 200 and / or provides an environment that allows access to the plant cultivation management server (300). Meanwhile, the Internet may be a wired or wireless Internet, or may be a core network integrated with a wired public network, a wireless mobile communication network, or a portable Internet.

If the communication network 10 is a mobile communication network, it may be a synchronous mobile communication network or an asynchronous mobile communication network. As an example of the asynchronous mobile communication network, a wideband code division multiple access (WCDMA) type communication network may be used. In this case, although not shown in the drawings, the mobile communication network may include, for example, a Radio Network Controller (RNC). Meanwhile, although the WCDMA network is taken as an example, it may be a next-generation communication network such as a cellular-based 3G network, an LTE network, a 4G network, a 5G network, or other IP-based IP networks. The communication network 10 serves to mutually transmit signals and data between the user terminal device 100 and the smart plant cultivation device 200 and/or the plant cultivation management server 300 .

Various embodiments described herein may be implemented in a computer-readable recording medium using, for example, software, hardware, or a combination thereof.

According to the hardware implementation, the embodiments described herein include application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs). , processors, controllers, micro-controllers, microprocessors, and may be implemented using at least one of an electrical unit for performing a function. In some cases, such embodiments may be implemented by the plant cultivation control module 150 .

According to the software implementation, embodiments such as a procedure or function may be implemented together with a separate software module for performing at least one function or operation. The software code may be implemented by a software application written in a suitable programming language. In addition, the software code may be stored in a separate storage module or user-customized plant cultivation storage module 170 , plant cultivation information storage module 180 , and the like, and executed by the plant cultivation control module 150 .

And, the power supply module 160 is each of the above-described modules, that is, the user input module 110, the plant cultivation and growth environment element coding block module 120, the plant cultivation growth environment condition coding block module 130, the display module ( 140), a plant cultivation control module 150, a user-customized plant cultivation storage module 170, a plant cultivation information storage module 180, and/or a communication module 190, etc. performing a function of supplying power required, It is preferable to implement including a conventional portable battery (Battery), but is not limited thereto, and commercial alternating current (AC) power (eg, AC 220V) is converted to direct current (DC) and/or alternating current (AC) for continuous power supply. ) can also be implemented to be converted to power.

In addition, the power supply module 160 may include a power management unit (not shown) that protects components from external power shock and outputs a constant voltage. The power management unit may include an ESD (Electro Static Damage) protector, a power detector, a rectifier, and a power breaker.

Here, the ESD protector is configured to protect electronic components from static electricity or sudden power shock. The power detector is configured to send a cutoff signal to the power breaker when a voltage outside the allowable voltage range is introduced, and to transmit a step-up or step-down signal to the rectifier according to a voltage change within the allowable voltage range. The rectifier is configured to perform a step-up or step-down rectification operation according to the signal of the power sensor so that a constant voltage is supplied by minimizing the fluctuation of the input voltage. The power breaker is configured to cut off the power supplied from the battery according to the cutoff signal transmitted from the power detector.

Additionally, the user-customized plant cultivation storage module 170 is a user-customized plant cultivation project for the cultivation of each plant (1) generated above for each type of each plant (1) under the control of the plant cultivation control module 150 It performs the function of storing and managing the plant cultivation contents file information for the database (DB).

Furthermore, the plant cultivation information storage module 180 is configured according to the type of each plant 1 according to the control of the plant cultivation control module 150, the growth period and/or the harvest period of each plant 1 according to the cultivation period, It performs a function of storing and managing information on optimal growth environment conditions for external growth environment factors by date and/or time period into a database (DB).

The user-customized plant cultivation storage module 170 and the plant cultivation information storage module 180 are, for example, a flash memory type, a hard disk type, and a multimedia card micro type. , Card type memory (such as SD or XD memory), RAM (Random Access Memory, RAM), SRAM (Static Random Access Memory), ROM (Read-Only Memory, ROM), EEPROM (Electrically Erasable Programmable Read- Only memory), a programmable read-only memory (PROM), a magnetic memory, a magnetic disk, and an optical disk may include at least one type of storage medium.

And, the communication module 190 transmits the plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant 1 according to the control of the plant cultivation control module 150 through wired and/or wireless communication. perform the function

In addition, the communication module 190 may perform a function of transmitting the optimal plant cultivation content file for the cultivation of each corresponding plant 1 through wired and/or wireless communication according to the control of the plant cultivation control module 150. have.

The user terminal device 100 applied to the embodiment of the present invention configured as described above is a smart phone, a smart pad, or a smart note that communicates through the wireless Internet or the portable Internet. It is preferable that it consists of at least one mobile terminal device among It can mean all wired and wireless home appliances/communication devices having a user interface for accessing the communication network 10 and/or the smart plant cultivation device 200, the plant cultivation management server 300, etc., such as an iPad.

If the user terminal device 100 is made of a smart phone, the smart phone, unlike a general mobile phone (aka feature phone), downloads various application programs desired by the user, freely uses and deletes it. As a phone based on an open operating system that can be opened, all mobile phones with mobile office functions, as well as commonly used voice/video calls and Internet data communication functions, or any Internet access capable of Internet access. It is preferable to understand it as a communication device including a phone or a tablet PC (Tablet PC).

Such a smart phone may be implemented as a smart phone equipped with various open operating systems, and the open operating systems include, for example, Symbian of Nokia, BlackBerry of RIMS, iPhone of Apple, iPhone of Microsoft Corporation. (MS) Windows Mobile, Google's Android, Samsung Electronics' sea, etc. can be made.

As described above, since a smartphone uses an open operating system, a user can install and manage various application programs arbitrarily, unlike a mobile phone having a closed operating system.

And, the smart plant cultivation device 200 is a plant cultivation content file and / or optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant (1) generated from the user terminal device 100. It is provided and analyzed for user-customized cultivation and/or optimal cultivation for each plant (1) according to the execution logic of the plant cultivation content file and/or the optimal plant cultivation content file for the user-customized plant cultivation project. Temperature control module 220, humidity control module 221, irrigation control module 222, nutrient control module 223, The wind control module 224 , the carbon dioxide concentration control module 225 , and/or the lighting control module 226 performs a function of controlling the operation of at least one control module.

That is, the smart plant cultivation device 200 is a device operated based on an open source hardware platform for cultivation of each plant (1), and each plant (1) from the user terminal device 100 through a short-range wireless communication method. Receives a plant cultivation content file and/or an optimal plant cultivation content file for a user-customized plant cultivation project for the cultivation of , and analyzes it. Control module ( 260), the temperature control module 220, the humidity control module 221, the irrigation control module 222, the nutrient control module 223, the wind control module 224, the carbon dioxide concentration control module 225 preloaded according to the control ), and/or it is possible to control the operation of at least one control module of the lighting control module (226).

In addition, the smart plant cultivation device 200 is a device operated based on an open source hardware platform for the cultivation of each plant (1), and each plant (1) from the user terminal device 100 through a short-range wireless communication method. It can perform the function of receiving a plant cultivation content file for a user-customized plant cultivation project for the cultivation of

That is, the smart plant cultivation device 200 is a device having a main body 210 in a movable form so that each plant 1 can be grown in any place, for example, Bluetooth (Bluetooth), ZigBee (ZigBee), Data communication with the user terminal device 100 can be performed using at least one short-range wireless communication method of beacon, radio frequency identification (RFID), ultra wideband (UWB), and/or infrared (IR) communication. have.

In addition, the smart plant cultivation device 200 includes a light quantity measurement sensor 230 for measuring the amount of light supplied to each plant 1, and soil humidity measurement for measuring the humidity of the soil supplied to each plant 1 Sensor 231, air temperature measuring sensor 232 for measuring the ambient air temperature of each plant 1, air humidity measuring sensor 233 for measuring the ambient air humidity of each plant 1, corresponding A carbon dioxide measurement sensor 234 for measuring the concentration of carbon dioxide (CO ₂ ) in the surrounding air of each plant (1), and/or measuring the remaining amount of water in a water tank storing water supplied to each plant (1) It may be configured to include at least one measuring sensor of the water tank residual amount check measuring sensor 235 for the.

In addition, the smart plant cultivation device 200 is provided with a plant cultivation content file and/or an optimal plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant (1) from the user terminal device 100. By analyzing this, each growth environment element according to the control command information included in the execution logic of the plant cultivation content file and/or the optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant (1). The temperature preloaded under the control of the control module 260 to converge on the growth environment condition input value for each growth environment element by comparing the growth environmental condition input value and the sensing value measured from each measurement sensor 230 to 235 Control module 220, humidity control module 221, irrigation control module 222, nutrient control module 223, wind control module 224, carbon dioxide concentration control module 225, and/or lighting control module 226 ) may perform a function of controlling the operation of at least one control module.

In addition, the smart plant cultivation device 200 is a user-customized plant cultivation project for the cultivation of each plant 1 through a separate communication module 240 and a communication network 10 according to the control of the control module 260. At least one of the control command execution result information according to the control command included in the execution logic of the plant cultivation contents file and/or the optimal plant cultivation contents file, and/or sensing value information measured from each measurement sensor (230 to 235) It is possible to perform a function of wire and/or wireless transmission to the user terminal device 100 and/or the remote plant cultivation management server 300 periodically and/or in real time.

In addition, the smart plant cultivation apparatus 200 may further include a camera module 250 for acquiring an image and/or a video about the growth and/or growth state of each plant 1 .

Although not shown in the drawing, the camera module 250 typically includes an image sensor, an image signal processor (ISP), and a back-end chip (Back_End Chip). include

The image sensor outputs an imaging signal formed by light incident from a lens as raw Bayer RGB format data. The image signal processor (ISP) converts the Bayer RGB format data into RGB format data, and converts it into YUV format data required for outputting a display screen and outputs the converted data.

The back-end chip is responsible for controlling the camera module, which includes outputting a photographed image through a display screen by processing the YUV format data output from the image signal processor (ISP). A modem (Mobile Switching Modem, MSM) or a digital signal processor (DSP) may be used.

That is, when shooting using the camera module 250, the image sensor transmits the unprocessed Bayer RGB format data according to the imaging signal formed by the light incident from the lens using IIC (Inter Integrated Circuit) communication. output, and the image signal processor (ISP) receiving it converts it into actual RGB format data, and converts this RGB format data into YUV format data required for display screen output, that is, required by the back-end chip for image processing. , and output it using IIC (Inter Integrated Circuit) communication. Then, the back-end chip processes the received YUV format data and outputs the photographed image through the display screen.

On the other hand, the above-described camera module 250 is preferably implemented as a conventional video camera (Video Camera) capable of shooting a continuous moving image or a solid-state image pickup device (Charge Coupled Device, CCD) camera for detecting a two-dimensional image, It is not limited thereto, and may be implemented as a USB (Universal Serial Bus) camera, which is currently most commonly used as a type of PC camera, an infrared (IR) camera that can take pictures in a dark place, etc. It can also be implemented with other types of cameras that can record video.

At this time, the solid-state imaging device (CCD) camera is composed of an optical unit, a solid-state imaging device (CCD), and a driving unit driving the same, and acquires bitmap data input to the solid-state imaging device (CCD) through the optical unit. The bitmap data may include both image data of a still image and video data.

In addition, the USB camera is basically composed of a camera, an interface unit, a USB host, and the like, and a plurality of endpoints are formed between the camera and the interface unit, one of which is a snapshot-only endpoint. and the other is used as an endpoint dedicated to images.

The camera processes the input image as digital data and outputs it to the interface unit, the interface unit converts digital data input through an endpoint to conform to the USB standard specification and transmits it to the USB host, and the USB host transmits the digital data It functions to display data on one's own monitor or transmit it to the other party's USB host for video communication.

In addition, the smart plant cultivation device 200 is a separate communication module 240 and a communication network 10 according to the control of the control module 260 to the growth of each plant (1) obtained from the camera module 250 and / Or it can perform a function of transmitting the image and / or video for the growth state periodically and / or in real time to the user terminal device 100 and / or the remote plant cultivation management server 300 by wire and / or wirelessly .

In addition, the smart plant cultivation apparatus 200 is provided with a power supply module 270, the power supply module 270 is each of the above-described modules, that is, the temperature control module 220, the humidity control module 221, irrigation Control module 222, nutrient control module 223, wind control module 224, carbon dioxide concentration control module 225, lighting control module 226, light quantity measurement sensor 230, soil humidity measurement sensor 231, Air temperature measuring sensor 232, air humidity measuring sensor 233, carbon dioxide measuring sensor 234, water tank remaining amount check measuring sensor 235, communication module 240, camera module 250, and/or control module It performs a function of supplying power required to the 260, etc., but is preferably implemented including a conventional portable battery, but is not limited thereto, and commercial alternating current (AC) power (eg, for continuous power supply) , AC 220V) may be implemented to be converted into direct current (DC) and/or alternating current (AC) power.

In addition, the power supply module 270 may include a power management unit (not shown) that protects components from external power shock and outputs a constant voltage. The power management unit may include an ESD (Electro Static Damage) protector, a power detector, a rectifier, and a power breaker.

Additionally, the plant cultivation management server 300 is connected to the user terminal device 100, the smart plant cultivation device 200, and/or the client terminal 20 through the communication network 10, and through the communication network 10 The user terminal device unique identification information set together with the plant cultivation content file and/or the optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant (1) generated from the user terminal device 100, and / or the cultivation of each plant (1) together with unique identification information for each user terminal device and/or for each smart plant cultivation device for cultivating each plant (1) based on the received smart plant cultivation device unique identification information Registers plant cultivation contents file information and/or optimal plant cultivation contents file information for a user-customized plant cultivation project for do.

In this case, the preset user terminal device unique identification information includes the name of the user terminal device, the password of the user terminal device, the serial number of the user terminal device, the type of the user terminal device, the manufacturer of the user terminal device, and the MAC of the user terminal device. (Media Access Control) address, the unique IP (Internet Protocol) address of the user terminal device, the model of the user terminal device and the version of the user terminal device, the user terminal device generated by the private key of the user terminal device or the PKI-based private key It is preferable to include at least one piece of authentication information.

The preset smart plant cultivation device unique identification information is, the name of the smart plant cultivation device, the password of the smart plant cultivation device, the serial number of the smart plant cultivation device, the type of the smart plant cultivation device, the manufacturer of the smart plant cultivation device, the smart MAC (Media Access Control) address of plant cultivation device, unique IP (Internet Protocol) address of smart plant cultivation device, model of smart plant cultivation device and version of smart plant cultivation device, secret key of smart plant cultivation device or PKI-based It is preferable to include at least one of the authentication information of the smart plant cultivation device generated by the private key.

In addition, the plant cultivation management server 300 receives information data related to the growth and/or growth state of each plant 1 from the smart plant cultivation device 200 through the communication network 10, and based on this, each plant It is possible to perform a function of providing a service so that the cultivation process and/or cultivation result information of (1) is shared on a social network.

In addition, the plant cultivation management server 300 receives information data related to the growth and/or growth state of each plant 1 from the smart plant cultivation device 200 through the communication network 10, and based on this, the user terminal device Plant cultivation content file information and/or optimal plant cultivation content file information for the user-customized plant cultivation project for the cultivation of each plant (1), along with unique identification information for each star and/or smart plant cultivation device, each plant of the cultivation process and cultivation result information, and/or external growth by cultivation period, date, and/or time period according to the growth period and/or harvest period of each plant (1) for each type of each plant (1) It is possible to perform a function of providing a service to store and manage at least one information of the optimal growth environment condition information on environmental factors into a database (DB).

In addition, the plant cultivation management server 300 may perform a function of providing a cloud computing service in response to a request of the external client terminal 20 .

That is, the plant cultivation management server 300 is connected through the communication network 10 with a plurality of client terminals 20 possessed by the manager on the network and provides system resources (which are OS, CPU, memory, It is a physical equipment that provides a storage device, etc.), and in a cloud service environment, a plurality of servers are connected to a plurality of client terminals 20 on a network, and in this case, the plant cultivation management server 300 is a plurality of servers The system resources are distributed so that the plurality of client terminals 20 can use the system resources through a guest machine in a virtual space created through, for example, virtualization technology. These matters can be understood as well-known general concepts.

In this case, the cloud service environment refers to Internet-based (cloud) computing technology. This cloud computing (Cloud Computing) expresses the Internet as a cloud in the computer network diagram, has a hidden complex infrastructure structure, and has a computing style in which IT-related functions are provided in the form of services. Users can use services provided by cloud computing by using the Internet.

In addition, the cloud computing is a mixture of various computing concepts and communication technologies, such as virtualized computing, utility computing, and on-demand computing, and is a virtualization technology for a plurality of data centers composed of a plurality of computers. It refers to a technology that implements a single virtual computer or service by integrating with

That is, the cloud computing is an 'on-demand outsourcing service of IT resources through the Internet', in which programs or documents stored individually in a personal computer or a corporate server are stored in an Internet-based virtual server or storage. and by driving a cloud application such as a web browser using various terminals including a personal computer, a user can perform a desired task.

In this case, users can select and use computing resources such as cloud applications, storage, OS, and security as much as they want at a desired time and pay a price based on usage.

That is, the plant cultivation management server 300 is a server that provides a cloud computing service to the external client terminal 20 , and provides the computing resource requested by the external client terminal 20 through the communication network 10 . The plant cultivation management server 300 may provide a computing service for using a device requested by the external client terminal 20 .

Such a plant cultivation management server 300 includes, for example, an application program file, a game program file, a text data file, a document file, a picture file, a music file, a video file, a barcode file, etc. A plurality of storage devices for storing the provided files, that is, storage (Storage) is provided.

In addition, the plant cultivation management server 300 contains unique identification information for each user terminal device and/or each smart plant cultivation device, and plant cultivation content file information for the user-customized plant cultivation project for the cultivation of each corresponding plant (1), Optimal plant cultivation content file information, cultivation process and cultivation result information of each plant (1), and/or according to the growth period and/or harvest time of each plant (1) for each type of each plant (1) When storing at least one information of optimal growth environment condition information on external growth environment factors by cultivation period, date, and/or time period as a database (DB), a user terminal device using a symmetric or asymmetric encryption method Plant cultivation content file information, optimal plant cultivation content file information, and each plant (1) for a user-customized plant cultivation project for the cultivation of each plant (1), along with unique identification information for each star and/or smart plant cultivation device ) of the cultivation process and cultivation result information, and/or for each type of each plant (1), the growth period and/or harvest period of each plant (1) for each cultivation period, date, and/or time zone. It is possible to perform a function of providing a service so that a decryption key capable of decrypting at least one piece of information among the optimal growth environment condition information for the growth environment element is transmitted to the client terminal 20 .

In addition, the plant cultivation management server 300 is a user-customized plant cultivation project for the cultivation of each plant (1) together with unique identification information for each user terminal device and/or each smart plant cultivation device through the client terminal 20 Plant cultivation contents file information for Korea, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant (1), and/or growth period of each plant (1) by type of each plant (1) and/or performing a function of providing a cloud web service so that at least one information of optimal growth environment information on external growth environmental factors for each cultivation period, date, and/or time zone according to the harvest period can be downloaded can do.

And, the client terminal 20 uses the client member login cloud web service of the plant cultivation management server 300, unique identification information for each user terminal device and/or smart plant cultivation device stored in the plant cultivation management server 300 together with plant cultivation content file information for a user-customized plant cultivation project for the cultivation of each plant (1), optimal plant cultivation content file information, cultivation process and cultivation result information of each plant (1), and/or Among the information of optimal growth environment conditions for external growth environmental factors by cultivation period, date, and/or time period according to the growth period and/or harvest period of each plant (1) for each type of each plant (1) At least one piece of information may be searched for and displayed on the display screen in real time.

In addition, the client terminal 20 is encrypted and stored in the plant cultivation management server 300 by using the decryption key transmitted from the plant cultivation management server 300 together with the corresponding client member login information and / or smart plants for each user terminal device. Plant cultivation contents file information, optimal plant cultivation contents file information for the user-customized plant cultivation project for the cultivation of each plant (1), along with unique identification information for each cultivation device, cultivation process and cultivation of each plant (1) Optimal growth for external growth environment factors by cultivation period, date, and/or time period according to the result information, or the growth period and/or harvest period of each plant (1) for each type of each plant (1) It may perform a function of decoding at least one piece of environmental condition information and displaying it on a real-time search and display screen.

In addition, the client terminal 20 includes unique identification information for each user terminal device and/or smart plant cultivation device stored in the plant cultivation management server 300 through a plant cultivation related cloud application downloaded from the plant cultivation management server 300 and Together, plant cultivation content file information, optimal plant cultivation content file information for a user-customized plant cultivation project for the cultivation of each plant (1), information on the cultivation process and cultivation result of each plant (1), and/or the For each type of each plant (1), at least among the information on optimal growth environment conditions for external growth environmental factors by cultivation period, date, and/or time period according to the growth period and/or harvest period of each plant (1) It can perform a function of real-time search and display of one piece of information on the display screen.

The client terminal 20 is at least one of a smartphone (Smart Phone), a smart pad (Smart Pad), or a smart note (Smart Note) that communicates through the wireless Internet or the portable Internet, like the user terminal device 100 described above. It is preferable to consist of a mobile terminal device of iPad), etc., may collectively mean all wired and wireless home appliances/communication devices having a user interface for accessing the communication network 10 and/or the plant cultivation management server 300 .

Although the preferred embodiment of the user-customized smart plant cultivation control and management system using the block coding method according to the present invention has been described above, the present invention is not limited thereto, and the claims and detailed description of the invention and the accompanying drawings It is possible to carry out various modifications within the scope of the invention, and this also belongs to the present invention.

100: user terminal device,
200: smart plant cultivation device,
300: plant cultivation management server

Claims (26)

In order to grow at least one plant selected by the user, a service is provided so that a plurality of coding blocks for coding at least one plant cultivation and growth environment element and the growth environment condition are combined with each other, and by the user A user terminal device for generating a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant by compiling it in a predefined format according to the combined code block; and
Receives the plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant generated from the user terminal device, analyzes it, and according to the execution logic of the plant cultivation content file for the user-customized plant cultivation project, each Preloaded temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) concentration control module, and A user-customized smart plant cultivation control and management system using a block coding method including a smart plant cultivation device for controlling the operation of at least one control module among the lighting control modules.
The method of claim 1,
The user terminal device,
a user input module for outputting a user's specific input signal according to the user's request;
a plant cultivation and growth environment element coding block module including at least one plant cultivation and growth environment element code block for generating control command information corresponding to an external growth environment element for cultivating each corresponding plant;
a plant cultivation and growth environment coding block module including at least one plant cultivation and growth environment code block for generating control command information corresponding to the growth environment conditions for cultivating each corresponding plant;
Each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module, including the type of each plant, and each plant cultivation and growth environment condition code block of the plant cultivation growth environment coding block module, together with the corresponding user a display module for displaying an area for combining a plurality of code blocks according to a plant cultivation project of each plant on a display screen; and
In order to grow each plant selected by the user according to the user's specific input signal output from the user input module, each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module and the plant cultivation Control the operation of the display module so that each plant cultivation and growth environment code block of the coding block module is moved and positioned in a predetermined specific area to be combined with each other to be displayed on the display screen, and the code block combined by the user User-customized smart using a block coding method, characterized in that it includes a plant cultivation control module that compiles into a predefined format according to Plant cultivation control and management system.
3. The method of claim 2,
Each plant cultivation and growth environment element code block of the plant cultivation and growth environment element coding block module is composed of at least one unit code block of light, temperature, humidity, lighting, water, nutrients, carbon dioxide (CO ₂ ) concentration, and wind. A user-customized smart plant cultivation control and management system using a block coding method, characterized in that.
3. The method of claim 2,
Each plant cultivation and growth environment code block of the plant cultivation and growth environmental condition coding block module is a growth environment condition for external growth environment elements by cultivation period, date, and time period according to the growth period or harvest time of each plant. A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it consists of at least one unit code block for selecting and inputting a variable.
3. The method of claim 2,
According to the control of the plant cultivation control module, the plant cultivation content file information for the user-customized plant cultivation project for the cultivation of each plant generated by the type of each plant is converted into a database (DB), stored and managed by a user customized A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it further includes a plant cultivation storage module.
3. The method of claim 2,
The plant cultivation control module, according to the user's specific input signal output from the user input module, the user through a graphical user interface (Graphical User Interface, GUI) during the correction, addition, and deletion of the combined code block It provides a service to perform at least one editing operation, and compiles it in a predefined format according to the edited code block to create a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant. A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it is created and updated.
3. The method of claim 2,
A communication module for transmitting a plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant according to the control of the plant cultivation control module through wired or wireless communication is further included,
The plant cultivation control module controls the operation of the communication module so that the plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant is transmitted by wire or wirelessly to a remote plant cultivation management server through a communication network. User-customized smart plant cultivation control and management system using block coding method.
3. The method of claim 2,
For each type of plant, the optimal growth environment information on external growth environment factors by growing period, date, and time according to the growth or harvest period of each plant is stored and managed in a database (DB). A plant cultivation information storage module is further included,
When the plant cultivation control module receives a request for optimal plant cultivation information for each type of plant selected by the user according to the user's specific input signal output from the user input module, the plant cultivation information storage module By reading the optimal growth environment condition information for the external growth environment factors by cultivation period, date, and time of each plant type stored in advance in the User-customized smart plant cultivation control and management system.
9. The method of claim 8,
The plant cultivation control module, the user through a graphical user interface (GUI) in accordance with the specific input signal of the user output from the user input module, correction, addition, and It provides a service to perform at least one editing operation during deletion, and compiles it into a predefined format according to the edited user-customized optimal plant cultivation code block to optimize the user-customized optimal solution for the cultivation of each plant. A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it creates and updates a plant cultivation content file.
9. The method of claim 8,
A communication module for transmitting the optimal plant cultivation content file for the cultivation of each plant according to the control of the plant cultivation control module through wired or wireless communication is further included,
Block coding, characterized in that the plant cultivation control module controls the operation of the communication module so that the optimal plant cultivation content file for the cultivation of each plant is transmitted by wire or wirelessly to a remote plant cultivation management server through a communication network. User-customized smart plant cultivation control and management system using method.
3. The method of claim 2,
When the plant cultivation control module receives a request for optimal plant cultivation information for each type of plant selected by the user according to the user's specific input signal output from the user input module, through a separate communication module Optimal growth environment condition information on external growth environmental factors by cultivation period, date, and time according to the growth or harvest period of each plant is provided from the remote plant cultivation management server An optimally combined plant cultivation code block is generated based on optimal growth environment condition information for external growth environmental factors by cultivation period, date, and time zone for each plant type, and the generated optimal combined A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it is compiled in a predefined format according to the plant cultivation code block to create an optimal plant cultivation content file for the cultivation of each plant.
The method of claim 1,
The user terminal device, a smart phone (Smart Phone), a smart pad (Smart Pad), or a smart note (Smart Note) user-customized smart plant cultivation using a block coding method, characterized in that consisting of at least one mobile communication terminal control and management system.
The method of claim 1,
The smart plant cultivation device is a device operated based on an open source hardware platform for the cultivation of each plant, and a user-customized plant cultivation project for the cultivation of each plant from the user terminal device through a short-distance wireless communication method. Environmental resources of growth environment factors for user-customized cultivation for each plant according to the control command information included in the execution logic of the plant cultivation content file for the user-customized plant cultivation project by analyzing it and receiving the plant cultivation content file Controlling the operation of at least one of the pre-mounted temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) concentration control module, and lighting control module to be distributed User-customized smart plant cultivation control and management system using block coding method.
14. The method of claim 13,
The smart plant cultivation device is a device having a movable body so that each plant can be grown in any place, and is a device having a main body, Bluetooth (Bluetooth), ZigBee (ZigBee), Beacon (Beacon), RFID (Radio Frequency Identification) , UWB (Ultra Wideband), or infrared (IR) communication using at least one short-range wireless communication method to perform data communication with the user terminal device, a user-customized smart plant cultivation control using a block coding method, and management system.
The method of claim 1,
The smart plant cultivation device is a device operated based on an open source hardware platform for the cultivation of each plant, and a user-customized plant cultivation project for the cultivation of each plant from the user terminal device through a short-distance wireless communication method. Control commands included in the execution logic of the plant cultivation content file or the optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant by receiving the plant cultivation content file or the optimal plant cultivation content file and analyzing it Preloaded temperature control module, humidity control module, irrigation control module, nutrient control module, wind control module, carbon dioxide (CO2) A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it controls the operation of at least one of the (CO2) concentration control module and the lighting control module.
16. The method of claim 15,
The smart plant cultivation device is a light quantity measuring sensor for measuring the amount of light supplied to each plant, a soil humidity measuring sensor for measuring the humidity of the soil supplied to each plant, and measuring the ambient air temperature of each plant An air temperature measuring sensor for, an air humidity measuring sensor for measuring the humidity of the surrounding air of each plant, a carbon dioxide measuring sensor for measuring the concentration of carbon dioxide (CO ₂ ) in the surrounding air of each plant, and supplying to each plant A water tank remaining amount check measuring sensor for measuring the remaining amount of water in a water tank for storing water, including at least one measuring sensor,
Receives a plant cultivation content file or an optimal plant cultivation content file for a user-customized plant cultivation project for the cultivation of each plant from the user terminal device, analyzes it, and a user-customized plant cultivation project for the cultivation of each plant. By comparing the input value of the growth environment condition for each growth environment element according to the control command information included in the execution logic of the plant cultivation content file or the optimal plant cultivation content file and the sensing value measured from each measurement sensor, each growth environment element At least one of a temperature control module, a humidity control module, an irrigation control module, a nutrient control module, a wind control module, a carbon dioxide (CO2) concentration control module, and a lighting control module preloaded to converge to the input value of the growth environment for A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it controls the operation of the module.
17. The method of claim 16,
The smart plant cultivation device, the control command execution result information according to the control command included in the execution logic of the plant cultivation content file or the optimal plant cultivation content file for the user-customized plant cultivation project for the cultivation of each plant through the communication network , And at least one of the sensing value information measured from each measurement sensor periodically or in real time to the user terminal device or a remote plant cultivation management server by wire or wireless transmission, characterized in that the user-customized smart plant cultivation using a block coding method control and management system.
The method of claim 1,
The smart plant cultivation device further comprises a camera module for acquiring an image or video for the growth / growth state of each plant,
Block coding, characterized in that the image or video about the growth/growth state of each plant obtained from the camera module through a communication network is transmitted periodically or in real time to the user terminal device or a remote plant cultivation management server by wire or wirelessly User-customized smart plant cultivation control and management system using method.
19. The method of claim 18,
The user terminal device receives, periodically or in real time, an image or video about the growth/growth state of each plant transmitted from the smart plant cultivation device through a pre-loaded plant cultivation-related application service, and the user receives each plant. A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it displays the growth/growth information on a display screen to visually see the growth/growth information.
The method of claim 1,
It is connected to the user terminal device or the smart plant cultivation device through a communication network, and a plant cultivation content file or an optimal plant for a user-customized plant cultivation project for the cultivation of each corresponding plant generated from the user terminal device through the communication network The user terminal device unique identification information or smart plant cultivation device unique identification information set together with the cultivation content file is provided, and based on this, the user terminal device or smart plant cultivation device unique identification information for cultivating each plant is provided. Plant cultivation management server that registers plant cultivation contents file information or optimal plant cultivation contents file information for user-customized plant cultivation projects for the cultivation of each plant, and stores and manages it as a database (DB) in a separate storage device User-customized smart plant cultivation control and management system using a block coding method, characterized in that it further comprises.
21. The method of claim 20,
The plant cultivation management server receives information data related to the growth/growth state of each plant from the smart plant cultivation device through the communication network, and based on this, the cultivation process and cultivation result information of each plant is provided on a social network (Social Network) Network), a user-customized smart plant cultivation control and management system using a block coding method, characterized in that it provides a service to be shared on the network.
21. The method of claim 20,
The plant cultivation management server receives information data related to the growth/growth state of each plant from the smart plant cultivation device through the communication network, and based on this, with unique identification information for each user terminal device or smart plant cultivation device Plant cultivation content file information or optimal plant cultivation content file information for a user-customized plant cultivation project for the cultivation of each plant, information on the cultivation process and cultivation result of each plant, or information on each plant for each plant type It provides a service to store and manage information on optimal growth environment conditions for external growth environmental factors by growing period, by date, and by time according to the growing period or harvesting period into a database (DB), and to be stored and managed in the storage device. User-customized smart plant cultivation control and management system using block coding method.
23. The method of claim 22,
The plant cultivation management server provides a cloud computing service in response to a request from an external client terminal,
The client terminal, using the client member login cloud web service of the plant cultivation management server, along with unique identification information for each user terminal device or smart plant cultivation device stored in the plant cultivation management server for cultivation of each plant Plant cultivation contents file information for user-customized plant cultivation projects, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or each plant type according to the growth or harvest period of each plant A user-customized smart plant using a block coding method, characterized in that at least one information among optimal growth environment information on external growth environmental factors for each cultivation period, date, and time period is searched and displayed on a display screen in real time Cultivation control and management system.
24. The method of claim 23,
The plant cultivation management server is, along with unique identification information for each user terminal device or smart plant cultivation device, plant cultivation contents file information for the user-customized plant cultivation project for the cultivation of each corresponding plant, optimal plant cultivation contents file information, Optimal growth environment conditions for the cultivation process and cultivation result information of each plant, or external growth environmental factors by cultivation period, date, and time according to the growth or harvest period of each plant for each type of plant When storing at least one of the information into a database (DB), using a symmetric or asymmetric encryption method, user-customized plant cultivation for each plant cultivation together with unique identification information for each user terminal device or smart plant cultivation device Plant cultivation contents file information for the project, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or cultivation period and date according to the growth period or harvest time of each plant for each type of plant It provides a service so that a decryption key capable of decrypting at least one of the optimal growth environment condition information for the stars and the external growth environment elements for each time period is transmitted to the client terminal,
The client terminal is encrypted and stored in the plant cultivation management server using the decryption key transmitted from the plant cultivation management server together with the corresponding client member login information, and is stored in the user terminal device or smart plant cultivation device with unique identification information. Plant cultivation contents file information for user-customized plant cultivation projects for the cultivation of each plant, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or growth of each plant for each type of plant Decrypting at least one information of optimal growth environment condition information for external growth environmental factors by cultivation period, date, and time according to the period or harvest period, and displaying it on a real-time search and display screen User-customized smart plant cultivation control and management system using block coding method.
25. The method of claim 24,
The plant cultivation management server, plant cultivation content file information for the user-customized plant cultivation project for the cultivation of each plant, along with unique identification information for each user terminal device or for each smart plant cultivation device through the client terminal, optimal plant Cultivation content file information, cultivation process and cultivation result information of each plant, or external growth environment factors by cultivation period, date, and time according to the growth period or harvest period of each plant for each type of plant A user-customized smart plant cultivation control and management system using a block coding method, characterized in that it provides a cloud web service so that at least one information of optimal growth environment information can be downloaded.
24. The method of claim 23,
The client terminal is a user for cultivation of each plant together with unique identification information for each user terminal device or smart plant cultivation device stored in the plant cultivation management server through the plant cultivation related cloud application downloaded from the plant cultivation management server Plant cultivation contents file information for a customized plant cultivation project, optimal plant cultivation contents file information, cultivation process and cultivation result information of each plant, or cultivation according to the growth or harvest period of each plant for each type of plant User-tailored smart plant cultivation control using a block coding method, characterized in that at least one of optimal growth environment information for external growth environment elements by period, date, and time period is searched in real time and displayed on a display screen and management systems.

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