KR101809741B1 - Plant cultivation remort control system and the control method - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a plant cultivation remote control system and a control method thereof for entrusting a real plant desired by a consumer to a plant plant and performing control of sowing, cultivation and harvesting through a remote place. The present invention relates to a system in which a cyber plant cultivation application module for cultivating a plant is mounted, and the application is driven to directly control the cultivation condition of the plant entrusted to the plant plant A remote monitoring unit capable of monitoring the cultivation process of the entrusted plant; And a server for controlling cultivation conditions of the entrusted plant based on the control signal of the remote monitoring unit, acquiring information according to cultivation process and cultivation environment of the entrusted plant, and providing the information to the remote monitoring unit. According to the present invention, the user selects plants desired to be cultivated and consigns the cultivation to the plant plant. However, the user obtains the same effect as directly raising the user himself by carrying out management supervision.

Description

TECHNICAL FIELD The present invention relates to a remote control system for plant cultivation,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a remote control system for remotely growing plants and a control method thereof, and more particularly to a remote control system for remotely planting plants To a cultivation remote control system and a control method thereof.

Plant factories are smart agriculture that combines cutting-edge, high-efficiency energy technology and mass production of various high-value-added agricultural products in the interior. Plant plants produce crops by artificially controlling the environment such as light, temperature, humidity, carbon dioxide concentration and culture. Therefore, cultivated crops in plant factories can be factory-produced through automation regardless of season or place. Recent plant factories use plants that grow plants with light emitting diodes (LEDs) and atomizers, a typical low-carbon green industry.

Light emitting diodes (LEDs) are semiconductors that emit light. They have low power consumption (1/6 of incandescent lamp), long life (8 times of incandescent lamp), and environmentally friendly characteristics (no harmful substances such as mercury). The light emitting diode is applied to various fields such as a light source of an LCD, an interior light, a street light, an illumination light, and an automobile. In addition, the light emitting diode has a very fast lighting / unlit speed compared with conventional lighting devices in terms of control, and there is no problem such as energy consumption and shortening of the light source life due to the operation of blinking. And because the size of the light source is very small, it has the additional advantage that it has high design freedom in the production of lighting fixtures.

Japanese Patent Application Laid-Open No. 10-2006-007206 discloses a smart home system that can remotely control lighting devices, electronic devices, and air conditioners remotely using a mobile device such as a smart phone.

Patent Publication No. 10-2006-0122631 introduces a smartphone application that can grow plants or animals in a virtual space using a smartphone.

The above patent has a configuration for remotely adjusting household appliances using a mobile device such as a smart phone or raising a plant or an animal in a virtual space rather than an actual space. That is, Patent Document 10-2006-007206 discloses that the technique can be used to remotely control home appliances at home using a mobile device, and Patent Document 10-2006-0122631 discloses a method for cultivating virtual plants and animals The technology was only available.

In other words, the techniques of the patent did not give the modern people suffering busy lives the actual growth of the plant, the enjoyment of mutual sympathy through cultivation, and the joy of harvest. Therefore, there is a need for technologies that enable consumers to directly control the cultivation of plants directly using mobile devices such as smart phones, and to obtain indirect effects by allowing plant factories to actually grow plants.

It is an object of the present invention to provide a plant cultivation remote control system and a control method thereof, which can entrust actual plant selected by a consumer to a plant factory and remotely control cultivation conditions of the plant.

Another object of the present invention is to provide a plant cultivation remote control system and a control method thereof, in which a real plant is cultivated by a remote control by a consumer, and crops obtained as plant cultivation result are obtained.

Another object of the present invention is to provide a plant cultivation as a hobby which can entrust a plant desired by a consumer to a plant plant and monitor the plant cultivation process through a monitoring system to obtain enjoyment of the plant cultivation process and pleasure of harvest A remote control system and a control method thereof.

In order to solve the above technical problems, a plant cultivation remote control system according to an embodiment of the present invention includes a cyber plant cultivation application module for plant cultivation, A remote monitoring unit for monitoring the cultivation process of the plant, directly controlling the cultivation condition of the plant which has been commissioned to the plant plant by driving the application; And a server for controlling cultivation conditions of the entrusted plant based on the control signal of the remote monitoring unit and acquiring information on cultivation process and cultivation environment of the entrusted plant and providing the information to the remote monitoring unit.

The remote monitoring unit is a portable mobile communication terminal.

The remote monitoring unit may include a monitoring unit for monitoring a plant cultivation process entrusted to the plant plant, and may selectively perform automatic control of the monitoring unit.

The remote monitoring unit includes a plant cultivation and regulation signal transmission unit for transmitting an adjustment signal for plant cultivation entrusted to the plant plant and transmits control information for illumination, temperature, humidity, culture liquid, and harvest requirement .

The server includes a plant growth environment measuring unit for measuring a growth environment of the entrusted plant, and transmits information according to a photographed photograph of the entrusted plant, temperature, illumination, humidity, and culture to the remote monitoring unit.

The server includes a plant cultivation environment adjusting unit that adjusts the growth environment of the plant to which the plant is entrusted, and adjusts lighting, temperature, humidity, culture liquid, etc. of the entrusted plant based on the control signal transmitted from the remote monitoring unit .

The server further includes a plant delivery unit for harvesting the consigned plant and delivering the plant to the contract user.

In addition, the method for remote control of plant cultivation according to the present invention comprises the steps of: installing a cyber plant cultivation application module for plant cultivation in a remote monitoring unit; driving the application to control plant cultivation conditions entrusted to the plant plant; Monitoring the cultivation process of the plant; The plant plant acquiring information on the cultivation process and cultivation environment of the entrusted plant and providing the information to the remote monitoring unit; And adjusting the planting condition of the entrusted plant based on the control signal of the remote monitoring unit.

The present invention further includes a step of delivering the harvested crop to the contract user at the request of the remote monitoring unit.

The plant plant further includes a step of providing cultivation manual information of the entrusted plant to the remote monitoring unit.

The plant cultivation remote control system and the control method thereof according to the present invention allow a user to select a plant desired to grow and to consign the plant to a plant plant, Effect is obtained. In addition, the present invention can obtain a happy sympathy by confirming the growing process of the plant during consigned cultivation at any time until the end of the growth, and this part can obtain the effect of hobby that can induce emotional stability and emotional satisfaction of the user have.

For example, modern people who spend a lot of time in office are spending most of their time watching their computers, and when displaying the plants that they grow on the backdrop of computers of modern people, So that the atmosphere can be indirectly felt. In other words, through the indirect effect of mutual sympathy provided by cultivated plants in a hard and tedious situation, the effect of mental and physical stability can be obtained which improves the work environment.

And the plant factories can indirectly advertise the various plants that are grown in plant factories to consumers, so that it is possible to indirectly gain the economic benefits of sales growth in addition to the economic gain effect of the specific plant commissioning process.

FIG. 1 is a conceptual diagram showing a relationship between various plant factories through a cyber plant cultivation application module before a user selects a plant plant. FIG.
FIG. 2 is a diagram showing a system configuration diagram in which a user selects a specific plant plant and remotely controls plant cultivation. FIG.
FIG. 3 is a block diagram illustrating a control configuration of the mobile communication terminal shown in FIG. 2 of the present invention.
FIG. 4 is a diagram illustrating a control configuration of a home network server shown in FIG. 2 of the present invention.
5 is a diagram showing a portion where the cyber plant cultivation application 22 and the server 14 are negotiated with each other and a function performed by the plant cultivation application module 22 and the functions in the server 14 .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals are used to designate identical or similar elements, and redundant description thereof will be omitted. Suffix "" " " module "for components used in the following description are given or mixed in consideration of ease of specification, and do not have their own meaning or role.

In the following description of the embodiments of the present invention, a detailed description of related arts will be omitted when it is determined that the gist of the embodiments disclosed herein may be blurred. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. , ≪ / RTI > equivalents, and alternatives.

Terms including ordinals, such as first, second, etc., may be used to describe various elements, but the elements are not limited to these terms. The terms are used only for the purpose of distinguishing one component from another.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The singular expressions include plural expressions unless the context clearly dictates otherwise.

In the present application, the terms "comprises", "having", and the like are used to specify that a feature, a number, a step, an operation, an element, a component, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

FIG. 1 and FIG. 2 are views showing a plant cultivation remote control system according to an embodiment of the present invention. FIG. 1 is a conceptual diagram showing a relationship between various plant factories through a cyber plant cultivation application module before a user selects a plant plant. FIG. FIG. 2 is a diagram showing a system configuration diagram in which a user selects a specific plant plant and remotely controls plant cultivation. FIG.

The plant cultivation remote control system of the present invention includes a home plant network server 14, a plant plant 100 for commissioning plants selected by the consumer, and a remote plant for cultivating the plant selected by the consumer in the plant plant 100 And a remote monitoring unit 200 capable of monitoring and controlling the operation of the apparatus. The home network server 14 and the remote monitoring unit 200 transmit and receive signals for plant cultivation to each other through a network. In general, the network is most preferably a wireless communication network having little space and time constraints.

The remote monitoring unit 200 can be any system capable of remote communication such as a computer, a notebook computer, a tablet computer provided in the home and company, and a network capable of communicating with a user anywhere and at a desired time and place. In the following embodiments of the present invention, the remote monitoring unit 200 will be described as an example of a mobile communication terminal.

The mobile communication terminal 21 is provided with a cyber plant cultivation application module 22 for enabling the remote cultivation of a plant desired by the consumer in the plant 100. The cyber plant cultivation application module 22 can be registered, Thereby controlling the module 22.

As shown in FIG. 3, the mobile communication terminal 21 includes a general mobile communication terminal control configuration. A communication unit 23 for performing network communication through a wireless communication network (not shown), various user input information including control information necessary for driving various various functions of the mobile communication terminal 21, A display unit 28 for displaying various kinds of display information, an input unit 29 for inputting user input information, and a display unit 28 for displaying various kinds of display information, And a first control unit 26 which controls and manages the configurations as a whole. The display unit 28 and the input unit 29 may be implemented in a liquid crystal touch manner like a smart phone and integrated.

The mobile communication terminal 21 is equipped with a cyber plant cultivation application module 22 for performing remote control of plant cultivation according to the embodiment of the present invention and the module 22 is connected to a first control section 26 ), Or can be configured to be controlled independently. The second storage unit 25 further includes a second storage unit 25 for storing the driving, controlling, and the result information of the cyber plant cultivation application. The module 22 can be integrated with the second storage unit 25. The second storage unit 25 and the first storage unit 24 may be configured as one unit.

Therefore, the display unit 28 provided in the mobile communication terminal 21 of the present invention under the control of the cyber plant cultivation application module 22 performs various displays according to the application driving. The notification unit 27 is under the control of the cyber plant cultivation application module 22 and performs various notification control according to the application driving. The input unit 29 is under the control of the cyber plant cultivation application module 22 and performs various user signal input controls according to the application driving.

The cyber plant cultivation application module 22 performs various controls in the plant 100 so that the plants desired by the consumer can grow well. Therefore, the Saibaard plant cultivation application module 22 includes a plant monitoring unit 220 for monitoring the plant condition according to the cultivation environment of the plant and the cultivation method of the plant.

The cyber plant cultivation application module 22 is installed in the mobile communication terminal 21 by user selection. And is driven by user selection. When the cyber-plant cultivation application module 22 starts driving, it inputs various user selection signal inputs required by the application, stores the input control information in the second storage unit 25 according to the user's selection Or to the server 14 through the communication unit 23. Accordingly, the cyber plant cultivation application module 22 includes a plant cultivation and adjustment signal transmission unit 230 for transmitting an adjustment signal (illumination, temperature, humidity, culture fluid information) for plant cultivation.

In addition, the cyber plant cultivation application module 22 retrieves various plant factories information to provide the user with the desired plant cultivation. And retrieves information required by the user such as information on plants, cultivation fees and other plant factories that can be cultivated in each plant, and provides the information to the user.

That is, as shown in FIG. 1, the cyber plant cultivation application module 22 through the network provides the user with various plant factories (100, 101 ... 10n) information. At this time, the provided information includes plant information that can be cultivated in the plant, information on cultivation fee, other service information to be provided, control information on the cultivation process of the plant, history information on the plant, management information and the like.

The cyber plant cultivation application module 22 then controls the user so that when the user selects and registers the cultivation of a specific plant in a specific plant plant and the cultivation of the plant is started, do. That is, as shown in Fig. 2, it will be possible to control the cyber plant cultivation application module 22 to be directly connected to the registered plant plant 100 at the same time as driving. Accordingly, the cyber plant cultivation application module 22 includes a configuration of the service registration unit 210 for selecting the specific plant plant and registering the service according to the selection of a specific plant.

Alternatively, the cyber plant cultivation application module 22 may monitor the notification information of the plant, check the notification information of the plant selected by the user, and perform control to inform the user. That is, the cyber plant cultivation application module 22 automatically controls various cultivation operations required for the cultivation of the plant to be smoothly performed after the user selectively registers the cultivation of the specific plant plant and the specific plant, And informs the user of the result information and the notification information according to the result. Such an automatic control function may be controlled to be automatically performed by the user selection operation or may be selected to be performed manually. Preferably, the automatic control function is performed by the plant monitoring unit 220 in the cyber plant cultivation application module 22.

The plant plant (100) has a home network server (14). The server 14 is capable of communicating with the outside through a network and has control information on various plants provided in the plant 100. The server 14 is also connected to the plant information including various services that can be provided at the plant, Necessary control information and the like can be transmitted to the outside. When the user registration process of the service registration section in the cyber plant cultivation application module 22 is performed, the server 14 negotiates with the service registration section 210 to allocate a cultivation space for cultivating the plant entrusted by the user And a user registration unit 110 that performs a process of user registration including seeding of a user foster plant. When the operation of the plant monitoring unit 220 in the cyber plant cultivation application module 22 is performed, the server 14 provides the plant image information photographed through the camera while performing negotiation with each other, And a plant growth environment measuring unit 120 for providing information such as temperature, humidity, hydrogen ion concentration (PH value), and culture liquid. The server 14 may control the lighting, temperature, and humidity of the foster plant cultivation space while performing negotiation with each other when the plant cultivation and adjustment signal transmitter 220 in the cyber plant cultivation application module 22 is operated And a plant cultivation environment adjusting unit 130 for performing adjustment such as replacement or supplement of the culture liquid. Also, the server 14 includes the arrangement of the cultivated plant delivery unit 140 for delivering the harvested product to the user due to the cultivated plant.

It is preferable that the server 14 includes the above-described configuration so as to provide information according to an external request. For example, when a user requests cultivation information for a specific plant in the plant 100, the user is provided with necessary plant cultivation information.

The server 14 also includes a general server control configuration. As shown in FIG. 4, the server 14 includes a DB 30 that converts various information in a plant factory into a database, a second controller 31 for obtaining various information from the DB 30 and providing the information to the user And a second communication unit 32 for transmitting and receiving signals for plant cultivation with the mobile communication terminal 21 of the user under the control of the second control unit 31. In addition, the server 14 includes other components of a general server (not shown).

The DB 30 stores as much information as possible. For example, information on plant information such as plant information, plant information, cultivation fee information, and other service information to be provided to the user (information on providing letter service to the user during the cultivation process, information to be supplied to the plant in a timely manner during the plant growing process) Information on the supply of various kinds of control information (plant cultivation method, cultivation environment, light required in cultivation process, temperature, humidity, culture liquid, etc.) necessary for the plant cultivation process, Management information, and the like. It is also desirable to include information in the plant growth regulators described below. It also contains information on how the plants are shipped and harvested when they are harvested. In addition, the DB 30 stores general user requestable information. It is also desirable to provide such information so that it can be provided at the time of user's request.

The server 14 is connected to a plant cultivation system 40 for controlling the cultivation of the plant based on the information provided by the user.

The plant cultivation system 40 comprises various modules for controlling plant growth regulating devices (not shown) provided in a planting room (plant). The various modules include a sensor module 33 for controlling an illuminance sensor, a temperature sensor, a humidity sensor, a hydrogen ion concentration (PH value) sensor and the like, a camera module 34 installed in each room for photographing the state of a cultivated plant, An illumination module 35 installed in each room to provide illumination to cultivated plants, a culture supply module 36 required for growth of other plants, and the like.

The plant cultivation system 40 may include a second control unit 31 and a control module 37 that performs control. In this case, the plant cultivation system 40 can independently perform the control of the modules under the control of the control module 37 provided therein, and the second control unit 31 of the server 14, And performs transmission and reception of control data. In particular, the user registration unit 110, the plant growth environment measurement unit 120, the plant cultivation environment adjustment unit 130, and the cultivated plant delivery unit 140 of the server 14 described above all control the plant cultivation Configuration. Therefore, it is preferable to configure the above configurations to be included in the control module 37. [ Or the second control unit 31 may be used.

Plant growth regulators installed in each room are operated under the control of the above modules. Therefore, although not shown, the plant growth regulating apparatus is provided in a cultivation space (room) to regulate the temperature and humidity in the cultivation space, a humidity regulator, a culture liquid supply device for controlling the supply of the culture liquid, Equipment, and various other devices necessary for plant cultivation. The lighting device may use various other lighting devices in addition to the LEDs. In addition, the plant growth regulator may include various devices required for plant growth.

2 shows an illuminance sensor 15, a temperature and humidity sensor 16, a hydrogen ion concentration (PH value) sensor 17 installed in a cultivation space (room) in a specific plant plant 100, (18) and so on. The detection signals of the sensors are input to the plant cultivation system 40 in the home network server 14. Also, a plant cultivation control signal inputted and controlled by the user is used as control information of the plant growth regulator of each room through the corresponding module of the plant cultivation system 40. That is, water, temperature, culture fluid, lighting, and the like are supplied to the plant through the plant growth regulator as desired by the user.

That is, the plant cultivation remote control system according to the present invention does not allow the user to directly give water to a plant he wants to grow, to provide a culture solution, and to control the cultivation environment of the plant. However, the plant-grown remote control system of the present invention is a system that allows a plant plant to consign a plant that it wants to grow and indirectly grow the plant to which it is entrusted. To this end, the present invention selects a foster plant, selects a foster plant, and allows the user to directly control the environment resulting from the cultivation of the foster plant. And the plant factory which is entrusted by the user adjusts the cultivation environment of the entrusted plant according to the instructions of the user. With this control, the user can feel the cultivation process of the foster plant indirectly, and finally, the resultant plant can be provided from the foster plant.

Hereinafter, the control process of the present invention will be described in more detail.

The plant cultivation process of the present invention can be divided into a part performed by the remote monitoring part 200, which is a mobile terminal device, and a part performed in the plant factory 100. However, this process will be explained by mutual negotiation. FIG. 5 shows a portion where the negotiation between the cyber plant cultivation application 22 and the server 14 occurs and the functions performed by the plant cultivation application module 22 and the configurations in the server 14 Relationship diagram.

First, the mobile terminal device 21 installs a cyber plant cultivation application module 22. [ The module 22 may be stored in the mobile terminal device 21, but may be an application provided by an arbitrary plant factory or an application downloaded through a separate provider.

In a state where the cyber plant cultivation application module 22 is installed in the mobile terminal device 21, the cyber plant cultivation application module 22 searches for a plurality of plant factories, And displays the search information on the display unit 28 of the mobile terminal device 21. [ If the user uses the desktop computer as the remote monitor 200, the search information will be displayed on the monitor. The user selects a desired plant plant and plant from the displayed search information. Accordingly, the service registration unit 210 includes a cyber plant cultivation application module installed in the user's remote monitoring unit 200, and includes a process of selecting a plant for consignment and selecting a plant for cultivation.

The cyber plant cultivation application module 22 requests the home network server 14 to register the user in the process of registering in the service registration unit 210. [ The user registration unit 110 in the home network server 14 stores the personal information of the user at the same time as allocating a space for plant cultivation in the plant 100 and sows a plant selected by the user And provides the information to the user. The user registration unit 110 stores the user information, the selected plant information, the time at which the selected plant is to be sown, the amount of planting of the selected plant (for example, the area of the cultivated land) It is also possible to provide.

The server 14 controls the plant cultivation system 40 so that necessary conditions for the cultivation space can be satisfied. For example, the lighting of the cultivation space is controlled through the lighting module 35, and the temperature, humidity, hydrogen ion concentration (pH value) and the like are controlled by the control of the sensor module 33. The culture liquid supply module 36 controls the type of the culture liquid to be supplied to the cultivation space, the amount of the culture liquid, and the like. The values set in the plant cultivation system 40 are used as a base signal for adjustment of the plant growth regulator in the cultivation space. The controlled values at this time are stored in the user registration unit 110 as history information of the corresponding plant.

The following plant cultivation application module 22 monitors the cultivation situation of the plant entrusted by the user. That is, the plant monitoring unit 220 in the plant cultivation application module 22 monitors cultivation environments and cultivation conditions of the foster plants. For this purpose, the plant monitoring unit 220 requests the server 14 to provide a manual for a cultivation method including information on optimal cultivation conditions, cultivation environment, etc. of the foster plants, and obtains optimum cultivation conditions, To monitor the cultivation of foster plants. The plant monitoring unit 220 performs continuous management until the cultivation of the plant is completed.

The operation of the plant monitoring unit 220 can be classified into a manual control in which management is performed only when a user is requested and an automatic control portion in which monitoring and control are continuously performed even when there is no user request. The manual control or automatic control operation is configured to be user selected. If manual control is selected, control of the plant is performed by negotiating with the server 14 only when the user operates the cyber plant cultivation application module. On the contrary, when the automatic control is selected, the automatic operation is performed even when there is no request from the user to perform negotiation with the server 14, and when a user's selection operation is required, Information can be used to control push notifications.

For example, a user may not be able to operate an application due to various conditions. If this period is prolonged, plant cultivation will not be smooth. Therefore, when the automatic control is selected to prevent such a case, the state of water, temperature, lighting, culture liquid, etc. is checked according to the cultivation manual of the plant. When it is necessary to adjust the checked value, Push notifications can be provided. Therefore, the plant monitoring unit 220 performs the management so that the plant can be optimally grown, and monitors whether the management is necessary.

When the plant monitoring unit 220 performs the management of the plant, the plant growth environment measuring unit 120 provides the necessary information accordingly. The plant growth environment measuring unit 120 captures an image of the plant through the camera module 34 and provides the image to the user. Through the sensor module 33, the plant detects the temperature, humidity, hydrogen ion concentration (pH value) and the like in the cultivation space, and provides the detected information to the user. And provides the user with the amount of light (amount of light) to be provided to the plant through the lighting module 35. In addition, the plant growth environment measuring unit 120 provides information to the user on the kind of the culture liquid, the amount of the culture liquid, the timing of providing the culture liquid, and the like provided to the plant. In the above process, the plant growth environment measuring unit 120 determines whether the conditions according to the plant growth environment need to be adjusted. This operation will be done by the user's request signal.

That is, the plant cultivation and adjustment signal transmission unit 230 in the cyber plant cultivation application module 22 transmits a signal corresponding to a necessary condition to the server 14 when it is determined that adjustment according to plant cultivation is necessary. In this case, adjustment signals for adjusting the amount of illumination, temperature, humidity, and culture fluid are transmitted.

The plant cultivation environment adjustment unit 130 in the sub 14 receives the plant cultivation adjustment signal and performs control such as control for adjusting the illumination, temperature and humidity control, replacement of the culture liquid, supplementary control of the culture liquid, and the like do. Under the control of the plant cultivation environment adjusting unit 130, the plant growth regulating apparatuses installed in the respective rooms are operated to supply necessary plants.

The process of transferring the plant growth regulation signal of the plant cultivation and adjustment signal transmission unit 230 and the process of regulating the plant cultivation condition of the plant cultivation environment adjustment unit 130 are repeated until the cultivation of the plant is completed. Of course, in this process, a plant cultivation monitoring process of the plant monitoring unit 220 is performed, and a process of providing current plant status information of the plant growth environment measuring unit 120 will be repeated.

When the above-mentioned procedure is smoothly performed and the plants cultivated in the plant 100 grow up and the crop is harvested, the harvest is carried out with the permission of the user, and the harvested plants are transferred to the cultivated plant delivery section 140 ) To the user.

As described above, the present invention can remotely control and manage plant cultivation entrusted to the plant plant 100 through the remote monitoring unit 200, thereby indirectly confirming the plant growth process. In describing the embodiment of the present invention, the remote monitoring unit 200 has been described as an example of a mobile terminal device. However, the remote monitoring unit 200 can be connected to the Internet network through wired or wireless communication, and can be any device that enables input, output, display, control, communication, and the like of a user signal. Accordingly, it is natural that a computer system of the company will be available as the remote monitoring unit, and various computer systems such as a desktop computer, a notebook computer, and a tablet computer in the home can be used as the remote monitoring unit of the present invention.

Accordingly, the foregoing detailed description should not be construed in any way as limiting and should be considered illustrative. The scope of the present invention should be determined by rational interpretation of the appended claims, and all changes within the scope of equivalents of the present invention are included in the scope of the present invention.

14: Home network server
21: mobile communication terminal
22: cyber plant cultivation application module
100: plant plant
200: remote monitoring unit

Claims (10)

1. A plant cultivation remote control system comprising a remote monitoring unit connected to a server of a plant plant capable of commissioning plants to control plant cultivation,
The remote monitoring unit,
A user registration section for the plant plant server and a service registration section for service registration for plant plants and plants selected from a plurality of plant factories and a plurality of plants;
A plant monitoring unit for receiving a cultivation method manual for a plant commissioned from the server and for monitoring cultivation conditions and cultivation environment of the plant entrusted based on the plant growth environment measurement information provided from the manual and the server; And
And a plant cultivation and adjustment signal transmission unit for transmitting a regulation signal for adjusting plant cultivation environment and cultivation conditions to the server while performing plant cultivation and monitoring through the plant monitoring unit,
The server comprises:
A user registration unit connected to the service registration unit of the remote monitoring unit to perform a user registration process including conditions necessary for plant cultivation;
The method according to any one of claims 1 to 3, wherein when the monitoring of the foster plant is performed by the plant monitoring unit, the condition of the growth environment of the foster plant is measured and the measured information is provided to the remote monitoring unit, A plant growth environment measuring unit for providing the remote monitoring unit with notification information to the remote monitoring unit; And
And a plant cultivation environment adjusting unit for adjusting a cultivation environment and a cultivation condition of the entrusted plant based on an adjustment signal of the plant cultivation and adjustment signal transmitting unit,
And the automatic control in which continuous monitoring and control is performed when the monitoring of the current state of the plant according to the cultivation of the plant is performed through the remote monitoring unit, And controlling the push notification to the remote monitoring unit when the user selection operation is required. The method according to claim 1,
Wherein the remote monitoring unit is a portable mobile communication terminal. The method of claim 2,
The user registration unit stores the personal information of the user, the planting space allocation, the selected plant information, the seeding time of the selected plant, the seeding amount of the selected plant, other information of the selected plant, and history information generated in the plant growing process , And provides the user with the plant cultivation remote control system. The method of claim 3,
Wherein the plant cultivation and control signal transmitting unit transmits control information for water, lighting, temperature, humidity, culture liquid, and harvesting request to the server. The method of claim 4,
The plant growth environment measuring unit may transmit to the remote monitoring unit information based on a signal measured in a cultivation space of the consigned plant, information relating to a photograph of the consigned plant, water provided to the consignment plant, temperature, illumination, Plant-grown remote control system. The method of claim 5,
Wherein the server is connected to a plant cultivation system for controlling cultivation of foster plants based on information provided from the remote monitoring unit,
The plant cultivation system includes a plurality of modules for controlling a plant growth regulator equipped in a plant cultivation space,
The plurality of modules include: a sensor module for detecting temperature, humidity, and water ion concentration;
A camera module for photographing cultivated plants;
A lighting module providing illumination to cultivated plants;
A plant cultivation remote control system characterized by comprising a culture supply module required for plant growth. The method of claim 6,
Wherein the server further comprises a cultivation plant delivery unit for harvesting the consigned plant and delivering it to the contract user. A plant cultivation remote control method comprising a remote monitoring unit connected to a server of a plant plant capable of commissioning a plant and controlling plant cultivation,
The remote monitoring unit,
A service registration process for a user registration section and service registration of the plant plant server for a plurality of plant factories and plant factories and plants selected from a plurality of plants;
A plant monitoring process for monitoring cultivation conditions and cultivation environments of plants entrusted based on the plant growth environment measurement information provided from the manual and the server, And
And a plant cultivation and adjustment signal transmission step of transmitting an adjustment signal for adjusting a plant cultivation environment and a cultivation condition to the server while performing plant cultivation and monitoring through the plant monitoring process,
The server comprises:
A user registering step of performing user registration in a user registering unit in connection with a service registration process of the remote monitoring unit, including conditions necessary for plant cultivation;
The method according to any one of claims 1 to 3, wherein when the monitoring of the foster plant is performed during the plant monitoring process, the growth environment of the foster plant is measured and the measured information is provided to the remote monitoring unit, And providing the information to the remote monitoring unit as notification information; And
And a plant cultivation environment adjustment process for adjusting a cultivation environment and a cultivation condition of the entrusted plant based on the adjustment signal of the plant cultivation and adjustment signal transmission process,
And the automatic control in which continuous monitoring and control is performed when the monitoring of the current state of the plant according to the cultivation of the plant is performed through the remote monitoring unit, And controlling the push notification to the remote monitoring unit when the user selection operation is required. The method of claim 8,
And delivering the harvested plant to the contract user at the request of the remote monitoring unit. The method of claim 9,
Wherein the server is connected to a plant cultivation system for controlling cultivation of foster plants based on information provided from the remote monitoring unit,
The plant cultivation system includes a plurality of modules for controlling a plant growth regulator equipped in a plant cultivation space,
The plurality of modules include: a sensor module for detecting temperature, humidity, and water ion concentration;
A camera module for photographing cultivated plants;
A lighting module providing illumination to cultivated plants;
And a culture medium supply module required for the growth of the plant.

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