KR20190106388A - Plant growing system providing growing recipe - Google Patents

Abstract

The present invention relates to a plant cultivation system to produce and provide a growth recipe. More specifically, the present invention comprises: a plant cultivator comprising a sensor for measuring growth environment data of a plant, a device capable of creating a growth environment of the plant, and a device for obtaining a growth state; a management server for providing a growth recipe for plants that can be grown in the plant cultivator, controlling the plant cultivator according to the growth recipe or user recipe input, collecting the growth environment data and growth state measured in the plant cultivator and storing them in a DB, deriving a new growth recipe by analyzing the growth state, and generating a verified recipe by verifying the new growth recipe; and a user device for receiving input from the user that the plant cultivator operates according to the growth recipe or operates according to the user recipe, and receiving the user recipe from the user and transmitting the user recipe to the management server when the operation is selected according to the user recipe. According to the present invention, by providing plant-specific growth recipes, users who have no experience in planting can grow plants remotely.

Description

PLANT GROWING SYSTEM PROVIDING GROWING RECIPE}

The present invention relates to a plant cultivation system for producing and providing a growth recipe.

A plant cultivator including a sensor for measuring growth environment data of a plant, a device for creating a growth environment of the plant, and a device for obtaining a growth state; It provides a growth recipe of plants that can be grown in the plant cultivator, controls the plant cultivator according to the growth recipe or user recipe input, collects the growth environment data and the growth state measured in the plant cultivator and stores them in a DB, A management server for deriving a new growth recipe by analyzing the growth state and generating a verified recipe by verifying the new growth recipe; And a user device for receiving a plant cultivator operating according to the growth recipe or operating according to a user recipe, and selecting to operate according to a user recipe, receiving a user recipe from the user and transmitting the user recipe to a management server. It characterized in that it comprises a plant cultivation system for producing and providing a growth recipe.

There is a growing interest in indoor cultivation of plants due to lack of natural light due to modern weather events, instability of external production of plants, and contamination of external plants by fine dust and soot. In addition, the urban center is a difficult environment for growing outside because there is a lack of arable land for plant growth, so there is a growing interest in plant cultivators equipped with a light source for plant growth to enable the cultivation of plants indoors.

However, the optimum growth environment for each plant is different, and since there is not much data on plant cultivation in a narrow and completely disconnected indoor environment such as a plant cultivator, there is a problem that plants grown in the plant cultivator are limited. In addition, since indoors need to artificially adjust the light source and supply water, it was difficult to manage plants during long-term outings.

The plant cultivator that can remotely control the plant cultivation has emerged, but the growth result data for cultivation in a narrow indoor environment is still insufficient. Therefore, it is still difficult to apply the plant cultivator to a variety of plants, and the plant cultivation has a limited difficulty. The problem was not solved.

Applicant has devised a plant cultivation system that can derive the optimum growth recipe for each plant by collecting the growth environment and growth state of the plants grown in the plant cultivator.

Hereinafter, looking at the prior patent, the Republic of Korea Patent Publication No. 10-1809741 describes a plant cultivation remote control system and its control method. Briefly, the present invention relates to a plant cultivation remote control system and a control method of entrusting a real plant desired by a consumer to a plant factory and controlling seeding, cultivation, and harvesting through a remote plant.

The prior art has been described that can be provided with a plant cultivation method manual, to control the cultivation of the plant remotely, and to store the history information generated during the cultivation process, but to create a new growth recipe of various plants, the optimum growth It does not describe how the recipe can be derived.

1. Republic of Korea Patent Publication No. 10-1809741 (2017.12.15.)

Technical problem of the present invention, by providing a plant-specific growth recipe to provide a plant cultivation system that can cultivate plants remotely even users without experience in plant cultivation.

In addition, when there is no growth recipe suitable for plant cultivation, it is to provide a plant cultivation system that can derive a growth recipe suitable for plants.

In addition, by analyzing the cultivation environment and growth state of the plants grown in the plant cultivator, if there is a recipe more suitable than the provided growth recipe to provide a plant cultivation system that can be reflected as the optimal recipe.

In addition, by providing a community of users using the plant cultivator is to provide a plant cultivation system that can increase the utilization of the plant cultivator by sharing the usage and usage of the plant cultivator.

In addition, it is possible to provide a plant cultivation system that enables the competition of users who grow the same plant to derive the optimum recipe and obtain a sense of accomplishment.

In addition, by providing a method for analyzing the growth results of edible plants and non-edible plants, to provide a plant cultivation system that can derive the optimal recipe by analyzing the growth of plants in a method suitable for each plant.

The present invention, a plant cultivator including a sensor for measuring the growth environment data of the plant, a device for creating a growth environment of the plant and a device for obtaining a growth state; It provides a growth recipe of plants that can be grown in the plant cultivator, controls the plant cultivator according to the growth recipe or user recipe input, collects the growth environment data and the growth state measured in the plant cultivator and stores them in a DB, A management server for deriving a new growth recipe by analyzing the growth state and generating a verified recipe by verifying the new growth recipe; And a user device for receiving a plant cultivator operating according to the growth recipe or operating according to a user recipe, and selecting to operate according to a user recipe, receiving a user recipe from the user and transmitting the user recipe to a management server. To provide a plant cultivation system for producing and providing a growth recipe, characterized in that it comprises a technical problem.

In the present invention, the management server, by comparing and analyzing the growth state of the plant cultivated according to the user recipe with the growth result prediction data of the pre-stored growth recipe, the growth state of the growth state of the plant cultivated according to the user recipe When it is determined that the growth result is more preferable than predictive data, the user recipe may be selected as a new recipe.

In the present invention, the analysis of the growth state, after classifying whether the plant grown in the plant cultivator is an edible plant or a non-edible plant, the edible plant is classified as a plant that does not bear fruit and the non-edible plant The plant is classified into a flowering plant and a non-flowering plant, and the growth factor can be analyzed by setting different analysis elements for each plant classification.

In the present invention, the analysis of the growth state, at least one or more of the number, size, color of the fruit of the deletion becomes an analysis factor, at least one or more of the size, color of the plant of the fruit is not analyzed At least one or more of the time of flowering, flowering period, the number of flowers, and the size of the flower is an analysis element, and at least one or more of the size and color of the plant is an analysis element. , Characterized in that the growth state of the plant can be analyzed.

In the present invention, the management server, when the selection of the new growth recipe, save the growth results of the plants grown with the new growth recipe and new growth recipe, if the new growth recipe verification is carried out, cultivation of the verification performance results into a new recipe It is characterized by performing a verification of the new growth recipe by comparing and analyzing the growth results of the plant.

In the present invention, the verification of the new growth recipe, when the verification for the new growth recipe is performed more than a predetermined number of times, the average value of the performance result is more than the predetermined number of points, judging as a verified recipe and registered as a growth recipe user The device may be provided with a device, and the result may include at least one analysis element suitable for analysis of a plant grown among plant length, fruit size, fruit number, flowering status, flower size, and flower number. Analyze, but compare the results of the verification performance with the growth results of plants grown with new recipes, calculate the error of the verification performance results in the error occurs as +%, or-when the occurrence occurs at-%, the preset score And deriving the score by receiving the growth result satisfaction from the user device.

In the present invention, the management server, provides a community service that can share the user recipe, and share opinions with the user who grows the same plant, and share the user recipe by growing the same plant through the community service and new growth Recruit users to derive recipes, compare the growth results of plants grown with user recipes and provide services that provide ranking, collect growth results for each plant's growth conditions, and can derive new recipes It is done.

The plant cultivation system of the present invention is provided with a growth recipe of a plant grown in a plant cultivator to remotely cultivate the plant, thereby reducing the probability of failure of plant cultivation according to the plant growth environment composition.

In addition, by providing the ability to grow plants manually according to the user recipe can provide a sense of achievement and joy of cultivating directly, there is an effect that can derive new growth recipes more desirable than pre-stored growth recipes.

In addition, the new growth recipe is shared and verified by other users, and the validated growth recipe is registered as a verified recipe, which has the effect of cultivating the plant more preferable through the optimal growth recipe.

In addition, when there is no recipe to be suitable for plant cultivation, it is effective to derive a new recipe and share with other users the number of plants that can be grown indoors.

1 is a block diagram schematically showing a plant cultivation system for generating and providing a growth recipe according to an embodiment of the present invention.
2 is a block diagram showing a plant cultivator according to an embodiment of the present invention.
3 is a block diagram showing the configuration of a management server according to an embodiment of the present invention.
4 is a view for explaining the function of the recipe competition unit provided to the user terminal according to an embodiment of the present invention.
5 is a flowchart of a method for deriving a verification recipe of a plant cultivation system for generating and providing a growth recipe according to an exemplary embodiment of the present invention.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

Therefore, the matters described in the embodiments, reference examples, and drawings described herein are only the most preferable examples of the present invention, and do not represent all of the technical ideas of the present invention. It should be understood that there may be various equivalents and variations in the range.

Before describing the present invention with reference to the drawings, matters that are not necessary to reveal the gist of the present invention, that is, well-known configurations that can be obviously added by those skilled in the art will not be shown or described in detail. Make sure you didn't.

1 is a block diagram showing a schematic configuration of a plant cultivation system for generating and providing a growth recipe according to an embodiment of the present invention.

Smart plant cultivation system (1000 or less, plant cultivation system) for generating and providing a growth recipe according to an embodiment of the present invention transmits the cultivation environment and growth state of the plant cultivated in the plant cultivator 100 to the user device 300 The plants can be remotely identified and cultivated, and the growth environment data can be transmitted to a server, and the analysis can be performed to derive an optimal recipe for each plant grown in the plant cultivator 100.

Referring to FIG. 1, the smart plant cultivation system 1000 providing a growth recipe of the present invention may include a plant cultivator 100, a management server 200, and a user device 300.

At this time, at least one or more plant cultivator 100 and the user device 300 is present, each plant cultivator 100 and the user device 300 is distinguished by the identification ID assigned to each, and associated plant cultivator 100 ) And the user device 300 may be stored in the DB 500 in association with identification IDs and may be managed by the management server 200.

In addition, the DB 500 is a plant management application installed in the user device 300, plant growth recipe according to the plant type, plant cultivation operation method, the growth environment and growth state data of the plant cultivated in the plant cultivation, user information, the user It is possible to store the information of the plant grown in the plant cultivator 100 and the plant cultivator 100, such as the growth status information of the evaluated plant, whether the plant is flowering, whether the plant is deleted.

2 is a block diagram showing a plant cultivator according to an embodiment of the present invention.

The plant cultivator 100 is a plant cultivation apparatus having LED lighting necessary for plant growth, so that plants can be grown indoors. Plant cultivator 100 of the present invention can receive the growth recipe from the management server 200 to control the growth environment. Here, the growth recipe means controlling the growth environment to be described below, and may include a lighting time of LED lighting, an amount of water and nutrient solution provided to a plant, an oxygen supply amount, and the like.

Referring to FIG. 2, the plant cultivator 100 creates a space for soil or hydroponic cultivation of a plant therein, a growth environment acquisition unit 110 for acquiring growth environment data of the plant, and a desirable environment for plant growth. It may include a growth environment creation unit 120, a control unit 130 for controlling the growth environment creation unit 120 and a communication unit 140 for transmitting and receiving data with the management server 200.

The growth environment acquisition unit 110 may include a temperature sensor, a humidity sensor, an illuminance sensor, a pH sensor, etc. for measuring the growth environment data of the plant inside the plant cultivator 100.

The growth environment composition unit 120 may include an LED light, a water supply device, a nutrient solution supply device, an air circulation device, and the like, to create an environment in which plants can grow in the plant cultivator 100.

Sensors and devices included in the growth environment acquisition unit 110 and the growth environment composition unit 120 is not limited to the above-described device, and obtains the growth environment data of the plant, and various to create a desirable growth environment of the plant Sensors and devices may be employed.

On the other hand, the control unit 130 collects the growth state of the plant obtained in the growth environment acquisition unit 110 to be transmitted to the management server 200, according to the growth recipe received from the management server 200, growth environment The composition part 120 may be controlled.

In addition, the growth environment acquisition unit 100 may further include a camera unit for photographing a plant growing therein. The camera unit is provided to photograph the front, back, right side and left side of the plant, it is possible to analyze the growth state of the plant through the image analysis taken by the camera unit. Growth state analysis of the plant can be described in detail with the management server 200 below.

The user device 300 may be a device such as a smartphone, a notebook, a tabbook, a PC, etc. that can receive and install an application from the management server 200, and the application may be a plant cultivator transmitted from the management server 200. (100) It may be an application of a function that can check the growth environment and the growth state of the plant inside, and receive a recipe for controlling the growth environment.

3 is a block diagram showing the configuration of the management server 200 according to an embodiment of the present invention. 4 is a view for explaining the function of the recipe competition unit provided to the user terminal according to an embodiment of the present invention.

Referring to Figure 3, the management server 200 is a growth recipe providing unit 210, plant cultivation control unit 220, recipe collection unit 230, growth state analysis unit 240, recipe analysis unit 250, community The unit 260 may include a recipe competition unit 270 and a recipe verification unit 280.

The growth recipe providing unit 210 may provide a growth recipe of a plant that may be grown in the plant cultivator 100. When the growth recipe of the plant is found in the user device 300, the growth recipe information may be provided to the user device 300. In addition, when the plant 'a' is set to be grown on the plant cultivator 100 from the user device 300, the plant cultivator control unit 230 may be operated according to a growth recipe corresponding to the 'a' plant.

In addition, the growth recipe providing unit 210 may provide a growth result prediction data at the time of cultivation with the growth recipe together with the growth recipe of the plant. Growth data predicted by the number of days of growth, whether the size of the plant, whether or not, flowering, flowering color, the size of the flowers bloomed, the number of flowers bloomed, the size of the fruit, the color of the fruit and color changes during plant pests It may contain information about plant growth.

The plant cultivator control unit 220 receives an input whether to automatically or manually control the plant cultivator 100 from the user device 300, and automatically selects a plant according to the growth recipe of the growth recipe providing unit 210 when the control is selected automatically. The grower 100 may be controlled. On the other hand, if the manual control is selected, it is possible to control the plant cultivator 100 according to the user recipe transmitted from the user device 300.

The recipe collector 230 may receive the plant growth environment data and the growth state of the plant according to the growth recipe of the plant grown in the plant cultivator 100 from the plant cultivator 100 and store the data in the DB 500.

In addition, the DB (500) by collecting the proven growth recipe, verified with the optimal recipe through the new growth recipe and recipe verification unit 280 derived from the recipe analysis unit 250 and recipe competition unit 270 to be described below ) Can be stored.

Growth state analysis unit 240 receives the image of the front, back, right side and left side of the four cultivated plants grown in the plant cultivator 100 from the growth environment acquisition unit 110, the length, area, Analyze color, bloom, fruit, color, flower size, number of flowers, color of fruit, number of fruit and pests.

More specifically, to extract the color of the portion corresponding to the length from the image of the plant obtained from the growth environment acquisition unit 110 to analyze the length, and to extract the color of the image obtained from the four sides to derive the area of the plant Extract the color corresponding to the flower of the cultivated plant to check whether it blooms, the size of the flower, and the number of flowers. can confirm. In addition, it is possible to determine whether the pest by extracting the color of the plant when the pest occurs.

Here, the color of the flower according to the cultivation period of the cultivated plant, the color of the fruit of the cultivated plant, and the color of the plant at the occurrence of the pest are determined by comparing with the growth result prediction data provided by the growth recipe provider 210.

The recipe analysis unit 250 compares and analyzes the growth results of the plants grown according to the user's recipe and the growth result prediction data of the plants grown according to the pre-stored growth recipes provided by the growth recipe providing unit 210 to store the previously grown growth. It is possible to determine the growth recipe that is preferable to the recipe. In addition, preferred growth recipes can be registered as new growth recipes.

In addition, when the growth recipe of the plant grown in the plant cultivator 100 does not exist in the DB 500, the new growth recipe by analyzing the growth state of the plant grown in accordance with the user recipe in at least one plant cultivator 100 Can be generated.

Here, the analysis of the growth state of plants is classified as edible or non-edible plants, and then classified as plants that do not bear fruit if it is an edible plant, and the number of fruit for plants that bear fruit. The size, color, and color can be analytical factors for growth.

More specifically, by comparing the growth result prediction data according to the previously stored growth recipe with the number and size of the fruits grown during the same growing period, it may be determined that the larger growth recipe and the larger growth recipe are the preferred growth recipe. In addition, the color of the deletion may be a criterion for determining the time of obtaining the deletion.

On the other hand, in the case of plants that do not bear fruit, the size and color of the plant may be an analysis factor of the growth state. By comparing the growth result prediction data according to the previously stored growth recipe with the size and color of the plants grown during the same cultivation period, it is possible to determine that the input user recipe is a desirable growth recipe when the color is larger and clearer.

In addition, the edible plant may be included in the criteria for determining the desired growth recipe by allowing the user to evaluate the taste of the obtained plant. Therefore, the user device 300 may receive the taste of the plant grown according to the user recipe.

On the other hand, in the case of non-edible plants, the flowering and non-flowering plants are classified as, and the flowering plants, the flowering time, flowering period, the number of flowers and the size of the flowers may be an analysis factor of the growth state.

More specifically, comparing the flowering period and the number of flowers of plants grown during the same cultivation period with the growth result prediction data according to the previously stored growth recipe, the longer the flowering period and the greater the number of flowers, the more input the user recipe is desired. Can be judged.

In addition, in the case of plants that do not bloom, the size and color of the plant may be an analysis factor. By comparing the growth result prediction data according to the previously stored growth recipe with the size and color of the plants grown during the same cultivation period, it is possible to determine that the input user recipe is a desirable growth recipe when the color is larger and clearer.

When deriving the growth recipe by judging only the size of the plant grown in the plant cultivator 100, it is not possible to determine the desired growth recipe. This is because, in the case of plants with open fruits, longer branches or larger leaves do not yield more fruit. In addition, even in the case of plants for viewing flowers among the non-edible plants that do not open fruit, the long branches and large leaves do not cause more flowers to bloom.

Therefore, the plant cultivation system 1000 according to an embodiment of the present invention may classify a desired growth state according to the type of plant, thereby deriving a growth recipe corresponding to the purpose of planting the plant.

The community unit 260 may be connected to users of the plant cultivator 100 to share opinions on how to use and use the plant cultivator 100, and users who grow the same plant may share opinions. It is possible to provide services such as bulletin boards that can be shared with other users by uploading recipes for growing plants. In addition, the recipe competition unit 270 to be described below may provide a service that can recruit participants for deriving a new recipe.

The recipe competition unit 270 may provide the growth status of the plant according to the user recipe of the participants gathered to derive a new recipe of the plant. At this time, the participants may set to grow the same plant for the same period. In addition, the user recipe within the upper reference% after the recipe competition can be registered as a new recipe.

More specifically, by analyzing the growth state of the cultivation period of the plant cultivated in each plant cultivator 100, it is possible to provide a growth state ranking of the plant during the cultivation period. For example, if a plant is a flowering plant, which plant blooms first, and if it is a plant that bears fruit, which plant is first fruited, and after the cultivation period, it is analyzed by which plant has produced the largest and largest fruit. Can provide results.

In addition, the recipe competition unit 270 may provide an image of the growth state of the plant according to the same number of days growing. For example, as shown in Figure 4, when the cherry tomato seedlings are grown in the plant cultivator 100, the deletion of the cherry tomato seedlings analyzed by the recipe analysis unit, the color of the fruit and the number of deletions of the user device It may be provided to be displayed on (300). It may also provide the current ranking of the participants. Through this, the participant can conveniently check the growth status of the plant grown by him, can inspire the participant's motivation to participate, and refer to the user recipe.

On the other hand, when a new growth recipe is derived by the recipe analysis unit 250 and the recipe competition unit 270, it can be registered in the growth recipe providing unit 210 through the verification process. At this time, the growth process and the growth result of the plant grown as a new growth recipe and a new growth recipe for recipe verification can be registered in the recipe verification unit 280. Users may access the recipe verification unit 280 through the user device 300 to check new recipes and growth results and attempt recipe verification.

The recipe verification unit 280 may verify the new growth recipe more than a predetermined number of times, and if the average value of the result is more than the predetermined score, determine that it is a verified recipe and register it in the growth recipe providing unit 210. have.

At this time, the score of the performance result is compared with the results of the verification when the recipe is registered in the recipe verification unit 280 and the verification performance results, and calculates the error of the verification performance results in the error occurs as +% or-% occurs when the-reference value If less than%, the predetermined score can be given, the growth result satisfaction is input from the user who attempted the recipe verification, and the performance result score can be derived. (If an error occurs with a positive value, it means that the new growth recipe is a desirable growth recipe, and a negative value and a large value means that it is not a desirable growth recipe.)

Here, the criterion for determining the verification performance may be analyzed including at least one or more factors suitable for the analysis of the plant grown among the length of the plant, the size of the fruit, the number of the fruit, whether or not the flowering, the size of the flower, the number of flowers. .

For example, when the recipe verification unit 280 registers recipes, the number of fruits of the growth result is 10, and if the negative reference value of error is 11, the error is less than -11% if the number of fruits of the verification result is 9 or more. Therefore, a predetermined score can be given.

In addition, the growth result satisfaction may be input as a score, and may be derived by summing the predetermined score and the growth result satisfaction score. In addition, the growth results and satisfaction may include items such as appearance and taste after growth of plants.

5 is a flowchart of a method for deriving a verification recipe of a plant cultivation system for generating and providing a growth recipe according to an exemplary embodiment of the present invention.

When the cultivation of the plant in the plant cultivator 100 starts, it is possible to receive the type of plant from the user terminal 300. (S610) According to the growth recipe to control the plant cultivator 100 automatically or to the user recipe By manually inputting whether to control the plant cultivator 100 can be received (S620).

When the control of the plant cultivator 100 is input by the user recipe, it is possible to check whether there is a growth recipe of the pre-stored plant. (S630)

If there is a growth recipe and growth result prediction data of the previously stored plants, the growth result prediction data at the time of cultivation with the growth recipe of the previously stored plants may be compared with the growth result data of the plants grown by the user recipe. (S640)

On the other hand, if there is no growth recipe of the pre-stored plants, the user recipe of the plant currently being grown can be registered as a new growth recipe. (S635)

If it is determined that the growth result cultivated by the user recipe is cultivated by a more desirable growth recipe, the user recipe may be registered as a new growth recipe. (S650)

When a new growth recipe is registered, when the user performs recipe verification, the growth result may be compared and analyzed to determine whether the recipe is verified. (S650)

If it is determined that the new growth recipe has been verified, the new growth recipe may be set as a verified recipe and registered and stored as a growth recipe. (S670)

In addition, what was described using FIG. 1 thru | or 5 above described only the main matter of this invention, As long as various designs are possible within the technical range, this invention is not limited to the structure of FIG. Is self explanatory.

100: plant cultivator 110: growth environment acquisition unit
120: growth environment creation unit 120: control unit
200: management server 210: growth recipe providing unit
220: plant cultivator control unit 230: recipe collection unit
240: growth state analysis unit 250: recipe analysis unit
260: Community Division 270: Recipe Competition Division
280: Recipe verification unit
300: user device

Claims (7)

A plant cultivator including a sensor for measuring growth environment data of a plant, a device for creating a growth environment of the plant, and a device for obtaining a growth state;
It provides a growth recipe of plants that can be grown in the plant cultivator, controls the plant cultivator according to the growth recipe or user recipe input, collects the growth environment data and the growth state measured in the plant cultivator and stores them in a DB, A management server for deriving a new growth recipe by analyzing the growth state and generating a verified recipe by verifying the new growth recipe; And
Receiving a plant cultivator operating according to the growth recipe or operating according to the user recipe from the user, and if it is selected to operate according to the user recipe, the user device for receiving the user recipe from the user and transmitting to the management server; Characterized in that the plant cultivation system for producing and providing a growth recipe.
The method according to claim 1,
The management server,
By comparing and analyzing the growth state of the plant grown according to the user recipe with the growth result prediction data of the pre-stored growth recipe, it is determined that the growth state of the plant grown according to the user recipe is preferable to the growth result prediction data of the pre-stored growth recipe. If so, the plant cultivation system for generating and providing a growth recipe, characterized in that the user recipe can be selected as a new recipe.
The method according to claim 1,
The analysis of the growth state,
After classifying whether the plant cultivated in the plant cultivator is an edible plant or a non-edible plant, the edible plant is classified as a plant that does not bear fruit, and the non-edible plant is classified as a flowering plant and a non-flowering plant. A plant cultivation system for generating and providing a growth recipe, characterized in that the growth state can be analyzed by setting different analysis elements for each plant classification.
The method according to claim 3,
The analysis of the growth state,
At least one of the number, size, and color of the fruit is an analytical element, and at least one of the size and color of the plant is an analytical element.
At least one or more of the time of flowering, flowering period, number of flowers, and flower size is the analysis element, and at least one or more of the size and color of the plant is the analysis element. A plant cultivation system for producing and providing a growth recipe, characterized in that the condition can be analyzed.
The method according to claim 1,
The management server,
When selecting a new growth recipe, save the growth results of plants grown with new growth recipe and new growth recipe,
When the new growth recipe verification is carried out, the verification performance is compared with the growth results of the plants grown with the new recipe, characterized in that to perform the verification of the new growth recipe, plant cultivation system for producing and providing a recipe.
The method according to claim 5,
Verification of the new growth recipe,
When the verification of the new growth recipe is performed more than the preset number of times, and the average value of the performance result is more than the preset score, it can be determined as a verified recipe and registered as a growth recipe and provided to the user device.
The result is
Including at least one analysis element suitable for the analysis of the plant cultivated among the length of the plant, the size of the fruit, the number of fruit, whether flowering, the size of the flower, the number of flowers,
Compare the results of the verification performance with the growth results of plants grown with new recipes, calculate the error of the verification performance results, and give the preset score when the error occurs as +% or-% when it is less than the standard value%. A plant cultivation system for generating and providing a growth recipe, characterized in that the score is received by receiving the growth result satisfaction from the user device.
The method according to claim 1,
The management server,
Provide community services to share user recipes and share ideas with users who grow the same plants,
By growing the same plant through the community service to share the user recipes and recruiting users to derive new growth recipes, by providing a service that compares the growth results of plants grown with user recipes and provides ranking, plant growth A plant cultivation system for generating and providing a growth recipe, characterized in that the conditional growth results can be collected and new recipes can be derived.

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