KR20210144478A - System and method for operating smart farm integratedly - Google Patents

Abstract

The present invention allows an integrated server, operated by an expert familiar with IT, to manage information sets of a local server provided at each farm house, thereby offering technical support for farmers who are reluctant to apply a smart farm because of fears about a new technology and accordingly expanding introduction of the smart farm. In addition, the present invention performs integrated management of crop cultivation information for each farm, thereby estimating the shipment date and yield for each crop and accordingly adjusting production of the crop for each farm in accordance with demand. In addition, the present invention performs integrated management of crop cultivation information for each farm and connects consumers and producers through a communication network, thereby offering a market for the producers. Accordingly, the present invention enables the young, familiar with IT, and the old, having abundant production know-how, to create a profit. In addition, the present invention allows production information and harmful insect information for each village to be shared in association with local government organizations, thereby helping quality enhancement of crops and pioneering of the market.

Description

Smart farm integrated operation system and method {SYSTEM AND METHOD FOR OPERATING SMART FARM INTEGRATEDLY}

The present invention relates to a smart farm operating system and method, and more particularly, to a smart farm integrated operating system and method for integrating and operating an open-field smart farm operated by each farm.

In agriculture, which is directly related to food security, concerns about its sustainability are rapidly increasing due to FTAs, declining population of farm households, aging population, slowing productivity, weak farm household income structure, and deepening climate change. Therefore, a 'smart farm' was devised as a way to dispel these concerns, and its importance is increasing.

In particular, considering that 95% of domestic crops are grown outdoors, the government is implementing a policy to spread open-field smart farms that automatically supply water and fertilizers from remote locations. The open-field smart farm refers to a system that enables farmers to automatically supply irrigation or administration fees from a distance by measuring information such as environment, soil, nutrition, and weather by a sensor and transmitting the data to a cloud server through a local server. .

However, such a smart farm has the advantage of conveniently managing crops grown in a wide area by being able to automatically control the management of crops from a remote location. there is a problem.

Therefore, in order to operate the smart farm efficiently, basic knowledge to handle the machines and software related to the smart farm is required.

However, older farmers tend to be reluctant to apply smart farms out of fear of these new technologies. In addition, young farmers who are familiar with relatively new technologies, or even small farmers, are tenant farmers with the help of elderly farmers who have production know-how due to lack of experience in crop production. am. In other words, most farmers are delaying the introduction of smart farms due to uncertainty in investment performance, small-scale farming, and operational cost burden.

In addition, agriculture does not generate profits just because the production of crops is a bountiful year. In other words, when crops in a field with limited consumption are produced excessively, the prices of the crops fall and become rather useless.

Therefore, it is necessary to adjust the cultivation of crops to meet the demand, and it is important to create a market where the produced crops can be sold to consumers.

However, in a situation where it is difficult to predict the cultivation of crops in advance, it is practically impossible to adjust the production of crops to meet demand, and it is impossible for producers to sell crops to middlemen (eg, agricultural and marine products auctions, local markets, large online markets, or online marketing specialized online markets). It is difficult to form a direct sales channel without going through a website, etc.).

Korean Patent Publication No. 10-2019-0063200 (published date: 2019.06.07, name: smart farm operating system)

Therefore, the present invention is to provide a smart farm integrated operation system and method, which is a corporate smart agriculture business model of a village community, in which young people familiar with IT and elderly people with abundant production know-how can generate profits together.

In addition, the present invention can provide technical support to farmers who are reluctant to apply a smart farm for fear of new technology by managing the information of the local server provided for each farm in an integrated server operated by an expert familiar with IT, Therefore, it is intended to provide a smart farm integrated operation system and method that can expand the smart farm introduction.

In addition, the present invention provides an integrated smart farm operation system and method capable of predicting shipment times and yields for each crop by integrated management of crop cultivation information for each farm, and thereby adjusting the production of crops for each farm to meet demand. want to

In addition, an object of the present invention is to provide a smart farm integrated operation system and method capable of providing a market to producers by integrating and managing crop cultivation information for each farm and connecting consumers and producers through a communication network.

In order to achieve the above object, the smart farm integrated operation system provided by the present invention controls the environment of the partitioned space for growing crops, and a plurality of installed smart farms for each farm to control the growth of the crops. of local servers; And it is connected to the plurality of local servers and a communication network to manage the smart farm for each farmhouse, but based on the pre-stored crop management information for each farm and real-time environmental information transmitted from the local server to generate an environmental control signal for each farm. and an integrated management server that then transmits to the local server of the corresponding farmhouse, wherein the crop management information for each farm includes the name of a crop grown in the corresponding farmhouse; varieties of the crops; And it is characterized in that it includes information about the cultivation environment of the crop.

Preferably, the integrated management server includes: a crop-specific cultivation information management database for storing/managing cultivation information including a cultivation environment and a cultivation method for each of a plurality of unspecified crops that can be cultivated; a communication unit for transmitting/receiving data with a terminal device of a producer that is connectable to the integrated management server through the plurality of local servers and a communication network, and operates the smart farm for each farm to grow crops; and a control unit for controlling the operation of the integrated management server based on a preset control program and a control signal input through the communication unit, wherein the control unit receives a cultivation information request signal for a specific crop from the producer terminal device. , it is possible to control the communication unit to detect the cultivation information on the specific crop from the cultivation information management database for each crop, and transmit the detected cultivation information to the producer terminal device.

Preferably, the integrated management server further includes a crop cultivation status management database for each farm for integrated management of the crop cultivation status for each farm transmitted from the plurality of local servers, and the communication unit corresponds to each of the plurality of local servers. Receives the crop cultivation status for each farm, including the crop type and the expected shipment date for the crops grown in the farmhouse, and the control unit stores the crop cultivation status for each farm in the crop cultivation status management database for each farm, and for each farm After deriving the cultivation status for each crop based on the crop cultivation status, it is possible to determine the appropriateness of additional cultivation for each crop based on the above-mentioned cultivation status for each crop and the pre-stored standard production for each crop.

Preferably, the control unit receives a request for determining the adequacy of additional cultivation for a specific crop from the terminal device of the producer, and determines the adequacy of additional cultivation for the specific crop in response thereto, and then transmits the result to the terminal device of the producer have.

Preferably, the integrated management server further comprises a crop stock status management database for each farm for integrated management of the crop stock status for each farm delivered from the plurality of local servers, and the communication unit corresponds to each of the plurality of local servers. Receives the crop inventory status by farmhouse including the crop type and stock amount for the crops harvested at the farmhouse, and the control unit stores the crop stock status by farmhouse in the farmhouse-specific crop stock status management database, and the crops by farmhouse After deriving the stock status for each crop based on the stock status, it is possible to control to deliver the stock status for each crop to a consumer terminal device connected to the integrated management server to purchase the crop.

Preferably, when a purchase request signal for a specific crop is received from the consumer terminal device, the control unit determines a supplying farmhouse to supply the specific crop based on the farmhouse-specific crop stock status management database, and corresponds to the supplying farmhouse. By transmitting the purchase request signal to the producer terminal device, it is possible to connect the producer and the consumer.

On the other hand, in order to achieve the above object, the smart farm integrated operation method provided by the present invention controls the environment of the space partitioned for growing crops, and controls the growth of the crops. A plurality of installed local servers and an integrated management server connected to the plurality of local servers through a communication network to integrate and manage the smart farm for each farm, wherein the integrated management server is for each of a plurality of unspecified crops that can be grown A cultivation information management database for each crop that stores/manages cultivation information including cultivation environment and cultivation method, a crop cultivation status management database for each farm that integrates management of the crop cultivation status for each farm transmitted from the plurality of local servers, and the above In the smart farm integrated operation method using the smart farm integrated operation system, characterized in that it includes a crop inventory status management database for each farmhouse that integrates and manages the crop stock status by farmhouse delivered from a plurality of local servers, the local server an environmental information collection step of collecting the corresponding farmhouse environmental information and transmitting it to the integrated management server; an environmental state analysis step in which the integrated management server analyzes the pre-stored crop management information for each farm and the real-time environmental information of the farms delivered in the environmental information collection step to analyze the environmental status for each farm; an environment control signal generation step in which the integrated management server generates an environment control signal based on the analysis result of the environment state and transmits it to the local server; and an environment control step in which the local server controls the environment of the farmhouse based on the environment control signal.

Preferably, the method comprises: a cultivation information request signal receiving step of receiving, by the integrated management server, a cultivation information request signal for a specific crop from a terminal device of a producer who operates the smart farm for each farm to grow crops; a cultivation information detection step in which the integrated management server detects cultivation information on the specific crop from the crop-specific cultivation information management database in response to the received cultivation information request signal; And the integrated management server may further include a cultivation information delivery step of transmitting the detected cultivation information to the producer terminal device.

Preferably, the method comprises: receiving, by the integrated management server, the crop cultivation status by farmhouse, receiving the crop cultivation status by farmhouse including the crop type and shipment scheduled date for the crops grown in the corresponding farmhouse from each of the local servers; a crop cultivation status storage step for each farm in which the integrated management server stores the received crop cultivation status for each farm in the crop cultivation status management database for each farm; Cultivation status derivation step for each crop in which the integrated management server derives the cultivation status for each crop based on the crop cultivation status for each farm; an additional cultivation appropriateness determination step for each crop in which the integrated management server determines the appropriateness of additional cultivation for each crop based on the cultivation status for each crop and the pre-stored reference production for each crop; and a step of transmitting, by the integrated management server, the result of determining the adequacy of additional cultivation for each crop to the producer terminal device.

Preferably, the method further comprises the step of receiving, by the integrated management server, a request for determining the adequacy of additional cultivation for a specific crop from the producer terminal device, wherein the step of determining the adequacy of additional cultivation for each crop is additional cultivation for the specific crop The adequacy is determined, and the step of transmitting the adequacy of additional cultivation for each crop may transmit a result of determining the adequacy of additional cultivation for the specific crop to the terminal device of the producer.

Preferably, the method comprises: a crop stock status receiving step for each farm where the integrated management server receives the crop stock status for each farm including the crop type and stock amount for the crops harvested at the corresponding farm from each of the local servers; a crop stock status storage step for each farm in which the integrated management server stores the received crop stock status for each farm in the crop stock status management database for each farm; Inventory status derivation step for each crop in which the integrated management server derives the inventory status for each crop based on the crop inventory status for each farm; And it may further include a crop-specific inventory status delivery step of delivering the crop-specific inventory status to the consumer terminal device connected to the integrated management server to purchase the crops.

Preferably, the method comprises: a purchase request signal receiving step of receiving a purchase request signal for a specific crop from the consumer terminal device; a crop supply farmhouse determination step of determining a supply farmhouse to supply the specific crop based on the crop inventory status management database for each farmhouse; and transmitting the purchase request signal to the producer terminal device corresponding to the supplying farmhouse, and may further include a market forming step of connecting the producer and the consumer.

The present invention can provide technical support to farmers who are reluctant to apply a smart farm for fear of new technology by managing the information of the local server provided for each farm in an integrated server operated by an expert familiar with IT. It has the advantage of expanding the introduction of farms. In addition, the present invention has the advantage of being able to predict the shipment time and yield for each crop by integrated management of crop cultivation information for each farm, and thereby adjust the production of crops for each farm to meet the demand. In addition, the present invention has the advantage of providing a market to producers by integrating and managing crop cultivation information for each farm and connecting consumers and producers through a communication network. For this reason, the present invention has an advantage in that young people familiar with IT and elderly people with abundant production know-how can create profits together. In addition, the present invention can help improve the quality of crops and develop markets by sharing production information and pest information for each village in connection with local governments.

1 is a schematic block diagram of a smart farm integrated operating system according to an embodiment of the present invention.
2 is a schematic block diagram of an integrated management server according to an embodiment of the present invention.
3 is a processing flowchart for a smart farm integrated operation method according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings, but it will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily practice the present invention. However, the present invention may be embodied in various different forms and is not limited to the embodiments described herein. On the other hand, in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification. In addition, even if the detailed description is omitted, descriptions of parts that can be easily understood by those skilled in the art are omitted.

Throughout the specification and claims, when a part includes a certain element, it means that other elements may be further included, rather than excluding other elements, unless otherwise stated.

1 is a schematic block diagram of a smart farm integrated operating system according to an embodiment of the present invention. 1, the smart farm integrated operating system according to an embodiment of the present invention is an integrated management server 100 and a plurality of local servers managed by the integrated management server 100 (210a, 210b, 210c) includes

The local servers (210a, 210b, 210c) are installed by each farm to manage the smart farms (200a, 200b, 200c) for each farm that control the growth of the crops by controlling the environment of the space partitioned for crop cultivation. , for this purpose, receives the environmental information of the farmhouse from the sensor units 220a, 220b, 220c installed in each farmhouse, transmits it to the integrated management server 100, and transmits the environmental control signal transmitted from the integrated management server 100 to each It is installed in the farmhouse and transmits it to the controllers 230a, 230b, and 230c that control the environment of the farmhouse.

In this case, the environmental control signal may include a signal for automatically supplying irrigation/administration costs to the farmhouse from a remote location.

The integrated management server 100 is connected to the local servers 210a, 210b, and 210c through a communication network to integrate and manage the corresponding smart farms 200a, 200b, and 200c for each farm. In particular, after generating an environmental control signal for each farm based on the pre-stored crop management information for each farm and real-time environmental information transmitted from the local servers 210a, 210b, and 210c, the environmental control signal is transmitted to the local server of the corresponding farm. can transmit

In addition, the integrated management server 100 monitors the crop cultivation environment of each farmhouse based on real-time environmental information for each farmhouse, and when an abnormality (eg, power outage, natural disaster, etc.) occurs in the crop cultivation environment, the manager of the farmhouse Or you can notify the producer quickly. For example, the integrated management server 100 may register the contact information of the manager or producer for each farm in advance, and automatically deliver a text message or the like to notify when an abnormality occurs in the crop cultivation environment of the farm.

In this case, the crop management information for each farm may include a name of a crop grown in a corresponding farm, a variety of the crop, and information about the cultivation environment of the crop.

2 is a schematic block diagram of an integrated management server according to an embodiment of the present invention. 1 and 2, the integrated management server 100 according to an embodiment of the present invention includes a crop-specific cultivation information management DB 110, a crop cultivation status management DB 120 for each farm, and a crop for each farm. It includes an inventory status management DB 130 , a communication unit 140 , and a control unit 150 .

The crop-specific cultivation information management DB 110 stores/manages cultivation information including cultivation environments and cultivation methods for each of a plurality of unspecified crops that can be grown. For example, the cultivation information management DB 110 for each crop may store cultivation information such as a sowing time, a shipping time, an appropriate temperature, and an amount of insolation for a specific crop.

The crop cultivation status management DB 120 by farmhouse manages the crop cultivation status by farmhouse transmitted from the local servers 210a, 210b, 210c. That is, the crop cultivation status management DB 120 for each farm may store information on crops grown in each of the smart farms 200a, 200b, and 200c (eg, crop name, shipping time, yield prediction information, etc.).

The crop inventory status management DB 130 by farmhouse integrates and manages the crop inventory status for each farmhouse transmitted from the local servers 210a, 210b, 210c. For example, the crop inventory status management DB 130 for each farm is inventory status information (eg, crop name) excluding crops consumed by sales or demand among the crops grown in each of the smart farms 200a, 200b, and 200c. , inventory, etc.) can be stored.

The communication unit 140 provides a communication interface with the local servers 210a, 210b, and 210c. That is, the communication unit 140 is connected to the local servers 210a, 210b, and 210c through a communication network, and transmits/receives data necessary for integrated management of smart farms for each farm.

In addition, the communication unit 140 is a terminal device (not shown) of a producer who operates at least one smart farm for each farm to grow crops or a terminal device (not shown) of a consumer who accesses the integrated management server to purchase crops. ) to exchange information with producers and consumers.

The control unit 150 controls the operation of the integrated management server 100 based on a preset control program and a control signal input through the communication unit 140 . In particular, the control unit 150, based on the various request signals received through the communication unit 140, each crop cultivation information management DB 110, the crop cultivation status management DB 120 by farm, and the crop stock status management DB ( After detecting the corresponding information from any one of 130), it may be provided through the communication unit 140 .

For example, the control unit 150 uses the cultivation information stored in the crop-specific cultivation information management DB 110 to provide various kinds of information to producers (eg, young farmers or returning farmers) who do not have know-how due to lack of production experience. Information necessary for crop cultivation (eg, cultivation environment for each crop, cultivation method, etc.) may be provided. That is, when a cultivation information request signal for a specific crop is received through the communication unit 140 , the control unit 150 detects the cultivation information on the specific crop from the crop-specific cultivation information management DB 110 , and the communication unit 140 . control to transmit the detected cultivation information, but the detected cultivation information may be transmitted to a terminal device of a user (eg, a producer) that has transmitted the cultivation information request signal.

On the other hand, when the communication unit 140 receives from each of the plurality of local servers (210a, 210b, 210c) the crop cultivation status for each farm including the type of crop and the scheduled shipment date for the crop grown in the corresponding farm, the control unit ( 150) stores the received crop cultivation status for each farm in the crop cultivation status management DB 120 for each farm. And the control unit 150 may derive the cultivation status for each crop based on the crop cultivation status for each farm, and determine the appropriateness of additional cultivation for each crop based on the cultivation status for each crop and the pre-stored reference production for each crop.

At this time, the control unit 150 receives a request for determining the adequacy of additional cultivation for the specific crop from any producer terminal device that is planning to grow the specific crop, and in response determines the adequacy of additional cultivation for the specific crop. The result may be transmitted to the terminal device of the producer. That is, when the producer terminal device accesses the integrated management server 100 through a communication network, and transmits the name or type of a specific crop to be cultivated, the time of shipment, etc. to the integrated management server 100, the control unit 150 predicts the time and production amount of the specific crop to be shipped from another farm that is already being grown on the basis of the cultivation status for each crop, and as a result, when the production of the specific crop exceeds the pre-stored reference production amount, the producer terminal By notifying the device of this, it is possible to prevent overproduction of a specific crop, which has the effect of preventing damage to the farmer.

In this case, the reference production amount for each crop may be calculated based on the average usage for each of the crops produced for a predetermined regional range, each city/province, or the entire country, and the average usage manages the production and consumption of crops. It can be delivered from local or central institutions that do.

In this way, since the integrated management server 100 manages the crop cultivation status for each farm in an integrated manner, it is possible to predict the shipment time and yield for each crop of the entire farm managed by the integrated management server 100, thereby controlling the sales volume, and , a price for each crop may be determined based on sales volume information.

In addition, when the communication unit 140 receives the crop stock status for each farm including the crop type and stock amount for the crop harvested at the corresponding farm from each of the plurality of local servers 210a, 210b, 210c, the control unit 150 ) stores the received crop inventory status for each farm in the crop inventory status management DB 130 for each farm. And the control unit 150 may derive the inventory status for each crop based on the crop inventory status for each farm, and deliver the inventory status for each crop to the consumer terminal device.

At this time, the control unit 150 receives a purchase request signal for a specific crop from the consumer terminal device, and selects a farm to supply the specific crop based on the information stored in the crop inventory status management DB 130 for each farm in response thereto It is determined and can connect the producer and the consumer by transmitting the purchase request signal to the producer terminal device corresponding to the supplying farmhouse.

On the other hand, the integrated management server 100 manages regional information and administrative district information of the farmhouse in addition to the crop-related information, and, based on the region or administrative district information, cooperates with local governments to produce information and pest information for each region. By sharing such things, it can help improve quality and develop markets.

3 is a processing flowchart for a smart farm integrated operation method according to an embodiment of the present invention. 1 to 3 , the smart farm integrated operation method using the smart farm integrated operation system according to an embodiment of the present invention is as follows.

In steps S210 and S110, the local server 210 collects the corresponding farmhouse environmental information and transmits it to the integrated management server. In this case, the environmental information of the farmhouse may include environment, soil, nutrition, weather conditions, and the like.

In steps S115 and S120, the integrated management server 100 analyzes the environmental condition of each farm based on the pre-stored crop management information for each farm and the real-time environmental information of the farm delivered in the step S110, Based on this, an environment control signal is generated and transmitted to the local server. At this time, the pre-stored crop management information for each farmhouse may include the name of the crop grown in the corresponding farmhouse, the variety of the crop, and the cultivation environment information of the crop, and the environmental control signal provides the irrigation/administration fee to the farmhouse from a remote location. It may include a signal for automatically feeding.

In step S125, the local server 210 controls the environment of the farmhouse based on the environment control signal.

In steps S130 to S140, the integrated management server 100 receives a cultivation information request signal for a specific crop from the terminal device 400 of a producer operating a smart farm for each farm (S130), and the received cultivation information request After detecting the cultivation information on the specific crop from the crop-specific cultivation information management DB 110 in response to the signal (S135), the detected cultivation information is transmitted to the producer terminal device 400 . In this case, the producer may be a young farmer or a returning farmer who does not have production know-how due to lack of production experience, and the information necessary for cultivating the crop may include a cultivation environment for each crop and a cultivation method.

In steps S145 to S160, the integrated management server 100 receives from the local server 210 the crop cultivation status for each farm including the crop type and the scheduled shipment date for the crops grown in the corresponding farmhouse (S145), and the After storing the received crop cultivation status for each farm in the crop cultivation status management DB 120 for each farm, the cultivation status for each crop is derived based on the crop cultivation status for each farm (S150), and the cultivation status for each crop and the pre-stored The adequacy of additional cultivation for each crop is determined based on the reference production amount for each crop (S155), and the determination result is transmitted to the producer terminal device 400 (S160). In this way, by the integrated management server 100 integrated management of the crop cultivation status by farmhouse, the integrated management server 100 can predict the shipment time and yield for each crop of the entire farm registered in the integrated management server 100, This allows you to adjust the sales volume and price for each crop. Therefore, it is possible to prevent overproduction of specific crops, and thereby prevent damage to the farmer.

At this time, the integrated management server 100 may further include a step (not shown) of receiving a request for determining the adequacy of additional cultivation for a specific crop from the producer terminal device 400. In this case, step S155 is the specific crop to determine the adequacy of additional cultivation, and in step S160, a result of determining the adequacy of additional cultivation for the specific crop may be transmitted to the terminal device 400 of the producer.

On the other hand, the reference production amount for each crop may be calculated based on the average usage for each of the crops produced for a predetermined regional range, for each city/province, or for the entire country, and the average usage is a region that manages the production and consumption of crops. Or it can be delivered from central institutions.

In steps S165 to S190, the producers of the farms managed by the integrated management server 100 and consumers who want to purchase the crops produced in the farms are directly connected to each other, thereby forming a market. To this end, the integrated management server 100 receives the crop stock status for each farm including the crop type and stock amount for the crops harvested at the corresponding farm from the local server 210 (S165), and the received crop stock status is stored in the crop inventory status management DB 130 for each farm, and the inventory status for each crop is derived based on the crop inventory status for each farm (S170), and the inventory status for each crop is displayed on the consumer terminal device. It is transmitted to (300) (S175).

At this time, the consumer terminal device 300 is a terminal device of the consumer connected to the integrated management server 100 to purchase the crop.

In this way, when the integrated management server 100 that has delivered the inventory status for each crop to the consumer terminal device 300 receives a purchase request signal for a specific crop from the consumer terminal device 300 (S180), the integrated management server 100 determines a supply farm to supply the specific crop based on the crop inventory status management DB 130 for each farm (S185), and transmits the purchase request signal to the producer terminal device 400 corresponding to the supply farm (S190) ). Accordingly, it is possible to form a market that connects producers and consumers.

Although embodiments of the present invention have been described above, the scope of the present invention is not limited thereto, and the present invention is easily changed from the embodiments by those of ordinary skill in the art to which the present invention pertains and recognized as equivalent. including all changes and modifications to the scope of

Claims (12)

A plurality of local servers installed for each farm to manage the smart farm for each farm that controls the growth of the crop by controlling the environment of the space partitioned for growing crops; and
After being connected to the plurality of local servers through a communication network and managing the smart farm by farmhouse, an environmental control signal for each farm is generated based on pre-stored crop management information for each farm and real-time environmental information transmitted from the local server. Includes an integrated management server that delivers to the local server of the corresponding farmhouse,
The crop management information for each farm is
the name of the crop grown by the corresponding farm;
varieties of the crops; and
Smart farm integrated operation system, characterized in that it includes information on the cultivation environment of the crops. According to claim 1, wherein the integrated management server
a crop-specific cultivation information management database for storing/managing cultivation information including cultivation environments and cultivation methods for each of a large number of unspecified crops that can be grown;
a communication unit for transmitting/receiving data with a terminal device of a producer that is connectable to the integrated management server through the plurality of local servers and a communication network, and operates the smart farm for each farm to grow crops; and
A control unit for controlling the operation of the integrated management server based on a preset control program and a control signal input through the communication unit,
the control unit
When a cultivation information request signal for a specific crop is received from the producer terminal device, the cultivation information for the specific crop is detected from the crop-specific cultivation information management database, and the detected cultivation information is transmitted to the producer terminal device. Smart farm integrated operating system, characterized in that for controlling the communication unit. The method of claim 2, wherein the integrated management server
Further comprising a crop cultivation status management database for each farm that integrates and manages the crop cultivation status for each farm delivered from the plurality of local servers,
the communication unit
Receives the crop cultivation status for each farm, including the crop type and the scheduled shipment date for the crop grown in the corresponding farm, from each of the plurality of local servers,
the control unit
The crop cultivation status for each farm is stored in the crop cultivation status management database for each farm, and the cultivation status for each crop is derived based on the crop cultivation status for each farm. Smart farm integrated operation system, characterized in that it judges the appropriateness of additional cultivation for each crop. According to claim 3, wherein the control unit
Smart farm, characterized in that receiving a request for determination of adequacy of additional cultivation for a specific crop from the terminal device of the producer, determining the adequacy of additional cultivation for the specific crop in response thereto, and transmitting the result to the terminal device of the producer Integrated operating system. The method of claim 3, wherein the integrated management server
Further comprising a crop inventory status management database for each farm for integrated management of the crop inventory status for each farm delivered from the plurality of local servers,
the communication unit
Receive the crop inventory status for each farm including the crop type and inventory amount for the crops harvested at the corresponding farm from each of the plurality of local servers,
the control unit
A consumer who stores the crop inventory status by farmhouse in the crop stock status management database for each farmhouse, derives the stock status for each crop based on the crop stock status by farmhouse, and then accesses the integrated management server to purchase the crop Smart farm integrated operation system, characterized in that the control to deliver the stock status of each crop to a terminal device. The method of claim 5, wherein the control unit
When a purchase request signal for a specific crop is received from the consumer terminal device, a supply farm to supply the specific crop is determined based on the crop inventory status management database for each farm, and the purchase is made with a producer terminal device corresponding to the supply farm. Smart farm integrated operation system, characterized in that it connects producers and consumers by transmitting a request signal. A plurality of local servers installed for each farm to control the smart farm for each farm that controls the growth of crops by controlling the environment of the space partitioned for growing crops, and the plurality of local servers are connected to each other through a communication network. Including an integrated management server for integrated management of smart farms by farmhouse,
The integrated management server includes a crop-specific cultivation information management database that stores/manages cultivation information including a cultivation environment and cultivation method for each of a plurality of unspecified crops that can be grown, and a crop cultivation for each farm delivered from the plurality of local servers. Smart farm integrated operation, characterized in that it includes a crop cultivation status management database for each farm that manages the status in an integrated way, and a crop stock status management database for each farm that integrates and manages the crop stock status for each farm delivered from the plurality of local servers. In the smart farm integrated operation method using the system,
an environmental information collection step in which the local server collects the corresponding farmhouse environmental information and transmits it to the integrated management server;
an environmental condition analysis step in which the integrated management server analyzes the pre-stored crop management information for each farm and the real-time environmental information of the farms delivered in the environmental information collection step to analyze the environmental status for each farm;
an environment control signal generation step in which the integrated management server generates an environment control signal based on the analysis result of the environment state and transmits it to the local server; and
Including an environment control step in which the local server controls the environment of the farmhouse based on the environment control signal,
The crop management information for each farm is
the name of the crop grown by the corresponding farm;
varieties of the crops; and
Smart farm integrated operation method comprising the cultivation environment information of the crop. 8. The method of claim 7,
A cultivation information request signal receiving step of receiving, by the integrated management server, a cultivation information request signal for a specific crop from a terminal device of a producer who operates the smart farm for each farm to grow crops;
a cultivation information detection step in which the integrated management server detects cultivation information on the specific crop from the crop-specific cultivation information management database in response to the received cultivation information request signal; and
Smart farm integrated operation method, characterized in that the integrated management server further comprises a cultivation information transfer step of transmitting the detected cultivation information to the producer terminal device. 9. The method of claim 8,
a crop cultivation status receiving step for each farm, in which the integrated management server receives the crop cultivation status for each farm, including crop types and shipment scheduled dates for crops grown in the corresponding farms from each of the local servers;
a crop cultivation status storage step for each farm in which the integrated management server stores the received crop cultivation status for each farm in the crop cultivation status management database for each farm;
Cultivation status derivation step for each crop in which the integrated management server derives the cultivation status for each crop based on the crop cultivation status for each farm;
an additional cultivation appropriateness determination step for each crop in which the integrated management server determines the appropriateness of additional cultivation for each crop based on the cultivation status for each crop and the pre-stored reference production for each crop; and
Smart farm integrated operation method, characterized in that it further comprises the step of transmitting, by the integrated management server, the result of determining the adequacy of additional cultivation for each crop to the producer terminal device. 10. The method of claim 9,
Further comprising the step of receiving, by the integrated management server, a request for determining the adequacy of additional cultivation for a specific crop from the producer terminal device,
The step of determining the adequacy of additional cultivation for each crop is
Judging the adequacy of additional cultivation for the specific crop,
The delivery step of determining the adequacy of additional cultivation for each crop is
Smart farm integrated operation method, characterized in that the result of determining the adequacy of additional cultivation for the specific crop is transmitted to the terminal device of the producer. 10. The method of claim 9,
A crop inventory status reception step for each farmhouse, in which the integrated management server receives the crop inventory status for each farmhouse including the crop type and inventory amount for the crops harvested from the corresponding farmhouse from each of the local servers;
a crop stock status storage step for each farm in which the integrated management server stores the received crop stock status for each farm in the crop stock status management database for each farm;
Inventory status derivation step for each crop in which the integrated management server derives the inventory status for each crop based on the crop inventory status for each farm; and
The smart farm integrated operation method, characterized in that it further comprises the step of transmitting the inventory status of each crop to the consumer terminal device connected to the integrated management server to purchase the crop. 12. The method of claim 11,
a purchase request signal receiving step of receiving a purchase request signal for a specific crop from the consumer terminal device;
a crop supply farmhouse determination step of determining a supply farmhouse to supply the specific crop based on the crop inventory status management database for each farmhouse; and
Smart farm integrated operation method, characterized in that it further comprises the step of forming a market for connecting the producer and the consumer by transmitting the purchase request signal to the producer terminal device corresponding to the supply farmhouse.

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