KR20140072454A - A Reality Associated Growing Crops Game Service System based Video Streaming and Method thereof - Google Patents

Abstract

The present invention relates to a system and method for real-linked crop cultivation based on video streaming, and more particularly, to a system and method for cultivating real- If the mission required for cultivation of crops is carried out in the form of game such as purchasing items, it is linked to the realization of farms, so that the same operation as the mission performed by the farmers can be carried out so that crops can be cultivated remotely In particular, a user can remotely view image streaming and / or environmental information of a crop on a real farm using an application of a smart device, and control the camera or sensor installed on a real farm to acquire necessary image information And a video image on a real farm A camera for collecting traffic is installed for each user's land sector, and the moving camera and the side camera are moved to the corresponding area as needed to confirm the system, thereby reducing the system construction cost and reducing the network traffic load Streaming-based real-linked crop growing game service system and method thereof.

Description

Technical Field [0001] The present invention relates to a real-linked cropping game service system based on video streaming,

The present invention relates to a system and method for real-linked crop cultivation based on video streaming, and more particularly, to a system and method for cultivating real- If the mission required for cultivation of crops is carried out in the form of game such as purchasing items, it is linked to the realization of farms, so that the same operation as the mission performed by the farmers can be carried out so that crops can be cultivated remotely In particular, a user can remotely view image streaming and / or environmental information of a crop on a real farm using an application of a smart device, and control the camera or sensor installed on a real farm to acquire necessary image information And a video image on a real farm A camera for collecting traffic is installed for each user's land sector, and the moving camera and the side camera are moved to the corresponding area as needed to confirm the system, thereby reducing the system construction cost and reducing the network traffic load Streaming-based real-linked crop growing game service system and method thereof.

As a part of leisure activities and hobbies of modern people living in the city center, the desire for crop cultivation on the farm and the market are increasing. However, in the case of programs such as weekend farms where modern urban people can use the time of weekends to grow their crops, weekend farmers go directly to the area where the farms are located on weekends to cultivate and harvest crops. The weekend farm is only in the vicinity of the downtown area, and people who are in a difficult situation to regularly visit the farm every weekend will not be able to use the weekend farming program itself. I have a problem that I can not meet.

Therefore, by using smart devices such as smart phones and tablet PCs, which are almost all essential to most modern people, it is possible to connect virtual games and realities, We propose a new system that can overcome the spatial and temporal constraints of the existing weekend farm program by enabling crops to grow.

Particularly, in proposing the above system, if the field monitoring devices such as a camera or a sensor installed in an actual farm are installed in each land sector of each user so that the state of the actual farm can be remotely monitored, In addition to the high cost, the data transmitted from each monitoring device increases the load on the wireless network traffic, thereby increasing the inefficiency in system construction and operation. Therefore, a new system that can solve this problem I would like to propose.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

It is an object of the present invention to provide a method and apparatus for remotely realizing information on a crop in a real farm using an application of a smart device and realizing a mission necessary for growing a crop in the form of a game such as an item purchase, The present invention also provides a video streaming-based real-linked crop cultivation game service system and a method thereof, which enables crop cultivation to be performed remotely by linking virtual game and real crop cultivation by performing the same operation as the mission performed in the farmer's farm.

It is another object of the present invention to provide a method and apparatus for remotely viewing image streaming and / or environmental information on crops on a real farm using an application of a smart device without visiting a real farm, The present invention provides a video streaming-based real-linked-crop game service system and method for controlling the camera and the sensor installed in the real-linked game.

It is still another object of the present invention to provide a system in which a camera for collecting image information in a real farm is not installed for each user's land sector but is moved to a corresponding zone through a movable upper camera and a side camera, The present invention provides a video streaming-based real-linked-crop game service system and method thereof that can reduce costs and reduce network traffic load.

Yet another object of the present invention is to provide a smart device for a user of a user who distributes connection and control time for each user and provides a crop cultivation guide image information Thereby minimizing the user's inconvenience, and a method thereof.

It is still another object of the present invention to provide a video streaming-based real-time communication system capable of collecting various environmental information through a sensor using Zigbee communication and enabling optimum crop cultivation based on quick and accurate information remotely based on the collected information A crop growing game service system and a method thereof.

A video streaming-based real-linked-crop game service system and method thereof for achieving the object of the present invention include the following configuration.

The video streaming-based real-linked crop cultivation game service system according to an embodiment of the present invention includes a camera or a sensor for collecting image information or environment information of a crop and installed in a real farm, ; A smart device for users to remotely view status information of a crop and perform a mission related to cultivation of a crop; And a management server for storing, transmitting, receiving, and controlling information between the user smart device and the on-site monitoring unit, wherein the on-site monitoring unit processes the information on the movement and control of the camera and the information collected from the camera or the sensor, And a system control unit for enabling the user to remotely cultivate the crop based on the video streaming of the real farm controlled and collected by using the smart device.

According to another embodiment of the present invention, in the system according to the present invention, the site monitoring unit includes: an upper camera that moves from an upper part of a real farm and acquires a land sector upper image of a plurality of users; And a side camera that acquires the land sector side image of the land sector, thereby reducing the system construction cost when installing the camera for each user land sector.

According to another embodiment of the present invention, in the system according to the present invention, the system control unit controls zooming in / zooming out and angle of the upper and side cameras, And a control unit.

According to another embodiment of the present invention, in the system according to the present invention, the field monitoring unit includes an upper moving rail for moving the upper camera, an upper motor for operating the upper moving rail, And a motor controller for controlling operation of the upper motor and the side motor, wherein the system controller generates and transmits a control signal to the motor controller, And a motor control module for managing the position of the motor.

According to another embodiment of the present invention, in the system according to the present invention, the field monitoring unit includes a sensor for measuring environmental information such as temperature, humidity, carbon dioxide amount, and brightness of a real farm and transmitting the environmental information through Zigbee communication, And a Zigbee gateway for receiving information transmitted from the sensor, wherein the system control unit includes a sensor information processing module for processing and transmitting environmental information received through the Zigbee gateway do.

A method of real-linked crop cultivation game service based on video streaming according to an embodiment of the present invention is a service method of real-linked crop cultivation game service based on video streaming, in which a user who is logged into a system through a user DB in a management server confirms the location of a land sector Identification step; A user authorization step of confirming whether the user who is logged in from the management server has authority to use the camera installed in the real farm; A camera moving step of moving a camera installed in a real farm to a land sector of a logged-in user based on information transmitted from the management server; A camera image control step in which operation information for zooming in / out or adjusting an angle of a camera is transmitted through a user smart device; And an information management step of storing and managing image information or environmental information collected and transmitted through a camera or a sensor in the management server.

According to another embodiment of the present invention, in the method of the present invention, the user authorization authority is distributed and managed for each user in each time zone, and the user of the user who is logged in while another user is using the camera And the smart device for providing information on crop cultivation guide image.

The present invention can obtain the following effects by the above-described embodiment, the constitution described below, the combination, and the use relationship.

The present invention allows a user to remotely view information on crops on a real farm in real time using an application of a smart device and to perform a mission necessary for crop cultivation in the form of a game such as item purchase, By performing the same operation as the mission performed by the farmer, it is possible to remotely cultivate the crop by linking the virtual game with the actual crop cultivation.

The present invention provides a system and method for realizing a video streaming and / or environment information on a real farm using a smart device application remotely without visiting a real farm, And it is possible to control the sensors.

According to the present invention, a camera for collecting image information on a real farm is not installed for each user's land sector but is moved to a corresponding area through a movable upper camera and a side camera as needed, The network traffic load can be reduced.

The present invention provides a crop cultivation guide image information to a smart device for a user of a user who distributes connection and control time for each user in preparation for a case in which a plurality of users simultaneously access and monitor the site monitoring unit, The effect is minimized.

The present invention has an effect of collecting various environmental information through a sensor using Zigbee communication and enabling optimal crop cultivation based on quick and accurate information remotely based on the environmental information.

1 is a block diagram illustrating a structure of a real-linked-crop game service system based on a video streaming according to an embodiment of the present invention.
FIG. 2 is a block diagram showing the movement control of the camera through the motor control module of FIG.
FIG. 3 is a block diagram illustrating a camera image control through the camera image control module of FIG.
FIG. 4 is a block diagram showing the environment information transmission / reception of the sensor through the sensor information processing module of FIG.
FIG. 5 is a block diagram illustrating a method of providing a real-linked crop cultivation game based on a video streaming according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of a video streaming-based real-linked-crop game service system and method according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. Throughout the specification, when an element is referred to as "including" an element, it is understood that the element may include other elements as well as other elements, The terms "part,"" module, "and the like denote a unit for processing at least one function or operation, which may be implemented as hardware or software or a combination of hardware and software.

1 to 4, a video streaming-based real-linked crop cultivation game service system according to an embodiment of the present invention includes a camera or a sensor installed in a real farm and collecting image information or environmental information of a crop A field monitoring unit 10 for transmitting and receiving information; A user smart device 50 for remotely checking the status information of crops and performing a mission related to crop cultivation; And a management server 30 for storing, transmitting, receiving, and controlling information between the user smart device 50 and the site monitoring unit 10. The user can remotely access the smart device 50 using the application of the user smart device 50 (In other words, the information transmitted through the field monitoring unit 10) in real-time, and also monitors the mission required for growing the crop, which is generated and transmitted from the management server 30, If the game is performed in the same game form, the game may be performed in the same manner as the missions performed on the farm in the real farm, so that the game can be remotely cultivated by linking the virtual game with the actual crop cultivation. The scene monitoring unit 10 processes the movement and control of the camera and the information collected from the camera or the sensor and transmits it to the management server 30 The user may directly control the field monitoring unit 10 using the user smart device 50 to acquire the video streaming or environmental information of the real farm in real time so that an effective crop So that it can be cultivated.

The field monitoring unit 10 is installed in a real farm and includes cameras 110 and 120 and sensors 130 for collecting and transmitting image information of crops actually being cultivated on a farm or environment information about the farm, The farmer smart device 140 and the cameras 110 and 120 that are carried by the farmer carrying the mission and the information related to the mission execution are received from the management server 30 and the movement and control of the cameras 110 and 120, A system controller 150 for processing and transmitting information, and the like. The remote mission using the application can be performed by cultivating the crop on the actual farm, .

In particular, in the present invention, the camera installed in a real farm to collect and transmit the current state of farms and crops includes an upper camera 110 installed on the upper part of the farm for photographing while moving, And a side camera 120 for photographing. If a separate camera is installed for each user-specific sector 160 (which means a portion of the farm where the land is divided and separated based on the user who has sold the land) It is necessary to install separate cameras for each sector 160, so that the installation and operation costs are excessive, and the traffic load of the wireless network is increased due to data transmitted from a large number of cameras In order to prevent the occurrence of the above-described problems in advance, the present invention can be applied to each of By installing a structure in which the upper camera 110 and the side camera 120 are installed and operated to photograph the entire farm (or an area covering a plurality of sectors 160) while being installed on the upper and side of the cabin, It is possible to reduce the construction cost of the system and to reduce the wireless network traffic load which may occur when a plurality of cameras are used for each sector, .

1 and 2, the on-site monitoring unit 10 includes an upper camera 110 installed on an upper part of a farm, for capturing moving images of a plurality of users' land sectors 160 to acquire images, An upper motor 112 for moving the upper camera 110, an upper motor 112 for operating the upper moving rail 111, and a plurality of users' land sectors 160 installed on the side of the farm A lateral camera 121 for moving the side camera 120; a side motor 122 for operating the side moving rails 121; And a motor controller 113 for controlling the operation of the upper motor and the side motor. That is, the upper camera 110 includes an upper motor 112 installed on an upper movable rail 111 mounted on a land sector 160 of a plurality of users at the upper side of the farm, for operating the upper movable rail 111, The user can move to the land sector 160 to be photographed among the various land sectors 160 and acquire image information about the land sector 160 by moving on the upper moving rail 111 And the side camera 120 is also mounted on a side moving rail 121 installed on the land sector 160 of a plurality of users in terms of the farm to drive the side moving rails 121 The user can move to the land sector 160 to be photographed among the plurality of land sectors 160 and acquire image information on the land sector 160 by moving on the side moving rail 121 . The operation of the upper motor 112 and the side motor 122 is controlled by the motor controller 113. The control signal for the motor controller 113 is transmitted to the motor control module 150 of the system controller 150 (151), and a detailed description thereof will be given later.

The sensor 130 measures environmental information about the farm, that is, information such as temperature, humidity, amount of carbon dioxide, brightness, etc. to be taken into consideration when growing the crop on the farm, and transmits the measured information. Or the like, so that the management server 30 or the user can generate and execute an appropriate mission for crop cultivation. The field monitoring unit 10 may further include a Zigbee gateway 131 to receive environment information measured from the sensor 130 and transmitted through Zigbee communication, The environment information received through the Zigbee gateway 131 is processed and transmitted by the sensor information processing module 153 of the system control unit 150 to be described later, and a detailed description thereof will be described later.

The system controller 150 processes and transmits information collected from the cameras 110 and 120 and the movement and control of the cameras 110 and 120 and the system controller 150 for the purpose of more specifically A motor control module 151 for generating and transmitting a control signal for the motor controller 113 and managing the positions of the cameras 110 and 120 and a zoom control unit for controlling zooming in / zooming out of the upper and lower cameras 110 and 120, A camera image control module 152 for controlling the camera angle and the angle and processing images acquired from the cameras 110 and 120 and a sensor information processing module for processing and transmitting the environment information received through the Zigbee gateway 131 153 and a communication module 154 for transferring information to the management server 30.

The motor control module 151 generates and transmits a control signal to the motor controller 113 and manages the positions of the cameras 110 and 120. The motor control module 151 transmits the control signals to the management server 30 or the user smart device 50 (For example, a user who is logged in to the system of the present invention sells the land sector 160 in which the crop is grown), and generates and transmits a control signal to the motor controller 113 based on the command (signal) And the information on whether the logged-in user can use the cameras 110 and 120 installed in the real farm is confirmed and transmitted by the management server 30, the motor control module 151 logs on The control signal based on the calculation of the camera movement amount of the motor control module 151 may be transmitted to the corresponding sector 160 of the user The motor controller 113 receives the control signal from the motor control module 151 and moves the upper and lower cameras 110 and 120 to the corresponding positions. At this time, the motor controller 113 may be configured to move the upper camera 110 and the side camera 120 at the same time. In this case, the upper camera 110 and the side camera 120 are both in the same sector (160) so as to acquire and transmit top and side image information at the same time.

The camera image control module 152 is configured to control the zooming in / zooming out and angle of the upper camera 110 and the side camera 120 and to process images acquired from the cameras 110 and 120, Zoom In / Zoom Out of the cameras 110 and 120 for checking the image required for checking the live image of the crop information of the real farm using the smart device 50 The camera image control module 152 receives the information and transmits the command to the camera image control module 152 through the control signal for the corresponding function, Zooming in / out or angle of the camera 110 and the side camera 120 so that the user can check the intended image. In addition, the camera image control module 152 may process the image information obtained from the upper camera 110 and the side camera 120 as data of a communication standard required for transmission and transmit the processed image data.

The sensor information processing module 153 is configured to process environmental information received through the Zigbee gateway 131 and transmits various environmental information measured by the sensor 130 through Zigbee communication The transmitted data is received through the Zigbee gateway 131 and the sensor information processing module 153 processes or stores the environment information received through the Zigbee gateway 131, 30).

The communication module 154 is a data communication module that transmits information collected from the cameras 110 and 120 and the sensor 130 to the management server 30 and receives system login information for a specific user from the management server 30 The information on the specific land sector 160 corresponding to the user can be transmitted to the management server 30.

The smart appliance 140 for a farmer is a smart device (e.g., a smart phone, a tablet PC, etc.) owned by a farmer who manages a real farm, and in particular, a user uses the smart device 50 for a user The user can receive the information through the management server 30 so that the information can be confirmed. The farmer can confirm the information of the actual operation To carry out the work necessary for crop cultivation. For example, when a user performs a mission for supplying fertilizer necessary for growing a crop and a mission for spraying the pesticide through purchase and use of fertilizer items and pesticide items, the farmer checks the results applied to the mission, The fertilizer supply and the pesticide spraying operation are actually performed in the real farm, and the result is reported (transmitted) using the smart appliance 140 for the farm owner. If necessary, the smart device 140 for a farmer may perform a necessary operation (for example, in case of occurrence of a crop damage due to a typhoon or heavy rain) when an exceptional situation Such as a manual mission creation module that allows the farmer to create the content directly into the mission and be sent to the management server 30 and the user smart device 50. [

The management server 30 is a central management server that stores, transmits, receives, and controls information between the user smart device 50 and the site monitoring unit 10. The management server 30 includes a smart device 50 for a user and a site monitoring unit 10, And also generates a mission related to cultivation of crops based on the information of the cultivation guide and transmits the generated information to the user smart device 50 so that the user can perform the mission by purchasing the item Allows crops to be grown remotely. The management server 30 includes a communication module for transmitting and receiving information to and from the field monitoring unit 10 and the user smart device 50 and a database unit 330 for storing various kinds of information, (Not shown) for generating a mission related to crop cultivation based on the guide information, and a user-specific mission management unit (not shown) for managing the mission performance per user based on the mission execution result .

In particular, the database unit 330 is configured to store and manage information transmitted and received between the user smart device 50 and the field monitoring unit 10, as well as information necessary for managing and operating the system of the present invention. A user DB 333 for storing and managing information on a member registered as a member to use the system of the present invention and an image information DB 333 for storing and managing image information transmitted through the field monitoring unit 10 And an environment information DB 338 for storing and managing environmental information transmitted through the field monitoring unit 10. Accordingly, the management server 30 may store the information (position) of the land sector 160 on which the user who is logged in to the system of the present invention has been sold and is growing the crop, based on the user information stored in the user DB 333, The logged in user checks information on whether the cameras 110 and 120 installed in the real farm can be used and transmits the information to the motor control module 151 and transmits the information to the corresponding sector 160 of the user logged in by the motor control module 151 The image information transmitted from the cameras 110 and 120 and the environmental information transmitted from the sensor 130 may be respectively transmitted to the image information DB 337 and the environment information DB 338 so that they can be provided as needed.

The user smart device 50 includes a smart device (e.g., a smart phone, a tablet PC, and the like) that is carried by a user and is capable of remotely checking status information of a crop using an application and performing a mission related to crop cultivation In particular, in order to allow the user to check the video information and environment information of the real farm collected through the site monitoring unit 10 in real time, A live viewing module (not shown) for checking the live video and controlling the camera, and a crop cultivation information confirmation module (not shown) for confirming the environment information collected by the sensor 130 of the real farm. The module executes the application of the smart device 50 for the user and then installs the application on the actual farm using the function provided in the live view module Operation of zooming in / out, zooming in / out of the upper camera 110 and the side camera 120, and actual image information about a part to be confirmed can be confirmed live VOD recording, and the like. The crop cultivation confirmation module allows the user to execute the application of the user's smart device 50, and then utilize the functions provided in the crop cultivation information confirmation module Humidity, carbon dioxide amount, and light intensity to be taken into consideration when cultivating the crop in the farm, and can detect the information such as the temperature, To be used in performance.

The video streaming-based real-linked crop cultivation game service system according to the present invention can be used for video streaming of crops in a real farm using a user application of the smart device 50 for a user remotely without visiting a real farm, The cameras 110 and 120 and the sensors 130 installed in the real farm can be controlled in order to acquire required image information, It is possible to reduce the system construction cost and reduce the load on the network traffic by allowing the upper camera 110 and the side camera 120 to move to the corresponding zone as needed, And various environmental information is collected through the sensor 130 using Zigbee communication Based on this will have as a feature to allow an optimal crop on the basis of Fig timely and accurate information remotely.

Hereinafter, a video streaming-based real-linked-crop cultivation game service method using the system according to the present invention will be described in detail with reference to FIG.

The video streaming-based real-linked crop cultivation game service method using the system according to the present invention is a method in which a user who is logged into the system via the user DB 333 in the management server 30 receives the land sector 160 A user land confirmation step S1 for confirming a location of the user land; A user authorization step (S2) for confirming whether the user who is logged in from the management server (30) is authorized to use the camera (110,120) installed in the real farm; The camera control module 151 of the system control unit 150 moves the cameras 110 and 120 installed in the real farm to the land sector 160 of the logged-in user based on the information transmitted from the management server 30 S3); A camera image control step (S4) in which operation information for zooming in / zooming out or adjusting the angle of the cameras (110, 120) is transmitted through the user smart device (50); And an information management step (S5) of storing and managing image information or environment information collected and transmitted from the management server 30 through the cameras 110 and 120 or the sensor 130. [

The user land validation step S1 is a step in which the user who logs in the system through the user DB 333 in the management server 30 confirms the location of the land sector 160, When the user who is a member of the inventive system accesses the system remotely using the smart device 50 for the user to use the system of the present invention, Based on the stored user information, the logged-in user confirms the location information of the land sector 160 of the farm where the crop is grown, and provides it.

The user authorization step S2 is a step of checking whether the user logged in at the management server 30 is authorized to use the cameras 110 and 120 installed in the real farm. As mentioned above, When a plurality of users access the system at once and use the camera at the same time, the number of users waiting for a long time increases and the waiting time increases. As a result, the efficiency of system operation becomes inefficient. If the user is logged in, it is checked whether the user is authorized to use the cameras 110 and 120, that is, the time zone in which the camera can be used, (110,120), the user's use The smart device 50 provides a separate crop cultivation guide image information so that it can spend time while checking information or knowledge related to crop cultivation while waiting to minimize user inconvenience and efficiently operate the system do.

The camera moving step S3 is a step in which the motor control module 151 of the system control unit 150 controls the cameras 110 and 120 installed in the real farm based on the information transmitted from the management server 30, The motor control module 151 generates a control signal for the motor controller 113 based on an instruction (signal) transmitted from the management server 30 or the user smart device 50 (For example, the location of the user who logs in the system of the present invention to the land sector 160 in which the crop is being cultivated, and the location of the logged-in user as to whether the cameras 110 and 120 installed in the real farm are available) When the management server 30 confirms and transmits the information, the motor control module 151 moves the cameras 110 and 120 to the corresponding sector 160 of the logged-in user based on the information A control signal based on the calculation of the camera movement amount of the motor control module 151 is transmitted to the motor controller 113 so that the motor controller 113 controls the control signal of the motor control module 151 And moves the upper and lower cameras 110 and 120 to the corresponding positions.

The camera image control step S4 is a process in which the operation information for zooming in / zooming out or adjusting the angle of the cameras 110 and 120 is transmitted through the smart device 50 for the user, Zoom In / Zoom Out function of the cameras 110 and 120 or angle adjustment of the cameras 110 and 120 for confirming the image required in the process of confirming the image information about the state of the crop in the real farm by the live image The camera image control module 152 receives the information and transmits the control signal to the upper camera 110 and the lower camera 110 through the control signal for the corresponding function, Zoom in / zoom out or angle of the side camera 120 so that the user can confirm the intended image.

The information management step S5 is a process of storing and managing image information or environment information collected by the management server 30 through the cameras 110 and 120 or the sensor 130 and may be stored in the cameras 110 and 120 or the cameras 110 and 120 through wired / The image information or environmental information collected through the sensor 130 is stored and managed in the image information DB 337 or the environmental information DB 338 of the management server 30 and is provided for proper crop cultivation .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Should be interpreted as belonging to the scope.

10: Field monitoring department
110: upper camera 111: upper movable rail 112: upper motor
120: side camera 121: side moving rail 122: side motor
113: motor controller 130: sensor 131: Zigbee gateway
140: smart device for farmers 150: system controller
151: Motor control module 152: Camera image control module
153: sensor information processing module 154: communication module 160: (land) sector
30: Management server 330: Database part
333: user DB 337: image information DB 338: environment information DB
50: Smart devices for users
511: live viewing module 513: crop cultivation information confirmation module

Claims (7)

A field monitoring unit installed in a real farm and including a camera or a sensor for collecting image information or environmental information of a crop and transmitting and receiving information;
A smart device for users to remotely view status information of a crop and perform a mission related to cultivation of a crop;
And a management server for storing, transmitting, receiving, and controlling information between the user smart device and the field monitoring unit,
The on-site monitoring unit includes a system controller for moving and controlling a camera and processing information collected from a camera or a sensor and transmitting the processed information to a management server. Based on the video streaming of a real farm that the user controls and collects using a smart device A video streaming based real - linked crop cultivation game service system that enables crop cultivation to be performed remotely. The method according to claim 1,
The site monitoring unit includes an upper camera that moves from an upper part of the real farm and acquires a land sector upper image of a plurality of users, and a side camera that moves from the side of the real farm and acquires land sector side images of various users, Wherein the system construction cost is reduced when a camera is installed by each land sector. 3. The method of claim 2,
Wherein the system control unit includes a camera image control module for controlling zooming in and zooming out and angle of the upper camera and the side camera and processing an image acquired from the camera, system. 3. The method of claim 2,
The on-site monitoring unit includes an upper moving rail for moving the upper camera, an upper motor for operating the upper moving rail, a side moving rail for moving the side cameras, a side motor for operating the side moving rails, And a motor controller for controlling the operation of the motor and the side motor,
Wherein the system control unit includes a motor control module for generating and delivering a control signal to the motor controller and managing a position of the camera. The method according to claim 1,
The site monitoring unit includes a sensor for measuring environmental information such as temperature, humidity, carbon dioxide, and brightness of a real farm and transmitting the information to a Zigbee communication, and a Zigbee gateway for receiving information transmitted from the sensor and,
Wherein the system control unit includes a sensor information processing module for processing environmental information received through the Zigbee gateway and transmitting the environment information. A user land confirmation step of confirming a location of a land sector in which a user who is logged in to the system through the user DB in the management server sells crops;
A user authorization step of confirming whether the user who is logged in from the management server has authority to use the camera installed in the real farm;
A camera moving step of moving a camera installed in a real farm to a land sector of a logged-in user based on information transmitted from the management server;
A camera image control step in which operation information for zooming in / out or adjusting an angle of a camera is transmitted through a user smart device;
And an information management step of storing and managing image information or environment information collected and transmitted from the management server through a camera or a sensor. The method according to claim 6,
Wherein the user authority checking step distributes and manages camera usage rights for each user by time zone and provides the crop growing guide image information to the smart device for the user who is logged in while another user is using the camera A method of real - linked crop cultivation game service based on video streaming.

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