KR102526409B1 - System and method for providing virtual lactobacillus production content using mobile game - Google Patents

Abstract

A system and method for providing virtual lactic acid bacteria production contents using a mobile game are disclosed. A user terminal that receives and drives the application, receives a user manipulation input for producing virtual lactic acid bacteria, and provides the content data to the user terminal, and production action result data corresponding to the user manipulation input received from the user terminal And a server for transmitting to the user terminal, wherein the server may provide reward information associated with the production of the virtual lactic acid bacteria to the user terminal based on the production action result data.

Description

System and method for providing virtual lactobacillus production content using mobile game {SYSTEM AND METHOD FOR PROVIDING VIRTUAL LACTOBACILLUS PRODUCTION CONTENT USING MOBILE GAME}

The present application relates to a system and method for providing virtual lactic acid bacteria production contents using a mobile game.

Lactic acid bacteria are intestinal bacteria that produce lactic acid by using sugars as an energy source. Lactic acid bacteria are one of the microorganisms that have been widely used for the longest time by mankind, and are microorganisms that do not produce substances harmful to the intestines of humans or animals and have a positive function to prevent decay in the intestines. The technology using lactic acid bacteria is the oldest bio-related technology, and a lot of research has been done so far, and the industry using it is also a very important industrial strain that is used in a variety of ways, such as fermented milk and functional foods, medicines for intestinal disorders, animal medicines and cosmetics.

Lactic acid bacteria are characterized by promoting animal growth, increasing feed utilization efficiency, increasing resistance to disease, inhibiting the proliferation of harmful bacteria, reducing mortality and inhibiting the production of toxic substances, so their use as animal medicines and feed additives is increasing. Therefore, it has emerged as an important task to improve and develop lactic acid bacteria having excellent properties as probiotics.

However, although the lactic acid bacteria production process is gradually being specialized and advanced in the pharmaceutical / bio industry, the route to acquire knowledge about it is very limited.

The background technology of the present application is disclosed in Korean Patent Registration No. 10-1989202.

The present application is intended to solve the problems of the prior art described above, and induces interest in the pharmaceutical / bio industry and physical health of participants through participation in activities based on virtual content related to lactic acid bacteria production, and expertise in the lactic acid bacteria production process. Its purpose is to provide a system and method for providing virtual lactic acid bacteria production content using a mobile game that can learn.

However, the technical problem to be achieved by the embodiments of the present application is not limited to the technical problems described above, and other technical problems may exist.

As a technical means for achieving the above technical problem, the system for providing virtual lactic acid bacteria production contents using a mobile game according to an embodiment of the present application receives content data for driving an application including virtual lactic acid bacteria production contents, and the application driving, providing a user terminal that receives a user manipulation input for producing virtual lactic acid bacteria and the contents data to the user terminal, and producing production action result data corresponding to the user manipulation input received from the user terminal to the user terminal It can include a server that transmits to.

In addition, the server may provide reward information associated with the production of the virtual lactic acid bacteria to the user terminal based on the production action result data.

In addition, the server may calculate a user's achievement according to the state of an object virtually produced through the virtual lactic acid bacteria production content based on the production action result data.

Also, the server may generate the reward information according to the achievement level.

In addition, the reward information may include information on an offline product associated with the production of the virtual lactic acid bacteria.

In addition, the system for providing virtual lactic acid bacteria production content using a mobile game according to an embodiment of the present invention receives information on production behavior according to the user manipulation input from the server and controls the production environment of actual lactic acid bacteria corresponding to the object. It may include a badge terminal that does.

In addition, the server may generate prediction data related to the effect of the production action according to the user manipulation input on the actual lactic acid bacteria.

In addition, the server may generate the production action result data in consideration of the prediction data.

In addition, the server may transmit information on the production behavior according to the corresponding user manipulation input to the badge terminal when the prediction data meets a preset tolerance level.

In addition, the server may receive state information of the actual lactic acid bacteria from the badge terminal and update the production activity result data based on the state information.

Meanwhile, a method for providing virtual lactic acid bacteria-produced content using a mobile game according to an embodiment of the present invention includes the steps of transmitting content data for driving an application including virtual lactic acid bacteria-produced content to a user terminal; Receiving from the user terminal a user manipulation input for production of virtual lactic acid bacteria applied on the application run on the user terminal, transmitting production action result data corresponding to the received user manipulation input to the user terminal; and It may include providing reward information associated with the production of the virtual lactic acid bacteria to the user terminal based on production activity result data.

The above-described problem solving means are merely exemplary and should not be construed as intended to limit the present disclosure. In addition to the exemplary embodiments described above, additional embodiments may exist in the drawings and detailed description of the invention.

According to the above-described problem solving means of the present application, through participation in activities based on virtual content related to lactic acid bacteria production, it is possible to induce interest in the pharmaceutical / bio industry and physical health of participants, and to acquire expertise in the lactic acid bacteria production process. It is possible to provide a virtual lactic acid bacteria production content providing system and method using a mobile game.

According to the above-mentioned problem solving means of the present application, it is possible to provide advanced educational contents for nurturing professional human resources in the pharmaceutical / bio industry so that they can naturally acquire the specialized knowledge required in the production process of lactic acid bacteria while experiencing interest through participation in virtual contents. can

However, the effects obtainable herein are not limited to the effects described above, and other effects may exist.

1 is a schematic configuration diagram of a virtual lactic acid bacteria production content providing system using a mobile game according to an embodiment of the present invention.
2 is a diagram showing an example of a user information input interface required to determine details of content data.
3 is a diagram showing a main interface through which content produced by virtual lactic acid bacteria is provided through a user terminal.
4 is a diagram illustrating an example of an interface providing feedback data for a user manipulation input.
5 is a diagram showing an interface for providing reward information according to a user's achievement by way of example.
6 is a schematic configuration diagram of a server for providing content produced by virtual lactic acid bacteria according to an embodiment of the present invention.
7 is an operational flowchart for a method for providing virtual lactic acid bacteria production contents using a mobile game according to an embodiment of the present invention.

Hereinafter, embodiments of the present application will be described in detail so that those skilled in the art can easily practice with reference to the accompanying drawings. However, the present disclosure may be implemented in many different forms and is not limited to the embodiments described herein. And in order to clearly describe the present application in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the present specification, when a part is said to be “connected” to another part, it is not only “directly connected”, but also “electrically connected” or “indirectly connected” with another element in between. "Including cases where

Throughout the present specification, when a member is referred to as being “on,” “above,” “on top of,” “below,” “below,” or “below” another member, this means that a member is located in relation to another member. This includes not only the case of contact but also the case of another member between the two members.

Throughout the present specification, when a certain component is said to "include", it means that it may further include other components without excluding other components unless otherwise stated.

The present application relates to a system and method for providing virtual lactic acid bacteria production contents using a mobile game.

The present application relates to a system and method for providing virtual lactic acid bacteria production contents using a mobile game.

Referring to FIG. 1, a virtual lactic acid bacteria producing content providing system 10 (hereinafter, referred to as 'content providing system 10') using a mobile game according to an embodiment of the present application includes a server 100, a user terminal ( 200) and a badge terminal 300.

The server 100 , the user terminal 200 and the badge terminal 300 may communicate with each other through the network 20 . The network 20 refers to a connection structure capable of exchanging information between nodes such as terminals and servers, and examples of such a network 20 include a 3rd Generation Partnership Project (3GPP) network and a Long LTE (LTE) network. Term Evolution (Term Evolution) network, 5G network, WIMAX (World Interoperability for Microwave Access) network, Internet, LAN (Local Area Network), Wireless LAN (Wireless Local Area Network), WAN (Wide Area Network), PAN (Personal Area Network) Network), wifi network, Bluetooth network, satellite broadcasting network, analog broadcasting network, DMB (Digital Multimedia Broadcasting) network, etc. are included, but are not limited thereto.

The user terminal 200 and the badge terminal 300 are, for example, smartphones (Smartphone), smart pad (SmartPad), tablet PC, etc. and PCS (Personal Communication System), GSM (Global System for Mobile communication), PDC (Personal Digital Cellular), Personal Handyphone System (PHS), Personal Digital Assistant (PDA), International Mobile Telecommunication (IMT)-2000, Code Division Multiple Access (CDMA)-2000, W-Code Division Multiple Access (W-CDMA), Wibro (Wireless Broadband Internet) It can be any kind of wireless communication device such as a terminal.

In the description of the embodiment of the present application, the user terminal 200 has an application containing virtual lactic acid bacteria production content installed, receives content data for driving the application from the server 100, and outputs virtual lactic acid bacteria production content. can mean a device.

Meanwhile, in the description of the embodiment of the present application, content data includes an object (1) virtually produced through virtual lactic acid bacteria production content, a state of the object (1), a virtual badge, a virtual production management tool, a virtual measurement tool, and an object (1). ) may be data on virtual elements in various virtual lactic acid bacteria production contents, such as the surrounding background and virtual time.

In addition, in the description of the embodiment of the present application, the badge terminal 300 is a device for controlling the actual lactic acid bacteria production environment corresponding to the object 1 virtually produced on the virtual lactic acid bacteria production content through the user terminal 200. can mean

In other words, as will be described in detail below, the user terminal 200 is a terminal owned by a user who participates in virtual lactic acid bacteria production content, receives a user manipulation input associated with the virtual lactic acid bacteria production content, and determines production based on the user manipulation input. It is a device that outputs virtual lactic acid bacteria production contents reflecting behavior result data, and the badge terminal 300 applies production behavior according to user manipulation input to an actual lactic acid bacteria production environment as needed, and actual information about the actual lactic acid bacteria production environment. It may be a device provided to the server 100 to reflect the environment of the actual medium (2) and the situation, status, etc. associated with the actual lactic acid bacteria medium corresponding to the virtually produced object (1) in the virtual lactic acid bacteria production content. there is.

In addition, referring to FIG. 1, the system for providing virtual lactic acid bacteria production content 10 includes a sensor 21 provided in a medium 2 in which actual lactic acid bacteria corresponding to an object 1 virtually produced on virtual lactic acid bacteria production content are produced. and a photographing device 22 . Illustratively, the sensor 21 may be provided to obtain sensing information (eg, various information such as temperature and humidity of the medium 2) on the environment of the medium 2.

In addition, the photographing device 22 may be installed in a predetermined area within the medium 2 to photograph the actual lactic acid bacteria corresponding to the object 1. In this regard, the badge 2 obtained by the photographing device 22 or the image of the actual lactic acid bacteria is transferred from the badge terminal 300 or the photographing device 22 to the server 100 and reflected on the virtual lactic acid bacteria production content. and may be output through the user terminal 200 .

2 is a diagram showing an example of a user information input interface required to determine details of content data.

Referring to FIG. 2 , the user terminal 200 may output an interface for receiving user information associated with at least one of a learning level of a user participating in content produced by virtual lactic acid bacteria and a purpose of content participation. In addition, the user terminal 200 may transmit user information received through the interface to the server 100 .

Illustratively, the user's learning level may include the user's age, educational background, etc., but is not limited thereto. In addition, the purpose of the user's content participation may be divided into simple experience purpose, expert training (education) participation purpose, etc., but is not limited thereto.

In addition, referring to FIG. 2 , the user terminal 200 according to an embodiment of the present application provides a user input for selecting a user's learning level (age, educational background, etc.) and the user's purpose of participation within a predetermined range (for example, , an input for moving (dragging) a bar-shaped object shown in FIG. 2 and positioning it in a predetermined area within a range section, etc.) may be received, but is not limited thereto, and as another example, a user terminal 200 outputs a list of multiple selection items related to the user's learning level, purpose of content participation, etc., or provides survey information such as a query or Likert scale to identify the user's learning level, purpose of content participation, etc. It is possible to receive user information associated with at least one of the learning level of the user participating in the virtual lactic acid bacteria production content and the purpose of participating in the content by receiving a user input corresponding thereto.

In addition, according to one embodiment of the present application, the server 100 may receive a user input as a response to learning information including common knowledge related to lactic acid bacteria or common knowledge related to biology to the user terminal 200 . For example, the user terminal 200 may provide a quiz about common knowledge related to lactic acid bacteria or common knowledge related to biology through an application. In addition, the user terminal 200 may receive a quiz response, convert it into data, and transmit it to the server 100 .

In addition, the server 100 may determine the learning level of the user based on the response received from the user terminal 200 . For example, the server 100 may determine the learning level as one of beginner, intermediate, and advanced according to a preset criterion based on the received response, but is not limited thereto.

In this regard, the server 100 determines the details (setting) of the virtual lactic acid bacteria production content provided to the user based on the received user information, and transmits content data according to the determined matter (setting) to the user terminal 200. ) can be transmitted.

For better understanding, the server 100 informs the user according to the type of user manipulation input selectable by the user and the achievement level of the virtual lactic acid bacteria production content, which will be described later, based on the received user information. The type of reward that can be provided, the tolerance level for prediction data according to user manipulation input, the content (level) of feedback data generated according to prediction data, and the badge terminal of information on production behavior corresponding to user manipulation input (300 ) can be determined in various ways.

3 is a diagram showing a main interface through which content produced by virtual lactic acid bacteria is provided through a user terminal.

Referring to FIG. 3 , the user terminal 200 may receive, from the server 100, content data for driving an application including content produced by virtual lactic acid bacteria and drive the application. Also, referring to FIG. 3 , the user terminal 200 may receive a user manipulation input for producing virtual lactic acid bacteria through an interface of a corresponding application.

Specifically, referring to FIG. 3 , the user terminal 200 may arrange and output an object 1 produced virtually on virtual lactic acid bacteria production content in a background area 3 of a virtual environment. In this regard, according to an embodiment of the present application, the background area 3 is generated based on image information of the badge 2 provided to the server 100 from the photographing device 22 or the badge terminal 300 ( build) may be. For example, the server 100 determines the area of the space in which the object 1 is disposed in the background area 3 based on the image information of the badge 2 received from the photographing device 22 or the badge terminal 300; The location, brightness, color, and shape of other virtual microorganisms arranged to interact with the object 1 in the background area 3 may be determined to correspond to the actual medium 2 .

On the other hand, according to an embodiment of the present application, the server 100 will provide a plurality of badge information to the user terminal 200 based on information about the region where the user terminal 200 is located and information on actual lactic acid bacteria produced for each badge. can In addition, the user terminal 200 receives a user selection input for selecting any one of a plurality of badge information, and the object (1) that can be virtually produced through virtual lactic acid bacteria production content in response to the actual lactic acid bacteria produced in the selected badge ) can be provided.

Specifically, the server 100 may obtain location information of the user terminal 200 . Also, the server 100 may obtain badge information from a plurality of badge terminals 300 . The server 100 may compare the location of the user terminal 200 and the location of the badge terminal 300 based on the location information of the user terminal 200 and the badge information. When the location of the user terminal 200 and the location of the badge terminal 300 are located within a predetermined error range, the server 100 may transmit badge information associated with the corresponding badge terminal 300 to the user terminal 200. there is.

Also, the user terminal 200 may display a list of names of received badges. In addition, the user terminal 200 may receive a user input for selecting one of a plurality of badge information. In addition, the user terminal 200 may provide a list of virtual objects 1 corresponding to actual lactic acid bacteria produced in the medium selected based on the received user input. For example, the user terminal 200 may receive selection of any one badge. The user terminal 200 may provide badge information of the selected badge. For example, the user terminal 200 may display a list of lactic acid bacteria being produced in the medium as an image of the lactic acid bacteria. In addition, the user terminal 200 may display various badge information such as badge location, badge address, and badge operator information.

In addition, the server 100 displays an object outputted on virtual lactic acid bacteria production content based on an object selection input for selecting an object 1 to be virtually produced by the user from a list of object 1 authorized to the user terminal 200 ( 1) characteristics (eg, strain type, appearance, yield, etc.) are determined, and the object (1) may be implemented by reflecting the determined characteristics.

As described above, the server 100 may recommend an object 1 corresponding to a badge actually produced around the region where the user terminal 200 is located. The user may produce the object 1 and check the production result of the actual lactic acid bacteria corresponding to the virtual object 1 through the medium 2. Therefore, the user can feel a sense of reality as if culturing the actual lactic acid bacteria, and can obtain a sense of achievement by confirming the production result of the lactic acid bacteria produced by the user.

In addition, in this regard, the contents of an analysis algorithm for outputting prediction data on the effect of a production action according to a user manipulation input to be described later on actual lactic acid bacteria according to the characteristics of the object 1 selected based on the object selection input, and feedback An acceptable level for determining whether to output data, the contents of feedback data, etc. may be determined according to the characteristics of the actual selected lactic acid bacteria.

In addition, referring to FIG. 3 , the user terminal 200 has an input means (FIG. 3 Of B) may be provided. For example, such an input means may be shaped as a button, icon, or the like. In this regard, the server 100 transmits the actual image of the badge 2 acquired from the badge terminal 300 or the photographing device 22 to the user when an input means for outputting the actual image to the user terminal 200 is selected. It can be output through the terminal 200.

In addition, referring to FIG. 3 , the user terminal 200 has an input means provided to output information about a reward according to the user's participation in virtual lactic acid bacteria production content on an interface (main interface, etc.) that outputs virtual lactic acid bacteria production content ( C) of FIG. 3 may be provided. For example, such an input means may be shaped as a button, icon, or the like. An interface for outputting such reward information will be described later with reference to FIG. 5 .

The server 100 may provide content data to the user terminal 200 and transmit production action result data corresponding to a user manipulation input received from the user terminal 200 to the user terminal 200 .

Referring to A of FIG. 3 , the user manipulation input may include at least one of a strain-related element, a mixing-related element, and a (culture) environment-related element.

Illustratively, the strain-related factors include the type of strain corresponding to the subject (1), whether the strain includes or does not contain a specific component, the combination of the strain, the input time of the strain, the input cycle of the strain, the input amount, identification, spawn management, It may include operational information about culture, etc.

In addition, illustratively, the mixing-related element may include manipulation information related to filtration, coating, raw material mixing, proliferation, antibacterial activity, and the like associated with the object 1 .

In addition, illustratively, the environment-related factors include operation information on the object (1) or ambient environment-related parameters such as temperature, humidity, and illumination of the medium (2) in which the actual lactic acid bacteria corresponding to the object (1) are located, and freeze-drying operation etc. may be included.

According to an embodiment of the present application, specific detailed items such as strain-related elements, mixing-related elements, and environment-related elements provided through the user terminal 200 are user information collected (received) for the user of the user terminal 200. It may be designed (set) based on. For example, if the user information corresponds to a more advanced level of virtual lactic acid bacteria production content, such as the purpose of the user's participation in the content corresponding to the development of experts, user manipulation is performed for each strain-related element, mixture-related element, and environment-related element. If the number of possible items is set to be large, and the user information corresponds to a relatively light level of virtual lactobacillus production content, such as the purpose of content participation for simple experience, on the contrary, for each strain-related element, mixture-related element, and environment-related element The number of items that can be manipulated by the user may be set to be small.

More specifically, for better understanding, the server 100 evaluates user information (purpose of content participation, learning level, etc.) received through the user terminal 200 to quantify the implementation level of virtual lactic acid bacteria production content, and digitize the content. If the implemented implementation level is less than a preset threshold, it may operate to exclude more complex options such as uniformity and coating as detailed items, but is not limited thereto.

In addition, the server 100 may generate prediction data related to the effect of the production action according to the user's manipulation input on the actual lactic acid bacteria. Illustratively, the server 100 is artificial intelligence-based for providing as an output an effect predicted in consideration of state information of the actual lactic acid bacteria corresponding to the object 1 when a production action according to a user manipulation input is applied to the actual lactic acid bacteria. of the analysis algorithm.

More specifically, the analysis algorithm for generating prediction data held by the server 100 is based on actual environment information of the badge 2, state information of actual lactic acid bacteria corresponding to the object 1, and production behavior according to user manipulation input It may be to determine whether a predetermined acceptable range is satisfied by performing a simulation of the actual state of lactic acid bacteria.

In this regard, in the present application, when actual lactic acid bacteria state information, environment information of the badge (2), and production behavior according to user manipulation input are input through various artificial intelligence-based learning algorithm models that have been previously known or developed in the future, the corresponding production It is possible to build an analysis algorithm that outputs (derives) the effect on behavior. Illustratively, the influence on the production behavior may include a change in the survival probability of the lactic acid bacteria corresponding to the subject (1) in the body (intestine).

In addition, the server 100 may generate production action result data corresponding to the user manipulation input in consideration of the generated prediction data.

Specifically, if the generated prediction data does not meet the preset acceptance level, the server 100 may generate feedback data for a user manipulation input that causes the prediction data to meet the preset acceptance level.

4 is a diagram illustrating an example of an interface providing feedback data for a user manipulation input.

Referring to FIG. 4 , for example, when a user manipulation input including manipulation information for performing cooling on a virtual medium of the object 1 is applied, the server 100 configures the object 1 corresponding to the object 1 at that time. According to the state information of the actual lactic acid bacteria, if the temperature of the medium (2) is excessively lowered when the manipulation information is applied to the actual lactic acid bacteria, and it is determined that the predicted data does not meet the permissible level, the feedback data (5) reflecting the corresponding content can be printed out.

Also, according to an embodiment of the present disclosure, the user terminal 200 may display feedback data corresponding to the user manipulation input on the interface of the application in a form recognizable by the user. For example, the user terminal 200 may display the feedback data in the form of a pop-up or chat window, but may have various display forms that are not limited thereto according to the implementation example of the present application.

Here, the actual lactic acid bacteria state information for determining whether the predicted data satisfies the permissible level may be transmitted to the server 100 through the badge terminal 300. In this regard, the server 100 not only evaluates (predicts) the production behavior according to the user manipulation input based on the state information of the actual lactic acid bacteria, but also updates the production behavior result data based on the received state information. can

Here, the production behavior result data may mean changes in virtual lactic acid bacteria production contents through the user terminal 200 as a response according to a user manipulation input. In this regard, the virtual lactic acid bacteria production content providing system 10 disclosed herein not only affects the effect of the user manipulation input applied through the user terminal 200 on the object 1, but also the actual lactic acid bacteria corresponding to the object 1 It is possible to provide virtual lactic acid bacteria production content by comprehensively reflecting the status information of the medium and the information related to the status of the medium 2.

In addition, the server 100 may transmit information on production behavior according to the corresponding user manipulation input to the badge terminal 300 when the generated prediction data meets a preset tolerance level. Here, the badge terminal 300 receives information on production behavior according to user manipulation input from the server 100 and controls the production environment of actual lactic acid bacteria corresponding to the virtually produced object 1 through virtual lactic acid bacteria production contents. It may be a terminal that

For example, the badge terminal 300 may operate an environment control module (not shown) that changes environmental elements included in the badge 2 according to a user manipulation input corresponding to an environment-related element. As a more specific example, when the user manipulation input is content that raises the temperature of the badge 2, the badge terminal 300 transmits the user manipulation input from the server 100 or information on production behavior according to the user manipulation input. It can be received and controlled to drive the heating module (not shown).

In this regard, when the production behavior according to the user manipulation input is always reflected in the actual medium (2), a situation may occur that may adversely affect the actual lactic acid bacteria corresponding to the object (1). In order to prevent this situation, the lactic acid bacteria production content providing system 10 transmits information about the corresponding production activity to the badge terminal only when the prediction data related to the effect of the production activity according to the user's manipulation input on the actual lactic acid bacteria satisfies a preset tolerance level. (300) so that it is reflected in the actual offline medium environment so that the user can experience (experience) controlling the production environment of lactic acid bacteria in the actual medium (2) through the virtual lactic acid bacteria production content in the present application. It is possible to ensure that the lactic acid bacteria corresponding to the actually produced object (1) are correctly produced.

In addition, according to an embodiment of the present application, the server 100 evaluates user information (purpose of content participation, learning level, etc.) received through the user terminal 200 to quantify the implementation level of virtual lactic acid bacteria production content, If the implementation level is less than a preset threshold value, a process of reflecting a production behavior according to a user manipulation input to the actual badge 2 may be selectively deactivated. For example, when a child user participates in content produced by virtual lactic acid bacteria for the purpose of participating in content for simple experience purposes, the production action according to the user's manipulation input may not be transmitted to the badge terminal 300 .

5 is a diagram showing an interface for providing reward information according to a user's achievement by way of example.

Referring to FIG. 5 , the server 100 may provide reward information associated with virtual lactic acid bacteria production content to the user terminal 200 based on the generated production activity result data.

Specifically, according to one embodiment of the present application, the server 100 is the state of the object (1) virtually produced through virtual lactic acid bacteria production content based on the calculated production action result data or the actual corresponding to the object (1) The user's achievement level can be calculated according to the state of the lactic acid bacteria. In addition, the server 100 may generate reward information including information on an offline product associated with virtual lactic acid bacteria production content according to the calculated achievement level of the user.

Here, referring to FIG. 5 as an example, offline outputs are products that can be obtained through lactic acid bacteria (eg, yogurt, probiotics, health supplements, etc.), books and lectures that can be used to obtain production information of lactic acid bacteria. It can include course tickets, pharmaceutical/bio-related experiences and educational programs.

In addition, in this regard, according to an embodiment of the present application, the type of reward information provided (paid) to the user according to the achievement level may be determined based on user information including the user's learning level, purpose of content participation, and the like. . More specifically, when the user's age is infant, child, etc., and the purpose of the user's content participation meets the simple experience purpose, the provided reward is targeted at child users and determined as children's books, toys, etc. If you are a person working in the bio field or a learner who wants to work in the pharmaceutical/bio field, or if the purpose of the user's content participation is in line with fostering experts, the reward provided is determined by learning books for obtaining related certifications, special lecture tickets, etc. Customized rewards according to the level, age, etc. of the user may be provided.

Also, according to an embodiment of the present disclosure, the type of reward information provided to the user may be determined based on evaluation information on the user's health state. For example, the server 100 receives health conditions such as the user's bio-signal, health condition-related response, and disease history through the user terminal 200, derives evaluation information based on the received health condition of the user, and Based on this, the type of reward information (eg, product type of offline product, etc.) may be determined.

6 is a schematic configuration diagram of a server for providing content produced by virtual lactic acid bacteria according to an embodiment of the present invention.

Referring to FIG. 6 , the server 100 may include a content management unit 110, a content driving unit 120, a data analysis unit 130, an offline relaying unit 140, and a reward providing unit 150.

The content management unit 110 may transmit content data for driving an application including content produced by virtual lactic acid bacteria to a user terminal.

In addition, the content management unit 110 receives user information associated with at least one of the user's learning level and the purpose of content participation from the user terminal 200, and transmits content data corresponding to the received user information to the user terminal 200. can provide

The content driving unit 120 may receive, from the user terminal 200, a user manipulation input associated with virtual lactic acid bacteria production content applied through an application run on the user terminal 200 based on the content data.

In addition, the content driver 120 may transmit production action result data corresponding to the received user manipulation input to the user terminal 200 .

In addition, the content driving unit 120 may update the production action result data based on the received state information of the actual lactic acid bacteria corresponding to the object 1 .

The data analyzer 130 may generate production action result data corresponding to the received user manipulation input.

In addition, if the generated prediction data does not meet a preset acceptance level, the data analyzer 130 may generate feedback data for a user manipulation input that causes the prediction data to meet the acceptance level.

The offline relay unit 140 transmits information on production behavior according to user manipulation input to the badge terminal 300 that controls the actual lactic acid bacteria production environment corresponding to the virtually produced object 1 through virtual lactic acid bacteria production contents. can

In addition, the offline relay unit 140 may transmit information on a production activity according to a corresponding user manipulation input to the badge terminal 300 when the generated prediction data meets a preset tolerance level. In addition, the offline relay unit 140 may receive state information of the actual lactic acid bacteria corresponding to the target object 1 from the badge terminal 300 .

The reward providing unit 150 may provide the user terminal 200 with reward information associated with virtual lactic acid bacteria production content based on production action result data. Specifically, the reward providing unit 150 calculates the user's achievement level according to the state of an object virtually produced through virtual lactic acid bacteria production contents based on the production action result data, and associates with the virtual lactic acid bacteria production contents according to the calculated achievement level. It is possible to create reward information including information on the offline product that has been produced.

Hereinafter, based on the details described above, the operation flow of the present application will be briefly reviewed.

7 is an operational flowchart for a method for providing virtual lactic acid bacteria production contents using a mobile game according to an embodiment of the present invention.

The method of providing virtual lactic acid bacteria production content using a mobile game shown in FIG. 7 may be performed by the virtual lactic acid bacteria production content providing system 10 described above. Therefore, even if the content is omitted below, the description of the virtual lactic acid bacteria production content providing system 10 can be equally applied to the description of the virtual lactic acid bacteria production content providing method using a mobile game.

Referring to FIG. 7 , in step S11 , the server 100 may transmit content data for driving an application including content produced by virtual lactic acid bacteria to the user terminal 200 .

Next, in step S12, the user terminal 200 may receive a user manipulation input for virtual lactic acid bacteria-produced content applied through an application running in the user terminal 200 based on the content data.

Next, in step S13, the server 100 may receive a user manipulation input from the user terminal 200 and generate prediction data related to the effect of the production action according to the received user manipulation input on the actual lactic acid bacteria.

Next, in step S14, the server 100 may generate production action result data corresponding to the user manipulation input in consideration of the predicted data.

Next, in step S15 , the server 100 may transmit the generated production activity result data to the user terminal 200 .

In the foregoing description, steps S11 to S15 may be further divided into additional steps or combined into fewer steps, depending on the implementation of the present application. Also, some steps may be omitted if necessary, and the order of steps may be changed.

The virtual lactic acid bacteria production content providing method using a mobile game according to an embodiment of the present application may be implemented in the form of program instructions that can be executed through various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the medium may be those specially designed and configured for the present invention or those known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. - includes hardware devices specially configured to store and execute program instructions, such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include high-level language codes that can be executed by a computer using an interpreter, as well as machine language codes such as those produced by a compiler. The hardware devices described above may be configured to act as one or more software modules to perform the operations of the present invention, and vice versa.

In addition, the above-described method for providing virtual lactic acid bacteria production contents using a mobile game may be implemented in the form of a computer program or application stored in a recording medium and executed by a computer.

The above description of the present application is for illustrative purposes, and those skilled in the art will understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present application. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present application is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof should be construed as being included in the scope of the present application.

10: Virtual lactobacillus production content provision system using mobile game
100: server
110: content management unit
120: content driving unit
130: data analysis unit
140: offline relay unit
150: Reward provision unit
200: user terminal
300: badge terminal
21: sensor
22: shooting device
20: network

Claims (8)

As a virtual lactic acid bacteria production content providing system using a mobile game,
a user terminal that receives content data for driving an application including virtual lactic acid bacteria production content, drives the application, and receives a user manipulation input for virtual lactic acid bacteria production; and
a server that provides the content data to the user terminal and transmits production activity result data corresponding to the user manipulation input received from the user terminal to the user terminal;
including,
The server,
Providing reward information associated with the production of the virtual lactic acid bacteria to the user terminal based on the production action result data;
The user manipulation input includes the type of strain corresponding to the subject virtually produced through the virtual lactic acid bacteria production content based on the production action result data, whether a preset component is included, input time, input period, input amount, identification, and spawn. A strain-related element, which is manipulation information on at least one of management and culture, a mixing-related element, which is manipulation information related to at least one of filtration, coating, raw material mixing, proliferation, and antibacterial activity associated with the subject, and corresponding to the subject or the subject Including environmental factors including operation information and freeze-drying operation information on ambient environmental parameters including at least one of temperature, humidity and illuminance of the medium in which the actual lactic acid group is located,
The server,
Based on the user's content participation purpose received through the user terminal, if the content participation purpose corresponds to a relatively high-level participation purpose including expert training, the strain-related element, the mixture-related element, and the environment-related element. If the number of items that can be manipulated through the user manipulation input is increased, and the purpose of participation in the content corresponds to the purpose of participation at a relatively low level including simple experience, the strain-related element, the mixture-related element, and To reduce the number of items operable through the user manipulation input for each of the environment-related elements, virtual lactic acid bacteria production content providing system. According to claim 1,
The server,
The virtual lactic acid bacteria producing contents providing system that calculates the user's achievement level according to the state of the object and generates the reward information according to the achievement level. According to claim 2,
The reward information includes information on an offline product associated with the production of the virtual lactic acid bacteria, a virtual lactic acid bacteria production content providing system. According to claim 3,
A badge terminal for receiving information on the production behavior according to the user manipulation input from the server and controlling the production environment of the actual lactic acid bacteria corresponding to the object;
Further comprising, virtual lactic acid bacteria production content providing system. According to claim 4,
The server,
Virtual lactic acid bacteria production content providing system, wherein prediction data related to the effect of the production action according to the user manipulation input on the actual lactic acid bacteria is generated, and the production action result data is generated in consideration of the prediction data. According to claim 5,
The server,
When the prediction data meets a preset tolerance level, the virtual lactic acid bacteria producing content providing system that transmits information on the production behavior according to the corresponding user manipulation input to the dispensing terminal. According to claim 4,
The server,
Receiving state information of the actual lactic acid bacteria from the badge terminal, and updating the production action result data based on the state information, virtual lactic acid bacteria production content providing system. A method for providing virtual lactic acid bacteria production contents using a mobile game performed by a server of a system for providing virtual lactic acid bacteria production contents using a mobile game,
Transmitting content data for driving an application containing virtual lactic acid bacteria production content to a user terminal;
Receiving, from the user terminal, a user manipulation input for producing virtual lactic acid bacteria applied on the application running on the user terminal based on the content data;
transmitting production activity result data corresponding to the received user manipulation input to the user terminal; and
Providing reward information associated with the virtual lactic acid bacteria production to the user terminal based on the production behavior result data;
including,
The user manipulation input includes the type of strain corresponding to the subject virtually produced through the virtual lactic acid bacteria production content based on the production action result data, whether a preset component is included, input time, input period, input amount, identification, and spawn. A strain-related element, which is manipulation information on at least one of management and culture, a mixing-related element, which is manipulation information related to at least one of filtration, coating, raw material mixing, proliferation, and antibacterial activity associated with the subject, and corresponding to the subject or the subject Including environmental factors including operation information and freeze-drying operation information on ambient environmental parameters including at least one of temperature, humidity and illuminance of the medium in which the actual lactic acid group is located,
Receiving the user manipulation input from the user terminal,
Based on the user's content participation purpose received through the user terminal, if the content participation purpose corresponds to a relatively high-level participation purpose including expert training, the strain-related element, the mixture-related element, and the environment-related element. If the number of items that can be manipulated through the user manipulation input is increased, and the purpose of participation in the content corresponds to the purpose of participation at a relatively low level including simple experience, the strain-related element, the mixture-related element, and and reducing the number of items operable through the user manipulation input for each of the environment-related elements.

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