KR20160008679A - The virtual racing system between indoor and outdoor users via location based application for smart device connected to indoor moving machine - Google Patents

Abstract

In the present invention, a motion path map is generated using a location-based smart device with respect to a moving section moved by an outdoor user during an actual life activity, such as driving and leisure activities, And to provide a virtual racing system capable of inducing an interest through a contention competition among unspecified users.
The system of the present invention provides a virtual racing service between the indoor and outdoor users by linking the movement path map of the user constructed outdoors through the location information based application of the smart device to the module installed in the smart device or the indoor exercise device.

Description

[0001] The present invention relates to a virtual racing system for indoor and outdoor users, and more particularly, to a virtual racing system for indoor and outdoor users,

The present invention relates to an indoor-outdoor user virtual racing providing system using a location-based application of a portable smart device.

More specifically, an application of a portable smart device is used to generate a motion path map in which a check point is set as a passing point with respect to a moving section of a user outside the room, and the generated motion path map is shared by an unspecified number of users indoors And to provide a racing service providing system that allows virtual racing through indoor sports equipment to add interesting elements and generate interest.

The present invention is not a method of providing racing at a same time among a plurality of users using a smart device, but a method of uploading a motion path map generated by a user to a motion path that has been moved outdoors through a location-based application to a server, The present invention relates to a system for providing a racing service in which indoor and outdoor users can perform virtual racing while moving the same route at different time zones.

With the development of Internet and mobile communication technologies and services, and the evolution of mobile communication terminals such as mobile phones and PDAs, location-based services (LBS) are emerging as the most promising new services through Internet. The location based service is a technology for accurately grasping the location of a person or an object using a mobile communication terminal and providing various additional information services related to the measured location. The location based service is a combination of mobile communication network technology, Internet technology, It is a technology that can be applied to various fields.

It is expected that this location-based service will be expanded from the center of personal information service to various types of supplementary service, and will be gradually expanded to the overall infrastructure of the country. It is expected that not only mobile communication service providers but also terminal manufacturers, application developers, content producers and providers The market for location-based services is expected to explode because it provides new business opportunities and sales to various types of operators.

The location-based service, which is gradually becoming more and more popular among the general public, provides a user location inquiry service, a friend search service, and a public transportation search service through a mobile location service using a GPS (Global Positioning System) And provides location information of a surrounding area or location information of a specific area. In addition, location-based services using IP are used not only in a wireless network but also in a wired network.

However, such a location-based service of the smart terminal merely generates interest of the user by providing various information and services based on only the location information of the specific area or the current location information of the user.

In addition, since the rapid diffusion of mobile communication terminals and the expansion of wireless Internet services using the mobile communication terminals have greatly promoted online games using the mobile communication terminals, an online game service based on the location information of mobile communication terminals Is required.

However, since the wireless Internet game service using the conventional mobile communication terminal only provides the game service in the virtual world regardless of the real world of the actual terminal user, the terminal user can easily There is a problem that it is difficult to provide motivation for using a stronger game service.

Thus, the patent document 10-2008-0077415 proposes a service system and a method for allowing a user of a mobile communication terminal to create a three-dimensional match map based on the surrounding environment of the real world rather than a virtual world, thereby enabling an online game.

More specifically, the location information is tracked on the basis of the location information of the mobile communication terminal, and three-dimensional map data And transmits the generated three-dimensional fighting map to the mobile communication terminal of each terminal user, thereby providing a competition game service.

However, even in the case of a multi-human game system using such a smart device, a large number of people in the scope of influence of the network through the location basis of the user of the smart device are playing an online game by calling a map related to the location information stored in the DB, , Which can generate a map in which a route is set by using a location-based smart device in a real life such as an activity (ski, board, hike, bicycle, mountaineering, etc.) There is no system.

In order to solve the above problems, the present invention provides a user-participating online racing system using a location-based service of a smart device.

In addition, a motion path map is generated using a location-based smart device with respect to a moving section moved by an outdoor user during real-life activities such as driving and leisure activities, And to provide a racing game providing system that can cause interest through unconstrained competition among the unspecified users.

It is another object of the present invention to provide a racing game providing system in which indoor and outdoor users are allowed to compete under similar conditions by controlling the indoor sports equipment reflecting the characteristics of the inclination of the motion path map generated for the user's moving route of the outdoor .

According to another aspect of the present invention, there is provided a system for providing an inter-user racing service using a smart device, the system comprising: a movement path map, which is installed in the smart device, A motion path generation module for generating a history of outdoor users in the map; A history storage server for storing a history of outdoor users with respect to the motion path map and the motion path map generated by the motion path generation module; A simulation module installed in the indoor sports equipment, the indoor user searching the record storage server to select and download the motion path map and the history of the outdoor user in the motion path map; And an indoor exercise device installed in the indoor exercise machine for communicating with the simulation module to control the inclination degree of the indoor exercise device or the load of the indoor exercise device according to the inclination of the movement path included in the movement path map selected in the simulation module, And an interface module configured to calculate a movement path in real time by applying the movement time and the movement distance of the indoor user to the selected movement path map and to compare and monitor the movement path with the history of the outdoor user selected in the simulation module. And a virtual racing provision system between indoor and outdoor users configured by linking a module of a location information based smart device and an indoor exercise device.

According to another aspect of the present invention, there is provided a system for providing an inter-user racing service using a smart device, the system comprising: a movement path map, which is installed in the smart device and measures a position and an inclination of a movement route of an outdoor user; A motion path generation module for generating recording information of outdoor users in the motion path map; A history storage server for storing a history of outdoor users with respect to the motion path map and the motion path map generated by the motion path generation module; A simulation module installed in the smart device, the indoor user searching the record storage server for selecting and downloading the motion path map and the history of the outdoor user in the motion path map; And a control unit installed in the smart device and communicating with the simulation module to control the inclination of the indoor exercise device or the load of the indoor exercise device according to the inclination of the movement path included in the movement path map selected in the simulation module, And an interface module configured to calculate movement paths in real time by applying movement time and movement distance of the indoor user to the selected movement path map and to monitor the movement path in comparison with the history of the outdoor user selected in the simulation module. The present invention provides a system for provision of a virtual racing between indoor and outdoor users constituted by linking a module of a location information-based smart device and an indoor exercise device.

The motion path generating module includes a position altitude measuring unit for measuring a position and an altitude of a moving path of an outdoor user using a location-based device built in a smart device; An inclination measuring unit for extracting an inclination through a change amount of the altitude measured by the position altitude measuring unit; A path generation unit for generating a movement path map in which the position and inclination of the movement path of the outdoor user are measured using the data of the position altitude measurement unit and the incline measurement unit and a history of outdoor users in the movement path map; And a server communication unit for transmitting the movement path map generated by the path generation unit and the history of outdoor users in the movement path map to the recording and storing server.

Wherein the simulation module includes a route search unit configured to search for and select an exercise path map stored in the record storage server by an indoor user; A contestant data search unit configured to search for a history of outdoor users in a motion path map found in the path search unit and select the contestant as a contestant of an indoor user; A server communication unit for downloading a history of the selected path map and the selected path map of the outdoor user selected by the path searching unit and the competitor data searching unit from the recording and storing server; And a data communication unit for transmitting and receiving data to and from the outside.

Wherein the interface module includes: a data communication unit for communicating information with the simulation module; An inclination extracting unit for extracting an inclination of the movement path from the motion path map received through the data communication unit; A movement state generation unit for generating a real time movement state while calculating a virtual position on a movement path map of an indoor user in real time by substituting movement time and movement distance of an indoor user transmitted from the indoor sports equipment into the movement path map; An indoor exercise device control unit for controlling the inclination degree of the indoor exercise device or the load of the indoor exercise device according to the inclination extracted by the inclination extracting unit with respect to the virtual position of the indoor user calculated in real time by the virtual position calculating unit; A competitor data execution unit for executing a history of the outdoor user selected in the movement path map in accordance with the operation of the indoor sports equipment; A monitoring unit for displaying the real-time movement status of the indoor user transmitted in the movement status generation unit and the history of the outdoor user transmitted from the competitor data execution unit together in the movement path map; And a ranking output unit for comparing the history of the indoor user's real time movement in the movement status generating unit with the history of the outdoor user transmitted from the competitor data execution unit and calculating the ranking and displaying the ranking to the monitoring unit .

The following effects can be achieved through the indoor-outdoor user virtual racing provision system constructed by linking the module of the location information-based smart device and the indoor sports equipment of the present invention.

First, the system of the present invention provides a virtual racing service between indoor and outdoor users by linking a motion path map of a user constructed outdoors through an application program based on a location information of a smart device to an indoor exercise device.

Second, the system of the present invention controls the indoor sports equipment by reflecting the characteristics of the inclination of the motion path map of the outdoor user so that the indoor and outdoor sports users can compete under similar conditions for recording, thereby providing motivation for interest and exercise And provide a virtual racing service that can be triggered.

Third, the system of the present invention assigns the motion state information of the indoor user transmitted from the indoor exercise device to the motion path map to calculate the virtual position of the indoor user, and outputs the movement path to be displayed on the screen together with the history of the competitor Thereby providing a virtual racing service associated with indoor sports equipment.

1 is a schematic diagram of a system of the present invention.
2 is an internal configuration diagram of the system of the present invention.
3 is a module configuration diagram of a system according to an embodiment of the present invention.
4 is a module configuration diagram of a system according to a second embodiment of the present invention.
5 is a use state diagram of a system according to an embodiment of the present invention.

Hereinafter, an indoor-outdoor user virtual racing provision system constructed by linking a module of a location-based smart device and an indoor exercise device according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a system of the present invention.

Referring to FIG. 1, a user performs a running or cycling exercise using a smart device outdoors. At this time, a location-based application installed in the smart device is transmitted to a user through a location-based device such as a GPS A history of the outdoor user with respect to the exercise path map and the exercise path map is generated and stored in the recording and storing server.

In addition, the smart device is provided with a module that can be directly connected to the recording and storing server, and the smart device is configured to be connected to an indoor exercise device through a gender for connection.

When a user runs a running or cycling exercise in a running machine or an indoor bicycle which is an indoor exercise machine associated with a module of the smart device indoors, A desired motion path map and competitor data are selected from the history data of various outdoor users in the map and downloaded to the smart device so that the indoor user competes with the outdoor user in a virtual racing competition on the same route.

At this time, the module of the smart device controls the inclination degree of the indoor exercise device or the load of the abdominal wall in consideration of the inclination of the movement path map, so that the exercise path is the same condition as possible for the indoor / outdoor user.

In addition, the module of the smart device receives the current exercise state, exercise time, movement distance, exercise amount, speed, etc. of the indoor user from the indoor exercise equipment controlled as described above, And the real time moving state of the indoor user is configured to be displayed together with the history of the outdoor user selected as the competitor.

Of course, the indoor exercise device itself may be provided with a module that can be directly connected to the recording and storing server without using the smart device.

2 is an internal configuration diagram of a system according to an embodiment of the present invention. Referring to FIG. 1, the smart device of the system of the present invention includes a motion path generating module 100 for generating a motion path map in which a position and an inclination of a moving path of an outdoor user are measured, and a history of outdoor users in the motion path map Respectively.

The exercise path generation module 100 is a location-based application that is downloaded and executed to a smart device through an application store or the like.

In addition, the system of the present invention includes a recording and storing server 200 in which a motion path map generated by the motion path generating module 100 and a history of outdoor users with respect to the motion path map are stored through a network.

The movement path map generated by the movement path generation module 100 is configured to measure the position and inclination of the movement path of the outdoor user. The history of the outdoor users with respect to the movement path map includes the time required for the movement path, And a racing video.

The record storage server 200 is further provided with a motion path map D / B 310 storing a motion path map generated by the motion path generation module 100 and an outdoor user history D / B 320 is constructed.

The motion path generation module 100 is installed in the smart device of the user and when the user moves outdoors in a running or cycling environment, The movement path is grasped and a motion path map is generated.

In addition, the system of the present invention includes a simulation module 300 installed in an indoor exercise machine such as a running machine or an indoor bicycle. An indoor user searches the record storage server 200, And selects and downloads the history of the outdoor user from the server.

In addition, the system of the present invention includes an interface module (400) installed in the indoor sports equipment, and communicates with the simulation module (300) And controls the exercise machine.

In other words, the interface module 400 controls the inclination in the case of the running machine according to the inclination of the movement path included in the motion path map selected in the simulation module 300, Respectively.

In addition, the interface module 400 may calculate movement path in real time by applying the movement time and the movement distance of the indoor user, which is transmitted from the indoor exercise device in which the inclination degree or the load of the abdomen is controlled, to the selected movement path map, And to monitor the comparison with the history of the selected outdoor user in the simulation module.

Hereinafter, the internal configuration of the system of the present invention will be described in more detail.

The motion path generation module 100 includes a position altitude measurement unit 110 for measuring the position and altitude of the movement path of the outdoor user by using a location-based device built in the smart device.

In addition, the motion path generating module 100 includes an inclination measuring unit 120 for extracting an inclination through the altitude change amount measured by the position altitude measuring unit 110.

The inclination measuring unit 120 extracts the inclination of the position-based device such as GPS by using the altitude variation measured by the position altitude measuring unit 110, However, it is preferable to use a method of obtaining deviation from the data of the location-based apparatus after the data of the location-based apparatus is generated, or a method of extracting the regular inclination by generalizing the data by using the interpolation method if the unexpected instantaneous data is frequently generated .

The motion path generation module 100 is also provided with a movement path map and a movement path map of the outdoor user using the data of the position altitude measurement unit 110 and the tilt degree measurement unit 120, A route generating unit 130 is configured to generate a history of outdoor users in the map.

The path generating unit 130 generates a motion path map by matching the movement path according to the time of the outdoor user on the map data while comparing the map data provided in the motion path generating module 100, And generates a history including an elapsed time and ranking of the outdoor user with respect to the movement path of the exercise path map and a racing video.

In addition, the motion path generation module 100 includes a server communication unit 140 that transmits the motion path map generated by the path generation unit and the history of outdoor users in the motion path map to the recording and storing server 200 do.

The simulation module 300 includes a path search unit 320 configured to search for and select an exercise path map stored in the record storage server 200 by an indoor user.

Also, the simulation module 300 searches the history of various outdoor users who have generated the history by using the motion path map found in the path search unit 320, and searches for the competitor data (330).

The simulation module 300 is also connected to a server communication unit 300 for downloading a route map of the outdoor user selected by the route search unit 320 and the competitor data search unit 330 and a history of the selected route map from the record / (310) and a data communication unit (340) for transmitting / receiving data to / from the outside.

The interface module 400 includes a data communication unit 410 for exchanging information while communicating with the simulation module 300 and an inclination extracting unit for extracting an inclination of the movement path from the motion path map received through the data communication unit 410 420).

In the interface module 400, a movement time and a movement distance of an indoor user transmitted from the indoor exercise device are substituted into the movement path map to calculate a virtual position on the movement path map of the indoor user in real time, The status generating unit 440 is configured.

The motion-state generating unit 440 simulates the current virtual position while substituting the moving distance of the indoor user into the motion-path map.

In addition, the interface module 400 may be provided with a virtual position calculator 440 for calculating a virtual position of the indoor user calculated in real time based on the inclination of the indoor exercise device or the load And an indoor exercise device control unit 430 for controlling the degree of the indoor exercise device.

Therefore, the indoor exercise device controller 430 applies the slope of the movement path on the motion path map extracted by the slope extraction unit 420 to the virtual position of the indoor user calculated in real time in the virtual position calculation unit 440 The inclination of the indoor sports equipment or the load of the moorings is automatically controlled.

In addition, the interface module 400 includes a competitor data execution unit 450 that executes a history of the outdoor user selected in the exercise path map in accordance with the operation of the indoor exercise equipment. The competitor data execution unit 450 is driven in accordance with the operation (ON / OFF) of the indoor exercise equipment used by the indoor user, and executes the history of the outdoor user selected in the exercise route map.

In addition, the interface module 400 receives the real-time movement status of the indoor user transmitted from the movement status generation unit 440 and the history of the outdoor user transmitted from the competitor data execution unit 450, And a monitoring unit 460 for displaying is configured. That is, the monitoring unit 460 performs an interface function in which the movement status of the indoor / outdoor user is simultaneously displayed on the selected movement path map.

The monitoring unit 460 may include a self-screen for displaying racing between indoor and outdoor users in the movement path map, or may be connected to a screen output unit of an indoor exercise device or a smart device so as to be displayed on a screen of an indoor exercise device or a smart device. May be provided.

In addition, the interface module 400 compares the real-time movement status of the indoor user transmitted from the movement status generation unit 440 with the history of the outdoor users transmitted from the competitor data execution unit 450, And a ranking output unit 470 for displaying the ranking information to the monitoring unit 460.

Accordingly, the monitoring unit 460 displays the racing among the indoor and outdoor users together with the ranking in the selected movement path map.

FIG. 3 is a module configuration diagram of a system according to an embodiment of the present invention, and FIG. 4 is a module configuration diagram of a system according to a second embodiment of the present invention.

As shown, the simulation module 300 and the interface module 400 may be installed in an indoor exercise device as described above, and may be integrated with a location-based application together with the motion path generation module 100, As shown in Fig.

5 is a use state diagram of a system according to an embodiment of the present invention.

A method of generating a route map of an outdoor user through the route generation module 100 and a route of outdoor users in the route map will be described with reference to the drawings.

The location-based application including the exercise path generation module 100 is downloaded and executed to the smart device through an application store or the like, and the smart device is operated by using a variety of moving means such as a walk, ski, board, Outdoor users who are in charge of

When the outdoor user who owns the smart device executed the motion path generation module 100 moves, the motion path generation module 100 generates the motion path based on the current position and the motion path, which are calculated through the GPS or the gyro sensor of the smart device, The movement path map is generated by matching the movement route of the outdoor user with the time on the map data while comparing the map data provided in the generation module 100. [

The motion path map generated by the motion path generation module 100 is stored in the motion path map D / B 210 of the record storage server 200.

More specifically, with respect to a moving route in which an outdoor user holding a smart device outdoors performs various activities using a moving means such as a walk, a ski, a board, and a vehicle, the moving route generating module 100 The current position of the smart device is matched on the map data while comparing the current position calculated through the position-based device such as the GPS device of the smart device or the gyro sensor and the map data provided in the motion path generation module 100, .

In addition, when the smart device executed by the motion path generation module 100 moves, a check point is set for an arbitrary passing point.

The checkpoint may be set directly by the outdoor user having the smart device while the mobile device is moving, but it is preferable that the checkpoint is automatically set at a predetermined time interval with respect to the via point during the movement of the smart device through the exercise path generating module 100 A checkpoint is set.

In addition, the movement path generation module 100 is configured such that the range of the check point includes a predetermined radius range around a point of passage via the user during the movement.

A motion path map in which a check point for the user's movement path is set is generated through the motion path generation module 100 and stored in the motion path map D / B 210 of the recording and storing server 200.

The motion path map stored in the motion path map D / B 210 of the recording and storing server 200 is used by the motion path generation module 100 for an unspecified number of persons exercising in the outdoor using the downloaded smart device .

More specifically, a plurality of unspecified people outdoors outdoors download the motion path map through the motion path generation module 100 installed in the smart device, and perform racing along the motion path formed in the motion path map.

In the course of racing, when the check point is set to the check point set in the movement path map, the check point set through the movement path generation module 100 is checked in advance, and a notification message may be displayed or a notification sound may be displayed.

If the outdoor user completes the racing process while the smart device passes through all the check points set in the movement path map, the history including the time required for the movement path of the movement path map, the ranking, and the racing video, Is uploaded and stored in the outdoor user history D / B (220) of the server (200).

Next, when running or cycling is performed by a running machine or an indoor bicycle which is an indoor exercise machine, an indoor user sets various exercise path maps existing in the recording and storing server and history data of various outdoor users in the exercise path map The user can directly download the desired exercise path map and competitor data to the smart device or the indoor exercise device associated with the indoor exercise device, so that the indoor user competes with the outdoor user in a virtual racing competition on the same route.

At this time, the indoor sports equipment is configured such that the inclination degree or the load of the observer is controlled in consideration of the inclination of the motion path map, and the motion path is the same condition as possible for the indoor / outdoor user.

The simulation module installed in the smart device or the indoor exercise device of the indoor user receives the current exercise state, exercise time, movement distance, exercise amount, speed, etc. of the indoor user from the indoor exercise device in which the inclination degree is controlled, And the real time moving state of the indoor user is displayed on the screen together with the history of the outdoor user selected as the competitor.

While the preferred embodiments of the present invention have been disclosed for illustrative purposes, those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims.

100: motion path generation module 110: position altitude measurement unit
120: tilt measuring unit 130: path generating unit
140: Server communication section
200: record storage server 210: motion path map D / B
220: Outdoor user history D / B
300: simulation module 310: server communication unit
320: Path search unit 330: Competitor data search unit
400: Interface module 410: Data communication part
420: slope extracting unit 430: indoor exercise machine control unit
440: Exercise Situation Generation Unit 450: Competitor Data Execution Unit
460: Monitoring section 470: Rank output section

Claims (5)

A system for providing a user-to-user racing service using a smart device,
A motion path generation module installed in the smart device to generate a motion path map in which the position and inclination of the motion path of the outdoor user are measured and a history of outdoor users in the motion path map;
A history storage server for storing a history of outdoor users with respect to the motion path map and the motion path map generated by the motion path generation module;
A simulation module installed in the indoor sports equipment, the indoor user searching the record storage server to select and download the motion path map and the history of the outdoor user in the motion path map; And
The indoor exercise device is installed in the indoor exercise device and communicates with the simulation module to transmit the indoor exercise device while controlling the degree of inclination or the load of the indoor exercise device according to the inclination of the movement path included in the movement path map selected in the simulation module And an interface module configured to calculate movement paths in real time by applying movement time and movement distance of the indoor user to the selected movement path map and to monitor the movement path in comparison with the history of the outdoor user selected in the simulation module. A Virtual Racing Provision System Between Indoor and Outdoor Users Consisting of a Module of Location Information Based Smart Device and Indoor Sports Equipment. A system for providing a user-to-user racing service using a smart device,
A motion path generation module installed in the smart device and generating a motion path map in which the position and inclination of the motion path of the outdoor user are measured and recording information of outdoor users in the motion path map;
A history storage server for storing a history of outdoor users with respect to the motion path map and the motion path map generated by the motion path generation module;
A simulation module installed in the smart device, the indoor user searching the record storage server for selecting and downloading the motion path map and the history of the outdoor user in the motion path map; And
The simulation module is installed in the smart device and communicates with the simulation module to control the degree of inclination or load of the indoor exercise device according to the inclination of the movement path included in the movement path map selected in the simulation module, And an interface module configured to calculate movement path in real time by applying the user's movement time and movement distance to the selected movement path map and to monitor the movement path in comparison with the history of the outdoor user selected in the simulation module. A virtual racing provision system between indoor and outdoor users that is composed of a module of information - based smart device and indoor sports equipment. 3. The method according to claim 1 or 2,
A position altitude measuring unit for measuring the position and altitude of the route of the outdoor user using the location-based device built in the smart device;
An inclination measuring unit for extracting an inclination through a change amount of the altitude measured by the position altitude measuring unit;
A path generation unit for generating a movement path map in which the position and inclination of the movement path of the outdoor user are measured using the data of the position altitude measurement unit and the incline measurement unit and a history of outdoor users in the movement path map; And
And a server communication unit for transmitting the movement path map generated by the path generation unit and the history of outdoor users in the movement path map to the recording and storing server. This system provides virtual racing between indoor and outdoor users. 3. The method according to claim 1 or 2,
A route search unit configured to search for and select an exercise path map stored in the record storage server by an indoor user;
A contestant data search unit configured to search for a history of outdoor users in a motion path map found in the path search unit and select the contestant as a contestant of an indoor user;
A server communication unit for downloading a history of the selected path map and the selected path map of the outdoor user selected by the path searching unit and the competitor data searching unit from the recording and storing server; And
And a data communication unit for transmitting and receiving data to and from the outside. The indoor-outdoor user virtual racing providing system is constructed by linking a module of a location-based smart device with an indoor exercise device. The communication system according to claim 1 or 2,
A data communication unit for exchanging information while communicating with the simulation module;
An inclination extracting unit for extracting an inclination of the movement path from the motion path map received through the data communication unit;
A movement state generation unit for generating a real time movement state while calculating a virtual position on a movement path map of an indoor user in real time by substituting movement time and movement distance of an indoor user transmitted from the indoor sports equipment into the movement path map;
An indoor exercise device control unit for controlling the inclination degree of the indoor exercise device or the load of the indoor exercise device according to the inclination extracted by the inclination extracting unit with respect to the virtual position of the indoor user calculated in real time by the virtual position calculating unit;
A competitor data execution unit for executing a history of the outdoor user selected in the movement path map in accordance with the operation of the indoor sports equipment;
A monitoring unit for displaying the real-time movement status of the indoor user transmitted in the movement status generation unit and the history of the outdoor user transmitted from the competitor data execution unit together in the movement path map; And
And a ranking output unit for comparing the history of the indoor user's real-time movement in the movement status generation unit with the history of the outdoor user transmitted from the competitor data execution unit, and calculating the ranking and displaying the ranking with the monitoring unit Which is composed of a module of smart device based on location information and indoor sports equipment.

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