KR20230030083A - Dynamically designated path guidance method and system for continuous flow of multiple users utilizing location based mobile technologies - Google Patents

Abstract

The present invention relates to a dynamically designated path guidance method and system for multiple users in a continuous flow utilizing location-based mobile technologies. More specifically, provided are a method and a system for providing points containing a designated path and designated task items, and preventing users and user groups from crowding and overlapping in a situation where multiple users and user groups enter simultaneously or in arbitrary order and proceed and complete task items at designated points along the designated path. According to the present invention, provided are a method and a system for guiding the path of the continuous flow of multiple users and user groups in real time using a mobile system on a performance path of events participated in by multiple users and user groups to prevent deviation from a designated path, and guiding the detour of the path if a congested path or point is approached, to enable all the users and all the user groups to complete the task items smoothly while maintaining an appropriate moving velocity and minimizing waiting time.

Description

Dynamically designated path guidance method and system for continuous flow of multiple users utilizing location based mobile technologies}

The present invention relates to a method and system for deriving a designated path in a continuous flow of multiple users using a location-based mobile technology, and more particularly, to a method and system for deriving a designated path including a designated route and designated actions, and providing multiple users and user groups. It relates to a method and system for preventing crowding and overlapping between users and user groups in a situation in which tasks are performed and completed at designated points along a corresponding designated route by entering simultaneously or in a random order.

Conventionally, in an event in which multiple users and user groups enter simultaneously or in random order to proceed and complete tasks at designated points along a designated route, it is difficult to coordinate movement between users or user groups. There were frequent cases in which users or groups of users were unable to complete the tasks due to difficulty in concentrating on one point, causing confusion, or failing to reach the point because they could not find the exact route. There was a problem that made it difficult to achieve the intended purpose of

KR 10-2020-0057212 A

The present invention has been devised to solve such a problem, and in a multi-user and user group participation type event execution path, by using a mobile system for a continuous flow of multiple users and user groups in real time, by guiding a path using a mobile system, When approaching a congested route or point, it induces a detour of the route so that all users and user groups can smoothly complete the tasks while maintaining an appropriate movement speed and minimizing waiting time. Its purpose is to provide a method and system that enables

In order to achieve the above object, a method in which a user's mobile device (hereinafter referred to as 'user device') according to the present invention communicates with multiple users in a continuous flow using location-based mobile technology and guides the user to a specified path , (a) starting to collect real-time location information of the user device and record the location information collection time (hereinafter referred to as 'timestamp') when entering a course for the first time; (b) receiving information on a point in the course and a designated route from a central server; (c) starting real-time transmission of real-time location information of the user device, corresponding timestamp information, and performance information at each point to mobile devices of other users who have entered the course (hereinafter referred to as 'other user devices'). ; (d) starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point from the other user devices; (e) leading the user to a point to proceed in the course; And, (f) if the movement to the point to proceed is completed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, to step (e) Include steps to proceed.

The information received in step (b) may further include information about actions to be performed at each point on the course.

Between the steps (d) and (e), a step of starting real-time calculation of a performance speed index representing the user's spot performance speed and the user's moving speed may be further included.

The step (e) includes: (e1) determining the state of the next point to which the user will move on the route specified in the course, based on real-time location information and corresponding timestamp information received from the other user devices; (e2) if the next point is empty, showing the user a route to move to and inducing movement to the corresponding route; and (e3) if the next point is not empty, suspending the user's movement, or inducing the user's movement by creating a new course to a point next to the next point or to another point that can be substituted. can include

The step (e3) may include (e31) calculating an expected moving time to the next point of the user when the next point is not empty; (e32) Calculating a performance speed index of the user at the next point from real-time location information received from the user at the next point (hereinafter referred to as 'user at the next point'), corresponding timestamp information, and performance information at each point ; (e33) If the performance speed index of step (e32) is greater than the expected movement time of (e31), a course is newly created to the next point of the next point or to another point that can be substituted to induce the user to move doing; and (e34) suspending the movement of the user when the performance speed index of the step (e32) is equal to or less than the expected movement time of the step (e31).

In the step (e34), when the performance speed index of the step (e32) is equal to or less than the expected movement time of the step (e31), information informing of the user's movement is delivered to the next point to induce faster execution, or A step of inducing removal of the action may be further included.

According to another aspect of the present invention, at least one device used by a user (hereinafter referred to as 'user device') is used to communicate with multiple users in a continuous flow using location-based mobile technology and guide the user to a specified path. of the processor; and at least one memory storing computer-executable instructions, wherein the computer-executable instructions stored in the at least one memory are, by the at least one processor, (a) upon entering an initial course; starting to collect real-time location information of the user device and to record the location information collection time (hereinafter referred to as 'timestamp'); (b) receiving information on a point in the course and a designated route from a central server; (c) starting real-time transmission of real-time location information of the user device, corresponding timestamp information, and performance information at each point to mobile devices of other users who have entered the course (hereinafter referred to as 'other user devices'). ; (d) starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point from the other user devices; (e) leading the user to a point to proceed in the course; And, (f) if the movement to the point to proceed is completed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, to step (e) Let the steps in progress run.

According to another aspect of the present invention, a computer program for communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path is stored in a non-transitory storage medium, and by a processor, (a ) starting to collect real-time location information of the user device and record the corresponding location information collection time (hereinafter referred to as 'timestamp') when entering a course for the first time; (b) receiving information on a point in the course and a designated route from a central server; (c) starting real-time transmission of real-time location information of the user device, corresponding timestamp information, and performance information at each point to mobile devices of other users who have entered the course (hereinafter referred to as 'other user devices'). ; (d) starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point from the other user devices; (e) leading the user to a point to proceed in the course; And, (f) if the movement to the point to proceed is completed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, to step (e) Contains instructions that cause the proceeding steps to be executed.

According to another aspect of the present invention, a method in which a central server communicates with multiple users in a continuous flow using location-based mobile technology and guides each user to a designated path includes: (a) user mobile devices that have entered the course; starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point transmitted from the mobile device; (b) determining whether each user's location is within the range of the route, and if out of the range of the route, notifying the user's device to return to the route and providing a return route; (c) leading each user to a point to proceed in the course; and (d) when the movement to the point to proceed is completed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, the step (b) is performed. Include steps to proceed.

Between steps (b) and (c), (b1) proceeding to step (c) when a specific user is moving; and, (b2) if the user is not moving, if the task is being performed, proceeds to step (c) after receiving an execution completion notification at the corresponding point from the user's device, and if not, The method may further include giving a notification to the user's device to move on the route and proceeding to step (c).

Prior to the step (c), a step of starting real-time calculation of a performance speed index representing a point performance speed of each user and a moving speed of the user may be further included.

The step (c) includes: (c1) determining the state of the next point to which a specific user will move on the route specified in the course based on real-time location information and corresponding timestamp information received from user devices; (c2) if the next point is empty, showing the user a path to move to and inducing movement to the corresponding path; and (c3) if the next point is not empty, suspending the user's movement, or inducing the user's movement by creating a new course to a point next to the next point or another point that can be substituted. can include

The step (c3) may include: (c31) calculating an expected moving time to the next point of the user when the next point is not empty; (c32) Calculating the performance speed index of the user at the next point from real-time location information received from the user at the next point (hereinafter referred to as 'user at the next point'), corresponding timestamp information, and performance information at each point ; (c33) If the performance speed index in step (c32) is greater than the expected movement time in (c31), a course is newly created to the next point of the next point or to another point that can be substituted to induce the user to move doing; and (c34) if the performance speed index of step (c32) is equal to or less than the expected movement time of (c31), stopping the movement of the user.

In the step (c34), when the performance speed index of the step (c32) is equal to or less than the expected movement time in (c31), information notifying the user's movement is delivered to the next point to induce faster performance, or A step of inducing removal of the action may be further included.

According to another aspect of the present invention, a server (hereinafter referred to as a 'central server') for communicating with multiple users in a continuous flow using location-based mobile technology and inducing each user to a specified path includes at least one processor; and at least one memory for storing computer-executable instructions, wherein the computer-executable instructions stored in the at least one memory are, by the at least one processor, a user mobile device that has entered a course starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point transmitted from the mobile device; (b) determining whether each user's location is within the range of the route, and if out of the range of the route, notifying the user's device to return to the route and providing a return route; (c) leading each user to a point to proceed in the course; and (d) when the movement to the point to proceed is completed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, the step (b) is performed. Let the steps in progress run.

According to another aspect of the present invention, a computer program for communicating with multiple users in a continuous flow using location-based mobile technology and inducing each user to a specified path is stored in a non-temporary storage medium, and by a processor, ( a) starting real-time reception of real-time location information, corresponding timestamp information, and performance information at each point transmitted from user mobile devices that have entered the course; (b) determining whether each user's location is within the range of the route, and if out of the range of the route, notifying the user's device to return to the route and providing a return route; (c) leading each user to a point to proceed in the course; and (d) when the movement to the point to proceed is completed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, the step (b) is performed. Contains instructions that cause the proceeding steps to be executed.

According to the present invention, in a multi-user and user group-participatory event execution path, by using a mobile system to map a path for a continuous flow of multiple users and user groups in real time, deviation from a designated path is prevented, and dense To provide a method and system that induces a detour of a route when approaching a route or a point, so that all users and user groups can smoothly complete tasks while maintaining an appropriate movement speed and minimizing waiting time. It works.

1 is a diagram showing a network configuration for providing a method for deriving a designated flexible route for multiple users in a continuous flow using location-based mobile technology according to the present invention.
FIG. 2 is a flow chart for providing a method for deriving a designated flexible route for multiple users in a continuous flow using a location-based mobile technology according to the present invention through communication between users.
3 is a flow chart for providing a method for deriving a designated flexible route for multiple users in a continuous flow using a location-based mobile technology according to the present invention under the control of a central server.
4 is a diagram showing an embodiment of a process of deriving a designated flexible route for multiple users in a continuous flow using a location-based mobile technology according to the present invention.
5 is a diagram showing another embodiment of a process of deriving a designated flexible route for multiple users in a continuous flow using a location-based mobile technology according to the present invention.
6 is a diagram showing another embodiment of a process of deriving a designated flexible route for multiple users in a continuous flow using a location-based mobile technology according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, the terms or words used in this specification and claims should not be construed as being limited to the usual or dictionary meaning, and the inventor appropriately uses the concept of the term in order to explain his/her invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. Therefore, since the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent all of the technical ideas of the present invention, various alternatives may be used at the time of this application. It should be understood that there may be equivalents and variations.

1 is a diagram showing a network configuration for providing a method for deriving a designated flexible route for multiple users in a continuous flow using location-based mobile technology according to the present invention.

Multiple users or groups of users (11, 12, 13, hereinafter referred to as 'users'). In addition, user reference numbers (11, 12, 13, etc.) are for convenience and, if necessary, users and users. It is decided to mix and use the devices owned by the user, and the names of 'user' and 'user device' will also be used interchangeably as needed.) I have a course with a flow/stream. One or more paths are designated in such a course, and each path includes one or more points, each containing one or more actions that the user must perform.

Each user proceeds with the course with electronic devices 11, 12, 13 such as mobile devices such as smartphones and tablets capable of communication, or specially manufactured mobile devices, or communicates with each point of the course. Electronic devices such as bars may be disposed.

Each of the electronic devices 11, 12, and 13 includes hardware and software capable of location information satellite systems such as GPS and GLONASS, mobile communication, wireless LAN, and short-range communication systems such as NFC and Bluetooth. Each of the electronic devices 11, 12, and 13 has a function corresponding to a system using satellites 300 such as GPS and GLONASS for acquiring location information, and additionally uses a mobile communication base station or wireless LAN 100 to Acquire location information.

Each of the electronic devices 11, 12, and 13 can communicate with the service central server 200 capable of controlling course progress through access to a mobile communication base station or wireless LAN 100, and through this, each central server 200 can communicate with the user It is possible to provide changes, etc. by providing route and point information to the devices (11, 12, 13), and additionally data backup is possible.

If access to the mobile communication base station or the wireless LAN 100 is not possible, the course progresses while the devices 11, 12, and 13 of each user exchange information using the communication system between devices without the control of the central server 200. possible. Information sharing between the devices 11, 12, and 13 is possible using a mobile communication base station, a wireless LAN 100, or a short-distance communication system. It includes hardware and software capable of accessing various systems with redundancy so that information can be shared between devices through access to another communication system when access to one communication system becomes unavailable.

2 is a flowchart of an embodiment in which each user 11, 12, and 13 completes a task to be performed at each point (hereinafter referred to as 'to be performed') while exchanging information through mutual communication and proceeds with a course. 3 shows an embodiment in which the users 11, 12, and 13 complete the performance of each branch and proceed with the course through a method in which the central server 200 controls each user 11, 12, and 13. It is a flow chart. Hereinafter, the process of the embodiment will be described with reference to each drawing.

2 is a flowchart illustrating a method for deriving a designated flexible route for multiple users in a continuous flow using a location-based mobile technology according to the present invention through communication between users.

When a new user enters the course (S201), location information is continuously acquired in real time from the user's device, the location information collection time (hereinafter referred to as 'timestamp') is recorded (S202), and movement Through access to the communication base station or the wireless LAN 100, the central server 200 receives information on the point of the corresponding course, action items, designated route, and designated route boundary range (S203). If access to the mobile communication base station or wireless LAN, etc. 100 is impossible, it is desirable to receive the corresponding information in advance before entering the course.

In addition, among all the users 11, 12, and 13 who are proceeding the course, the location record information recorded by each user in step S202 and the performance information data at each point are transmitted in real time through a mobile communication base station, wireless LAN, etc. 100 Reception and transmission are started, or reception and transmission are started between users 11, 12, and 13 in real time using a short-distance communication means (S204).

From the moment of acquiring the first two location information after entering the course to the end of the course, calculations related to the user's performance speed index and movement speed are started in the device and shared with all other users (S205). Here, the performance speed index may mean, for example, an average point completion time to be described later. The average point completion time is the average value of the execution completion time at one point for all points where all tasks have been performed at that point so far.

When two or more pieces of location information are acquired, at the first point on the route, that is, at the point following the point where the user (user 1) is located, the information of all users acquired through sharing whether or not other users are performing actions. Query and confirm (S206).

That is, if the next point is empty, the device 11 of User 1, the corresponding user, induces movement to that point by displaying and showing the route to that point to User 1 (S207).

If user 2 (12) is present at the next point, user 1 device 11 determines, from the information received from user 2 device 12, the performance speed index of user 2, for example, the average point completion time If it is greater than the expected travel time of user 1 calculated by user 1 device 11 (S208), it is determined that it will take a long time for user 2 (12) to perform the task, and it is determined that it will take a long time to move to the next point where user 2 is, or A new course is created at another point that can be replaced, and the user 1 is shown it on a display or the like, and the user 1 is guided to move to that point (S209).

Alternatively, if the performance speed index of user 2, for example, the average point completion time is less than the expected moving time of user 1 calculated by the user 1 device 11 (S208), the user 1 device induces user 1 to suspend movement, Information on user 1 may be delivered to user 2, who is performing earlier, and may be induced to perform more quickly or to remove the action (S210).

In these cases, various information and guidance messages can be displayed in the form of notifications through each user's device, and as an induction method, a notification message is displayed, actions not performed at that point are removed or summarized, and points are added and deducted. can be applied. The judgment may be reversed or changed by repeatedly performing this judgment process until the last point on the route is completed.

The formulas for calculating the performance speed index as described above, that is, for example, the average point completion time, the expected travel time to the next point, the moving speed, etc., and the notation of each variable included in the formula are summarized as follows.

d _{All-end point - Last point} : The straight line distance between the position of the last point and the previous point or the distance traveled on the course (calculate the straight line distance between x, y, z coordinates)

d _{To the next point} : the straight line distance from the current position to the next point or the distance traveled on the course (calculate the straight line distance between x, y, z coordinates)

t _{Last point} : execution completion time of the last execution completion point

t _{all point} : execution completion time of the previous point

t _a,start : start time of the first action at point a

t _a,completion : Completion time of the first action of point a

t _{a, criterion} : the specified reference time to complete all actions at point a

n _Execution : The number of points completed so far

n _a : number of actions at point a

_Point r: Movement speed between the last point and the point before it:

r _Average : Average movement speed so far:

Estimated travel time to:

Average task completion time at point a:

Average point completion time to the point where execution was completed (execution speed index):

Performance ranking index at point a:

Average performance ranking index up to the point where performance was completed:

Overall performance ranking index up to the point where the performance was completed:

For the average or total performance ranking index, a value close to 100 is output if the performance is completed faster than the standard time specified for the branch, and a value close to -∞ (minus infinity) is output if the performance is completed slowly. Through this index value, it is possible to assign rankings to users.

FIG. 3 is a flow chart for providing a method for deriving a designated flexible path for multiple users in a continuous flow using location-based mobile technology according to the present invention under the control of the central server 200. Referring to FIG.

In the case of the control center of the central server 200, all users 10 transmit and receive data with the central server 200 through a communication network or a wireless Internet network.

First, the central server 200 starts receiving real-time location information, corresponding timestamp information, and performance information at each point transmitted from user mobile devices that have entered the course (S301). Users whose communication with the central server is disconnected can continue to communicate with the central server and transmit/receive information using short-distance communication with other users.

The central server 200 stores all received information and can view all information at any time for procedures necessary for progress, such as route determination. The central server performs a judgment on each user according to FIG. 3 based on user location information and progress information received in real time while the course is in progress. When a decision is made to change the user's route or when it is determined that an induction notification is necessary, the change and notification information are delivered to the user so that the user is aware of it, and these changes are reflected and applied to the judgment of other users. Let it be.

That is, if the location of a specific user is within the route range (S302) and the user is on the move (S304), the central server 200 proceeds to the step of determining the state of the next point of the user (S308). If the user is not located within the route range (S302), the central server 200 notifies the user to return within the route and designates and informs the user of the return route (S303).

In addition, if the user is not moving (S304), the central server 200 determines whether the user is performing an action item at a specific point (S305), and if it is, the action is completed at that point and the action is completed from the user device. When the notification is received by the central server 200 (S307), it proceeds to the step of determining the state of the user's next point (S308), and if it is not in progress, it notifies the user device to move on the route ( S306), and proceeds to step S308 of determining the state of the next point of the corresponding user.

Subsequent steps S308 to S314 perform the same tasks as S206 to S212 of FIG. 2 . However, the difference is that, as described above, steps S206 to S212 in FIG. 2 are performed by data transmission and reception between user devices, and steps S308 to S314 in FIG. 3 are controlled by the central server 200 controlling each user device. that it is done in a way

FIG. 4 is a diagram illustrating an embodiment of a process of deriving a designated flexible route for multiple users in a continuous flow using location-based mobile technology according to the present invention.

Referring to FIG. 4 , since user 4 is out of the bounds of the route, the device of user 4 sends a notification to user 4 to return within the bounds. User 3's device may notify and guide user 3 so that user 4 can perform faster when user 4 newly enters the path. Of course, when the central server 200 is the subject of control as shown in FIG. 3, the central server 200 also transmits notifications and guidance to the user 4, and the following description is the same.

User 2's device shows hold notification and guidance control to User 2 because User 1 in front is moving. Alternatively, the user 2 device may receive such suspension notification and guidance control from the central server 200 .

Since User 1 is following User 2, the User 1 device may display and show notification and guidance to User 1 from the information received by User 1 device, so that the user 1 can move and perform the task quickly. Alternatively, such notification and guidance may be received from the central server 200 .

5 is a diagram illustrating another embodiment of a process of deriving a designated flexible route for multiple users in a continuous flow using location-based mobile technology according to the present invention.

User 2 has completed the performance at point 1 and is moving to point 2, and the device of user 2 is moving when user 1 is performing at point 2 and user 1 has a low performance speed index, that is, if the performance speed is slow, user 2 moves User 2 may be guided by inducing to hold , or designating a new route to point 3. Alternatively, the user 2 device may receive the suspension inducement or guidance for the user 2 from the central server 200.

FIG. 6 is a diagram illustrating another embodiment of a process of deriving a designated flexible route for multiple users in a continuous flow using location-based mobile technology according to the present invention.

The dotted line shows the case of leading to another path when the next step on the path is being performed. Such induction may also be performed by communication between user devices or by control of the central server 200 as described above.

Briefly summarizing the features of the present invention described above,

1. Granting redundancy using various communication systems,

2. It can be done under the control of the central server, but if necessary, the course can be operated independently through communication between users without the control of the central server.

3. Respond to flexible user entry and enable non-face-to-face events that do not overlap with users flexibly during operation.

4. It is possible to provide numerical values for progress measures and performance capabilities through real-time continuous calculations such as performance index.

5. Advantages that can be applied to various use cases, for example, vehicle-to-vehicle communication, navigation, lane crossover, path detour, UAV swarm and sequential mission movement, and fields consisting of ordered courses such as golf courses. there is

10, 11, 12, 13: user mobile device
100: mobile communication base station, wireless LAN (wi-fi), etc.
200: central server
300: GPS, GLONASS, etc.

Claims (16)

A method in which a user's mobile device (hereinafter referred to as 'user device') communicates with multiple users in a continuous flow using location-based mobile technology and guides the user to a specified path,
(a) starting to collect real-time location information of the user device and record the location information collection time (hereinafter referred to as 'timestamp') when entering a course for the first time;
(b) receiving information on a point in the course and a designated route from a central server;
(c) starting real-time transmission of real-time location information of the user device, corresponding timestamp information, and performance information at each point to mobile devices of other users who have entered the course (hereinafter referred to as 'other user devices'). ;
(d) starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point from the other user devices;
(e) leading the user to a point to proceed in the course; and,
(f) If the execution is completed after moving to the point to proceed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, proceeding to step (e) step
A method in which a user device communicates with multiple users in a continuous flow using location-based mobile technology and guides the user to a specified path, comprising: The method of claim 1,
The information received in step (b) is,
Information about what to do at each point on the course
Characterized in that it further comprises, a method for communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path. The method of claim 2,
Between step (d) and step (e),
Starting a real-time calculation of a performance speed index representing the user's branch performance speed and the user's moving speed
Characterized in that it further comprises, a method for communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path. The method of claim 3,
In the step (e),
(e1) figuring out the state of the next point to which the user will move on the route specified in the course, based on real-time location information and corresponding timestamp information received from the other user devices;
(e2) if the next point is empty, showing the user a route to move to and inducing movement to the corresponding route; and,
(e3) if the next point is not empty, suspending the user's movement, or inducing the user's movement by creating a new course to a point next to the next point or to another point that can be substituted.
A method of communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path, comprising: The method of claim 4,
In the step (e3),
(e31) calculating an expected movement time of the user to the next point when the next point is not empty;
(e32) Calculating a performance speed index of the user at the next point from real-time location information received from the user at the next point (hereinafter referred to as 'user at the next point'), corresponding timestamp information, and performance information at each point ;
(e33) If the performance speed index of step (e32) is greater than the expected movement time of (e31), a course is newly created to the next point of the next point or to another point that can be substituted to induce the user to move doing; and,
(e34) Suspending the movement of the user when the performance speed index of the step (e32) is equal to or less than the expected movement time of the step (e31)
A method of communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path, comprising: The method of claim 5,
In the step (e34), when the execution speed index of the step (e32) is equal to or less than the expected movement time of the step (e31),
Delivering information indicating the user's movement to the next point, inducing the user to perform more quickly or to remove the action
Characterized in that it further comprises, a method for communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path. A device used by a user (hereinafter referred to as a 'user device') for communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path,
at least one processor; and
including at least one memory for storing computer-executable instructions;
The computer-executable instructions stored in the at least one memory are, by the at least one processor,
(a) starting to collect real-time location information of the user device and record the location information collection time (hereinafter referred to as 'timestamp') when entering a course for the first time;
(b) receiving information on a point in the course and a designated route from a central server;
(c) starting real-time transmission of real-time location information of the user device, corresponding timestamp information, and performance information at each point to mobile devices of other users who have entered the course (hereinafter referred to as 'other user devices'). ;
(d) starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point from the other user devices;
(e) leading the user to a point to proceed in the course; and,
(f) If the execution is completed after moving to the point to proceed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, proceeding to step (e) step
A user device that causes the to run. A computer program for communicating with multiple users in a continuous flow using location-based mobile technology and inducing users to a specified path,
It is stored in a non-transitory storage medium, and by the processor,
(a) starting to collect real-time location information of the user device and record the location information collection time (hereinafter referred to as 'timestamp') when entering a course for the first time;
(b) receiving information on a point in the course and a designated route from a central server;
(c) starting real-time transmission of real-time location information of the user device, corresponding timestamp information, and performance information at each point to mobile devices of other users who have entered the course (hereinafter referred to as 'other user devices'). ;
(d) starting real-time reception of real-time location information of the corresponding mobile device, corresponding timestamp information, and performance information at each point from the other user devices;
(e) leading the user to a point to proceed in the course; and,
(f) If the execution is completed after moving to the point to proceed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, proceeding to step (e) step
A computer program for communicating with multiple users in a continuous flow by utilizing location-based mobile technology and guiding users to a designated path, including instructions for causing the execution of a location-based mobile technology. As a method in which a central server communicates with multiple users in a continuous flow using location-based mobile technology and guides each user to a designated path,
(a) starting real-time reception of real-time location information, corresponding timestamp information, and performance information at each point transmitted from user mobile devices that have entered the course;
(b) determining whether each user's location is within the range of the route, and if out of the range of the route, notifying the user's device to return to the route and providing a return route;
(c) leading each user to a point to proceed in the course; and,
(d) If the process is completed after moving to the point to proceed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, proceeding to step (b) step
A method in which a central server communicates with multiple users in a continuous flow by utilizing location-based mobile technology and guides each user to a designated path, comprising: The method of claim 9,
Between step (b) and step (c),
(b1) proceeding to step (c) when a specific user is moving; and,
(b2) If the user is not moving, if the action is being performed, after receiving a notification of completion of the action at the corresponding point from the user's device, proceed to step (c), and if not, the user Giving a notification to move on the route to the device of and proceeding to step (c)
Characterized in that it further comprises, a method in which the central server communicates with multiple users in a continuous flow by utilizing location-based mobile technology and guides each user to a designated path. The method of claim 9,
Before the step (c),
Starting the real-time calculation of the performance speed index representing the point performance speed of each user and the moving speed of the user
Characterized in that it further comprises, a method in which the central server communicates with multiple users in a continuous flow by utilizing location-based mobile technology and guides each user to a designated path. The method of claim 11,
In the step (c),
(c1) figuring out the state of the next point to which a specific user will move on the route specified in the course, based on real-time location information and corresponding timestamp information received from user devices;
(c2) if the next point is empty, showing the user a path to move to and inducing movement to the corresponding path; and,
(c3) if the next point is not empty, suspending the user's movement, or inducing the user's movement by creating a new course to the next point of the next point, or to another point that can be substituted.
A method for a central server to communicate with multiple users in a continuous flow by utilizing location-based mobile technology and to guide each user to a specified path, characterized in that it comprises a. The method of claim 12,
In the step (c3),
(c31) calculating an expected movement time of the user to the next point when the next point is not empty;
(c32) Calculating the performance speed index of the user at the next point from real-time location information received from the user at the next point (hereinafter referred to as 'user at the next point'), corresponding timestamp information, and performance information at each point ;
(c33) If the performance speed index in step (c32) is greater than the expected movement time in (c31), a course is newly created to the next point of the next point or to another point that can be substituted to induce the user to move doing; and,
(c34) Suspending the movement of the user when the performance speed index of step (c32) is equal to or less than the expected movement time of (c31)
A method for a central server to communicate with multiple users in a continuous flow by utilizing location-based mobile technology and to guide each user to a specified path, characterized in that it comprises a. The method of claim 13,
In step (c34), when the performance speed index of step (c32) is equal to or less than the expected travel time of (c31),
Delivering information indicating the user's movement to the next point, inducing the user to perform more quickly or to remove the action
Characterized in that it further comprises, a method in which the central server communicates with multiple users in a continuous flow by utilizing location-based mobile technology and guides each user to a designated path. As a server (hereinafter referred to as a 'central server') for communicating with multiple users in a continuous flow using location-based mobile technology and inducing each user to a designated path,
at least one processor; and
including at least one memory for storing computer-executable instructions;
The computer-executable instructions stored in the at least one memory are, by the at least one processor,
(a) starting real-time reception of real-time location information, corresponding timestamp information, and performance information at each point transmitted from user mobile devices that have entered the course;
(b) determining whether each user's location is within the range of the route, and if out of the range of the route, notifying the user's device to return to the route and providing a return route;
(c) leading each user to a point to proceed in the course; and,
(d) If the process is completed after moving to the point to proceed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, proceeding to step (b) step
A central server that runs A computer program for communicating with multiple users in a continuous flow using location-based mobile technology and inducing each user to a designated path,
It is stored in a non-transitory storage medium, and by the processor,
(a) starting real-time reception of real-time location information, corresponding timestamp information, and performance information at each point transmitted from user mobile devices that have entered the course;
(b) determining whether each user's location is within the range of the route, and if out of the range of the route, notifying the user's device to return to the route and providing a return route;
(c) leading each user to a point to proceed in the course; and,
(d) If the process is completed after moving to the point to proceed, if the point is the last point of the course, the route derivation process is terminated, and if the point is not the last point of the course, proceeding to step (b) step
A computer program for communicating with multiple users in a continuous flow using location-based mobile technology and guiding each user to a specified path, including instructions for causing the execution of a location-based mobile technology.

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