KR101535012B1 - Method of providing path information between user and floating object - Google Patents

Abstract

The present invention relates to a method for providing path information between a user and a flowing object. The present invention comprises: a flowing object selecting step in which a user selects a flowing object which is an object of interest through a user terminal; a selection fact notifying step in which a path information providing server notifies the selection fact by the user to a flowing object terminal which the selected flowing object has; a specific location information provision approving step in which the flowing object which is notified of the selection fact approves providing its own specific location information to the path information providing server; a path information generating step in which the path information providing server generates the path information between the user and the flowing object according to the user′s location information and the flowing object′s specific location information; and a path information providing step in which the path information providing server provides the generated path information to the user terminal. According to the present invention, the user can be provided with a current location of a street vendor and a route between the user and the street vendor in real time, the street vendor can advertise himself/herself online, and the users can easily identify a kind and a location of the street vendor, thereby improving profit of the street vendor and convenience of the user.

Description

METHOD OF PROVIDING PATH INFORMATION BETWEEN USER AND FLOATING OBJECT [0002]

The present invention relates to a method for providing path information between a user and a flow object. More particularly, the present invention relates to a method for providing route information between a user and a moving object, which enables a user to receive a current position of the street mark and a route between itself and the street mark in real time.

BACKGROUND ART [0002] As electronic and communication technologies rapidly develop, various wireless communication services using a wireless communication network have been provided. The most basic wireless communication service is a wireless voice communication service for providing voice communication to mobile communication terminal users wirelessly, which is capable of providing services regardless of time and place, and provides a text message service, Service.

On the other hand, as the Internet based on TCP / IP (Transmission Control Protocol / Internet Protocol) is established, various kinds of information such as text, voice, image, And a broadband communication network is widely used in order to use various communication services using the Internet in a better environment.

Also, in recent years, a number of companies have been developing technology for wireless Internet in order to provide Internet service regardless of the location where the user is located. A wireless Internet service is a service that provides Internet contents through a mobile communication network. The wireless Internet service is a personalized service that is advanced according to the use of the terminal and is a service that can provide unique information based on the mobility of the user. Recently, location-based services (LBS) among various wireless Internet services have been highlighted.

A location-based service is a communication service that grasps the location of a mobile communication terminal such as a mobile phone, a personal digital assistant (PDA), and a notebook PC, and provides additional information related to the identified location. The location-based service is an information processing technology such as mobile communication technology, Internet technology, portable terminal technology, Geographical Information System (GIS), Global Positioning System (GPS), Intelligent Transport System (ITS) It is expected to have explosive demand due to integration with technology.

In order to use the location-based service, it is essential to grasp the location of the mobile communication terminal. A technology for determining the position of a mobile communication terminal is called a PDT (Position Determination Technology). The PDS includes a network-based method using a base station reception signal and a handset-based method using a Global Positioning System (GPS) -Based). Recently, a hybrid technique has been developed which improves position accuracy by mixing two technologies.

The network-based method is advantageous in that it does not require additional cost to develop a mobile phone because there is no need to add a new module to a conventional mobile phone. However, according to the cell size and positioning method of the base station, There is a disadvantage that accuracy is not enough to reach ~ km. Therefore, a handset-based method that uses GPS signals as a method of locating by using wireless communication is now becoming common.

GPS is a system capable of locating anywhere in the world by 24 GPS satellites orbiting the Earth at an altitude of about 20,000 kilometers. GPS uses radio waves in the 1.5 GHz band and a control station called Control Station on the ground to collect and synchronize the information transmitted from the GPS satellites. do. A triangulation method is generally used as a method of locating using a GPS system. For triangulation, three satellites are required, and a total of four GPS satellites are required, including one observation satellite for time error.

In more detail, since the positions of the three satellites are already known in the GPS, the distance between the satellite and the GPS receiver is measured and the positioning is performed. Since the distance from the satellite to the GPS receiver is transmitted from the satellite, the propagation time can be known from the difference between the time the radio wave is transmitted from the satellite and the time the GPS receiver that receives the clock receives the signal. You can calculate the distance.

As described above, by using the GPS signal, it is possible to provide a location-based service related to a location where the mobile communication terminal is located.

As one of useful profit models using this location-based service, a merchant who wants to advertise a shop having a fixed position is registered as a merchant, and a guidance message for a nearby merchant is provided according to the location information of the mobile communication terminal A service for informing the user of the mobile communication terminal about the nearby shops is known.

Many applications have been developed for general stores with fixed locations, and many people are currently using them. However, there is no application specialized for the street vendors on the street, and there is a problem that it is difficult for users to search for the street vendors only by the information on the online.

In other words, since the salesperson has a dynamic characteristic every day, it is difficult for the consumer to grasp the current position of the particular street vendor, but until now, there has not been introduced a technology that enables the consumer to effectively locate the street market where the current location is flexible .

Korean Patent Publication No. 10-2006-0072778

Disclosure of Invention Technical Problem [8] The present invention provides a method for providing route information between a user and a flow object, in which a user can receive a current position of a street mark and a route between itself and a street mark in real time.

In addition, the present invention enables the street vendors to promote themselves on-line, and allows the users to more easily grasp the type and location of the street vendor, thereby enabling a user who can improve the sales profit of the street vendor and the convenience of the user, And a method of providing path information between the nodes.

According to another aspect of the present invention, there is provided a method of providing path information between a user and a moving object, the method comprising: a flow object selecting step of selecting a flow object of interest through a user terminal; A selection fact notifying step of notifying the selection result by the user to a floating object terminal; and a selection step of notifying a selection of the selection information by the user, Wherein the path information providing server generates route information between the user and the moving object according to the location information of the user and detailed location information of the moving object, A path information providing step of providing path information to the user terminal It is configured to include.

In the method of providing path information between a user and a flow object according to the present invention, the flow object is a sidewall on which a current location is flexible.

In the flow object selecting method according to the present invention, in the flow object selecting step, the user selects the flow object through an interface screen provided by a user application installed in the user terminal, The flow objects located within a predetermined distance range based on the current position of the user are displayed.

In the method of providing path information between a user and a moving object according to the present invention, the distance range may be reset by the user.

In the path information providing step, the geographical information provided by the external geographical information providing server may be transmitted to the user through the location information of the user and the flow object, And generates the route information by combining the location information with the detailed location information.

In the path information providing method according to the present invention, in the path information generating step, the path information providing server generates path information between a user and a moving object based on geographical information provided by the geographical information providing server, Is selected by selecting the shortest path.

In the path information providing method between a user and a moving object according to the present invention, in the path information providing step, information on a traveling direction of a user on the path is additionally provided using a geomagnetic sensor installed in the user terminal .

In the path information providing method between a user and a moving object according to the present invention, in the path information providing step, the total distance between the user and the moving object, and the remaining distance at the current point are additionally provided.

In the method of providing path information between a user and a moving object according to the present invention, a user application installed in a user terminal owned by the user provides an interface screen for the user to make a recommendation or a comment.

In the method of providing path information between a user and a flow object according to the present invention, information about flow objects is classified into fields of interest in the interface screen.

According to the present invention, there is an effect that the user can receive the current position of the street mark and the route between the user and the street mark in real time.

In addition, since the street vendors can promote themselves on-line, and users can more easily grasp the type and location of the street vendor, the sales profit of the street vendor and the convenience of the user are improved.

1 is a diagram illustrating an example of a system configuration in which a path information providing method between a user and a moving object is performed according to an embodiment of the present invention.
2 is a diagram illustrating a method of providing path information between a user and a flow object according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a diagram illustrating an example of a system configuration in which a path information providing method between a user and a moving object is performed according to an embodiment of the present invention. Fig.

1 and 2, a method of providing route information between a user and a moving object according to an embodiment of the present invention includes a flow object selection step S50, a selection fact notification step S60, a detailed location information provision approval step S70), a route information generating step (S80), and a route information providing step (S90).

First, in step S10, a process of executing a floating object application installed in the floating object terminal 30 is performed. Here, the flow object may be a street vendor whose current location is flexible. General stores are easier to find than street vendors because their locations are fixed in a certain building. However, since the street vendor does not stay in a certain place without specific legal declaration and it is decided whether or not to operate according to the will of the street vendor, it is common that the business day and the place of business are irregular. Therefore, according to the present embodiment, the current position is registered through the terminal owned by the street vendor every time, so that even if the business location is changed, the consumer can easily navigate the street spot and can grasp the locations of the nearby street stalls together.

In step S20, a process is performed in which the floating object terminal 30 transmits the location information of the sidewall, which is a floating object, to the route information providing server 20. This process may be performed simultaneously with the execution of the flow object application as the flow object, or by selecting the flow of the location information transfer item provided on the interface screen provided by the flow object application.

In step S30, the route information providing server 20 performs a process of registering the location information of the street spot, which is a floating object, in the database. Of course, the processes of steps S10 to S30 are performed for each of the street-stalls when the various street-stalls subscribing to the service execute the application. That is, the database of the path information providing server 20 registers the location information of all the stalls that have executed the application up to the present time.

In step S40, the process of executing the user application installed in the user terminal 10 by the user is performed.

In the flow object selection step S50, a process of selecting a flow object of interest through the user terminal 10 is performed. That is, in this step, a process of selecting a flow object through the interface screen provided by the user application is performed by the user.

For example, the interface screen provided to the user in the flow object selection step S50 may be configured to display all the flow objects located within a predetermined distance range based on the current position of the user. The distance range may also be configured to be reset by the user. That is, the distance range can be set to 200m, 300m, 400m, 500m or the like based on the current position of the user according to the user's need, thereby improving the convenience of the user regarding the distance range setting.

In the selection notification step S60, the route information providing server 20 notifies the user of the selection of the floating object terminal 30 held by the flow object selected by the user. This allows the street vendor, which is a floating object, to determine whether or not to provide the user with information about his or her detailed location.

In the detailed position information provision approval step (S70), the process of approving provision of the detailed position information by the flow object notified of the selection is performed by the route information provision server (20). As described above, since the information about the detailed position of the street spot, which is a floating object, is provided to the user by autonomous selection of the street spot, the privacy of the street spot related to providing the position information is protected.

In the route information generating step S80, the route information providing server 20 generates the route information between the user and the stalls, which is a floating object, according to the location information of the user and the detailed position information of the stalls, which is a floating object.

For example, in step S80, the route information providing server 20 transmits the geographical information provided by the geographical information providing server 40, such as a Google map server, And combined with the detailed position information of the sidewall to generate the route information.

In addition, for example, in the route information generating step S80, the route information providing server 20 determines a route having the shortest distance between the user and the street spot, which is a floating object, based on the geographical information provided by the geographical information providing server 40 As shown in FIG.

For example, in the path information providing step S90, the geomagnetic sensor installed in the user terminal 10 may be used to additionally provide information on the user's traveling direction on the path between the user and the moving object have.

Also, for example, in the path information providing step S90, the total distance between the user and the flow object, and the remaining distance at the current point, may be additionally provided.

In the path information providing step S90, a process is performed in which the path information providing server 20 provides the path information generated in the path information providing step S90 to the user terminal 10. [ The path information providing step (S90) may be performed in response to a change in the user's location due to the movement of the user in real time. If the user leaves the path provided by the user, the path information providing step (S90)

Meanwhile, a user application installed in the user terminal 10 owned by the user can be configured to provide an interface screen for a user to make a recommendation or a comment, Lt; / RTI >

As described above in detail, according to the present invention, the user can receive the current position of the street mark and the route between the user and the street mark in real time.

In addition, since the street vendors can promote themselves on-line, and users can more easily grasp the type and location of the street vendor, the sales profit of the street vendor and the convenience of the user are improved.

More specifically, a general store is easy to find compared to a street vendor because the location of the store is fixed to a certain building, but the street vendor does not stay in a certain place without reporting a specific legal matter. Since it is determined whether or not to operate according to the will of the street vendor, And the place of business is irregular. The present invention is for solving the inconvenience of the user according to the characteristics of the street vendor and creating the profit of the street vendor. By registering the current location of the street vendor each time through the terminal owned by the street vendor, So that it is possible to grasp the position of the street vendors around it.

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: User terminal
20: Path information providing server
30: a floating object terminal
40: Geographic information providing server
S50: Floating object selection step
S60: Optional Facts Notification Step
S70: Step to grant detailed location information
S80: Path information generation step
S90: Path information providing step

Claims (10)

A method for providing path information between a user and a flow object,
A flow object selection step in which a user selects a flow object of interest through a user terminal;
A selection fact notifying step that the route information providing server notifies the selection of the floating object terminal owned by the selected floating object by the user;
A detailed location information provision approval step of allowing a flow object notified of the selection to approve provision of its detailed location information to the route information provision server;
A route information generating step of the route information providing server generating route information between the user and the moving object according to the location information of the user and the detailed location information of the moving object; And
A route information providing step of providing the generated route information to the user terminal and additionally providing information on the direction of the user on the route using the geomagnetic sensor installed in the user terminal, ; ≪ / RTI >
Wherein the flow object is a sidewall on which the current location is flexible. delete The method according to claim 1,
In the flow object selection step,
The user selects the floating object through an interface screen provided by a user application installed in the user terminal,
Wherein the interface screen displays flow objects positioned within a predetermined distance range based on the current position of the user. The method of claim 3,
Characterized in that the distance range can be reset by the user. The method according to claim 1,
In the path information generation step,
Wherein the route information providing server generates the route information by combining the geographical information provided by the external geographical information providing server with the location information of the user and the detailed location information of the moving object, How to provide path information. 6. The method of claim 5,
In the path information generation step,
Wherein the route information providing server selects and generates a route having the shortest distance between the user and the moving object based on the geographical information provided by the external geographical information providing server, Delivery method. delete The method according to claim 1,
In the path information providing step,
Further comprising providing a total distance between the user and the moving object, and a remaining distance at the current point of time. The method according to claim 1,
Wherein the user application installed in the user terminal possessed by the user provides an interface screen for the user to create a recommendation or a comment. The method of claim 3,
Wherein the information about the flow objects is divided into fields of interest in the interface screen.

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