KR101535005B1 - Smart apparatus, System apparatus for providing location information and the method thereof - Google Patents

Abstract

Provided is a smart device for performing a LED lighting and a visible light communication. Accordingly, a user can detect own location inside a building. In addition, location information of a smart device which a child carries is managed in an accumulated manner by time periods and by places. and the location information is provided to the parents according to a request by the parents, therefore the parents can easily identify a moving route of the child. Especially, since a map screen is zoomed in/out at a proper ratio when the moving route information of the child is displayed on the smart device of the parents, the parents can easily and specifically identify the moving route information of the child.

Description

Technical Field [0001] The present invention relates to a smart device, a location information providing system,

The present invention relates to a location-based service (LBS), and more particularly, it relates to a location-based service (LBS), more precisely verifying location information both indoors and outdoors by using LED lighting or LED lighting and a mobile communication network A location information providing device based on LED lighting, and a method thereof.

A location based service (LBS) means providing various services to a user based on location data obtained from a base station of a mobile communication network or one or more satellite navigation devices (GPS). Recently, based on this location-based service, there is a growing interest in location measurement technology that can confirm the location of the user himself or his child in real time.

Such location-based services can be performed using smart devices such as smart phones and personal portable devices, which are currently available.

The location measurement of smart devices can be roughly classified into position measurement using GPS, position measurement using positioning service provided by a mobile communication company, and position measurement using RFID or infrared / ultrasound.

The GPS positioning technology receives a GPS signal through a mobile terminal equipped with an antenna capable of receiving GPS signals, calculates a current position of the user based on the received GPS signal, and displays the current position on the screen.

The location measurement using the positioning service provided by the mobile communication company provides information to the user that the user is located within the service area of the base station after determining which base station is connected to the user.

RFID or infrared / ultrasound localization technology measures the user's current location using radio signals or infrared / ultrasonic waves emitted from three or more access points (APs).

However, GPS positioning technology does not measure the user's location in areas where the GPS signal is not reachable, such as indoor, underground or densely populated areas.

In addition, location measurement using a positioning service provided by a mobile communication company is disadvantageous in that it is difficult to estimate the position of the user within a few meters because the service area of the base station is very wide.

In the case of positioning technology using RFID, it is economically disadvantageous to install a large number of RFID readers in a positioning area. In the case of a position measurement technique using an infrared / ultrasonic wave, a non-visible signal signal environment, it is not suitable for position measurement in a typical indoor office environment.

As the number of large-scale buildings such as high-rise buildings, large shopping malls, and underground shopping malls is gradually increasing, the need for location measurement technology inside the buildings is increasing.

Recently, there has been an increasing interest in a technique for measuring the position of a user using visible light (400 to 700 nm) (VLC) communication. Visible light communication is attracting more attention because of the depletion of RF band frequencies, possibility of confusion between various wireless communication technologies, and increasing demands for security of communication. In addition, with the rapid spread of LED lighting, the use of visible light communication is also rapidly increasing

When such a visible light communication is used, the position of the user in the room can be more accurately known.

An example of using a location-based service using visible light communication is disclosed in Korean Patent Laid-Open No. 10-2008-0100093 (prior art).

However, the preceding document receives the visible light signal as the map information provided for the navigation function. I.e., a visible light signal generated by the lamp, receives the map information, and displays the map image accordingly.

In this case, the terminal device may not receive map information in a condition that some lamps do not operate normally, or in a condition where interference of visible light occurs or is received in superposition. This prevents you from constantly observing your location.

In addition, the preceding document is limited to a building, and only a navigation function for providing route guidance is performed. That is, it does not provide a user location tracking service outdoors.

Further, in some cases, it is necessary to check the moving route of the user in the indoor and outdoor areas. In the prior art, the moving route of the user can not be confirmed.

Korean Patent Laid-Open No. 10-2008-0100093 (2008. 11. 14. Navigation system and method using visible light communication)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide position information of a user moving in the room more accurately.

Another object of the present invention is to provide seamlessly providing user's location information both indoors and outdoors.

Another object of the present invention is to accumulate and manage user's location information and to confirm the information as needed.

According to an aspect of the present invention, there is provided a display device including: a visible light receiving module for receiving visible light including identification information of an LED light; A mobile communication module for receiving map information of a building including the identification information from a management server; And a control unit for displaying current position information based on the identification information in the map information.

The visible light receiving module receives visible light of a predetermined intensity or more.

The visible light receiving module receives only the visible light having the largest intensity among the visible light emitted by the plurality of LED lights.

The smart device further includes a GPS receiving module for receiving current location information, and the controller displays the location information on the map information transmitted from the mobile communication module.

According to another aspect of the present invention, there is provided a smart device for performing visible light communication with an LED illumination; And a management server for receiving the location information of the smart device, wherein the management server comprises: a map DB for storing map information; and a location information DB for storing location information of the smart device Device is provided.

The map DB stores the road name and the name of the building together with the time information as the location information of the smart device.

The location information providing system apparatus further includes a main smart device for requesting location information of the smart device to the management server by performing a proper authentication procedure and displaying the location information transmitted by the management server.

The smart device does not display its own location information.

The main smart device sets a function so that the smart device does not display the location information.

According to another aspect of the present invention, there is provided a method for managing location information of a smart device, the method comprising: accumulating location information of a smart device by time zone and location; Requesting a movement path of the smart device from a main smart device that has completed a legitimate authentication procedure; Transmitting, by the management server, movement route information of the smart device to the main smart device; And the main smart device includes a step of displaying a moving path of the smart device, wherein the main smart device is configured to display the moving route of the smart device at a time, A providing method is provided.

Requesting a display mode of the smart device by the main smart device; Controlling the smart device by the management server according to the request; And the smart device is set to a mode in which the location information is not displayed according to the control.

The apparatus and method for providing location information based on LED lighting according to the present invention have the following effects.

First, since the position information of a smart device can be confirmed through LED light and visible light communication, accurate position information can be confirmed even in a room such as a building.

In addition, since the present invention can confirm the position information through the mobile communication network as well as the visible light communication with the LED illumination, it is possible to receive continuous position information even if it moves indoors and outdoors.

According to the present invention, the location information of the smart device carried by the child is cumulatively managed by time and place, and when the request is made by the parent, it is provided to the main smart device so that the parent can know the travel route of the child.

Especially, when confirming the route of the child through the main smart device, the route information is displayed on one screen by enlarging or reducing the map information, so that it is easy to know the route of the child, .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a position information providing apparatus based on an LED illumination according to a preferred embodiment of the present invention;
FIG. 2 is a flow chart for confirming the location of a smart device located in a room according to the present invention.
3 is a flowchart for confirming the location of the smart device using the visible light and the cell information of the base station according to the present invention.
FIG. 4 is a flowchart illustrating a process of displaying the route of a child by receiving the location information of the child stored in the management server by the parent of the present invention
5A and 5B are diagrams illustrating an example in which the main smart device displays the movement path of the child according to FIG.

The present invention relates to a method and apparatus for confirming location information of a user in indoor and outdoor areas based on LED lighting and accumulating and managing positional information thereof so that a traveling route (i.e., moving trace) As a basic technical point.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of an apparatus and method for providing location information based on LED lighting according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating an apparatus for providing location information based on LED lighting according to a preferred embodiment of the present invention. Referring to FIG.

As shown in FIG. 1, an LED illumination 100 installed in a building is constituted by a location information providing device based on an LED illumination. The LED illumination 100 is environmentally friendly as it is known and has excellent characteristics in terms of lifetime and power consumption compared to conventional illumination. The LED illumination 100 is used as a transmission device that transmits signals at the same time as a general illumination function. That is, performs visible light communication. The LED illumination 100 has its own illumination identification information, and the illumination identification information is radiated in a state of being included in visible light and transmitted to the smart device 110 such as a smart phone.

A smart device (110) is configured to receive identification information of the LED illumination (100).

The smart device 110 is provided with a visible light receiving module 112. The visible light receiving module 112 receives the visible light including the identification information of the LED light 100 when the LED light 100 emits visible light. At this time, the visible light receiving module 112 may be configured to receive visible light of a predetermined intensity or more. This is to provide position information more precisely. The distance between the LED illumination 100 and the smart device 110 may be more than a certain distance if the LED illumination 100 receives the visible light of a very small intensity without limiting the intensity of the visible light emitted by the LED illumination 100, This is because an error may occur in the positional information of the user. However, the present invention does not necessarily receive visible light of a predetermined intensity or more. Alternatively, the smart device 110 may be designed to receive visible light having the largest signal intensity. This is to allow the LED light 100 to continuously receive visible light from the neighboring LED light 100 even when the LED light 100 is not normally capable of emitting visible light.

The smart device 110 includes a mobile communication module 114. The mobile communication module 114 is responsible for transmitting and receiving various information using a 3G network or a 4G network. The present embodiment receives map information using a 3G network or a 4G network. Cell information of the base station is also received.

A GPS receiving module 116 is configured in the smart device 110. The GPS receiving module 116 is for confirming the current location information of the smart device 110.

A control unit 118 is configured in the smart device 110. The control unit 118 associates the map information in the building with the identification information of the LED illumination 100 and displays information on the display unit 120 in which the smart device 110 is located in the building. The controller 118 also receives map information from a map DB, which will be described later, through a mobile communication network when the user is outdoors, and displays the current position of the smart device 110 on the display unit 120 .

Meanwhile, a management server 200 for providing map information of a building corresponding to the current location of the smart device 110 is configured in the smart device 110 in the location information providing device based on the LED illumination. The management server 200 includes a map DB 210 in which map information is stored. Here, the map information 210 includes map information inside the building including a floor plan of each floor of the building, and location information on which the LED lighting 100 is installed. The map information is transmitted to the smart device 110 through the 3G network or the 4G network.

The management server 200 may further include a location information DB 220 for cumulatively managing location information of the smart device 110. The location information DB 220 stores location information of each smart device in units of year / month / day / hour / minute / second. This stored information is optionally delivered when requested by other smart devices. The other smart device may be a smart device 300 (hereinafter referred to as 'main smart device') owned by the parent.

The main smart device 300 includes all the components of the smart device 110, that is, a visible light receiving module, a mobile communication module, a GPS receiving module, and a control unit. The main smart device 300 is further provided with a function of requesting the location information of the smart device 110 through the user authentication procedure.

Next, a method of providing location information of a smart device using the LED-based location information providing device will be described.

FIG. 2 is a flowchart for confirming the location of a smart device located in a room according to the present invention.

A user carrying the smart device 110 enters the building. The building here includes both large-scale buildings and underground facilities such as a skyscraper, a large shopping mall, and a large underground shopping arcade. And we assume the condition that the GPS signal does not reach in the building. In addition, a plurality of LED lights 100 are installed in the building. In addition, the LED illumination 100 is in a state of emitting visible light including identification information in an illuminated state.

When entering the building, the control unit 118 of the smart device 110 determines whether a GPS signal is received (s100). If the GPS signal is not received through the GPS receiving module 116 as a result of the determination, it is determined that the GPS signal is within the building (s102). At this time, instead of determining whether the GPS signal is received, it is possible to determine whether the visible light receiving module 112 receives the visible light and to execute it. The selective operation of the visible light receiving module 112 is to minimize the battery usage of the smart device 110.

If it is determined to be within the building as a result of the determination, the controller 118 turns on the visible light receiving module 112 (s104). The smart device 110 receives the visible light emitted by the LED light 100 through the visible light receiving module 112 (s106). The visible light includes identification information that can distinguish the LED lights 100. If not in the building, the location information is provided through the mobile communication network described later.

On the other hand, the visible light receiving module 112 receives only visible light of a predetermined intensity or more among the visible light emitted by the LED light 100. This is because a distance error may occur between the LED illumination 100 and the smart device 110 when the intensity of the visible light received from the arbitrary LED illumination 100 is weak. That is, the intensity is weak, which means that the distance between the LED illumination 100 and the smart device 110 is long.

As described above, even if the smart device 110 is located at a certain point in the building or the smart device 110 moves, the visible light including the identification information is continuously received from the LED light 100 through the visible light receiving module 112.

Meanwhile, the smart device 110 receives map information through the mobile communication module 114 while receiving the above-described visible light (s108). At this time, the map information becomes the building information in which the smart device 110 is located. The reason why the building information can be received is that the presently located building information can be confirmed through the identification information of the LED lighting 100.

Accordingly, the control unit 118 of the smart device 110 calculates its position using the identification information included in the visible light and displays it on the map information (s110). Then, the control unit 118 displays on the display unit 120 a state in which its position is indicated in the map information (s112).

As a result, if the user confirms the display unit 120 of the smart device 110, it is possible to easily identify the current position of the user in the building (s114).

Of course, not only the current location information but also the location can be displayed continuously even when the user moves within the building. This is possible by the identification information that the LED illumination 100 has.

Meanwhile, the present invention provides a service for continuously confirming the location of the smart device 110 even when the smart device 110 moves outdoors as well as indoors. 3, which is a flow chart for confirming the location of the smart device using the visible light and the cell information of the base station according to the present invention.

2, the location information of the smart device 110 is displayed by using the identification information of the LED illumination 100 included in the visible light, so that the user can confirm his / her location. However, when the user moves out of the building and moves outdoors, it is impossible to provide position information using visible light. Therefore, even when the user moves outdoors, the user must be able to confirm his / her location information.

For this, the controller 118 of the smart device 110 determines whether the visible light receiving module 112 receives visible light (s120). For example, when the visible light receiving module 112 receives the visible light, it is determined that the visible light is received in the building, that is, when the visible light is not received.

If the visible light receiving module receives the visible light as a result of the determination, it displays the current location of the visible light on the building map information by performing the process described with reference to FIG. That is, the process moves to step 102 to perform a subsequent operation.

On the other hand, when the visible light receiving module 112 does not receive visible light, the controller 118 determines that the visible light is outdoors. The control unit 118 turns on the GPS receiving module 116 (s122). As a result, the controller 118 receives map information from the management server 200 through the 3G network or the 4G network, and receives the current location information through the GPS receiving module 116 (s124). Then, the control unit 118 marks the current position on the map information and displays it on the display unit 120 (s126) (s128).

Accordingly, even if the user moves from the room to the outside, the user can continuously check his current position information (s130).

When the user moves back into the building, the visible light receiving module 112 receives the visible light again from the LED illumination 100, and in this case, provides visible light using the visible light.

Meanwhile, FIG. 3 can also be applied to track the position of the child and manage it. That is, if the user of the smart device 110 is a child, the current location of the smart device 110 can be known even if it is indoors or outdoors as shown in FIG. That is, the current location information of the smart device 110 is transmitted to the management server 200, and the management server 200 delivers the current location information to the smart device 300 (i.e., the main smart device) 300 carried by the parent. Then, the main smart device 300 displays the location information of the child in the map information, so that the parent can confirm the location information of the child.

As another example, it is also possible for the parent to check the child's location information stored in the management server 200 as needed, in addition to confirming the child's location in real time. This will be described with reference to FIG. 4 is a flowchart illustrating a process in which a parent receives location information of a child stored in a management server according to an embodiment of the present invention.

First, in FIG. 4, the location information is not displayed on the smart device 110 carried by the child. This is because the parent explains the location information of the child as needed. Therefore, the main smart device 300 may set the function of the smart device 110 owned by the child to not display the location information (s140). The function setting can be accomplished by the management server 200 controlling the corresponding application of the smart device 110 when the main smart device 300 requests the management server 200. Of course, in this case, the main smart device 300 must perform a proper procedure for authenticating the parent.

The child moves with the smart device 110. Then, the controller 118 recognizes the current position through the visible light communication or the mobile communication network even if it is located indoors or outdoors (s142).

The smart device 110 transmits the current location information to the management server 200 (s144). The location information may be transmitted in units of year / month / day / hour / minute / second or may be transmitted at predetermined time intervals. At this time, information such as a building name or a road name indicating a place is transmitted together with the location information.

The management server 200 stores location information transmitted by the smart device 110 in the location information DB 220. [ At this time, together with the time information, the building name and the road name information are stored together (s146).

The location information stored in the location information DB 220 can not be directly confirmed by the child who is the user of the smart device 110. [ This can only be confirmed by the parent.

The parent is thought to need to confirm the child's location information (s148), and requests the child's location information to the management server 200 through the main smart device 330 (s150). At this time, when requesting the location information, the authentication procedure should be preceded.

If the parent authentication process is normal, the management server 200 accesses the location information of the child from the location information DB 220 and transmits the access information to the main smart device 300 (s152).

Accordingly, the parent can confirm the trail or the path that has moved as the child's location information through the main smart device 300 (s154).

On the other hand, when the travel route, which is the location information of the child, is displayed on the main smart device 300, the map information on which the travel route is displayed is enlarged or reduced while having a proper ratio so that all travel routes can be displayed on one screen . For example, if the child's movement path is from point A to point E as shown in FIG. 5A, the map is displayed in a reduced size so that the path from point A to point E is displayed on one screen. On the other hand, when the child's movement path is from point A to point C as shown in FIG. 5B, the map is enlarged and displayed. That is, in the case of FIG. 5B, even if the screen is enlarged, the movement path can be sufficiently displayed. As the screen expands, parents can more easily see their children's location and route.

At this time, when the movement route is displayed on the map, the time and the name of the building or the name of the road are also displayed on the above-mentioned points. By doing so, parents can easily see where their children came from and where they visited.

As described above, in the present embodiment, when the main smart device 300 is provided with the location information of the child, the map screen is enlarged or reduced at a proper ratio so that the map can be displayed on one screen by comparing the map with the travel route.

As described above, the present embodiment basically confirms the position information of the user himself / herself through the LED light and the visible light communication, and also allows the third person such as the parent to easily check the movement path of the child or the like. do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent that modifications, variations and equivalents of other embodiments are possible. Therefore, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: LED lighting 110: Smart device
112: Visible light receiving module 114: Mobile communication module
116: GPS receiving module 118:
120: display unit 200: management server
210: map DB 220: location information DB
300: The main smart device

Claims (11)

delete delete delete delete Smart devices that perform LED light and visible light communication; And
And a management server for receiving location information of the smart device,
Wherein the management server comprises a map DB for storing map information and a location information DB for storing location information of the smart device,
Further comprising a main smart device for requesting location information of the smart device to the management server by performing a proper authentication procedure and displaying the location information transmitted by the management server,
Wherein the main smart device sets a function so that the smart device does not display the location information. 6. The method of claim 5,
Wherein the map DB stores the information of the road name, the name of the building, and the time information together as the location information of the smart device. delete 6. The method of claim 5,
Wherein the smart device does not display its own location information. delete The management server cumulatively storing location information of the smart device by time zone and location;
Requesting a movement path of the smart device from a main smart device that has completed a legitimate authentication procedure;
Transmitting, by the management server, movement route information of the smart device to the main smart device; And
The main smart device includes a step of displaying the moving route while enlarging or reducing a map on which the moving route is displayed so that the moving route of the smart device is displayed on one screen at a time,
Requesting a display mode of the smart device by the main smart device;
Controlling the smart device by the management server according to the request; And
Wherein the smart device is set to a mode in which the location information is not displayed according to the control. delete

Images