KR100594120B1 - Indoor Positioning System and Information Transmission System based on Visible Light Communication - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to an indoor positioning method using visible light communications and a bidirectional information transmission method using the same.

2. The technical problem to be solved by the invention

An object of the present invention is to provide a position measuring method for measuring the position of a terminal using the characteristics of visible light in a visible light communication system.

3. Summary of the Solution of the Invention

The present invention provides a visible light communication system for measuring position information, comprising: a visible light communication access point (AP) for supporting visible light communication in the visible light communication system that periodically broadcasts its own information; A terminal supporting mobile communication for receiving the broadcasted visible light communication AP information and transmitting the received information through a mobile communication network; And a server managing location information of the terminal by mapping information of the visible light communication AP received from the terminal through the mobile communication network with stored location information.

4. Important uses of the invention

The present invention is used in visible light communication system and the like.

Optical wireless communication, visible light communication, position measurement, bidirectional communication

Description

Visible light communication system for position measurement, its location measuring method and bidirectional information transmission method using the same {Indoor Positioning System and Information Transmission System based on Visible Light Communication}             

1 is a diagram illustrating an embodiment of a wireless environment to which a conventional RF location indoor positioning system is applied.

2 is an exemplary view in which a visible light communication system to which the present invention is applied is applied to a plurality of cells.

3 is a block diagram of an embodiment of a visible light communication system for determining location information according to the present invention;

4 is a diagram illustrating a bidirectional communication service in a conventional visible light communication system.

5 is a block diagram of a bidirectional communication service in the visible light communication system according to the present invention;

6 is a structural diagram of an embodiment of a data packet used in a visible light communication system according to the present invention;

7 is a flowchart illustrating an embodiment of a process in which a mobile terminal performs a bidirectional communication service in a visible light communication system according to the present invention;

8 is a flowchart illustrating an embodiment of a process of performing a bidirectional communication service by a visible light communication AP in a visible light communication system according to the present invention;

The present invention relates to an indoor positioning method using visible light communications and a bidirectional information transmission method using the same.

Positioning system using GPS (Global Positioning System) or RFID (Radio Frequency IDentification) has been used for the purpose of applying to the emergency rescue.

The GPS system is mainly used outdoors in the location measurement system, but the RF method is used indoors. Recently, some large buildings have already applied the RF location indoor positioning system. However, such an indoor positioning system of the RF method has a problem in that it is difficult to secure accuracy due to the characteristics of RF having high transmittance and wide communication range.

1 is a diagram illustrating an embodiment of a wireless environment to which a conventional RF location indoor positioning system is applied.

Referring to FIG. 1, a wireless environment to which a conventional RF indoor positioning system is applied is located in a specific cell because its coverage area is wide and can penetrate walls due to the characteristics of RF. It is difficult to know the exact location of the terminal.

That is, the wireless environment shown in FIG. 1 includes first to twelfth cells, each of which has position measuring devices 101 to 112 for position measurement in the RF method, and each position measuring device 101 to 112. The area of) is circled.

In particular, the position measuring device (101 to 112) for position measurement of the RF method is located for each cell, the range for the position measurement of each position measuring device (101 to 112) is not limited to the corresponding cell and other cells Extends to the realm of.

To illustrate the case where the location of the terminal 100 illustrated in FIG. 1 is understood in such a wireless environment, the terminal 100 includes the cell 3 103, the cell 4 104, the cell 7 107, and the cell 8 108. ) Are all detected, so it is impossible to determine exactly which cell the terminal 100 is in.

On the other hand, if the signal strength is lowered to prevent the areas of the location measuring devices 101 to 112 from overlapping, the area for recognizing the presence of the terminal is limited to a specific part of the cell, thereby preventing the effectiveness of the location measuring system. .

As described above, the position measurement of the RF method is difficult to provide accurate results in indoor position measurement, and even if possible, the process is complicated.

Meanwhile, in order to compensate for this, indoor location measurement systems using visible light communication have been recently studied.

Light Emitting Diode (LED), which has been spotlighted as the next generation lighting for many years, plays a role as a lighting in daily life, and this visible light LED is operated as an access point (AP) in a visible light communication system. Therefore, when indoor location measurement is performed by using visible light communication using the visible light LED as an AP, visible light is similar to infrared (Infared) due to its physical characteristics, and thus it is not possible to penetrate walls, so that it is easy to distinguish between floors and the communication is a medium. Since visible light is recognizable (e.g., a bright part of an indoor light), it is easy to recognize a visible light.

In addition, since a light bulb is necessary indoors, if it is installed to enable visible light communication using the LED, it can be easily implemented without installing a separate system.

2 illustrates a system in which a visible light communication system is provided in a cell of an indoor room.

2 is an exemplary view in which a visible light communication system to which the present invention is applied is applied to a plurality of cells.

As shown in FIG. 1, the wireless environment illustrated in FIG. 2 includes first to twelfth cells, each of which includes position measuring devices 201 to 212 for position measurement in the RF method, and each position measurement. The areas of devices 201-212 are indicated by triangles.

In particular, the position measuring device (101 to 112) for position measurement in visible light communication is located for each cell, the range for position measurement of each position measuring device (101 to 112) is limited to the corresponding cell.

In this wireless environment, if the location of the terminal 100 illustrated in FIG. 2 is illustrated, the cell 100 may be detected only in the cell 3 203, and thus, the cell 100 may be identified exactly in which cell.

However, in such a visible light communication system, no research has been presented regarding a process for identifying location information and a processing method for the location information.

The present invention has been proposed to solve the above problems, and an object thereof is to provide a position measuring method for measuring the position of a terminal using the characteristics of visible light in a visible light communication system.

Another object of the present invention is to provide a method for providing a large amount of information for a corresponding terminal by using AP information of a visible light communication system determined by the location measurement of the terminal.

The present invention for achieving the above object, in the visible light communication system for measuring position information, visible light communication AP for supporting visible light communication in the visible light communication system that broadcasts its own information periodically (Access Point); A terminal supporting mobile communication for receiving the broadcasted visible light communication AP information and transmitting the received information through a mobile communication network; And a server managing location information of the terminal by mapping information of the visible light communication AP received from the terminal through the mobile communication network with stored location information.

In addition, the present invention is a method for measuring a precise indoor position by a terminal supporting mobile communication in a visible light communication system, the terminal is a visible light communication AP for supporting visible light communication in the visible light communication system ( A first step of receiving information of the visible light communication AP periodically broadcasted from an access point; A second step of transmitting the received information of the broadcast visible light communication AP through a mobile communication network; And a third step of receiving location information of the terminal using information of the visible light communication AP transmitted through the mobile communication network.

The present invention also provides a bidirectional data transmission method of a terminal supporting mobile communication in a visible ray communication system capable of measuring a position, the terminal comprising: receiving information broadcast from a visible ray communication AP in a standby state; Stage 1; A second step of confirming whether to request detailed information about the received broadcasting information; A third step of transmitting a request message for the detailed information together with the location information of the terminal through the mobile communication network when the request for the detailed information is requested as a result of the second step; And a fourth step of receiving the detailed information requested through the mobile communication network through visible light communication through the visible light communication AP.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that the same components in the drawings are represented by the same reference numerals and symbols as much as possible even though they are shown in different drawings. In addition, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a configuration diagram of an embodiment of a visible light communication system for identifying location information according to the present invention.

Referring to FIG. 3, a visible light communication system for identifying location information includes visible light communication APs 31-1 to 31-3 that transmit data through visible light to perform visible light communication. A mobile terminal 30 capable of performing ray communication and mobile communication, a base station 32 for providing a mobile communication service for the mobile terminal 30, a service connected to a mobile communication network according to a request of the mobile terminal 30 It includes a server 33 and a mobile communication network 34 to provide.

First, the APs 31-1, 31-2, and 31-3 of each visible light communication system provide location information by transmitting their IDs through visible light communication (301).

Meanwhile, the terminal 30 transmits its location information to the server 33 through the mobile communication network 34 via the base station 32 (302 and 303). In this case, it is assumed that the server 33 is generally a home location register (HLR) of a mobile communication system.

In the present invention, the terminal having received the ID of the AP through visible light communication (301) and transmitting the ID of the AP received together with its ID at the time of registering the location of the mobile communication system to the base station 32 (302) Suggest. The base station 32 transmits the information to the server 33 through the mobile communication network 34, and the server 33 stores the information of the APs 31-1, 31-2, and 31-3 and accordingly the corresponding terminal ( 30) will be identified.

In an embodiment of the present invention, the server 33 holds location information about each AP of the visible light communication system, and maps the information to the information containing the ID of the received AP. The location is known.

In the above embodiment, the AP information of the visible ray communication system is registered in the location registration process of the mobile communication network 34 including the terminal 30 and the base station 32. In fact, in the implementation, when the terminal 30 needs to receive the information of the APs 31-1 to 31-3 and receive accurate location information, the terminal 30 receives the information of the corresponding APs 31-1 to 31-3. It is also possible to transmit the data through the mobile communication network 34 to receive the location information. In the case of using the embodiment in which the location information is provided through the packet information request, the present invention can be implemented without changing the pilot signal of the existing mobile communication network.

4 is a block diagram of a bidirectional communication service in a conventional visible light communication system.

Referring to FIG. 4, the visible light communication system for bidirectional communication is a visible light communication AP 31-1 to 31-3 that transmits data through visible light to perform visible light communication, and visible light communication. And a mobile terminal 30 capable of performing mobile communication, a base station 32 for providing a mobile communication service to the mobile terminal 30, and a mobile communication network connected to provide a service according to a request of the mobile terminal 30. Server 33 and mobile communication network 34 for the purpose of communication.

For two-way communication, first, the mobile terminal 30, which has received simple information from the visible light communication APs 31-1 to 31-3 in a broadcasting method (401), tries to receive more detailed information about the received simple information. If so, request detailed information on the base station 32 (402). The base station 32 requests the detailed information to the server 33 for providing the corresponding detailed information through the mobile communication network 34 (403). The server 33 transmits the detailed information to the base station 32 through the mobile communication network 34. (404) and the base station 32 transmits it to the mobile terminal 30 so that a personal connection to the information transmitted by broadcasting by visible light communication is made through the mobile communication network.

In this case, the information transmitted to the mobile terminal 30 through visible light communication includes location information of the APs 31-1 to 31-3, advertisement information about products, simple information about an exhibit, and brief guide information. .

Therefore, each user of the mobile terminal 30 provided with such simple information may need a more detailed information from the received simple information. In the related art, a structure is requested and provided through the mobile communication network 34. to be.

However, in this case, when the amount of the corresponding detailed information is large or the size of the data to be transmitted is large, the mobile communication network 34 needs to be continuously connected, which increases the user's communication charges and transmits the data. There is a problem that the fast processing is difficult due to the limitation of the speed.

Accordingly, an embodiment of the present invention proposes a bi-directional communication service method in a visible light communication system which enables transmission of detailed information through visible light communication by identifying a location of a visible light communication AP.

5 is a block diagram of a bidirectional communication service in the visible light communication system according to the present invention.

Referring to FIG. 5, the visible light communication system for bidirectional communication includes visible light communication APs 31-1 to 31-3 that transmit data through visible light in order to perform visible light communication, and visible light communication. And a mobile terminal 30 capable of performing mobile communication, a base station 32 for providing a mobile communication service to the mobile terminal 30, and a mobile communication network connected to provide a service according to a request of the mobile terminal 30. Server 33 and mobile communication network 34 for the purpose of communication.

At this time, the server 33 is connected to the network including the visible light communication AP (31-1 to 31-3) and the Internet (35).

For bidirectional communication according to an embodiment of the present invention, first, the mobile terminal 30 receives simple information from the visible light communication APs 31-1 to 31-3 in a broadcasting method (501). If more detailed information is to be received, the detailed information on the request is requested to the base station 32 (502). The base station 32 requests the detailed information to the server 33 for providing the corresponding detailed information through the mobile communication network 34 (503).

As such, the server 33 receiving the detailed information provides the requested detailed information to the visible light communication APs 31-1 to 31-3 through a network such as the Internet 35 (504). At this time, the positions of the visible light communication APs 31-1 to 31-3 are determined by the method shown in FIG. 3, so that the DNS (Domain Name Service) of the visible light communication APs 31-1 to 31-3 is used. Assume that the server 33 recognizes the address or MAC address.

The visible light communication APs 31-1 to 31-3 transmit the transmitted detailed information to the corresponding mobile terminal 30 (505). Existing visible light communication APs 31-1 to 31-3 perform visible light communication through periodic broadcasting, but according to an embodiment of the present invention, detailed information about each mobile terminal 30 may be provided. There is a need. Therefore, the data packet of visible light communication processed by the visible light communication APs 31-1 to 31-3 according to the present invention is set to be divided into a broadcasting packet and a unicasting packet. An example of such a data packet is shown in FIG.

6 is a structural diagram of an embodiment of a data packet used in the visible ray communication system according to the present invention.

The data packet used in the visible light communication system according to the present invention includes a broadcasting packet 61 for transmitting to all terminals in the AP area and a unicasting packet 62 for transmitting to a specific terminal.

Here, the broadcasting packet 61 is periodically provided for all terminals in the corresponding AP, and the information including the information is transmitted to the ID 611 of the corresponding AP and all the terminals in the corresponding AP for determining the location of the corresponding AP. It consists of broadcasting data 612 consisting of simple information data.

The unicasting packet 62 is provided to a specific terminal in the corresponding AP, and the included information includes the terminal ID 621 indicating the specific terminal and the detailed information data transmitted from the server 33 for delivery to the specific terminal. It consists of unicast data 622 consisting of.

In this case, the unicast data 622 is encrypted and transmitted for security. The key for decryption of the encryption is that the specific terminal ID received is used.

As described above, the embodiment of the present invention according to FIGS. 5 and 6 enables bidirectional communication service using the visible light communication system.

That is, when a mobile terminal user who receives simple information broadcasted by visible light communication needs more detailed information (for example, a user who has received brief information of an exhibition requests detailed information about each work). In this case, when the user who received the advertisement information requests more detailed information about the advertisement product, when the user who received the demo image or the music requests the corresponding content), the mobile terminal requests the detailed information through the mobile communication network. Together with the location information of the mobile terminal (that is, the ID of the visible light communication AP) is transmitted to the server. The server transmits the requested detailed information to the visible light communication AP according to the location information of the mobile terminal so that the corresponding detailed information is transmitted to the mobile terminal through the visible light communication to provide the high speed data service of the visible light communication without using the mobile communication network. To make it available. This improves the efficiency of the mobile communication network, utilizes the large-capacity information transmission function of visible light communication, and can provide convenience to the user, making it easy to apply to a ubiquitous environment.

7 is a flowchart illustrating an embodiment of a process in which a mobile terminal performs a bidirectional communication service in a visible light communication system according to the present invention.

First, the mobile terminal receives the location information of the visible light communication AP and the simple information about the exhibits or other merchandise periodically broadcast in the reception waiting state (701).

In operation 702, the mobile terminal displays the received casting information and confirms whether to request detailed information on the received information.

As a result of the check 702, if no request for detailed information is made, the process proceeds to the reception waiting state 701. On the other hand, if the request for the detailed information transmits the location information including the ID of the visible light communication AP and the ID of the mobile terminal and requests for the detailed information (704).

In response to the request for such detailed information, the server providing the detailed information transmits the requested detailed information through the network such as the Internet to the visible light communication AP according to the location information, and the received visible light communication AP receives the received detailed information. After encrypting using the ID of the corresponding mobile terminal as a key (KEY), and transmits to the mobile terminal.

The mobile terminal receives the received detailed information through visible light communication and receives the detailed information by decoding (authenticating) the ID using the ID of the mobile terminal (authentication) (705).

In this process, various authentication methods may be applied to provide the requested detailed information only to the mobile terminal that requested the information. In the embodiment of the present invention, the detailed information encrypted using the ID of the mobile terminal which requested the detailed information is transmitted. It illustrates that the authentication process is performed by decrypting this using the ID of the mobile terminal.

8 is a flowchart illustrating an embodiment of a process of performing a bidirectional communication service by a visible light communication AP in a visible light communication system according to the present invention.

First, the visible light communication AP periodically broadcasts simple information such as visible light communication AP information and advertisement messages (81). In this case, the visible light communication AP information refers to an ID of the visible light communication AP for determining location information.

In operation 82, it is determined whether there is unicasting data for the mobile terminal located in the area of the visible ray communication AP. In the embodiment of the present invention, since the mobile terminal located in the area of the visible light communication AP does not provide information about the visible light communication AP, checking whether there is unicasting data for the mobile terminal located in the area of the visible light communication AP This is performed by checking whether there is unicasting data (ie, detailed information) transmitted from the server of the mobile communication network.

As a result of confirmation (82), if there is no unicasting data, the process proceeds to step 81 and performs periodic broadcasting. The data is encrypted using a key and then transmitted to the mobile terminal (83).

In an embodiment of the present invention, transmitting data through the network using the ID of the visible light communication AP illustrates that each visible light communication AP has information such as a MAC address. Another embodiment is provided with a management server that manages the entire building, the MAC address of the management server is shared by all visible light communication AP in the building, the visibility delivered in the embodiment of the present invention to deliver accurate location information It is possible to implement the information of the ray communication AP to include the address of the management server and the identification number of the visible ray communication AP. Through this, the server of the mobile communication network transmits detailed information to the MAC address of the management server without the MAC address of each visible light communication AP, and the management server delivers the detailed information to the visible light communication AP corresponding to the identification number. Data transmission using location information according to an embodiment of the present invention can be implemented.

As described above, the method of the present invention may be implemented as a program and stored in a recording medium (CD-ROM, RAM, floppy disk, hard disk, magneto-optical disk, etc.) in a computer-readable form.

In addition, the present invention as described above illustrates the contents of a single AP, but this is only an example, and in the visible ray communication system, if support for handover for movement between APs of a mobile terminal is possible, the present invention may be viewed in connection with such technology. Roaming may be possible with respect to the transmission of a large amount of data according to an embodiment of the present invention.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited by the drawings.

The present invention as described above has the effect that it is possible to accurately measure the position of the terminal in the room by using the characteristics of the visible light in the visible light (Visible Light Communication) communication system.

In addition, the present invention, by using the AP information of the visible light communication system determined by the location measurement of the terminal provides a large amount of information for the terminal to save the radio resources of the mobile communication network and increase the user's convenience. .

Claims (15)

In the visible light communication system for measuring position information, A visible light communication access point (AP) for supporting visible light communication in the visible light communication system that broadcasts its information periodically; A terminal supporting mobile communication for receiving the broadcasted visible light communication AP information and transmitting the received information through a mobile communication network; And And a server configured to map the information of the visible light communication AP received from the terminal through the mobile communication network with the stored location information to manage the location information of the terminal. The method of claim 1, The terminal, Visible light communication for measuring the location information, characterized in that for transmitting the location information by transmitting the received information of the broadcast visible light communication AP in the pilot signal for location registration of the terminal to the mobile communication network system. The method of claim 1, The terminal, And transmitting the location information by transmitting the received information of the broadcast visible light communication AP into packet data, and transmitting the location information to the mobile communication network. In the visible light communication system, a terminal supporting mobile communication to accurately measure the indoor location, The terminal may include a first step of receiving information of the visible light communication AP periodically broadcasted from a visible light communication access point (AP) for supporting visible light communication in the visible light communication system; A second step of transmitting the received information of the broadcast visible light communication AP through a mobile communication network; And And receiving a location information of the terminal by using the information of the visible light communication AP transmitted through the mobile communication network. The method of claim 4, wherein The second step, And receiving the information of the broadcast visible light communication AP received in the pilot signal for location registration of the terminal and transmitting the received information to the mobile communication network. The method of claim 4, wherein The second step, And transmitting the received information of the broadcast visible light communication AP into packet data and transmitting the packet data to the mobile communication network. In the visible light communication system capable of measuring the position in the bidirectional data transmission method of a terminal supporting mobile communication, the terminal, A first step of receiving information broadcast from a visible light communication AP in a reception waiting state; A second step of confirming whether to request detailed information about the received broadcasting information; A third step of transmitting a request message for the detailed information together with the location information of the terminal through the mobile communication network when the request for the detailed information is requested as a result of the second step; And And a fourth step of receiving the detailed information requested through the mobile communication network through visible light communication AP through visible light communication. 2. The method of claim 7, wherein The broadcasting information, ID data of the visible light communication AP and broadcast data to be transmitted to all the terminals in the area by broadcasting in the visible light communication AP, bidirectional data transmission in the position measurement visible light communication system, characterized in that it comprises Way. The method of claim 8, The location information of the terminal, And the ID information of the visible light communication AP and ID information of the terminal included in the broadcasting information. The method of claim 9, ID information of the visible light communication AP is information that can be converted into position information accessible through a network, the method for bidirectional data transmission in a visible light communication system capable of position measurement. The method of claim 10, The visible light communication AP Data for the visible light communication, And generating a broadcast area for transmitting the broadcasting information and a unicast area for providing the detailed information. The method of claim 11, The unicast region, A terminal ID field for transmitting ID information of a terminal to provide the detailed information; And a unicast data field for transmitting the detailed information. 2. The method of claim 12, The detailed information transmitted in the unicast data field, Bi-directional data transmission method in a visible light communication system capable of measuring position, characterized in that the ID information of the terminal is encrypted with a key (KEY). The method of claim 13, In the fourth step, and further comprising the fifth step of decoding the detailed information received by the visible light communication through the visible light communication AP using the ID information of the terminal stored in the terminal visible light capable of position measurement Bidirectional data transmission method in communication system. The method according to any one of claims 11 to 14, The visible light communication AP receives the detailed information, Bi-directional data transmission method in a visible light communication system capable of measuring position, characterized in that the transmission via the Internet.

Images