KR20140046315A - Method for providing service by using code, apparatus therefor - Google Patents

Abstract

Provided are a service providing method using codes, a service providing apparatus therefor, and a QR code processing apparatus. The service providing apparatus includes: a communication unit which receives a service request signal including codes and frequency environment data acquired from a terminal; a location calculator unit which calculates the current location information of the terminal based on the frequency environment information; and an information processor unit which extracts the data corresponding to the codes based on the current location information, and transmits a service reply signal including the extracted data to the terminal. [Reference numerals] (110) Terminal; (112) Code recognition application; (120) Network; (122) 3G network; (124) 4G network; (126) Wireless LAN network; (128) Nth network; (130) Location calculator unit; (140) Code processing apparatus; (150) Contents providing apparatus; (AA) Code

Description

Technical Field [0001] The present invention relates to a service providing method using a code, a service providing apparatus therefor,

The present embodiment relates to a service providing method using codes, a service providing apparatus therefor, and a code processing apparatus. More particularly, the present invention relates to a service providing method using a code for providing a specialized service according to current location information by providing data corresponding to a code in consideration of current location information of a terminal when receiving a service using a code in a terminal A service providing apparatus therefor, and a code processing apparatus.

It should be noted that the following description merely provides background information related to the present embodiment and does not constitute the prior art.

A typical two-dimensional code is a QR code. This QR code is fast in decoding and has a large capacity, high density, error correction function, and the like compared to a general bar code. For example, such a QR code may be attached, printed, distributed on a plate of a restaurant, or included in an advertisement so that information about the book can be found on the book cover. Therefore, the QR code can be utilized for information (card, phone number, text, homepage URL, etc.) necessary for the whole life.

The present embodiment provides a service providing method using a code for providing a specialized service according to current location information by providing data corresponding to a code in consideration of current location information of a terminal when receiving a service using a code in a terminal And a service providing device and a code processing device therefor.

According to an aspect of the present invention, there is provided a communication system including: a communication unit for receiving a service request signal including a code and propagation environment information obtained from a terminal; A location calculation unit for calculating current location information of the terminal based on the propagation environment information; And an information processing unit for extracting data corresponding to the code based on the current location information and transmitting a service response signal including the extracted data to the terminal.

According to another aspect of the present invention, there is provided a communication system including: a communication unit for receiving a service request signal including a code obtained from a terminal and receiving current position information of the terminal from a position calculation device; And an information processing unit for extracting data corresponding to the code based on the current location information and transmitting a service response signal including the extracted data to the terminal.

According to another aspect of the present invention, there is provided a method of providing a service by a service providing apparatus, comprising: a communication process of receiving a service request signal including a code and propagation environment information obtained from a terminal; A position calculating step of calculating current position information of the terminal based on the propagation environment information; And an information processing step of extracting data corresponding to the code based on the current location information and transmitting a service response signal including the extracted data to the terminal. to provide.

According to another aspect of the present invention, there is provided a method of providing a service by a code processing apparatus, the method comprising: receiving a service request signal including a code obtained from a terminal; receiving current position information of the terminal from the position calculation apparatus; A communication process; And an information processing step of extracting data corresponding to the code based on the current location information and transmitting a service response signal including the extracted data to the terminal. to provide.

As described above, according to the present embodiment, when receiving a service using a code in a terminal, by providing the data corresponding to the code in consideration of the current location information of the terminal, it is possible to provide a specialized service according to the current location information .

In addition, according to the present embodiment, it is possible not only to provide a service limited to a specific region, but also to redirect to a connection blocking URL for a code that can not be recognized according to a region, .

1 is a block diagram schematically showing a service providing system using a code according to the present embodiment,
2 is a block diagram schematically showing a network according to the present embodiment,
FIG. 3A is a block diagram schematically showing a service providing apparatus according to the present embodiment,
FIG. 3B is a block diagram schematically showing a code processing apparatus according to the present embodiment,
4 is a flowchart illustrating a method of providing a service using a code according to an embodiment of the present invention.
5 is an exemplary view showing a database according to the present embodiment,
6 is an exemplary diagram illustrating a service providing method using a database according to the present embodiment.
7 is an exemplary diagram illustrating a service providing method using a QR code according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a service providing system using a code according to the present embodiment.

The service providing system using the code according to the present embodiment includes a terminal 110, a network 120, a location calculating device 130, a code processing device 140, and a content providing device 150. Although the present embodiment describes that the service providing system using the code includes only the terminal 110, the network 120, the location calculating device 130, the code processing device 140, and the content providing device 150, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims, Various modifications and variations may be applied to the present invention.

The 'code' shown in FIG. 1 may be a two-dimensional bar code, a three-dimensional bar code, a QR code, or the like. Here, the QR code, which is considered to be the most applicable to this embodiment, is a two-dimensional bar code in the form of a matrix representing information in a monochrome lattice pattern. That is, the QR code overcomes the capacity limitation of a general bar code, and has a two-dimensional bar code that extends the format and contents, and has vertical and horizontal information, and can store character data in addition to the number. In general, it can be read by a digital camera or a dedicated scanner. For reference, the QR code has a two-dimensional shape in both vertical and horizontal directions, and can have more information. In addition to the numbers, character data such as alphabets and Chinese characters can be stored. It is irrelevant if the hue is color-distinguishable. In addition, the QR code supports various versions (for example, versions 1 to 40), and the information and size that can be included in each version are different from each other. The QR code includes a quiz zone, a position detection pattern (including a separator), a timing pattern, an alignment pattern, format information, version information, and a data area (including an error correction code area) The area is divided.

The terminal 110 is a terminal capable of transmitting and receiving various data via the network 120 according to a key operation or a command of the user. The terminal 110 may be a tablet PC, a laptop, a personal computer Computer, a smart phone, a personal digital assistant (PDA), and a mobile communication terminal. In addition, the terminal 110 may be a cloud computing terminal that supports cloud computing that can use services such as data reading, writing, storing, network, and content usage through the network 120.

The terminal 110 has a wireless communication processing unit for performing voice communication and data communication. The terminal 110 is connected to the network 120 using a wireless communication processing unit, And performs data communication. That is, the terminal 110 is a terminal capable of connecting and receiving various data by connecting to the cellular networks (122, 124, and 128) through the transmitters 210 and 220 interlocked with each other using the installed wireless communication processing unit. The terminal 110 is a terminal having a GPS module. The terminal 110 extracts navigation data from GPS information received from one or more GPS (Global Positioning System) satellites using the provided GPS module, To the position calculation device 130 via the communication network. In addition, the terminal 110 is a terminal having a wireless LAN module. The terminal 110 is connected to the wireless LAN network 126 through an access point (AP) that is recognized (scanned) by using a wireless LAN module installed therein, Terminal. That is, the terminal 110 preferably includes at least one of a GPS module and a wireless LAN module, but is not limited thereto.

The terminal 110 is a terminal having a camera module and can capture a code (a two-dimensional barcode, a three-dimensional bar code, a QR code, etc.) and transmit the captured code (image) to the code processing device 140 have. At this time, the terminal 110 may perform a series of operations for taking a code through the installed code recognition application 112 and transmitting the code to the code processing device 140. [ Here, the terminal 110 may photograph the code manually by an operation or a command of the user, but may automatically photograph the code when the code is recognized through the installed code recognition application 112. [

That is, the terminal 110 is a terminal that performs voice or data communication using the network 120 and is connected to the location calculation device 130, the code processing device 140, the content providing device 150 A memory for storing a program or protocol for communicating with the terminal, and a microprocessor for executing and controlling the program. That is, the terminal 110 may be any terminal capable of communicating with the location calculation device 130, the code processing device 140, and the content providing device 150, and may be a notebook computer, a mobile communication terminal, a PDA And other communication computing devices. The terminal 110 may perform voice or data communication through the network 120 and may communicate with the location calculation device 130, the code processing device 140, the content providing device 150, Lt; / RTI > In this embodiment, the terminal 110 is implemented as a separate device from the position calculation device 130 and the code processing device 140. However, in the actual implementation, the terminal 110 calculates the position A device 130, and a code processing device 140. The stand-alone device may be a stand-alone device.

The terminal 110 according to the present embodiment can perform a service using a code by mounting the code recognition application 112. [ That is, the terminal 110 drives the code recognition application 112 by a user's operation or command, and can recognize the code through the code recognition application 112. If the terminal 110 is a smart phone, the code recognition application 112 can be downloaded and installed through the application store. If the terminal 110 is a feature phone Feature Phone), it can be operated on a VM (Virtual Machine) downloaded through a communication company server.

The code recognition application 112 may be embedded in the terminal 110 according to the embodiment of the present invention. The code recognition application 112 may be embedded in the code recognition application 112 , An OS (Operating System) mounted in the terminal 110, or installed in an OS in the terminal 110 by a user's operation or command. The code recognition application 112 installed in the terminal 110 in the above-described manner may be implemented to interoperate with a basic application (e.g., a camera application) installed in the terminal 110, but is not limited thereto. It can be implemented to operate as an independent function without interlocking.

On the other hand, the terminal 110 and the position calculation device 130 can communicate using a positioning protocol, which refers to a protocol standardizing the specification of the application layer for position location. That is, any positioning protocol can be used if the positioning protocol can transmit and receive GPS signals and wireless LAN signals between the terminal 110 and the position calculating device 130. The positioning protocol may be IS-801 (Interim Standard-801), Radio Resource Location Services Protocol (RRLP), Radio Resource Control (RRC), Secure User Plane Location (SUPL) Meanwhile, the Secure User Plane Location (SUPL) 2.0 may be used as the positioning protocol to transmit and receive the GPS signal and the wireless LAN signal between the terminal 110 and the position calculating device 130, but is not limited thereto. Herein, the SUPL is a method for directly transmitting and receiving data related to the position location in the data transmission path between the position calculation device 130 and the terminal 110, This is a protocol that prevents communication between nodes, and it is a protocol that can reduce the cost of implementing nodes required for location tracking and provide more accurate location location service. Meanwhile, when SUPL 2.0 is used, the terminal 110 can measure RTD (Round Trip Delay) using SUPL 2.0. That is, the terminal 110 sets the location ID of the location ID and the multiple location IDs when setting the wireless LAN parameter when communicating using the wireless LAN signal, and sets the RTD Value , RTD Units, RTD (RTD) Accuracy can be measured.

The terminal 110 according to the present embodiment collects radio wave environment information for the network 120 to be interworked. Here, the radio wave environment information collected by the terminal 110 includes GPS information when the terminal 110 communicates with GPS satellites. When the terminal 110 communicates with the cellular networks 122, 124, and 128, 210, and 220, and when it communicates with the wireless LAN network 126, it includes wireless LAN identification information for the AP. For example, when the terminal 110 communicates with the GPS, the propagation environment information includes GPS information (GPS navigation data). On the other hand, when the terminal 110 is communicating with the cellular networks 122, 124, and 128, the propagation environment information includes a system ID (SID: SID) for the currently connected cellular networks 122, 124, (NID), a transmitter ID (BSID) and a transmitter sector number (hereinafter referred to as a " transmitter ID " (Ref_PN: Reference_PN, hereinafter referred to as "Ref_PN"), a pilot phase in Ref_PN, and signal strength. Meanwhile, when the terminal 110 communicates with the wireless LAN network 126, the propagation environment information includes MAC address information, received signal strength information, SSID (Service Set Identifier) information, AP Point) One or more of the installation location information is included.

Hereinafter, an operation in which the terminal 110 according to the present embodiment receives a service using a code will be described. The user drives the code recognition application 112 mounted on the terminal 110. [ That is, the terminal 110 captures a code with a camera module provided using the code recognition application 112. [ At this time, if the code is a QR code, the QR code may be attached to a book cover, an advertisement screen (an online advertisement or an offline advertisement), or a plate of a restaurant. The terminal 110 transmits a service request signal including the photographed code and the measured radio wave environment information to the service providing apparatus 160. [ After that, the terminal 110 receives a service response signal corresponding to the service request signal from the service providing apparatus 160. When the terminal 110 is included in a connection permission URL (Uniform Resource Locator) in the service response signal, the terminal 110 accesses the content providing apparatus 150 corresponding to the connection permission URL and receives the content. On the other hand, when the terminal 110 is included in the access blocking URL in the service response signal, the terminal 110 accesses the content providing apparatus 150 corresponding to the access blocking URL and receives content (text, image) related to blocking access.

That is, the terminal 110 drives the code recognition application 112 installed in the terminal 110 to recognize the code, and selects 'code search' in the menu in the application. That is, when the user operates the terminal 110 to execute the code recognition application 112 and selects a code search in the menu and shoots a code (two-dimensional barcode, three-dimensional barcode, QR code, etc.) And transmits the service request signal including the propagation environment information to the service providing apparatus 160. The terminal 110 then moves to a page containing various information according to the information included in the service response signal received from the service providing apparatus 160.

Hereinafter, a method of driving the code recognition application 112 will be described. The code recognition application 112 may be implemented to operate independently in a form having a separate software function or hardware function performed by the terminal 110 or a separate software function or hardware function Or the like.

The code recognition application 112 is preferably installed in the terminal 110 and operated using various hardware provided in the terminal 110. However, the code recognition application 112 is not necessarily limited to this, and may be implemented as a separate device and operated. In addition, the code recognition application 112 may operate in conjunction with pre-installed applications in the terminal 110. [

The code recognition application 112 may be installed in the terminal 110 and may receive a service request including the code photographed at the terminal 110 and the measured propagation environment information, And transmits the signal to the position calculation device 130 and the code processing device 140. At this time, the code recognition application 112 transmits the photographed code to the code processing device 140, and transmits the measured propagation environment information to the position calculation device 130. [ Hereinafter, the code recognition application 112 is a program that receives a service response signal from the code processing device 140 and manages a service using a code that operates to access a page corresponding to a URL included in the service response signal.

The operation of the code recognition application 112 will be described in more detail. The code recognition application 112 captures a code using a camera module provided in the terminal 110. At this time, if the code is a QR code, the QR code may be attached to a book cover, an advertisement screen (an online advertisement or an offline advertisement), or a plate of a restaurant. The code recognition application 112 transmits a service request signal including the photographed code and the measured radio propagation environment information to the service providing apparatus 160. [ Thereafter, the code recognition application 112 receives a service response signal corresponding to the service request signal from the service providing apparatus 160. [ When the code recognition application 112 is included in the access permission URL in the service response signal, the code recognition application 112 accesses the contents providing apparatus 150 corresponding to the access permission URL and receives the contents. On the other hand, when the code recognition application 112 is included in the access blocking URL in the service response signal, the code recognition application 112 accesses the content providing device 150 corresponding to the access blocking URL and receives content (text, image) related to blocking access.

The network 120 may include an Nth network (Synchronous Network, Internet network, intranet network, satellite communication network, etc.) 128 (including a 3G network 122, a 4G network 124, ), Which can transmit and receive data through a communication protocol using various wired / wireless communication technologies. The network 120 also includes a cloud computing network that can be coupled with the content providing apparatus 150 to store computing resources such as hardware and software and to provide the computing resources required by the client to the terminal 110 can do. Here, cloud computing refers to a computer environment in which information is permanently stored on a server on the Internet and temporarily stored in a client terminal such as a desktop, a tablet computer, a notebook, a netbook, or a smart phone. Cloud computing, Refers to a computer environment access network that stores information on a server on the Internet and makes the information available anytime and anywhere through various IT devices. The network 120 will be described in detail with reference to FIG.

The location calculation device 130 calculates current location information of the terminal 110 and receives a service request signal including the propagation environment information from the terminal 110. The location calculation device 130 checks at least one of the GPS information, the transmitter identification information, and the wireless LAN identification information included in the radio wave environment information, and calculates the current location information according to the preset priority information of the confirmed information do. When the GPS information is included in the radio wave environment information, the position calculation device 130 calculates the current position information by preferentially using the GPS information included in the GPS information. In a case where the transmitter identification information or the wireless LAN identification information is included in the propagation environment information, the position calculation apparatus 130 calculates the current position information by performing the Indoor positioning using the transmitter identification information or the wireless LAN identification information. Here, if the transmitter identification information or the wireless LAN identification information included in the propagation environment information received from the terminal 110 is equal to or greater than a predetermined number, the transmitter identification information may be referred to as a vertex by triangular positioning by signal delay or by signal strength A triangulation position or a position for selecting a cell ID previously stored in the database, or the like.

Hereinafter, a case where the position calculating device 130 calculates the position of the terminal 110 using the GPS information will be described. The position calculating device 130 receives the satellite data through the satellite receiver built in itself and performs positioning using the GPS information (electronic navigation data) of the terminal 110 requesting the positioning. That is, the position calculation device 130 receives GPS information (electronic navigation data) from the terminal 110 and calculates the latitude and longitude coordinates of the terminal 110. The position calculating device 130 transmits the aiding data to help position the terminal 110 and calculates the distance between the GPS satellite and the terminal 110. [ In addition, when the location calculation device 130 selectively receives the location information from the terminal 110 according to need, the location calculation device 130 transmits the location information to the location based service platform (LBSP).

Hereinafter, a case where the position calculating device 130 calculates the position of the terminal 110 using the transmitter identification information or the wireless LAN identification information will be described. The position calculation device 130 can perform positioning of the radar data as the positioning result data and the pilot phase measurement (PPM) data received from the terminal 110. The location calculation device 130 receives the location location request signal from the LBSP and transmits the SMREQ signal requesting information on the terminal corresponding to the location location target by the HLR. The location calculation device 130 receives the smreq signal including the response to the information request for the terminal corresponding to the location location target from the corresponding HLR. The position calculation device 130 may position the terminal 110 in cooperation with the terminal 110 and then transmit the position location response including the position measurement result to the LBSP.

Meanwhile, the above-mentioned PPM data includes system information measured by the terminal 110 and time and distance information of an adjacent base station. Here, the propagation environment information collected by the terminal 110 includes information of a system currently being serviced, a pilot signal of an adjacent base station, a signal strength (Ec / Io), and the like. The information of the currently serving system includes a system ID (SID), a network ID (NID), a base station ID (BSID) (BS_ID) and a serving base station sector number Ref_PN (Ref_PN), a pilot phase in the Ref_PN, a signal strength, and the like. The pilot signal of the neighbor base station includes distance data and time data such as a neighbor base station sector number (Measurement PN) collected from the mobile terminal 110, a pilot phase in each adjacent base station sector number, a signal strength, and the like. The above-mentioned PPM data may be positioning related data in a CDMA system, which may be SFN (System Frame Number) -SFN Observed Time Difference in WCDMA or UE RX-TX Time Difference data, but is not limited thereto and may be used in all other communication systems Related data. Meanwhile, although the position calculating device 130 is applied to CDMA and WCDMA to provide Indoor positioning, the present invention is not limited thereto. The present invention is applicable to WiBro, LTE (Long Term Evolution) and EPC (Evolved Packet Core) It can provide Indian positioning.

When the transmitter identification information or the wireless LAN identification information included in the propagation environment information received from the terminal 110 is equal to or greater than a predetermined number, the position calculation apparatus 130 for the indoor positioning determines the transmitter identification information as a vertex Triangulation by triangulation or signal strength can be performed.

The code processing apparatus 140 according to the present embodiment directly calculates the current position information of the terminal 110 based on the propagation environment information received from the terminal 110 or calculates the current position information from the position calculation device 130, It is possible to receive the current position information. That is, the code processing unit 140 may include a separate position calculating unit 320 for directly calculating the current position information of the terminal 110, or may be provided with the current position information calculated from the position calculating apparatus 130, .

Hereinafter, an embodiment in which the code processing device 140 calculates the current position information of the terminal 110 through the internal position calculating unit 320 will be described. The internal module when the code processing unit 140 calculates the current position information of the terminal 110 through the internal position calculating unit 320 will be described with reference to FIG. 3A. That is, the code processing device 140 receives the service request signal including the code and the propagation environment information obtained from the terminal 110, and calculates the current location information of the terminal 110 based on the received radio wave environment information , Extracts data corresponding to the code based on the current location information, and transmits the service response signal including the extracted data to the terminal 110. At this time, the code processing device 140 includes a database 340 and stores at least one of location information, code, application information, content information, access permission URL information, and access blocking URL information in the database 340, The above information is matched and stored. The database 340 will be described with reference to FIG.

Hereinafter, a process in which the code processing device 140 provides data according to the code to the terminal 110 will be described. The code processing apparatus 140 confirms the area ID corresponding to the current location information using the database 340 provided therein, confirms whether or not the received area code includes the received code, . At this time, if the received code is included in the corresponding area ID, the code processing device 140 determines that the received code is valid and generates a service response signal including the access permission URL information. On the other hand, if the received code is not included in the corresponding area ID, the code processing device 140 determines that the code is not valid and generates a service response signal including the access blocking URL information.

Hereinafter, a process of calculating the current position information of the terminal 110 by the code processing device 140 will be described. The code processing device 140 checks at least one of the GPS information, the transmitter identification information, and the wireless LAN identification information included in the propagation environment information, and calculates the current position information according to the preset priority information of the confirmed information do. When the GPS information is included in the propagation environment information, the code processing device 140 calculates current position information by preferentially using the GPS information included in the GPS information. In addition, when the transmitter environment identification information or the wireless LAN identification information is included in the propagation environment information, the code processing apparatus 140 calculates the current location information by performing the indoor positioning using the transmitter identification information or the wireless LAN identification information. Here, if the transmitter identification information or the wireless LAN identification information included in the propagation environment information received from the terminal 110 is equal to or greater than a predetermined number, the transmitter identification information may be referred to as a vertex by triangular positioning by signal delay or by signal strength A triangulation position or a position for selecting a cell ID previously stored in the database, or the like. The current position information of the terminal 110 calculated by the code processing device 140 may be performed in the same manner as the operation of the position calculation device 130. [

Hereinafter, an embodiment will be described in which the code processing device 140 receives the current position information of the terminal 110 via the position calculation device 130, which is a separate device. The internal module when the code processing device 140 receives the current position information of the terminal 110 through the separate device location calculation device 130 will be described with reference to FIG. 3B. That is, the code processing device 140 receives the service request signal including the code obtained from the terminal 110, receives the current location information of the terminal from the location calculation device 130, And transmits a service response signal including the extracted data to the terminal 110. At this time, the code processing device 140 also includes a database 340. The database 340 may include at least one of location information, code, application information, content information, access permission URL information, Matches and stores information.

Hereinafter, a process in which the code processing device 140 provides data corresponding to a code will be described. At this time, the code processing device 140 receives the current position information of the terminal 110 from the position calculation device 130, but the other operations are the same. That is, the code processing device 140 confirms the area ID corresponding to the current location information, confirms whether the received area code includes the received code, and extracts the data based on the confirmation result. If the received code is included in the corresponding area ID, the code processing unit 140 determines that the received code is valid and generates a service response signal including the access permission URL information. If the received code is not included in the corresponding area ID, the code processing device 140 determines that the code is not valid and generates a service response signal including the access blocking URL information. That is, the code processing unit 140 does not perform the process of calculating the current location information of the terminal 110, and receives the current location information of the terminal 110 in cooperation with the location calculation unit 130.

Although the position calculating device 130 and the code processing device 140 are shown as separate devices in FIG. 1, the position calculating device 130 and the code processing device 140 may be one And a service providing apparatus 160, which is an apparatus of the present invention. The service providing apparatus 160 will be described with reference to FIG. 3A.

The content providing apparatus 150 is a kind of server which can access according to the access permission URL included in the service response signal received by the terminal 110. [ That is, the content providing apparatus 150 provides the terminal 110 with content corresponding to the access permission URL included in the service response signal. Here, the content may include at least one of text data, image data, and image data. In addition, the content providing apparatus 150 has the same hardware configuration as a Web server or a network server. In addition, software modules include program modules implemented in any language such as C, C ++, Java, Visual Basic, and Visual C. The content providing apparatus 150 may be implemented as a web server or a network server. The web server may be connected to an unspecified number of clients and / or other servers through an open computer network such as the Internet, Means a computer system that accepts a request to perform a task and derives a result of the task, and computer software (a web server program) installed for the computer system.

2 is a block diagram schematically showing a network according to the present embodiment.

The network 120 according to the present embodiment includes a 3G network 122, a 4G network 124, and a WLAN network 126.

The 3G network 122 includes a first transmitter 210, a data processor 212, a data gateway 214, a 3G charging gateway 216, and a 3G PCRF 218. 2 illustrates that the 3G network 122 includes only the first transmitter 210, the data processor 212, the data gateway 214, the 3G charging gateway 216, and the 3G PCRF 218, It is to be understood by those skilled in the art that various changes and modifications may be made to the elements included in the 3G network 122 without departing from the essential characteristics of the present embodiment It will be understood that the invention may be varied in many ways.

The UTRAN connected to the 3G network 122 shown in FIG. 2 refers to a Universal Mobile Telecommunications System (UMTS) Terrestrial Radio Access Network, and the GERAN is a Global System for Mobile Communications (EDGE) . UTRAN, GERAN are included in the 3G network 122. [

The terminal 110 supports both the 3G network 122 and the 4G network 124 so that in the 3G network 122 the terminal 110 communicates with the UTRAN over the Uu interface and with GERAN over the Um interface. The UTRAN communicates with the data processor 212 via the Iu-ps interface and communicates with the exchange via the Iu-cs interface. The GERAN communicates with the data processor 212 via the Gb interface and with the exchange via the A interface. The terminal 110 supports both the 3G network 122 and the 4G network 120 so that the data processor 212 communicates with the data gateway 214 via the Gn interface and communicates with the 3G PCRF 218 via the Gx interface And communicates with the exchange through the Gs interface.

The first transmitter 210 refers to a transmitter in the 3G network 122 and performs various functions necessary for wireless call processing such as location registration, radio channel assignment, and handoff in the 3G network 122. Here, the first transmitter 210 is preferably a node B, but is not limited thereto. In addition, the first transmitter 210 receives the call request signal from the terminal 110 through the traffic channel among the signal channels in the 3G network 122, performs baseband signal processing, wired / wireless conversion, and transmits / . The first transmitter 210 receives the call request signal or the service request signal from the terminal 110 through the traffic channel among the signal channels and transmits the received call request signal or the service request signal to the content providing apparatus 150). Here, the first transmitter 210 is preferably a transmitter, but is not limited thereto, and can be extended to UTRAN and GERAN.

The data processor 212 transmits a data packet to the mobile terminal 110 on the move and generates call detail information and billing data for the data packet transmitted to the terminal 110 and transmits the generated call detail information and billing data to the 3G billing gateway 216 . Here, the data processor 212 may be divided into a plurality of data processors according to the installed area. Here, the data processor 212 is preferably implemented as a Support GPRS Serving Node (SGSN), but is not limited thereto.

The data gateway 214 is a node responsible for a connection function between a backbone network and an external packet data network and transmits packet data received from the data processor 212 in an appropriate packet data protocol (PDP) format (e.g., IP, X.25) And converts the Packet Data Protocol (PDP) address of the incoming packet data to the recipient's global mobile communication system (GSM) address. The data gateway 214 also stores the address and user profile of the current user's data processor in the location register of the data processor 212 and performs authentication and charging functions. The data gateway 214 is preferably a gateway GPRS support node (GGSN), but is not limited thereto.

The 3G billing gateway 216 collects call history information and billing data for data packets received from a plurality of different data processors 212 while the terminal 110 of an overseas subscriber is moving and checks the call history information Generates the integrated charging data in which the charging data having the same charging ID is integrated into one data, and transmits the integrated charging data to the charging center. In addition, the 3G charging gateway 216 performs a function of collecting the data packet amount of all the charging data having the same charging ID and generating the integrated charging data. In addition, the 3G charging gateway 216 collects call detail information and billing data from at least one data processor of the plurality of data processors 212 in accordance with the handover of the terminal 110. In addition, the 3G charging gateway 216 performs the function of generating the integrated charging data by using the identifier (IMSI: International Mobile Subscriber Identity) and the charging ID. On the other hand, the charging ID refers to a value that the data processor 212 allocates from the data gateway 214 when charging data of the terminal 110 is generated. That is, the billing ID is a value that does not change even when the same subscriber moves the plurality of data processors 212 in the same data gateway 214.

The 3G charging gateway 216 is a device that performs content charging information on content transmitted from the content providing apparatus 150 to the terminal 110 and charges the corresponding content. That is, when the terminal 110 receives the content from the content providing apparatus 150, the 3G billing gateway 216 updates the content usage amount information and charges the required amount of the terminal 110 based on the updated information Lt; / RTI >

The 3G PCRF 218 can detect a packet included in the service data using a preset rule and apply the applied QoS (Quality of Service). In addition, the 3G PCRF 218 operates based on the policy determined by the policy providing device 130 and the billing control function by the 3G charging gateway 216. That is, the 3G PCRF 218 can detect the service data of the policy providing apparatus 130 and the 3G charging gateway 216, and can perform network control such as QoS.

Hereinafter, the 4G network 124 will be described. The 4G network 124 includes a second transmitter 220, a control processor 222, a traffic processor 224, a packet processor 226, a 4G charging gateway 228, and a 4G PCRF 230. 2, the 4G network 124 includes only the second transmitter 220, the control processor 222, the traffic processor 224, the packet processor 226, the 4G charging gateway 228, and the 4G PCRF 230 Those skilled in the art will appreciate that the present invention is not limited to the 4G network 124 but may be embodied in a 4G network 124 without departing from the essential characteristics of the present embodiment. It will be understood that the invention may be varied in many ways.

The E-UTRAN coupled to the 4G network 124 shown in FIG. 2 refers to an Evolved-UTRAN. The E-UTRAN is included in the 4G network 124. The terminal 110 supports both the 3G network 122 and the 4G network 124 so that in the 4G network 124 the terminal 110 communicates with the E-UTRAN over the LTE-Uu interface and the E-UTRAN communicates with the S1- And communicates with the control processing unit 222 via the U interface.

e Node B is a device that supports Long Term Evolution (LTE), and functions as RF transmission, transmission / reception, signal strength, quality measurement, baseband signal processing, and channel card (channel card resource management) . The second transmitter 220 and the Evolved Packet Core (EPC) (i.e., the control processing unit 222, the traffic processing unit 224, and the packet processing unit 226) may be collectively referred to as EPS (Evolved Packet System). That is, the second transmitter 220 refers to a transmitter in the LTE network, which is a 4G network 124, and performs various functions necessary for wireless call processing such as location registration, radio channel assignment, and handoff in the 4G network 124 . Here, the second transmitter 220 is preferably an eNode B, but is not limited thereto. Also, the second transmitter 220 receives the call request signal from the terminal 110 through the traffic channel among the signal channels in the 4G network 124, performs baseband signal processing, wired / wireless conversion, and transmits / . The second transmitter 220 receives the call request signal or the service request signal from the terminal 110 through the traffic channel of the signal channel and transmits the received call request signal or the service request signal through the transmission controller To the providing apparatus 150. Here, the second transmitter 220 is preferably a transmitter, but is not limited thereto, and can be extended to an E-UTRAN.

A control processor 222, a traffic processor 224, and a packet processor 226, and may be referred to as a packet core. This packet core refers to EPC. The control processor 222 basically performs a mobility management function for the terminal 110. Here, the control processor 222 is preferably an MME (Mobile Management Entity), but is not limited thereto. That is, the control processing unit 222 performs call control such as location registration, paging, and authentication, and performs a legitimate eavesdropping function and a data call control function for the call control unit. The control processor 222 is a node for managing subscriber information and mobility of the terminal 110 and is responsible for session management, idle subscriber management, paging, and subscriber authentication functions.

The traffic processing unit 224 is preferably an S-GW (Serving Gateway), but is not limited thereto. That is, the traffic processing unit 224 refers to a gateway for an access network and manages the mobility in the 3G network 122. In addition, the traffic processor 224 processes legitimate eavesdropping on call traffic, and performs a traffic processing function. The traffic processor 224 is a session controller for processing payload traffic according to a set session and a user plane node for interworking with a second transmitter 220 as a user plane node, Supports handover, sets a packet processing unit 226 and a PDP context, and delivers PDU (Packet Data Unit) using tunneling. On the other hand, the traffic processing unit 224 and the control processing unit 222 can be flexibly expanded according to the increase of the traffic or the increase of the control signal.

The packet processing unit 226 is preferably a P-GW (PDN Gateway), but is not limited thereto. The packet processing unit 226 is a gateway to a Packet Data Network (PDN) such as an IP Multimedia Subsystem (IMS) or the Internet, manages mobility for a non-3GPP network, performs billing according to policy, do. The packet processor 226 is a session control and user plan for assigning IP of the terminal 110 and interworking with an external Internet network and a non-3GPP network. The packet processor 226 is provided with a traffic processor 224 for packet service, ) Information and has tunneling and IP routing functions. In addition, the packet processing unit 226 delivers the PDU to the traffic processing unit 224 and the external network.

The 4G charging gateway 228 is a device that performs content charging information on content transmitted from the content providing device 150 to the terminal 110 and charges the corresponding content. That is, when the terminal 110 receives the content from the content providing apparatus 150, the 4G charging gateway 228 updates the content usage amount information, and charges the terminal 110 based on the updated information Lt; / RTI >

The 4G PCRF 230 can detect a packet included in the service data using a predetermined rule and apply the applied QoS. The 4G PCRF 230 also operates based on the policy determined by the policy providing device 130 and the billing control function by the 4G charging gateway 228. [ That is, the 4G PCRF 230 can detect the service data of the policy providing apparatus 130 and the 4G charging gateway 228, and perform network control such as QoS.

FIG. 3A is a block diagram schematically showing a service providing apparatus according to the present embodiment.

The service providing apparatus 160 shown in FIG. 3A refers to one apparatus that combines the position calculating apparatus 130 and the code processing apparatus 140. The internal apparatus includes a communication unit 310, a position calculating unit 320, an information processing unit 330 and a database 340. Here, the position calculating unit 320 corresponds to the position calculating device 130, and the communication unit 310, the information processing unit 330, and the database 340 correspond to the code processing device 140.

Although the service providing apparatus 160 includes only the communication unit 310, the position calculating unit 320, the information processing unit 330 and the database 340 in the present embodiment, The present invention is not limited to the above embodiments and various modifications and changes may be made to the components included in the service providing apparatus 160 without departing from the essential characteristics of the present embodiment It will be possible.

The communication unit 310 receives a service request signal including a code and propagation environment information obtained from the terminal 110. The position calculation unit 320 calculates current position information of the terminal 110 based on the propagation environment information. At this time, the position calculation unit 320 checks at least one of the GPS information, the transmitter identification information, and the wireless LAN identification information included in the propagation environment information, and determines the current position information . In addition, when the GPS information is included in the radio wave environment information, the position calculating unit 320 calculates current position information using GPS information preferentially. In addition, when the transmitter environment identification information or the wireless LAN identification information is included in the propagation environment information, the location calculation unit 320 calculates the current location information by performing the indoor positioning using the transmitter identification information or the wireless LAN identification information.

The information processing unit 330 extracts data corresponding to the code based on the current location information, and transmits the service response signal including the extracted data to the terminal. In addition, the information processing unit 330 confirms the area ID corresponding to the current location information, confirms whether or not the received area ID includes the received code, and extracts the data based on the confirmation result. If the received code is included in the corresponding area ID, the information processing unit 330 determines that the received code is valid and generates a service response signal including the access permission URL information. If the received code is not included in the corresponding area ID, the information processing unit 330 determines that the code is not valid and generates a service response signal including the access blocking URL information. The database 340 stores at least one of location information, code, application information, content information, access permission URL information, and access blocking URL information for each area ID.

3B is a block diagram schematically showing a code processing apparatus according to the present embodiment.

The code processing apparatus 140 according to the present embodiment includes a communication unit 310, an information processing unit 330, and a database 340. In this embodiment, the code processing apparatus 140 includes only the communication unit 310, the information processing unit 330, and the database 340. However, this is merely an example of the technical idea of the present embodiment, Those skilled in the art will appreciate that various modifications and changes may be made to the components included in the code processing device 140 without departing from the essential characteristics of the embodiments.

That is, the code processing apparatus 140 of FIG. 3B is an apparatus excluding the position calculating unit 320 in the service providing apparatus 160 of FIG. 3A, and the position calculating apparatus 130 corresponding to the position calculating unit 320 is separately provided Which is implemented by the device of FIG. The communication unit 310 receives the service request signal including the code obtained from the terminal 110 and receives the current location information of the terminal 110 from the location calculation device 130.

The information processing unit 330 extracts data corresponding to the code based on the current location information and transmits the service response signal including the extracted data to the terminal 110. The information processing unit 330 confirms the area ID corresponding to the current location information received from the location calculation device 130, confirms whether or not the received code is included in the area ID, extracts the data based on the confirmation result do. If the received code is included in the corresponding area ID, the information processing unit 330 determines that the received code is valid and generates a service response signal including the access permission URL information. If the received code is not included in the corresponding area ID, the information processing unit 330 determines that the code is not valid and generates a service response signal including the access blocking URL information. The database 340 stores at least one of location information, code, application information, content information, access permission URL information, and access blocking URL information for each area ID.

4 is a flowchart illustrating a service providing method using a code according to the present embodiment.

The terminal 110 drives the code recognition application 112 mounted by a user's operation or command and generates a code (a two-dimensional bar code, a three-dimensional bar code, QR code, etc.) (410). At this time, if the code is a QR code, it is attached to a book cover, is included in an advertisement screen (an online advertisement or an offline advertisement), or is printed on a dish of a restaurant. The terminal 110 transmits a service request signal including the photographed code (two-dimensional bar code, three-dimensional bar code, QR code, etc.) and the measured radio wave environment information to the service providing apparatus 160. The position calculation device 130 receives a service request signal including the propagation environment information from the terminal 110 in step S420 and the code processing device 140 receives the code photographed from the terminal 110 , QR code, etc.) (S430). Steps S420 and S430 may be performed in a single process when the location calculation device 130 and the code processing device 140 are implemented as a service providing device 160, which is a single device.

The position calculation device 130 calculates current position information of the terminal 110 based on the propagation environment information received from the terminal 110 (S440). In step S440, the position calculation device 130 checks at least one of the GPS information, the transmitter identification information, and the wireless LAN identification information included in the propagation environment information, Information can be calculated. That is, when the GPS information is included in the radio wave environment information, the position calculation device 130 calculates current position information using the included GPS information with priority. In a case where the transmitter identification information or the wireless LAN identification information is included in the propagation environment information, the position calculation apparatus 130 calculates the current position information by performing the Indoor positioning using the transmitter identification information or the wireless LAN identification information. Here, if the transmitter identification information or the wireless LAN identification information included in the propagation environment information received from the terminal 110 is equal to or greater than a predetermined number, the transmitter identification information may be referred to as a vertex by triangular positioning by signal delay or by signal strength A triangulation position or a position for selecting a cell ID previously stored in the database, or the like. Meanwhile, the step S440 may be performed through the position calculating unit 320 of the service providing apparatus 160 instead of the position calculating apparatus 130. [

The location calculation device 130 transmits the calculated current location information of the terminal 110 to the code processing device 140 (S450). After receiving the current location information of the terminal 110 from the location calculation device 130, the code processing device 140 confirms the area ID corresponding to the current location information using the database 340 (S460). At this time, the code processing device 140 has a database 340 and stores position information, codes (two-dimensional bar codes, three-dimensional bar codes, QR codes, etc.), application information, , Access permission URL information, and access blocking URL information, and stores the information. That is, in step S460, the code processing device 140 confirms the area ID corresponding to the current location information (e.g., latitude and longitude) using the database 340. [

The code processing apparatus 140 confirms whether the received code (the two-dimensional bar code, the 3D bar code, the QR code, etc.) is included in the identified area ID (S470). That is, in step S470, the code processing device 140 generates a code (two-dimensional bar code, three-dimensional bar code, QR code, etc.) matched with the area ID corresponding to the current position information (Two-dimensional barcode, three-dimensional barcode, and three-dimensional barcode) received from the terminal 110 among codes (two-dimensional barcode, three-dimensional barcode, QR code, Quot; QR code ").

The code processing device 140 extracts data according to whether or not the received code is included in the area ID (S480). At this time, in step S480, if the received code (two-dimensional bar code, three-dimensional bar code, QR code, etc.) is included in the corresponding area ID, the code processing device 140 transmits the received code (two-dimensional bar code, QR code, etc.) is valid, and generates a service response signal including the connection permission URL information. On the other hand, the code processing apparatus 140 can generate a code (a two-dimensional barcode, a three-dimensional barcode, a QR code, or the like) when the area ID does not include the received code And generates a service response signal including the connection blocking URL information.

The code processing unit 140 transmits a service response signal including the extracted data to the terminal 110 (S490). In step S490, the code processing device 140 generates a service response signal including the access permission URL information when the received region ID includes the received code (two-dimensional bar code, three-dimensional bar code, QR code, etc.) And transmits the service response signal including the access blocking URL information to the terminal 110 if the received code does not include the received code (two-dimensional bar code, three-dimensional bar code, QR code, etc.).

The terminal 110 accesses the content providing apparatus 150 based on the service response signal received from the code processing apparatus 140 (S492). In step S492, when the terminal 110 is included in the access permission URL in the service response signal, the terminal 110 accesses the contents providing apparatus 150 corresponding to the access permission URL and receives the contents. In step S492, when the terminal 110 is included in the access blocking URL in the service response signal, the terminal 110 accesses the content providing apparatus 150 corresponding to the access blocking URL and receives content (text, image) related to blocking access .

4, steps S410 to S492 are sequentially executed. However, this is merely illustrative of the technical idea of the present embodiment, and it will be apparent to those skilled in the art, It will be understood that various changes and modifications may be made to the invention without departing from the essential characteristics thereof, such as by changing the order described in FIG. 4 or by executing one or more of steps S410 through S492 in parallel, But is not limited thereto.

As described above, the service providing method using the code according to the present embodiment described in FIG. 4 can be implemented by a program and recorded in a computer-readable recording medium. A program for implementing a service providing method using a code according to the present embodiment is recorded, and a computer-readable recording medium includes all kinds of recording devices for storing data that can be read by a computer system. Examples of such computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, etc., and also implemented in the form of a carrier wave (e.g., transmission over the Internet) . The computer readable recording medium may also be distributed over a networked computer system so that computer readable code in a distributed manner may be stored and executed. In addition, functional programs, codes, and code segments for implementing the present embodiment can be easily inferred by programmers in the technical field to which the present embodiment belongs.

5 is an exemplary view showing a database according to the present embodiment.

The database shown in FIG. 5 refers to a general data structure implemented in a storage space (hard disk or memory) of a computer system using a database management program (DBMS), and includes a search (extract) (Relational Data Base Management System (RDBMS) such as Oracle, Infomix, Sybase, DB2, and the like, Oriented database management system (OODBMS) such as Gemston, Orion, O2 and the like using an XML-specific database such as Excelon, Tamino, and Sekaiju. May be implemented for the purposes of the embodiment, and have suitable fields or elements to achieve its function.

As shown in FIG. 5, the area ID can be divided into 'A area', 'B area', 'C area', 'D area' ... 'N area'. These regional IDs can be distinguished by latitude and longitude. For example, in the case of 'A region', an area from latitude 37˚14'29.403 '' to 38˚14'29.403''and hardness 131˚51'44.0028 '' to 132˚51'44.0028 'may be set. In this case, code IDs (e.g., two-dimensional bar codes, three-dimensional bar codes, QR codes, etc.) may be matched and stored in the area ID. In FIG. 5, 'QR Quot; code " is stored and matched. In addition, 'QR code' included in 'A area' may include 'QR code A' and 'QR code B'. In addition, 'access permitted URL information' assigned to 'A area' may be 'www.sktel ***. Com', and 'access blocked URL information' may be 'retryqr.sktel *** .com' . In the case of the 'B region', an area from the latitude of 38 ° 14'29.403 "to 39 ° 14'29.403" and the longitude of 132 ° 51'44.0028 "to 133 ° 51'44.0028" may be set. In addition, 'QR code' included in 'B area' may include 'QR code B'. In addition, 'access permit URL information' allocated to 'B area' may be 'www.sktel ***. Com', and 'access blocking URL information' may be 'retryqr.sktel ***. Com' . In the case of the 'C region', an area from latitude 39˚14'29.403 '' to 40˚14'29.403''and hardness 133˚51'44.0028 '' to 134˚51'44.0028 'may be set. In addition, 'QR code' included in 'C area' may include 'QR code C'. In addition, 'access permitted URL information' assigned to 'C area' may be 'www.sktel ***. Com', and 'access blocked URL information' may be 'retryqr.sktel *** .com' . In the case of the 'D region', an area from latitude 40˚14'29.403 '' to 41˚14'29.403''and hardness 134˚51'44.0028 '' to 135˚51'44.0028 'may be set. In addition, 'QR code' included in 'D area' may include 'QR code D'. In addition, 'access permit URL information' assigned to 'D region' may be 'www.sktel ***. Com', and 'access blocking URL information' may be 'retryqr.sktel ***. Com' .

6 is a diagram illustrating an example of a service providing method using a database according to the present embodiment.

As shown in FIG. 6, when the user is located in the 'A region', 'QR code A' is photographed using the terminal 110 to capture the propagation environment information and 'QR code A' When the service providing apparatus 160 transmits a service request signal including a QR code to the service providing apparatus 160, the service providing apparatus 160 transmits the QR code ('QR code A') obtained from the terminal and the propagation environment information for the 'A region' Receives the service request signal including the current location information, and calculates the current location information of the terminal based on the propagation environment information for the 'A region'. The service providing apparatus 160 extracts data corresponding to the QR code ('QR code A') based on the current location information on the 'A region', and transmits a service response signal including the extracted data to the terminal 110 send. That is, the service providing apparatus 160 confirms the area ID ('A area') corresponding to the current location information and includes the received QR code ('QR code A') in the corresponding area ID , It is determined that the received QR code ('QR code A') is valid, and a service response signal including access permission URL information ('www.sktel ***. Com') is generated and transmitted to the terminal 110 will be.

If the user is located in the 'A area', a service including the QR code D 'photographed by using the terminal 110 and radiographing the' A area 'and' QR code D ' When the request signal is transmitted to the service providing apparatus 160, the service providing apparatus 160 transmits a service request signal including the QR code ('QR code D') obtained from the terminal and the propagation environment information for the 'A region' And calculates the current position information of the terminal based on the propagation environment information on the 'A region'. The service providing apparatus 160 extracts data corresponding to the QR code ('QR code D') based on the current location information on the 'A area', and transmits a service response signal including the extracted data to the terminal 110 send. That is, the service providing apparatus 160 confirms the area ID ('A area') corresponding to the current location information and includes the QR code ('QR code D') received in the corresponding area ID , It is determined that the QR code ('QR code D') is not valid and a service response signal including access blocking URL information ('retryqr.sktel ***. Com') is generated and transmitted to the terminal 110 .

For example, according to this embodiment, when a specific company wants to provide a 'gift certificate' to a user who shoots and transmits 'QR code A', 'QR code B', 'QR code C', and 'QR code D' Conventionally, users share a QR code A, a QR code B, a QR code C, and a QR code D on the Internet and photograph and transmit them to provide a 'gift certificate' The present invention can provide a 'gift certificate' only to a user who shoots and transmits 'QR code A' in 'A area' A gift certificate can be paid only to the user who shoots and transmits the QR code B in the area B and the gift certificate is issued only to the user who captures and transmits the QR code C in the area C QR code D 'in the' D area 'and transmit the' QR code D ' Which it will allow the rights' to be paid. As a result, the location information can be combined with the QR code to provide a service using a variety of QR codes.

7 is an exemplary diagram illustrating a service providing method using a QR code according to the present embodiment.

The service using the QR code through (1) through (6) shown in FIG. 7 will be described as follows.

(1) The terminal 110 drives the code recognition application 112 mounted by a user's operation or command, and shoots a QR code with a camera module provided by using the driven code recognition application 112. [ At this time, the QR code may be attached to a book cover, an advertisement screen (an online advertisement or an offline advertisement), or printed on a dish of a restaurant.

(2) The terminal 110 transmits a service request signal including the photographed QR code and the measured radio propagation environment information to the service providing apparatus 160 via the network 120.

(3) The location calculation device 130 receives a service request signal including the propagation environment information from the terminal 110.

(4) The code processing device 140 receives a service request signal including a QR code photographed from the terminal 110. [

The location calculation device 130 calculates current location information of the terminal 110 based on the propagation environment information received from the terminal 110 and transmits the calculated current location information of the terminal 110 to the code processing device 140. [ Lt; / RTI >

(6) After receiving the current position information of the terminal 110 from the position calculation device 130, the code processing device 140 confirms the area ID corresponding to the current position information using the provided database 340, The device 140 confirms whether or not the received QR code is included in the confirmed area ID, and the code processing device 140 extracts data according to whether or not the received QR code is included in the corresponding area ID . The code processing unit 140 transmits a service response signal including the extracted data to the terminal 110.

Then, the terminal 110 accesses the content providing apparatus 150 based on the service response signal received from the code processing apparatus 140. That is, when the terminal 110 is included in the access permission URL in the service response signal, the terminal 110 accesses the content providing apparatus 150 corresponding to the access permission URL and receives the content. On the other hand, when the terminal 110 is included in the access blocking URL in the service response signal, the terminal 110 accesses the content providing apparatus 150 corresponding to the access blocking URL and receives content (text, image) related to blocking access.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

As described above, the present embodiment is applied to a service providing field using a QR code. When a terminal receives a service using a QR code, it provides data corresponding to the QR code in consideration of current location information of the terminal, It is a useful invention that generates the effect of providing a specialized service according to the current location information.

110: Terminal 112: QR code recognition application
120: network 130: position calculating device
140: QR code processing device 150: Content providing device
160: service providing apparatus 310:
320: Position calculation unit 330: Information processing unit
340: Database

Claims (11)

A communication unit for receiving a service request signal including a code and propagation environment information obtained from the terminal;
A location calculation unit for calculating current location information of the terminal based on the propagation environment information; And
Extracting data corresponding to the code based on the current location information, and transmitting the service response signal including the extracted data to the terminal,
The service providing apparatus comprising: The method according to claim 1,
A database for storing at least one of position information, code, application information, content information, access permission URL information, and access blocking URL information for each region ID
Wherein the service providing apparatus further comprises: 3. The method of claim 2,
The information processing unit,
Confirms an area ID corresponding to the current location information, confirms whether or not the received code is included in the area ID, and extracts data based on the confirmation result. The method of claim 3,
The information processing unit,
And generates the service response signal including the access permission URL information when it is determined that the received code is valid when the code included in the area ID is included. The method of claim 3,
The information processing unit,
And generates the service response signal including the access blocking URL information when it is determined that the code is not valid when the received code is not included in the corresponding area ID. The method according to claim 1,
The position calculating unit calculates,
Wherein at least one of the GPS information, the transmitter identification information, and the wireless LAN identification information included in the propagation environment information is checked and the current position information is calculated according to predetermined priority information of the confirmed information Service provider. The method according to claim 6,
The position calculating unit calculates,
And when the GPS information is included in the propagation environment information, the GPS information is preferentially used to calculate the current location information. The method according to claim 6,
The position calculating unit calculates,
Wherein when the transmitter identification information or the WLAN identification information is included in the propagation environment information, the controller performs the Indoor positioning using the transmitter identification information or the WLAN identification information to calculate the current position information . A communication unit for receiving a service request signal including a code obtained from the terminal and receiving current position information of the terminal from the position calculation device; And
Extracting data corresponding to the code based on the current location information, and transmitting the service response signal including the extracted data to the terminal,
And a code processing unit for processing the code. A method for providing a service by a service providing apparatus,
A communication process of receiving a service request signal including a code and propagation environment information obtained from a terminal;
A position calculating step of calculating current position information of the terminal based on the propagation environment information; And
Extracting data corresponding to the code based on the current location information, and transmitting the service response signal including the extracted data to the terminal
The method of claim 1, A method of providing a service by a code processing device,
A communication process of receiving a service request signal including a code obtained from a terminal and receiving current position information of the terminal from a position calculation device; And
Extracting data corresponding to the code based on the current location information, and transmitting the service response signal including the extracted data to the terminal
The method of claim 1,

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