KR101811452B1 - Access Profile Registration/Acquiction Method using UICC Application, Peer-to-Peer Transmission Method using the same and Terminal therefor - Google Patents

Abstract

A terminal device including a Universal Integrated Circuit Card (UICC), wherein a non-contact front end interface (CLFI) or a CLFI protocol (CLFI protocol) of the terminal device supports a terminal application in a P2P mode And a connection means for connecting to the Bluetooth or Wi-FI pairing information in the UICC.
To this end, in a terminal device including a UICC, a UICC internal application, and a terminal (terminal) application, a UICC may store a connection profile of a local terminal for P2P pairing. In addition, a UICC internal application can provide a connection profile to the terminal application when requested by the terminal application or remote terminal.

Description

[0001] The present invention relates to a method for registering a connection profile to a UICC using an UICC internal application, a connection profile acquisition method and a P2P transmission method using the same, and a terminal device using an access profile registration / acquiction method using UICC Application, }

A method for registering a connection profile to a UICC using a UICC internal application, a method for acquiring a connection profile using the same, a P2P transmission method, and a terminal device.

Recently, NFC has been discussed as a method of short-range wireless communication. The NFC communication is a method in which a frequency band of 13.56 MHz (bandwidth of 14 kHz) is used between terminals with NFC modules (hereinafter referred to as NFC terminals) It transmits and receives data at a maximum transmission speed of 424Kbps at a close range.

NFC communication is largely defined to operate in three modes: card emulation mode, P2P mode, and reader / writer mode.

This NFC technology is an extension of the ISO / IEC 14443 access card standard that provides communication between a smart card and a reader in a single device. NFC communication has the advantage of having a relatively short setup time (within 0.1 second) The communication distance is as short as about 10 centimeters, and the transmission speed is slower than Bluetooth or other short distance communication.

On the other hand, a UICC used as a smart card in a wireless communication system such as GSM and UMTS (Universal Mobile Telecommunication System) is responsible for the integration and security of all kinds of personal information, and usually has a capacity of several hundred KBytes or more.

In addition, the UICC includes a Subscriber Identity Module (SIM) application in a GSM network, a Universal Subscriber Identity Module (USIM) application in a UMTS network, an application capable of accessing both GSM and UMTS networks, ) Or as a storage space for other applications.

The standard specification being discussed at the moment is the UICC's Use Case of Contactless UICC Service which is used for Ticket applications, Payment applications, Health care applications, Digital Right applications , And retail applications are being discussed.

However, as the UICC becomes larger and larger, the discussion about the USIM or the large capacity UICC is going on, and the UICC can be used as a storage space for a large number of application information and other multimedia information in addition to the information such as the existing phone book. There is an increasing need to transmit and receive large amount of stored data between NFC terminals.

Accordingly, the present specification proposes an improved UICC usage pattern by combining short setup time and session connection between terminals, which is an advantage of NFC technology, and data transmission technology of other short-range wireless communication.

The present invention intends to provide a method by which a terminal device including a UICC can support P2P communication by Bluetooth or WiFi using a file stored in the UICC.

The present invention provides a technique for storing Bluetooth / WiFi access information of a terminal in a UICC.

The present invention provides a method for supporting P2P communication between two NFC terminals using Bluetooth MAC address information or WiFi address information stored in the UICC.

The present invention provides a method for acquiring Bluetooth MAC address information or WiFi address information of a counterpart terminal device in one step when executing the NFC mode and P2P transmitting large amount of data such as multimedia address book information using the Bluetooth MAC address information or WiFi address information.

The present invention is applicable to applications in the UICC (e.g., a Card Application Toolkit (CAT)) when requested by a terminal application or a remote terminal via a Bluetooth profile or a Wi-Fi profile And the like.

The present invention provides a method of registering Bluetooth MAC address information or WiFi address information in a UICC using a UICC CAT.

The present invention provides a method for storing or registering Bluetooth MAC address information or WiFi address information in a UICC using CAT (Card Application Toolkit) technology.

In addition, when there is a request from the other NFC module for P2P transmission, a method of acquiring Bluetooth connection information or Wi-Fi connection information stored in the UICC using the CAT of the UICC and transmitting the acquired Bluetooth access information or Wi-Fi connection information to the other NFC module is provided.

In order to achieve the above object, one embodiment of the present invention is a terminal device including a Universal Integrated Circuit Card (UICC), wherein a contactless front end interface (CLFI) of the terminal device or a CLFI protocol CLFIP supports P2P (peer-to-peer) mode communication using WiFi or Bluetooth with a file stored in the UICC, and the UICC stores MAC (Media Access Control) address information of Bluetooth or MAC address information of WiFi A terminal device using the UICC CAT is provided.

According to another embodiment of the present invention, there is provided a wireless communication system including a Bluetooth module or a WiFi module, and a Universal Integrated Circuit Card (UICC) for storing MAC (Media Access Control) address information or WiFi MAC address information of the Bluetooth, And a terminal device using a UICC CAT to store MAC (Media Access Control) address information of Bluetooth or MAC address information of WiFi.

According to another embodiment of the present invention, there is provided a method of registering MAC information of a terminal device including a Bluetooth module or a WiFi module and a Universal Integrated Circuit Card (UICC), wherein the terminal host of the terminal device is a Bluetooth module or Wi Acquiring MAC address information from a WI-FI (WLAN) module, and storing or registering MAC address information in a UICC file system using a specific command of the UICC CAT.

According to another embodiment of the present invention, a UICC (Universal Integrated Circuit Card) that stores the Bluetooth MAC address information or WiFi address information using a Bluetooth module or a WiFi module, an NFC (Near Field Communication) module, and a UICC CAT The method comprising the steps of: the NFC module of the transmitting terminal requests MAC information to the NFC module of the receiving terminal; the receiving NFC module transmits the request to the receiving UICC CAT; , Receiving the MAC information of the receiving terminal stored in the UICC file system of the UICC CAT and responding to the receiving NFC module, and transmitting the MAC information to the receiving terminal through the receiving NFC module Provides an acquisition method.

 According to another embodiment of the present invention, there is provided a wireless communication system including a Bluetooth module or a WiFi module, an NFC (Near Field Communication) module, a P2P transmission information, and a UICC (Universal Integrated Circuit Card), comprising: a step in which an NFC module of a transmitting-side terminal requests MAC information to a receiving-side NFC module; a step of extracting a UICC CAT of a receiving-side terminal from a UICC file system Receiving the MAC information of the transmitting receiving terminal through the NFC module of the receiving terminal, receiving the MAC information of the transmitting receiving terminal through the NFC module of the receiving terminal, (Socket); and transmitting the P2P transmission information to the receiving terminal through the Bluetooth or WiFi communication Provides the P2P transfer method comprising the steps:

FIG. 1 shows an internal configuration of a terminal to which the present embodiment is applied in a hierarchical manner.
2 is an internal structure diagram of UICC-related components used in an embodiment of the present invention.
FIG. 3 shows an example of a UICC Application Structure of the UICC applied to the present embodiment, that is, the UICC file system of FIG.
4 is a flowchart illustrating a process of storing or registering MAC information in a UICC according to an exemplary embodiment of the present invention.
5 illustrates a signal flow of a process of storing Bluetooth MAC information in a UICC using a UICC CAT.
FIG. 6 illustrates the overall flow of P2P communication through Bluetooth pairing or Wi-Fi pairing after UICC registration of Bluetooth (or Wi-Fi) MAC information according to an embodiment of the present invention.
FIG. 7 is a detailed flowchart of a process in which the transmitting-side terminal obtains Bluetooth or Wi-Fi MAC address information of the receiving-side terminal in the flow of FIG.

Hereinafter, some embodiments will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present disclosure rather unclear.

In addition, the present invention describes a wireless communication system as an example, and an operation in a wireless communication includes a system for managing the wireless communication, and all operations performed in the system and the wireless communication device for transmitting data.

Recently, the UICC memory size has increased very rapidly from Kbyte to Mbyte, which provides the possibility to extend the UICC usage to new services.

The next generation service is based on multimedia contents management and it is expected that multimedia contents such as MMS (Multimedia Messaging Service) storage will be stored in UICC as a basic feature.

In addition, there will be a large amount of data transmission between a UICC or a smart card. To achieve this, a fast data access technology that can avoid time latency when using a service, ) Will be required.

However, as is currently being discussed, this trend is not reflected, and as the evolution of these services, UICC-terminal interfaces and protocol stacks need to be modified. Of course, these modifications should have backward compatibility.

Since the multimedia file management function can be considered as an example of the advanced service of the UICC, the UICC can store multimedia files such as encrypted / decrypted MMS, MP3 files, and video clips. It is necessary to transmit the data to the mobile terminal quickly.

Meanwhile, NFC communication has been proposed as one method for transmitting data between terminals. Hereinafter, P2P data transmission by the NFC technique has an advantage of having a relatively short setup time (within 0.1 second) The communication distance is as short as about 10 centimeters, and the transmission speed is slower than Bluetooth or other short distance communication. For reference, NFC data transmission speed is up to 484 Kbps, while Bluetooth can transmit data up to 2.1 Mbps at a distance of 10 meters.

An embodiment of the present invention provides an interface (CLFI, hereinafter referred to as "CLFI") of a contactless front-end (hereinafter referred to as "CLF") of a terminal including a UICC Or CLFI protocol (hereinafter referred to as "CLFIP") has connection means for allowing a terminal application to access Bluetooth or Wi-FI pairing information in a UICC for supporting a P2P mode .

In addition, another embodiment of the present invention is an interface (CLFI) or a CLFI protocol (CLFI) of a contactless front-end (hereinafter referred to as "CLF") of a terminal including a UICC (Hereinafter referred to as "CLFIP") supports P2P (Peer-to-Peer) mode communication using WiFi or Bluetooth with a USIM file and a system including a UICC, Control) address information or MAC address information of WiFi using UICC CAT. Here, the USIM file refers to a file for a specific purpose stored in the UICC, and may be specifically an elementary file for storing Bluetooth MAC address information or WiFi address information.

The detailed configuration for this will be described in more detail with reference to FIG.

In this specification, the CLF refers to a component in a terminal, which can process an analog portion of noncontact communication, process a part of a noncontact protocol layer, and perform data processing between the terminal and the UICC.

Also, CLFI means a physical interface between a UICC and a CLF, and CLFIP means a communication protocol between a UICC and a CLF via a CLFI.

As described above, the UICC's Use Case of Contactless UICC Service, which is currently being discussed, includes a Ticket application, a Payment application, a Health care application, a Digital Right ) The requirements defined for the application, the retail application, etc. are shown in Table 1 below.

Requirements of P2P mode among non-contact services of current UICC Identifier Requirements REQ-11-15-10-1 Support for P2P mode shall be based on the HCI protocol as defined in TS 102 622 [19]. REQ-11-15-10-2 The CLFIP shall provide a means for the system of the UICC and the terminal to support multiple active (ie, exchanging data) applications in a P2P mode. REQ-11-15-10-3 (Eg, the terminal is generating the RF field or receiving the RF field). REQ-11-15-10-4 The CLFIP will provide a means for P2P mode to be used by the UICC in the "not battery powered" mode. ... ... REQ-11-15-10-18 The CLFIP shall provide a means for a host to initiate one or more P2P channels to the peer device.

Such currently defined requirements or P2P mode requirements do not cover the environment for the transmission or exchange of large amounts of data on the UICC.

Therefore, it is necessary to satisfy both a quick session start and a data transmission as fast as possible, and to propose a P2P mode using faster short-range wireless communication such as Bluetooth.

Therefore, as in the present embodiment, as a P2P mode requirement of the UICC's noncontact service, for quick session making and fast data transmission, it is necessary for the terminal application to transmit the Bluetooth in the UICC to support the P2P mode Or Wi-FI pairing information.

That is, in order to transmit or exchange high-performance (e.g., multimedia contents) contents in the P2P mode, a user scenario and a high transmission rate are required. In order to satisfy this, fast wireless communication such as Bluetooth or Wi-Fi (WLAN) is required, and fast Bluetooth pairing is essential. UICC can be a good way for P2P applications to enable this rapid P2P pairing between devices. In other words, through the contactless interface

Therefore, in the present embodiment, the UICC may store the connection profile of the local terminal for P2P pairing in the terminal device having the UICC, the UICC internal application, and the terminal (terminal) application. In addition, a UICC internal application can provide a connection profile to the terminal application when requested by the terminal application or remote terminal.

In addition, the connection profile information stored in the UICC or UICC internal application can be updated by the terminal via OTA (Over-The Air).

Here, the connection profile may be a Bluetooth profile or a Wi-Fi profile, but is not limited thereto, and may be a connection profile of all wireless communication capable of transmitting other P2P data.

Also, the UICC internal application may be, but is not limited to, the UICC Card Application Toolkit (CAT).

According to the present invention, a large amount of content can be quickly transferred or exchanged in the P2P mode, and can be performed in a non-contact manner in the initial session step.

The same requirements as in the present embodiment can be defined, for example, by expressions such as contactless multimedia address book sharing by contactless, but are not limited to, USIM or UICC files and Bluetooth or WiFi together But may be defined in other expressions as far as the non-contact service in the P2P mode is used.

However, for convenience of description, the present embodiment will be described below as a representative of multimedia address book sharing by contactless contactless sharing.

The system aspect of multimedia address book sharing by contactless non-contact sharing will be described as follows.

Multimedia address books not only have large storage capacity, but also require a Secure Access Mechanism. Not only does the UICC have an ideal and suitable environment for storing the user's multimedia address book on its attributes, but also the user needs to transmit his multimedia address book securely and quickly to another user or terminal.

Accordingly, it is possible to set the session through the contactless interface of the UICC and to transmit or exchange the contents of the multimedia address book through the fast transmission medium such as Bluetooth or WiFi as in the present embodiment.

In this embodiment of the present invention, the role of the UICC or USIM may be defined as follows.

For reference, the UICC means a card having a plurality of applications, and the USIM means to be used for a subscriber identity of a communication among them. Therefore, UICC and USIM are used in the following description in the same concept.

In this embodiment, the role of the UICC or the USIM should be such that the UICC stores unique Bluetooth or WiFi medium access control (MAC) addresses and has a storage space for the multimedia address book received from the reader.

In the reader emulation mode of the NFC module, the UICC must include a multimedia address book transmitted to another UICC or a terminal.

The requirements of the USIM file and the P2P communication using WiFi / Bluetooth according to the present embodiment may be defined as shown in Table 2 below, but the present invention is not limited thereto.

Example of service requirements according to this embodiment Identifier Requirement REQ-11-15-10-X The CLFIP will provide a means of accessing a terminal to access Bluetooth information in UICC for supporing P2P mode.

That is, according to the present embodiment, for high capacity content transmission using the UICC, the CLFIP of the terminal including the UICC accesses the Bluetooth or Wi-FI pairing information in the UICC for supporting the P2P mode The connection means may be used.

The detailed configuration of the connection profile registration and acquisition using the UICC internal application according to this embodiment and the P2P communication using WiFi or Bluetooth will be described below.

Hereinafter, Bluetooth profile and Bluetooth MAC (address) information will be described as an example of the connection profile, but the present invention is not limited thereto, and may be a Wi-Fi profile or the like.

In addition, the UICC CAT (Card Application Toolkit) defined by ETSI TS 102 223 is described below as an example of the UICC internal application, but the present invention is not limited thereto.

 As a precondition for P2P communication, each terminal host acquires MAC address information from a Bluetooth module or a Wi-Fi (WLAN) module, and then transmits MAC address information to a UICC file And includes a configuration for storing or registering in the system.

The UICC CAT technology used in one embodiment of the present invention may be as described in the ETSI TS 102 223 standard, but is not limited thereto, and in particular, may register Bluetooth MAC address information and Wi-Fi MAC address information in the UICC file system, The UICC CAT command used for extraction may be, but is not limited to, TERMINAL RESPONSE, DECLARE SERVICE, GET SERVICE INFORMATION, and the like.

Also, the process or UICC data space used to store the Bluetooth MAC address information and the Wi-Fi MAC address information may be, but is not limited to, a service record process and its area on the CAT.

UICC CATs can use different formats depending on the technology involved, and these objects can be used in both directions from the terminal to the UICC or from the UICC to the terminal.

These service record objects may be, but are not limited to, the DECLARE SERVICE command used when deciding which services a CAT application can support, or the GET SERVICE INFORMATION command used when a CAT application searches for services.

These service records can have the data format shown in Table 3 below.

Here, the Local Bearer Technology Identifier can be coded as being Bluetooth when it is '01' and one of the preliminary resources '05' to 'FF' for the future is Wi-Fi (WLAN) . ≪ / RTI >

The CAT technique used herein may be implemented as specified in ETSI TS 102 223 and future versions thereof, which will be briefly described as follows.

CAT stands for Card Application Toolkit, which means a generic set of instructions or procedures defined for use by an ICC (Integrated Circuit Card), and is defined in a standard such as TS 102 223 of ETSI Is defined.

Such a CAT is independent of or is defined separately from a generic network access technology, and the UICC may be any ICC supporting at least one application to access the network.

At this time, at least one application for accessing the network may be defined as a Network Access Application (NAA), which may mean a USIM application, a TSIM application, an ISIM application, etc., And may be a SIM that is used in a 3G or 2G platform and may be any application that is a specific interface that can guarantee the association between the terminal and the ICC independently of other RUIMs, manufacturers and operators.

These CATs are concepts that include commands, application protocols, terminals on each procedure, and required specifications on the ICC.

According to another aspect of the present invention, there is provided a method of acquiring MAC information of a receiving terminal, the method comprising: requesting MAC information from an NFC module of a receiving terminal; Receiving the MAC information of the receiving terminal stored in the file system of the UICC and responding to the receiving NFC module by the UICC CAT, and transmitting the MAC information to the transmitting- And the like.

A method of transmitting and receiving data according to an exemplary embodiment of the present invention includes a step of requesting MAC information from a receiving side NFC module by an NFC module of a transmitting side terminal and a step of transmitting UICC CAT of a receiving side terminal by extracting from a UICC file system Receiving the MAC information of the receiving terminal through the NFC module of the receiving terminal, and transmitting the MAC information of the receiving terminal through the NFC module of the receiving terminal to the Bluetooth module or WiFi module of the transmitting terminal using the MAC address information of the acquired receiving terminal, And transmitting the large amount of data to the receiving terminal through the Bluetooth or WiFi communication.

On the other hand, the transmitting-side terminal performs a process of driving a user screen (UI) for transmitting information or executing an application before requesting the MAC address, a process of selecting large-capacity data to be transmitted, and a process of specifying a receiving- Or more.

In an embodiment of the present invention, both the transmitting terminal and the receiving terminal may be NFC terminals capable of NFC communication. In this case, the transmitting apparatus operates in an NFC reader mode, Since the UE is in an idle state, it may be in an NFC Card Mode.

While the above description describes the entire process performed by both the transmitting terminal and the receiving terminal, individual processes of the transmitting terminal and the receiving terminal will also be included in the scope of the present invention.

FIG. 1 shows a hierarchical structure of a terminal to which the present embodiment is applied.

The terminal to which the present embodiment is applied includes a UICC module 110, an NFC module 120 as a CLF, a Bluetooth (BT) module 130, and a Wi-Fi module 140, A baseband processor 150 and a driver 160 (UICC driver, NFC driver, BT driver, Wi-Fi driver) of each module at its upper end, handset boot and control software 170 An application program 180 and an upper application program 190 of each module.

The UICC-terminal protocol, the NFC-terminal protocol, the BT-terminal protocol, and the WiFi-terminal protocol are defined between each module and the module driving section, and the HCI defined between the NFC module and the terminal or UICC module Host Controller Interface) or SWP (Single Wire Protocol).

Hereinafter, both the transmitting side terminal and the receiving side terminal of the present embodiment are described as NFC terminals, but the present invention is not limited thereto.

In the UICC or the USIM, large capacity data (for example, multimedia address book) to be P2P transmitted according to the present embodiment is stored, and the transmitting NFC module can operate in the NFC reader mode.

Meanwhile, the UICC or USIM has a file structure or a file system storing MAC address information of the terminal. The MAC address is divided into a Bluetooth MAC address or a WiFi MAC address, and a UICC file format, ; EF). A basic file for storing such a Bluetooth MAC address or a WiFi MAC address can be represented by EF_BT_MacAddress and EF_WiFi_MacAddress, respectively. These basic files EF_BT_MacAddress and EF_WiFi_MacAddress can be defined below a predetermined dedicated file (DF).

The UICC file structure for EF_BT_MacAddress and EF_WiFi_MacAddress will be described in more detail below.

Meanwhile, in this embodiment, a UICC CAT technique can be used to store the MAC access information, that is, the Bluetooth MAC address or the WiFi MAC address in the UICC, which will be described in more detail with reference to FIG.

2 is an internal structure diagram of UICC-related components used in an embodiment of the present invention.

The UICC according to the present invention defines a UICC-terminal interface (ETSI TS 221) connecting between the OEM S / W 210 and the UICC 220 as handset booting and control software, It has an applet.

The applet held by the UICC includes a GSM applet 221 for providing a communication function, a toolkit applet 222 including a CAT according to the present invention, a loader applet 223 for loading and other applet 224, .

The UICC includes a SIM toolkit framework 230. The SIM toolkit framework includes a toolkit registry 231, a toolkit handler 232, a file system 233, and the like, Bluetooth MAC address information or Wi-Fi MAC address information as described above is stored in the file system.

The configuration as shown in FIG. 2 will be described below by function.

The UICC can acquire the subscriber information (phone number, IMSI, etc.) of the UICC with the terminal (terminal host) through the CAT which is an application existing on the UICC during the terminal and terminal booting process. Also, as described above, the UICC has a plurality of applets for providing information requested by the terminal.

The UICC manages the information used by each applet in the file system managed by the SIM toolkit framework, and its structure can conform to the standard form of ETSI TS 102.223.

In addition, information for WI-FI and Bluetooth pairing, i.e., Bluetooth MAC address information or Wi-Fi MAC address information, is stored in the file system specified above.

FIG. 3 shows an example of a UICC Application Structure of the UICC applied to the present embodiment, that is, the UICC file system of FIG.

As shown in FIG. 3, the file types stored in the UICC or USIM of the present embodiment can be broadly classified into a master file (MF), a dedicated file (DF), and an elementary file (EF).

A MF is a Mandatory File that contains an Access Condition and optionally includes DFs and EFs.

DF is a file that enables functional grouping of a file, and may be a parent of DFs and / or EFs, and may be referred to as a file identifier (File Identifier).

Some file identifiers are reserved for specific use. For example, DF _TELECOM is set to '7F10' and DF _GSM is set to '7F20' in DF.

Of these, DF _TELECOM can be optionally used and includes Application Independent Information.

Also, DF _PHONEBOOK under DF _TELECOM '7F10' in DF is set to '5F3A', DF _MULTIMEDIA is set to '5F3B', and DF _GRAPHIC is set to '5F50'.

On the other hand, EF _DIR is a Linear Fixed File under MF and is a kind of application-independent file.

In FIG. 3, the file identifier of each DF is also displayed according to the reservation resource as described above.

In this file structure, Bluetooth MAC address information and WiFi MAC address information according to this embodiment can be stored in the form of EF_BT_MacAddress and EF_WiFi_MacAddress, which are basic files, and can be included in the UICC file structure.

More specifically, EF_BT_MacAddress and EF_WiFi_MacAddress may be located under the DF _TELECOM (file identifier 7F10) and may have '6F1X' as the file identifier. 'X' in 6F1X which is a file identifier of EF_BT_MacAddress and EF_WiFi_MacAddress means one of values from 0 to F.

However, the file structure of the UICC or the USIM according to the present embodiment is not limited to the structure shown in FIG. 3. It is also possible to store the MAC address information of the Bluetooth and the WiFi MAC address information that can be acquired at the time of connecting the NFC session.

4 is a flowchart illustrating a process of storing or registering MAC information in a UICC according to an exemplary embodiment of the present invention.

First, the terminal (terminal host) transmits a message or a command (Get "BT MAC") requesting transmission of Bluetooth MAC information to the Bluetooth module in the terminal booting sequence (S410) And transmits the Bluetooth MAC information (MAC address information) to the terminal through the internal interface as a response thereto (S420)

4, a terminal or a terminal host may include, but is not limited to, an H / W driver, an OEM, an OS (Android), and a user application.

 The terminal or the terminal host may transmit the Bluetooth MAC information acquired in step S420 to the UICC CAT (S430). At this time, the terminal or terminal host may use a TERMINAL RESPONSE message or command defined in ISO 7816. [

Upon reception of the Bluetooth MAC information from the terminal, the UICC CAT transmits an instruction to store the Bluetooth MAC information in the UICC file system (S440). At this time, a message or command such as Update "BT MAC" File can be used.

The UICC CAT stores the Bluetooth MAC information in the UICC file system, and responds the result to the terminal or the terminal host (S450), thereby completing the process of storing and registering the Bluetooth MAC information.

Various technologies of the UICC CAT can be used in the process of storing and registering the Bluetooth MAC information.

That is, as described above, the UICC CAT technology used at this time may be as described in the ETSI TS 102 223 standard, but is not limited thereto. Specifically, Bluetooth MAC address information and Wi-Fi MAC address information are registered in the UICC file system The UICC CAT command used when extracting or extracting the UICC CAT command may be a TERMINAL RESPONSE, a DECLARE SERVICE, a GET SERVICE INFORMATION, etc., but is not limited thereto.

Also, the process or UICC data space used to store the Bluetooth MAC address information and the Wi-Fi MAC address information may be, but is not limited to, a service record process and its area on the CAT.

UICC CATs can use different formats depending on the technology involved, and these objects can be used in both directions from the terminal to the UICC or from the UICC to the terminal.

These service record objects may be, but are not limited to, the DECLARE SERVICE command used when deciding which services a CAT application can support, or the GET SERVICE INFORMATION command used when a CAT application searches for services.

The DECLARE SERVICE command is a proactive UICC message or command that is used to request a terminal (terminal) to remove a service from the service database and add a specific service to the service database. In particular, it is used to provide or request a list of resources available through a local bearer.

The GET SERVICE INFORMATION command is used when the UICC requests the terminal to look up detailed information about a specific service on a given device. Specifically, the GET SERVICE INFORMATION command is used to refer to a complete service record related to a specific service. This allows the UICC to accurately define a particular service (eg, a protocol stack).

In the above description, only the registration of the Bluetooth MAC (address) information is described, but the same technique may be applied to the storage / registration of the Wi-Fi MAC address information.

5 illustrates a signal flow of a process of storing Bluetooth MAC information in a UICC using a UICC CAT.

As shown in FIG. 5, the UE transmits a TERMINAL RESPONSE to the UICC as a response to an external request or an NFC module (S510). Such a TERMINAL RESPONSE command or message may include parameters such as SERVICE SEARCH and BT Service.

Next, the UICC transmits a SERVICE SEARCH message to the terminal (S520). These SERVICE SEARCH messages may include DeviceFilter and ServiceSearch parameters.

The terminal transmits a TERMINAL RESPONSE response including the ServiceAvailability (list of [Local BD_ADDR, Service_Handle, Device_name]) to the UICC as a response to the SERVICE SEARCH message from the UICC (S530)

The meaning of various messages and parameters used in FIG. 5 will be described below.

The SERVICE SEARCH command is a command used when requesting the terminal to search for a service available in the current terminal environment.

The ServiceAvailability parameter is a data object that should be included when performing a successful TERMINAL RESPONSE to the SERVICE SEARCH command, and should contain a list of available services. In particular, when the local bearer technology identifier is Bluetooth (BT), it may include 6 bytes of BD_ADDR information, 4 bytes of Service_Handler or ServiceRecordHandler information, and 20 bytes of Device_name information.

FIG. 6 illustrates the overall flow of P2P communication through Bluetooth pairing or Wi-Fi pairing after UICC registration of Bluetooth (or Wi-Fi) MAC information according to an embodiment of the present invention.

It is assumed that the transmitting side terminal and the receiving side terminal both include a Bluetooth module or a WiFi module in addition to the NFC module and include a UICC in which Bluetooth MAC address information or WiFi MAC address information is stored through the process as shown in FIGS. do.

First, the transmitting terminal side drives a user interface (UI) for P2P transmission of mass data such as a multimedia address book or executes a P2P transmission application (S610).

In addition, it may provide a user interface for confirming the receiving terminal or requesting confirmation of the receiving terminal to designate one of the plurality of receiving terminals as the case may be.

Step S610 and the receiver confirmation request process may be implemented using a Java applet or a separate application installed in the transmitting terminal, but the present invention is not limited thereto, and other NFC modules, UICC, and the like may be used.

In step S610, when the P2P transmission is started, the NFC module of the transmitting terminal is executed in the NFC reader mode (S620), and then a message requesting the receiving terminal to transmit the MAC address information is generated and transmitted to the receiving terminal (S630). The MAC address at this time is Bluetooth MAC address information or WiFi MAC address information.

In steps S620 and S630, the receiving terminal may be operated in the NFC card mode since it is used as a server-side device in an idle state, i.e., a Bluetooth or WiFi pairing process.

The MAC address request message transmitted to the receiving terminal may include an ISO command for acquiring information of EF_BT_MacAddress and EF_WiFi_MacAddress stored in the UICC through a file registration process at the receiving terminal.

Upon receiving the MAC address request message, the receiving terminal extracts Bluetooth MAC address information or WiFi address information from EF_BT_MacAddress and EF_WiFi_MacAddress stored in its UICC and transmits it to the transmitting terminal (S640)

Next, the transmitting terminal performs the Bluetooth pairing or the WiFi pairing process using the Bluetooth MAC address information or the WiFi address information of the receiving terminal obtained through the steps S620 to S640, i.e., the NFC session (S650)

When the Bluetooth pairing or the WiFi pairing process is completed, the transmitting terminal P2P-transmits the corresponding large-capacity data (multimedia address book, etc.) to the receiving terminal using the Bluetooth module or the WiFi module (S660)

Meanwhile, in the Bluetooth pairing and WiFi pairing process in step S650, a known technique can be used. Specifically, the transmitting terminal transmits the socket request (S650) using the MAC address information of the receiving terminal To the receiving terminal, and the receiving terminal transmits ACK or Accept message as a response thereto.

More specifically, an API or a class such as BluetoothSocket and BluetoothServerSocket can be used. One terminal becomes a server socket using BluetoothServerSocket, and the other terminal in a remote connection is connected to a terminal having this server socket connect request. When the connection request is made, the MAC address of the terminal having the server socket is used. The terminal that receives the connection request completes Bluetooth pairing by accepting (accept or ACK) the connection requested from the client side terminal using BluetoothSocket.

That is, according to this embodiment, the receiving terminal becomes the server side terminal and opens the server socket. When the transmitting side terminal makes a connection request using the MAC address information of the receiving side terminal, the receiving side terminal accepts ACK) to perform pairing.

Also, the WiFi pairing process can be performed similarly to the Bluetooth pairing process described above, so a detailed description thereof will be omitted.

Of course, the transmitting terminal 110 may execute a predetermined application or applet prior to the MAC address request to select the large-capacity data to be transmitted according to the present embodiment, or may perform P2P communication with a plurality of receiving terminals It may designate one of them or provide a user interface (UI) for securing a receiving terminal and the like.

 FIG. 7 is a detailed flowchart of a process in which the transmitting-side terminal obtains Bluetooth or Wi-Fi MAC address information of the receiving-side terminal in the flow of FIG.

In FIG. 7, a light shaded block at the top of each signal represents a message or command, and a dark shaded block at the bottom represents an interface or protocol used for message delivery.

When the P2P communication application of the transmission side apparatus is activated, the command according to the ISO 7810 API is transmitted to the transmission side NFC chip through the NFC chip interface (S710). This command may be, for example, a Select / Read File, which is a message that the application requests the transmitting NFC chip to acquire the MAC information of the receiving terminal.

The command in S710 is transmitted to the receiving NFC chip using the Send APDU of ISO 14443 type A / B (S720)

The receiving NFC chip transmits the request to the receiving UICC CAT using the HCI / SWP (S730), and the UICC CAT receiving the request accesses the UICC file system to extract the corresponding Bluetooth MAC information (S740)

The UICC responds to the receiving NFC chip with the Bluetooth MAC information (BT_MAC info.) Extracted using the HCI / SWP or the like (S750). In this step S750, a message or response signal such as Res APDU (BT_MAC info. .

The receiving NFC chip responds to the Bluetooth MAC information received from the UICC with the transmitting NFC chip (Res APDU (BT_MAC info.)) (S760), and the transmitting NFC chip responds the Bluetooth MAC information with the corresponding application (S770) , The P2P application acquires the Bluetooth MAC information of the receiving terminal (Get "BT_MAC").

Of course, the response from the receiving NFC chip to the transmitting NFC chip may be of ISO 14443 A / B standard, as in the case of request, and the response message at this time may have the format of Res APDU (BT_MAC info.) .

The response from the transmitting NFC chip to the application also uses the NFC chip interface, and the response signal may be in the form of Res "Call ISO 7816 API".

Through this process, the transmitting side application can acquire the Bluetooth MAC information of the receiving side terminal, and then perform the Bluetooth pairing and the data transmission as described in FIG. 6.

On the other hand, data communication between the UICC and the NFC module in both the transmitting and receiving terminals can be performed using SWP (Single Wire Protocol) defined in ETSI TS 102.613 and HCI (Host Controller Interface) defined in TS 102.622.

In the transmitting / receiving terminal, the Bluetooth MAC address information and the WiFi MAC address information may be stored in a predetermined basic file EF_BT_MacAddress or EF_WiFi_MacAddress in the file structure of the UICC through the ISO 7816 command.

As described above, in the present embodiment, when transmitting / receiving large amount of data such as a multimedia address book between two NFC terminals, Bluetooth or WiFi MAC address information stored in the UICC of the other terminal at the time of NFC session formation is acquired, , P2P transmission and reception of large amount of data through Bluetooth or WiFi separate from the NFC P2P method.

In the conventional NFC standard, P2P communication is performed between both NFC terminals according to the ISO 18092 method. In this case, compared with the case where the distance between the terminals is limited (~ 10 cm) and the data transmission speed is slow (~ 484 Kbps) For example, after acquiring and accessing Bluetooth or WiFi connection information of a counterpart terminal collectively using UICC and NFC technology (NFC reader mode on the transmitting side and NFC card mode on the receiving side), P2P communication is performed using the communication method , Which can be expected to improve in distance (~ several tens of meters) and data transfer rate (> 2 Mbps).

Also, after acquiring the Bluetooth MAC address information or the WiFi address information stored in the UICC of the other terminal through the NFC session, Bluetooth / WiFi pairing is performed using the MAC address information, thereby to transmit the large- P2P can be transferred quickly.

This enables efficient peer-to-peer transmission by using the other communication method (Bluetooth / WiFi) that acquires the MAC address of the remote terminal in one step quickly in NFC mode with short session setup time and transmits and receives P2P data of real data. There is an effect to make.

According to an embodiment of the present invention, Bluetooth (or Wi-Fi) MAC information can be registered in the UICC file system by using the UICC CAT.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. In addition, although all of the components may be implemented as one independent hardware, some or all of the components may be selectively combined to perform a part or all of the functions in one or a plurality of hardware. As shown in FIG. The codes and code segments constituting the computer program may be easily deduced by those skilled in the art. Such a computer program can be stored in a computer-readable storage medium, readable and executed by a computer, thereby realizing an embodiment of the present invention. As the storage medium of the computer program, a magnetic recording medium, an optical recording medium, a carrier wave medium, or the like may be included.

It is also to be understood that the terms such as " comprises, "" comprising," or "having ", as used herein, mean that a component can be implanted unless specifically stated to the contrary. But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

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

Claims (19)

A Bluetooth module or a WiFi module;
A Universal Integrated Circuit Card (UICC) for storing a Bluetooth connection profile;
UICC internal applications; And
Terminal application
/ RTI >
The UICC internal application receives a request from the terminal application or an external remote terminal, extracts a Bluetooth connection profile registered in the UICC and provides it to the terminal application or an external remote terminal,
Wherein the UICC stores MAC (Media Access Control) address information of the Bluetooth or MAC address information of a WiFi in a file system in the form of an Elementary File (EF) when booting. The method according to claim 1,
Wherein the UICC internal application is a UICC CAT (CAard Application Toolkit). delete 3. The method of claim 2,
Wherein the basic file is stored in the DFTELECOM under the UICC file structure. 5. The method of claim 4,
Wherein the file identifier of the DF _TELECOM is 7F10 and the file identifier of the basic file including the MAC (Media Access Control) address information of the Bluetooth or the WiFi MAC address information is 6F1X. 3. The method of claim 2,
The terminal device is an NFC terminal device including an NFC (Near Field Communication) module,
Wherein the terminal device generates and transmits a MAC address request message for requesting the counterpart terminal for P2P transmission to transmit the MAC address information of Bluetooth or the MAC address information of WiFi when the NFC mode is executed. The method according to claim 6,
The terminal device receives the MAC address information of the Bluetooth of the counterpart terminal device or the MAC address information of the WiFi as a response to the MAC address request message,
Wherein the terminal device performs P2P transmission after completing Bluetooth pairing or WiFi paying with the counterpart terminal device using the MAC address information of Bluetooth of the counterpart terminal device or the MAC address information of WiFi. 1. A connection information registration method of a terminal device including a Bluetooth module or a WiFi module and a UICC (Universal Integrated Circuit Card)
Wherein the terminal host of the terminal device obtains a respective connection profile from the Bluetooth module or the Wi-Fi (WLAN) module in a boot state;
Storing or registering the connection profile in a UICC file system using a UICC internal application,
The UICC internal application is a UICC CAT (Card Application Toolkit), and stores the Bluetooth MAC address information or the WiFi MAC address information in the UICC using a specific command of the UICC CAT. The specific command of the UICC CAT is a DECLARE SERVICE, a GET SERVICE INFORMATION, and TERMINAL RESPONSE. delete 9. The method of claim 8,
Wherein the connection profile is Bluetooth MAC address information or Wi-FI MAC address information. delete A method of acquiring MAC information of a terminal device including a Bluetooth module or a WiFi module, an NFC (Near Field Communication) module, and a UICC (Universal Integrated Circuit Card) storing Bluetooth MAC address information or WiFi address information using a UICC CAT ,
The NFC module of the transmitting terminal requests MAC information to the NFC module of the receiving terminal;
The receiving NFC module transmitting the request to the receiving UICC CAT;
Acquiring MAC information of the receiving terminal stored in the UICC file system of the UICC and responding to the receiving NFC module;
The receiving NFC module transmits the MAC information to the transmitting terminal
, ≪ / RTI &
Wherein the transmitting terminal operates in an NFC reader mode and the receiving terminal operates in an NFC card mode. A terminal device including a UICC (Universal Integrated Circuit Card) for storing Bluetooth MAC address information or WiFi address information using a Bluetooth module or a WiFi module, an NFC (Near Field Communication) module, information for P2P transmission, The method comprising:
The NFC module of the transmitting-side terminal requests MAC information to the receiving-side NFC module;
Receiving MAC information of a receiving terminal, which is extracted from a UICC file system by a UICC CAT of the receiving terminal, through the NFC module of the receiving terminal;
The Bluetooth module or the WiFi module of the transmitting terminal connects the receiving terminal to the socket using the MAC information of the receiving terminal;
And the transmitting terminal transmits the P2P transmission information to the receiving terminal through Bluetooth or WiFi communication. 14. The method of claim 13,
Wherein the transmitting terminal further comprises providing at least one of a user interface for selecting the P2P transmission information and a user interface for confirming the receiving terminal. 15. The method of claim 14,
Wherein the transmitting terminal operates in an NFC reader mode and the receiving terminal operates in an NFC card mode. A Bluetooth module or a WiFi module; And
1. A terminal apparatus including a Universal Integrated Circuit Card (UICC)
(CLFI) or CLFI (CLFI) protocol (CLFI protocol) of the terminal device can access the Bluetooth or Wi-FI pairing information in the UICC for supporting the P2P mode To provide a means of connection,
Wherein the UICC stores the MAC address information of the Bluetooth or the MAC address information of the WiFi in the file system in the form of an Elementary File (EF) when booting. A Bluetooth module or a WiFi module;
Universal Integrated Circuit Card (UICC);
UICC internal applications; And
Terminal application
/ RTI >
The UICC stores the connection profile of the local terminal for P2P pairing,
And stores the MAC address information of the Bluetooth or the MAC address information of the WiFi in the file system in the form of an elementary file (EF) when booting up. A Bluetooth module or a WiFi module;
A Universal Integrated Circuit Card (UICC) for storing a Bluetooth connection profile;
UICC internal applications; And
Terminal application
/ RTI >
Wherein the Bluetooth connection profile is updated by a terminal via Over-The-Air (OTA), wherein the UICC stores a connection profile of a local terminal for P2P pairing. The method according to claim 17 or 18,
Wherein the connection profile is Bluetooth MAC (Media Access Control) address information, and the UICC internal application is a UICC CAT (CAard Application Toolkit).

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