KR20130011882A - Method for transferring drm contents using uicc, terminal, uicc and local-bearer access information obtaining method therefor - Google Patents

Abstract

PURPOSE: A digital rights management(DRM) content transmission method using a universal integrated circuit card(UICC), a local bearer access information obtainment method, a terminal and the UICC are provided to transmit DRM data of DRM content to an opposite UICC through a contactless front-end(CLF) of the terminal and to transmit the DRM content to a local bearer. CONSTITUTION: A CLF receives a local bearer access information request command from the CLF of a transmission device and transmits the same to a UICC(S110). The UICC delivers the local bearer access information request command to an original equipment manufacturing(OEM) module by using a card application toolkit(CAT)(S130). The OEM module delivers the local bearer access information to the CAT of the UICC(S140). The obtained local bearer access information is transmitted to the CLF of the transmission device. [Reference numerals] (AA) Start; (BB) End; (S110) Connecting transmission and receiving devices using a peer method; (S120) Transmitting digital right data to the UICC of the receiving device through a CLF; (S130) Acquiring the local bearer access information of the receiving device using an UICC CAT; (S140) Local bearer pairing; (S150) P2P transmitting DRM contents

Description

DRC content transmission method using WIC, local bearer access information acquisition method and terminal and WCC (Method for Transferring DRM Contents using UICC, Terminal, UICC and Local-Bearer Access Information Obtaining Method therefor}

Method of transmitting DRM content using Universal Integrated Circuit Card (UICC), method of acquiring local bearer connection information for the same, and high-capacity DRM content and digital rights using UE and UICC, more specifically UICC It relates to a technique for transmitting.

Recently, NFC has been discussed as a method of short-range wireless communication. NFC communication uses a 13.56 MHz frequency band (bandwidth of 14 kHz) between terminals equipped with an NFC module (hereinafter referred to as an NFC terminal) of up to 10 centimeters. It is a technology that transmits and receives data at a maximum speed of 424Kbps at 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 within a single device. NFC communication has a relatively short setup time (within 0.1 seconds), but Not only is the communication distance shorter than 10 centimeters, but also the transmission speed is lower than that of Bluetooth or other short-range communication.

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

In addition, UICC includes Subscriber Identity Module (SIM) applications on GSM networks, Universal Subscriber Identity Module (USIM) applications on UMTS networks, and other applications that can access both GSM and UMTS networks, or address books (Phonebooks). ) Or as a storage space for other applications.

The standard specification currently under discussion is the Use Case of Contactless UICC Service of UICC, which includes ticket applications, payment applications, health care applications, and digital rights applications. , Retail applications, etc. are being discussed.

Meanwhile, the need for transmitting and receiving large data such as DRM content between NFC terminals using UICC is increasing.

The present invention is to provide a DRM content transmission method using the UICC.

The present invention provides a method of transmitting digital rights data of DRM content to a counterpart UICC through a contactless front-end (CLF) of a terminal and transmitting the DRM content itself to a separate local bearer such as Bluetooth.

An object of the present invention is to provide a method for acquiring local bearer access information using a UICC CAT (Card Application Toolkit) to perform local bearer pairing for transmission of DRM content.

The present invention is to provide a method for obtaining local bearer access information of the counterpart terminal device in one step when executing the NFC mode, and P2P transmission of DRM content using the same.

The present invention intends to provide a method in which a CAT in a UICC obtains and provides a Bluetooth profile or a Wi-Fi profile when a request is made from a terminal application or a remote terminal.

The present invention is to provide a method for obtaining Bluetooth MAC address information or WiFi address information to the UICC using the UICC CAT.

An embodiment of the present invention is a method of transmitting DRM content between a transmitting device and a receiving device including a UICC, a local bearer module, and a contactless front end (hereinafter referred to as 'CLF'), wherein the digital content of the DRM content is received. Digital rights transmission step of the rights data is transmitted to the UICC of the receiving device via the CLF of the transmitting device and the receiving device, and the DRM content transmission step of transmitting the DRM content through the local bearer module of the transmitting device and the receiving device And, the receiving apparatus provides a DRM content transmission method comprising the step of using the DRM content using the DRM content using the received digital rights data.

Another embodiment of the present invention includes a UICC, a local bearer module, and a CLF, and a terminal for transmitting DRM content to an external device, wherein the terminal transmits digital rights data of the DRM content through the CLF to the UICC of an external receiving device. And transmit the DRM content through the local bearer module after digital rights data transmission through the CLF.

Another embodiment of the present invention includes a UICC, a local bearer module, and a CLF, and receives a DRM content from an external device, wherein the terminal receives the digital rights data of the DRM content from an external transmitter through the CLF. Provided by the UECC, and after receiving the digital data, provides a terminal for receiving the DRM content through the local bearer module.

Another embodiment of the present invention is a method for obtaining local bearer access information for transmitting DRM content between a transmitting device having a UICC, a local bearer module, and a CLF and a receiving device, wherein the receiving device has a CLF of the transmitting device. Receiving a local bearer connection information request command from the terminal and transmitting to the UICC, the UICC transmits the local bearer connection information request command to the OEM module using a CAT, the OEM module from the local bearer module Acquiring the local bearer access information and transmitting the acquired local bearer access information to the CAT of the UICC; and transmitting the obtained local bearer access information to the CLF of the transmitting apparatus through the CLF. to provide.

Another embodiment of the present invention is a method for obtaining local bearer access information for transmitting DRM content between a transmitting device having a UICC, a local bearer module, and a CLF and a receiving device, wherein the receiving device has a CLF of the transmitting device. Receiving a local bearer connection information request command from the UICC, and transmitting the local bearer connection information request command to the UICC, the UICC launching an application using a CAT, and then transmitting the local bearer connection information request command to the application; Acquiring the local bearer access information from a local bearer module and transmitting the local bearer access information to the CAT of the UICC, and transmitting the obtained local bearer access information to the CLF of the transmitting apparatus through the CLF. Provide a method of obtaining information.

Another embodiment of the present invention is a terminal having a UICC, a local bearer module and a CLF and transmitting and receiving DRM content with an external device, wherein the CAT of the UICC launches an application for managing the local bearer module and executes the application. It provides a terminal for transmitting the local bearer connection information obtained by using the external device.

Another embodiment of the present invention is a UICC provided in a terminal for transmitting and receiving DRM content with an external device, wherein the UICC is interlocked with a local bearer module and a CLF, and the UICC obtains the local bearer access information using a CAT. After that, the UICC is transmitted to the external device.

1 illustrates the overall flow of transmitting protected DRM content and digital rights according to one embodiment of the invention.
2 is a diagram illustrating an internal configuration of a terminal device to which an embodiment of the present invention is applied.
3 is a diagram illustrating names and interfaces of terminal internal components to which an embodiment of the present invention is applied.
4 and 5 illustrate a method of obtaining local bearer connection information (Bluetooth profile) through an OEM as an embodiment of the information providing method according to the present invention.
6 and 7 are flowcharts of a method of acquiring Bluetooth profile information (BT Profile) information through an application according to another embodiment of the present invention.
8 is an internal structure diagram of a terminal and a UICC to which the present invention can be applied.

Hereinafter, some embodiments will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though 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 specification describes a wireless communication system as an example, and the work performed in the wireless communication is characterized in that it includes all the operations performed in the system that controls the wireless communication and the wireless communication device that transmits data with the system.

Recently, the size of UICC memory is increasing very rapidly from Kbyte to Mbyte, which provides the possibility of extending the usage of UICC to new services.

The next generation service is based on multimedia content management, and it is expected that a method using UICC to store multimedia content in the terminal, such as MMS (Multimedia Messaging Service) storage, is used.

In addition, it will be related to the transfer of large data between UICC or smart card, and for this purpose, the connection characteristics with the remote service inside and outside the terminal together with the fast data access technology that can avoid the time latency when using the service. Will be required.

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

As an example of the advanced service of the UICC, a multimedia file management function can be considered. The UICC can also be used to manage multimedia files such as encrypted / decrypted MMS, MP3 files, video clips, and the like. There is a need for secure and fast transmission.

On the other hand, NFC communication has been proposed as one method for transmitting data between terminals, but in the following P2P data transmission by the NFC technology has the advantage that it has a relatively short setup time (within 0.1 seconds), Not only is the communication distance shorter than 10 centimeters, but also the transmission speed is lower than that of Bluetooth or other short-range communication. For reference, the data transmission rate by NFC is up to 484 Kbps, while Bluetooth can transmit data up to 2.1Mbps at a distance of 10 meters.

On the other hand, a contactless front end (CLF) such as an NFC terminal is a circuit in the terminal that can process analog parts of contactless communication, can process some layers of the contactless protocol, and can be responsible for data processing between the terminal and the UICC. Element.

In addition, CLFI means a physical interface between UICC and CLF, and CLFIP means a communication protocol between UICC and CLF through CLFI.

As mentioned above, the UICC, which is currently under discussion, is a use case of contactless UICC service, including ticket applications, payment applications, health care applications, and digital rights. ) Requirements defined for application, logistics, etc. are shown in Table 1 below.

[Table 1] Requirements of P2P mode among current contactless services of UICC

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

Therefore, there is a need to satisfy both fast session initiation and data transfer as fast as possible, and for this purpose, a P2P mode using faster short-range wireless communication such as Bluetooth is proposed.

As one of various examples of the use of the UICC as a multimedia file management function, digital rights management (hereinafter referred to as DRM) may exist.

When using the UICC to transmit high-capacity multimedia data between devices or terminals, a new use case of such DRM may be required.

In one embodiment of the present invention, a digital right requiring a secure mechanism in the host device is transmitted into the UICC in the destination device.

In addition, a large amount of multimedia content that requires a large space in the host device will need to be transmitted to the terminal of the target device.

In other words, in one embodiment of the present invention, the mass multimedia content itself is transmitted to the terminal side of the receiving terminal, but DRM information and the like of the content requiring security are transmitted to the UICC.

Accordingly, the present invention intends to propose a usage example related to the transmission of large-scale multimedia content and digital rights using the UICC between devices for the DRM portion among the various usage examples of the UICC.

That is, according to the OMA SRM specification, digital rights may be stored in the UICC and the terminal may be managed. The OMA SRM specification defines the definition and management process of digital rights in detail, and this specification is characterized by extending the SRM capability to UICC.

A user who collects some DRM-protected content and stores it on an old mobile phone may wish to purchase a new mobile phone or terminal. In this case, all content in the terminal before the replacement will want to play (Play) in the new terminal, therefore, information about the content and / or digital rights should be transmitted from the old terminal to the new terminal. In this case, UICC may be used.

To this end, an embodiment of the present invention may include the following configuration.

First, after a successful mutual authentication is performed by a predetermined application in the previous terminal, that is, a DRM agent, etc., the corresponding content and / or rights are transferred from the old terminal to the new terminal (target terminal or receiving terminal). Can be sent to UICC.

In addition, the DRM content and / or rights stored on the card can be transmitted from the card to the new terminal after successful authentication between both entities, through which the user can use the content obtained from the previous terminal on the new terminal.

In addition, the same processes as above may be included in order to share the corresponding content among terminals belonging to other users or between terminals of another type (eg, a mobile phone and a PC).

Meanwhile, one embodiment of the present invention proposes a usage example of transmitting DRM-protected large-capacity (multimedia) content and its digital rights using UICC.

The user needs to transmit protected large-capacity multimedia content such as digital gifts and rights to another terminal such as a friend, and at this time, the UICC may be used.

To this end, the following process may be performed in an embodiment of the present invention.

1) Digital rights within the host device may be transmitted into the UICC via the contactless interface.

2) The large-capacity (multimedia) content may be transmitted to a terminal side of a target device via a local bearer such as, for example, infrared, Bluetooth, or WLAN.

3) The user can use the mass multimedia content acquired by the host device in the target device.

The above process may be used equally among terminals belonging to different users or between terminals of other forms (for example, a mobile phone and a PC) in order to share a large amount of multimedia contents.

More specifically, the DRM content transmission method according to an embodiment of the present invention is a DRM content transmission method between a transmitting device and a receiving device including a UICC, a local bearer module, and a contactless front end (CLF). Digital rights data is transmitted to UICC of receiver via CLF of transmitter and receiver, DRM content is transmitted through local bearer module of transmitter and receiver, and receiver uses received digital rights data. It may include a configuration using the DRM content.

In addition, the above-described CLF is an NFC module, the transmitting device may operate in a reader mode, the receiving device may operate in a card emulation mode, the local bearer module may be a Bluetooth module, a WLAN (Wi-Fi) module and an infrared module. have.

In addition, the UICC of the transmitting apparatus may acquire local bearer connection information of the receiving apparatus using a CAT (Card Application Toolkit), and the transmitting apparatus performs Bluetooth pairing with the receiving apparatus using the obtained Bluetooth profile of the receiving apparatus. After that, the DRM content is transmitted.

In addition, for this purpose, as one of launch application features, a CAT (Card Application Toolkit) of UICC may have a function of launching an application for managing a local bearer module.

Figure 1 shows the overall flow of the digital rights and content transmission method according to an embodiment of the present invention.

According to FIG. 1, the digital rights in the host device are transmitted into the UICC via the contactless interface, and the mass (multimedia) content is transferred to the destination device via a local bearer such as, for example, infrared, Bluetooth or WLAN. The entire flow transmitted to the terminal side of the (Target Device) is shown.

Referring to the process according to Figure 1 in more detail as follows.

In the digital rights and content transmission method according to the present invention, the transmitting side may operate in the reader mode and the receiving side may operate in the card emulation mode, but is not limited thereto.

First, a peer terminal is contacted to transmit a large amount of DRM content or a large amount of data such as an mp3 file. That is, the transmitter is connected to the receiver in a peer manner (S110).

Then, the application of the transmitting device transmits the DRM data or digital rights data of the corresponding content to the UICC of the transmitting device. The UICC of the transmitting apparatus transmits the digital rights data of the corresponding DRM content to the UICC of the receiving apparatus via the CLF of the receiving apparatus through the contactless front end (CLF) of the transmitting apparatus (S120).

Next, the application acquires connection information of the receiving device or local bearer information of the receiving device between the contactless front ends of the transmitting device (S130) when the transmitting device acquires bearer information of the receiving device. The detailed configuration thereof will be further described below with reference to FIG. 2.

Next, the application requests a local bearer chip or module connection to the local bearer network (S140). In this embodiment, the local bearer may be Bluetooth, Wi-Fi, infrared communication, or the like. The local bearer information of the receiver may be Bluetooth connection information, Wi-Fi connection information or infrared access information. Also, the Bluetooth access information and the Wi-Fi access information may be Bluetooth MAC addresses, Wi-Fi MAC addresses, and the like, but are not limited thereto.

Next, when the bearer network through the corresponding local bearer is connected, the local bearer chip of the transmitting device transmits the corresponding content (mp3 file, etc.) to the corresponding local bearer chip of the receiving device (S150).

Although not shown, the receiving device that receives the content may use the content by using DRM data or digital rights data of the content already transmitted to the UICC.

On the other hand, there is no limitation to the application that must be launched (Launching) in the CLF of the transmitter or receiver for the above.

The local bearer may be Bluetooth, WLAN (Wi-Fi), infrared communication bearer, etc., but is not limited thereto.

Meanwhile, in an embodiment of the present invention, in order to launch an application for managing a local bearer such as infrared, Bluetooth, and WLAN and provide local bearer information to a terminal connected to a peer, a UICC CAT Application Card (CAT CAT) may be used. And, a detailed description thereof will be described in more detail with reference to FIG. 2 below.

2 is a diagram illustrating an internal configuration of a terminal device to which an embodiment of the present invention is applied.

The terminal to which the present embodiment is applied is a terminal capable of NFC support, the UICC module 210, the NFC module 220 as the CLF, the Bluetooth (BT) module 230 and the Wi-Fi module 240 as the local bearer module. A baseband processor 250, a driver 260 (UICC driver, NFC driver, BT driver, Wi-Fi driver) of the respective modules thereon, and a handset boot and control software 270 thereon; OEM), the application program 280 of each module, the upper application program 290, and the like.

In addition, UICC-terminal protocol, NFC-terminal protocol, BT-terminal protocol, WiFi-terminal protocol, etc. are defined between each module and the module driver, and HCI (defined between an NFC module and a terminal or a UICC module) is defined. One example is Host Controller Interface (SWP) or Single Wire Protocol (SWP).

Hereinafter, although both the transmitting terminal and the receiving terminal of the present embodiment will be described as being an NFC terminal, it is not limited thereto.

In addition, although FIG. 2 illustrates the Bluetooth module 230 and the Wi-Fi module 240 as local bearer modules, only one of the two modules may be provided in some cases, and other types of local bearer modules may be included. Could be

3 illustrates names and interfaces of internal terminal components to which an embodiment of the present invention is applied.

As shown in Figure 3, the inside of the terminal to which an embodiment of the present invention is applied NFC controller chip 310, UICC 320, OEM 330, application application 340, Bluetooth module 350, Wi-Fi module ( 360), and the application may not have a user interface.

In addition, as an interface for connecting each module or chip, la is a contactless interface with an external terminal, lb is the interface between the NFC chip and the USIM (UICC), lc is the interface between the UICC and the terminal (Terminal) or host, ld is The interface between the UICC and the application application, le represents the Bluetooth chip information access interface on the application, lf represents the interface between the Bluetooth chip and the terminal.

In addition, the Bluetooth module and the Wi-Fi module may respectively store a Bluetooth profile and a Wi-Fi profile, and the profile may be a MAC address, but is not limited thereto.

Meanwhile, in an embodiment of the present invention, in order to manage a local bearer or provide local bearer information to a UE in a peer state, the UICC CAT may be used, which will be described in more detail with reference to FIG. 4 below. Explain.

Hereinafter, Bluetooth is illustrated as a local bearer and Bluetooth profile or Bluetooth connection information is illustrated as, but not limited to, local bearer data.

In addition, hereinafter, P2P pairing, more specifically, Bluetooth pairing (BT Paring) is used as a concept equivalent to a local bearer network connection.

4 illustrates a method for acquiring Bluetooth profile information through an OEM as an embodiment of the method for acquiring local bearer information according to the present invention.

That is, FIG. 4 illustrates a process in which the receiving apparatus provides its own Bluetooth connection information to the transmitting apparatus when the transmitting apparatus requests the local apparatus bearer information, that is, the Bluetooth connection information, of the receiving apparatus.

That is, when requesting the BT / WIFI profile of the receiver in order to P2P pairing from the external device (Sender) as a transmitting device, a method using a large OEM module and an application application to deal with this 4 and 5 show a case of using an OEM module, and FIGS. 6 and 7 show a case of using an application.

4 illustrates a signal flow inside a receiving device when the receiving device provides local bearer connection information to the transmitting device using an OEM module.

As shown in FIG. 4, the NFC chip, which is the CFL of the receiver, receives a request for a Bluetooth profile from the transmitter, more specifically, the NFC chip, which is the CFL of the transmitter, in a non-contact manner (S410).

The NFC chip of the receiver transmits the Bluetooth profile request command to the UICC of the receiver (S420), and the UICC processes the request using CAT. More specifically, the CAT transmits a Bluetooth access information acquisition request command to the OEM module of the terminal through the interface between the UICC and the terminal (S430).

The Bluetooth access information acquisition request command transmitted by the UICC CAT to the OEM module may be, but is not limited to, a GET SERVICE INFORMATION (BT param.) Command.

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

After receiving the Bluetooth access information acquisition request command, the OEM module parses the request command and accesses the Bluetooth chip which is the corresponding local bearer module of the receiving device to secure the Bluetooth access information (S440).

The Bluetooth chip of the receiving device responds to the OEM with its own connection information, that is, a Bluetooth profile or Bluetooth address information as local bearer connection information (S450).

The OEM transmits the Bluetooth profile to the UICC using the UICC CAT (S460). The command when the OEM returns the Bluetooth profile to the UICC may specifically be a TERMINAL RESPONSE (Service Record [BT profile]) command. It is not.

The UICC CAT receiving the Bluetooth profile transfers the Bluetooth profile to the NFC chip, which is a CLF (S470).

The NFC chip, which is the CLF of the receiver, transmits the local bearer connection information (Bluetooth profile) received from the UICC CAT to the CLF (NFC chip) of the transmitter (S480).

The transmitting device can thereby obtain the Bluetooth profile of the receiving device, which can then transmit DRM content corresponding to the digital rights already transmitted after establishing a Bluetooth pairing with the receiving device.

The Bluetooth pairing process and the WiFi pairing process may use a known technique. Specifically, a socket request may be performed using a Bluetooth profile (Bluetooth MAC address information, etc.) of a receiving device obtained by the transmitting device through the above process. Is transmitted to the receiving apparatus, and the receiving apparatus may be performed by transmitting an ACK or Accept message as a response thereto.

In more detail, APIs or classes such as BluetoothSocket and BluetoothServerSocket may be used, and one terminal becomes a server socket using a BluetoothServerSocket, and another terminal remotely connects to a terminal having this server socket. connect) request. In this connection request, the MAC address of the terminal having the server socket is used. The terminal receiving the connection request completes the Bluetooth pairing by accepting (accepting or ACKing) the connection requested by the client terminal using the BluetoothSocket.

That is, according to the present embodiment, the receiving device becomes a server-side terminal to open the server socket, and when the transmitting device makes a connection request using the Bluetooth MAC address information of the receiving device, the receiving device receives an acknowledgment (ACK) thereof. By doing so, pairing is performed.

In addition, since the WiFi pairing process may be performed similarly to the above-described Bluetooth pairing process, a detailed description thereof will be omitted.

On the other hand, the configuration of the UICC CAT in more detail as follows.

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. In particular, the UICC CAT command used for acquiring and transmitting local bearer connection information such as a Bluetooth profile is TERMINAL RESPONSE, DECLARE SERVICE, GET SERVICE INFORMATION, etc., but is not limited thereto.

In addition, the process or UICC data space used for obtaining and transmitting local bearer access information or storing the digital rights in the UICC may be, but is not limited to, a Service Record process on CAT and its area.

Service records defined in the UICC CAT may use different formats depending on the related technology, and these objects may be used in both directions from the terminal to the UICC or from the UICC to the terminal.

Such a service record object may use, but is not limited to, a DECLARE SERVICE command used when a CAT application declares a service that can be supported, or a GET SERVICE INFORMATION command used when a CAT application searches for a service.

Such a service record may have a data format as shown in Table 2 below.

[Table 2]

Here, the Local Bearer Technology Identifier may be coded as Bluetooth when '01', and one of '05' to 'FF', which is a reserve resource for the future, is Wi-Fi (WLAN). Can be used for

As used herein, the CAT technology 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 comprehensive set of instructions or procedures defined to be used by an integrated circuit card (ICC). It is defined.

Such a CAT is not related to or defined separately from a general network connection technology, and the UICC may be any ICC supporting at least one application for connecting to a network.

In this case, at least one application for accessing the network may be defined as a network access application (NAA), and this NAA may mean a USIM application, a TSIM application, an ISIM application, etc. used only in a 3G platform. It may mean a SIM used in a 3G or 2G platform, and may be any application that is a specific interface capable of ensuring an association operation between a terminal and an ICC independently of other RUIMs, manufacturers, and operators.

These CATs are concepts that include instructions, application protocols, mandatory specifications on terminals and ICCs in each procedure.

FIG. 5 is a diagram illustrating only operations between a UICC CAT and an OEM in the same process as FIG. 4.

As shown in FIG. 5, the UICC of the receiving apparatus transmits a GET SERVICE INFORMATION (BT param.) Command of CAT to a terminal side, more specifically to an OEM module, in order to acquire its Bluetooth profile (S510).

Then, the OEM obtains a Bluetooth profile such as a Bluetooth MAC address through its own OEM logic (S520), and transfers the acquired Bluetooth profile to the UICC through the TERMINAL RESPONSE (Service Record [BT profile]) Command command of CAT ( S530)

The OEM logic may be, but is not limited to, a logic for receiving a Bluetooth profile as a reply to the Bluetooth chip (local bearer module) when receiving a GET SERVICE INFORMATION (BT param.) Command.

FIG. 5 illustrates a signal flow inside a receiving apparatus when the receiving apparatus provides local bearer connection information to the transmitting apparatus using a separate application.

As shown in FIG. 5, the NFC chip, which is the CFL of the receiver, receives a request for Bluetooth profile from the transmitter, more specifically, the NFC chip, which is the CFL of the transmitter, in a non-contact manner (S510).

The NFC chip of the receiver transmits the Bluetooth profile request command to the UICC of the receiver (S520), and the UICC processes the request using CAT.

More specifically, the CAT drives or launches a separate application for acquiring local bearer access information according to an application launching method, and then requests for obtaining Bluetooth access information through an interface ld between the UICC and the application application. To transmit to the application of the terminal (S530)

After receiving the Bluetooth access information acquisition request command, the application parses the request command and accesses the Bluetooth chip which is the corresponding local bearer module of the receiving device in order to secure the Bluetooth access information (S540).

The Bluetooth chip of the receiving device responds to the application with its own connection information, that is, a Bluetooth profile or Bluetooth address information as local bearer connection information (S550).

The application transfers the Bluetooth profile to the UICC using the UICC CAT (S560). The command when the application returns the Bluetooth profile to the UICC may specifically be a TERMINAL RESPONSE (Service Record [BT profile]) command, but is not limited thereto.

The UICC CAT receiving the Bluetooth profile transfers the Bluetooth profile to the NFC chip, which is a CLF (S570).

The NFC chip, which is the CLF of the receiver, transmits the local bearer connection information (Bluetooth profile) received from the UICC CAT to the CLF (NFC chip) of the transmitter (S580).

The transmitting device can thereby obtain the Bluetooth profile of the receiving device, which can then transmit DRM content corresponding to the digital rights already transmitted after establishing a Bluetooth pairing with the receiving device.

Since Bluetooth paring and WiFi pairing have already been described with reference to FIG. 4, description thereof will be omitted to avoid duplication.

FIG. 7 is a diagram illustrating only operations between a UICC (CAT), a terminal, and an application in the same process as in FIG. 5.

As shown in FIG. 7, the UICC of the receiving apparatus drives the corresponding application using the Launch Application Feature of the CAT in order to acquire its Bluetooth profile (S710). In addition, the UICC may transmit a local bearer access information request command to the application after the application is started using CAT, and may use a GET SERVICE INFORMATION (BT param.) Command.

The Launch Application Feature is described as follows.

The launch application feature is to allow the UICC to communicate, launch and discover with the application on the terminal using Proactive commands. Provides stage 1 requirements and high-level descriptions for launch applications. The requirements are based on requirements present within the 3GPP Stage 1 specification of TS 122 038 of the Toolkit feature. Since the application to be launched is primarily independent of the air interface, it is desirable to standardize on TC-SCP rather than 3GPP. Of course, it can be used for other communication standards.

An example of a terminal application for this characteristic is as follows.

Email: CAT (Card Application Toolkit) can launch an email client on the terminal, providing parameters such as POP server, SMTP server, login, password, and so on.

Network management optimization: CAT can launch in-device applications that report to USIM. It can also be used for channel and application matrices for monitoring network performance.

Proactive Synchronization: A CAT application triggered by an appropriate event may command the start of a data synchronization process (eg, ME configuration data or subscriber related parameters, etc.) associated with data entities in the UE and synchronization server.

Streaming: The CAT may launch a streaming application inside the terminal to stream a video clip with an address (eg URL) provided by the CAT.

In particular, among the launch application features, a local bearer management function may be added for the present invention, and the local bearer management function launches an application for managing a local bearer such as a card application toolkit (CAT) of UICC to manage infrared, Bluetooth, and WLAN. It means you can do it. In addition, through this, local bearer information may be provided to the peer terminal in the peer state.

Meanwhile, the application receiving the local bearer access information request command in FIG. 7 requests and receives a Bluetooth profile or Bluetooth access information from a terminal, more specifically, a Bluetooth chip in the terminal through application access (S720).

The application transmits a terminal response command to the terminal (S730), and the terminal transmits the Bluetooth profile, which is local bearer access information, to the UICC through the TERMINAL RESPONSE (Service Record [BT profile]) command of the CAT (S740).

As described above, when using the CAT of the UICC to obtain and transmit the local bearer access information of the terminal as in an embodiment of the present invention may have the following effects.

It is also possible to consider storing the Bluetooth profile in the terminal's memory (not UICC) separately and delivering it to the CLF upon request from the other terminal.However, if this method is used, the local bearer type or chip is changed. In this case, it may be inconvenient to update the local bearer connection information in the memory every time. In addition, there is a disadvantage that Bluetooth pairing may be impossible when the local bearer access information is not updated in real time.

However, as in the embodiment of the present invention, when there is a relative request, the local bearer access information can be obtained and provided in real time by directly accessing the local bearer module using the UICC CAT, thereby solving the above problem. The result is a more stable Bluetooth pairing.

8 is an internal structure diagram of a terminal and a UICC to which the present invention can be applied.

The UICC according to an embodiment of the present invention can obtain subscriber information (phone number, IMSI, etc.) of the UICC between the terminal and the terminal (terminal host) through CAT, which is an application existing on the UICC during the terminal booting process. . In addition, as described above, the UICC has a plurality of applets to provide information requested by the terminal.

In UICC, the information used for each applet is managed in a file system managed by the SIM toolkit framework, and its structure can follow the standard form of ETSI TS 102.223.

Meanwhile, in one embodiment of the present invention, there is no need for a special file system for Bluetooth pairing or Wi-Fi pairing.

As shown in FIG. 8, the UICC according to an embodiment of the present invention is a UICC provided in a terminal for transmitting and receiving DRM content with an external device. The UICC is interworked with a local bearer module (Bluetooth module) and a CLF (NFC chip). It acquires the local bearer access information by using it and transmits it to an external device.

More specifically, the UICC 820 according to an embodiment of the present invention uses an OEM S / W 810 and UICC-terminal interface (ETSI TS 221; 812), which are terminal handset booting and control software in the terminal 800. The UICC 820 has several function-specific applets therein.

The applets possessed by the UICC include a GSM applet 821 for providing a communication function, a toolkit applet 822 including a CAT according to the present invention, a loader applet 823 for loading and other applets 824, and the like. It is included.

In addition, the UICC may include a SIM Toolkit Framework 830, which may include a Toolkit Registry 831, a Toolkit Handler 832, a File System 833, and the like. .

As described above, using an embodiment of the present invention, the digital rights of the DRM content is transmitted to the counterpart terminal's UICC using a CLF such as NFC, and a large amount of DRM content is transmitted through a separate local bearer such as Bluetooth. The effect is to send data quickly.

In particular, since the CAT of the UICC can be used to acquire and transmit the local bearer connection information of the terminal, there is an advantage that stable Bluetooth pairing is possible.

Also, in the present embodiment, when P2P transmits and receives large data such as DRM content between two NFC terminals, local bearer connection information such as Bluetooth profile of the counterpart terminal is acquired at the time of NFC session establishment, and thereafter, P2P of NFC P2P transmission and reception of a large amount of data through a separate Bluetooth or WiFi rather than the method.

As a result, in the conventional NFC standard, P2P communication is performed between two NFC terminals according to ISO 18092. In this case, the distance between the terminals is limited (˜10 cm) and the data transmission speed is slow (˜484 Kbps). According to this embodiment, by using the UICC and NFC technology (an NFC reader mode on the sending side and an NFC card mode on the receiving side), the Bluetooth terminal or the WiFi connection information of the other terminal is acquired and connected in a batch, and then P2P communication is performed according to the corresponding communication method. We can expect to improve on distance (~ several meters) and data rate (> 2Mbps).

In addition, after acquiring the Bluetooth connection information of the counterpart terminal in real time using the UICC CAT, by performing Bluetooth / WiFi pairing using the information, it is possible to quickly transmit large-capacity data P2P by Bluetooth or WiFi.

Thus, in the NFC mode with a short session setup time, the Bluetooth terminal profile can be quickly acquired in one step, and P2P transmission and reception of actual data can be efficiently performed by using another communication method (Bluetooth / WiFi) that has a high transmission speed. It is effective.

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. In other words, within the scope of the present invention, all of the components may be selectively operated in combination with one or more. 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. Codes and code segments constituting the computer program may be easily inferred by those skilled in the art. Such a computer program may be stored in a computer readable storage medium and read and executed by a computer, thereby implementing embodiments 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 above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes 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 falling within the scope of the same shall be construed as falling within the scope of the present invention.

Claims (29)

A method of transmitting DRM content between a transmitting device and a receiving device including a UICC, a local bearer module, and a contactless front end (hereinafter referred to as "CLF"),
A digital rights transmission step of transmitting the digital rights data of the DRM content to the UICC of the receiving device via the CLF of the transmitting device and the receiving device;
Transmitting the DRM content through a local bearer module of the transmitting apparatus and the receiving apparatus;
And receiving the DRM content using the DRM content by using the received digital rights data. The method of claim 1,
The CLF is an NFC module, DRM content transmission method characterized in that the digital rights transmission step is performed by NFC. The method of claim 2,
And the transmitting device operates in a reader mode and the receiving device operates in a card emulation mode. The method of claim 1,
The local bearer module may be one or more of a Bluetooth module, a WLAN (Wi-Fi) module, and an infrared module. The method of claim 1,
Before the DRM content transmission step,
And a local bearer access information acquiring step, wherein the UICC of the transmitting device acquires local bearer access information of the receiving device using a CAT (Card Application Toolkit). The method of claim 5,
The local bearer connection information is a Bluetooth profile, and the transmitting device transmits the DRM content after performing Bluetooth pairing with the receiving device using the Bluetooth profile of the receiving device. The method of claim 1,
CAT (Card Application Toolkit) of the UICC further comprises the step of launching an application for managing the local bearer module DRM content transmission method. A terminal having a UICC, a local bearer module, and a contactless front end (hereinafter referred to as 'CLF') and transmitting DRM content to an external device,
The terminal transmits the digital rights data of the DRM content to the UICC of the external receiving device through the CLF, and after transmitting the digital rights data through the CLF, and transmits the DRM content through the local bearer module. Terminal. 9. The method of claim 8,
And wherein the UICC obtains local bearer access information of the external receiving apparatus using a CAT (Card Application Toolkit). 10. The method of claim 9,
The local bearer connection information is a Bluetooth profile, and the terminal transmits the DRM content after performing Bluetooth pairing with the external receiver using the Bluetooth profile of the external receiver. 9. The method of claim 8,
The CLF is an NFC module, characterized in that the terminal operates in a reader mode. A terminal having a UICC, a local bearer module, and a contactless front end (hereinafter referred to as "CLF"), and receiving DRM content from an external device,
The terminal receives the digital rights data of the DRM content to the UICC from the external transmission device through the CLF, and after receiving the digital data, the terminal receives the DRM content through the local bearer module. The method of claim 12,
The terminal acquires the local bearer access information of the terminal by using the CAT of the UICC, characterized in that for transmitting to the external transmission device. The method of claim 13,
And the CAT of the UICC transmits the local bearer access information request command to the OEM module of the terminal, and then acquires the local bearer access information as a response thereto. The method of claim 13,
The CAT of the UICC terminal, characterized in that after receiving the local bearer access information request command to the application of the terminal, obtains the local bearer access information as a response thereto. A method for obtaining local bearer access information for transmitting DRM content between a transmitting device and a receiving device including a UICC, a local bearer module, and a contactless front end (CLF), the receiving device comprising:
Receiving, by the CLF, a local bearer access information request command from the CLF of the transmitting apparatus and transmitting the received command to the UICC;
The UICC transmitting a local bearer access information request command to an OEM module using a CAT;
Acquiring, by the OEM module, the local bearer connection information from the local bearer module and then transferring the local bearer connection information to the CAT of the UICC; And
Transmitting the obtained local bearer access information to the CLF of the transmitting apparatus through the CLF;
Local bearer access information acquisition method comprising a. 17. The method of claim 16,
The local bearer module is a Bluetooth module, and the local bearer access information may be a Bluetooth profile or a Bluetooth MAC address. 17. The method of claim 16,
The CLF is an NFC module, wherein the transmitting device is in a reader mode, the receiving device is operating in a card emulation mode, characterized in that the local bearer access information acquisition method. 17. The method of claim 16,
The local bearer access information request command is a GET SERVICE INFORMATION (BT param.) Command. A method for obtaining local bearer access information for transmitting DRM content between a transmitting device and a receiving device including a UICC, a local bearer module, and a contactless front end (CLF), the receiving device comprising:
Receiving, by the CLF, a local bearer access information request command from the CLF of the transmitting apparatus and transmitting the received command to the UICC;
The UICC launching an application using a CAT and transmitting the local bearer access information request command to the application;
Acquiring, by the application, the local bearer connection information from the local bearer module and transferring the acquired information to the CAT of the UICC; And
Transmitting the obtained local bearer access information to the CLF of the transmitting apparatus through the CLF;
Local bearer access information acquisition method comprising a. 21. The method of claim 20,
The local bearer module is a Bluetooth module, and the local bearer access information may be a Bluetooth profile or a Bluetooth MAC address. 21. The method of claim 20,
The CLF is an NFC module, wherein the transmitting device is in a reader mode, the receiving device is operating in a card emulation mode, characterized in that the local bearer access information acquisition method. A terminal having a UICC, a local bearer module, and a contactless front end (hereinafter referred to as 'CLF'), which is a terminal for transmitting and receiving DRM contents with an external device.
The CAT of the UICC terminal launches an application for managing the local bearer module, and transmits the local bearer access information obtained by using the application to the external device. 24. The method of claim 23,
The local bearer module is a Bluetooth module, characterized in that the local bearer access information is a Bluetooth profile or a Bluetooth MAC address. A UICC provided in a terminal for transmitting and receiving DRM content with an external device, wherein the UICC is interworked with a local bearer module and a contactless front end (hereinafter referred to as 'CLF'), and the UICC is connected to the local area using a CAT. UICC, characterized in that for obtaining the bearer connection information and transmitting to the external device. 26. The method of claim 25,
The CAT of the UICC UICC, characterized in that to obtain the local bearer connection information as a response after transmitting the local bearer access information request command to the OEM module of the terminal. 26. The method of claim 25,
The CAT of the UICC launches an application capable of acquiring the local bearer access information, transmits the local bearer access information request command to the application, and receives the local bearer access information as a response thereto. UICC. A program having a UICC, a local bearer module, and a contactless front end (hereinafter referred to as "CLF"), which records a program executed inside a terminal that receives DRM content from an external device.
The program performs a function of the terminal receiving the digital rights data of the DRM content from the external transmission device through the CLF to the UICC, and after receiving the digital data, the DRM content through the local bearer module. Recording medium recording the program. A program recorded in a UICC provided in a terminal for transmitting and receiving DRM content with an external device is recorded.
The program causes the UICC to interwork with a local bearer module and a contactless front end (CLF), and the UICC acquires the local bearer access information using a CAT and transmits it to the external device. And a recording medium for recording the program.

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