KR20130142871A - Method of automatic plug and play for device using real time device application download and device therefor - Google Patents

Abstract

A terminal interworking method with real-time terminal application download and a terminal interworking device are disclosed. The present invention comprises a step of obtaining the device identification information of a terminal in which a legacy terminal is connected in an M2M objective; a step of obtaining device application information corresponding to device identification information through a device application information management server; a step of obtaining device application information corresponding to device identification information through a device application information management server; a step of determining the installation state of the device application corresponding to the device application information in the M2M object; and a step of obtaining the device application from a device installation file management server corresponding to the device identification information when the device application corresponding to the device identification information is not installed. [Reference numerals] (315) <DA information> DecID-DA URL-DA version;(320) DA installation file management server;(321) <DA installation file> DevID-DA version-DA installation file;(330) M2M server platform (NSCL);(414) <DA installation statement> DA ID-DA version-installation result

Description

Terminal interworking method and device through real-time device application download {Method of Automatic Plug and Play for Device using Real Time Device Application Download and Device therefor}

The present invention relates to M2M (machine to machine) technology, and more particularly, to a method of interworking with a terminal through a real-time device application download that can accommodate and service legacy terminals of non-standard specifications.

IoT communication is a method in which a communication is performed without a human being involved in a communication process, such as machine to machine communication (MTC), machine type communication (M2M), smart device communication, or machine oriented communication. Refers to all communication schemes.

In general, in a M2M system, when a legacy terminal, which is a non-standard terminal having no M2M application layer, is connected to an M2M area network, a gateway (G) or device (D) end of the legacy terminal is connected to the M2M network. Common module of Gateway Interworking Proxy / Device Interworking Proxy (GIP / DIP) is used. However, this method cannot be applied to legacy terminals that are not accommodated by this.

According to the present invention, there is provided a method and apparatus for interworking a legacy terminal through a terminal app download so that a non-standard terminal can be accommodated and serviced by a gateway G or a terminal D.

The present invention provides an M2M service by interworking with an M2M gateway or a device through an M2M area network for a device that is not equipped with M2M service capabilities. A method and apparatus therefor.

The present invention is to be implemented as follows.

The present invention enables to effectively accommodate the legacy terminal that can not be accommodated in the GIP / DIP, such as using a private profile in the gateway (G) or the terminal (D).

When legacy terminal is connected to gateway (G) or terminal (D), it downloads and installs a device application (DA) installation file for the corresponding model in real time and automatically plugs and plays the legacy terminal using a private profile interface. Accept it.

According to the present invention, when a legacy terminal is connected, the terminal application (Device Application) for the model is automatically downloaded, installed, and driven to efficiently accommodate legacy terminals that the GIP / DIP cannot accommodate.

More specifically, when the legacy terminal is connected to the gateway (G) or the terminal (D), the private profile interface is automatically downloaded and installed by automatically downloading and installing a device application (DA) installation file for the corresponding model in real time. The present invention proposes a method of accommodating legacy terminals.

1 is a diagram showing an M2M structure as an environment to which the present invention is applied.
2 is a diagram of an M2M reference point as an environment to which the present invention is applied.
3 is a diagram illustrating a configuration of a legacy terminal and a gateway (G) / terminal (D) according to an embodiment of the present invention.
4 is a diagram illustrating a registration method of a legacy terminal according to an embodiment of the present invention.

Hereinafter, some embodiments of the present invention 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 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 invention rather unclear.

In addition, in describing the component of this invention, terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

Embodiments of the present invention will be described based on communication of things. IoT can be variously referred to as Machine to Machine communication (M2M), Machine Type Communication (MTC), Internet of Things (IoT), Smart Device Communication (SDC), or Machine Oriented Communication. Can be. The thing communication refers to various communication in which a communication is made without a person intervening in a communication process. IoT communication can be used in various fields including smart meters, e-health, connected consumers, city automation, automotive applications, and the like.

The present invention relates to a method for accommodating and serving a non-standard legacy terminal in a machine-to-machine (M2M) communication system.

1 is a diagram illustrating an M2M structure as an environment to which an embodiment of the present specification is to be applied.

The network environment applied to the present invention accommodates multiple access networks in the device / gateway and M2M Core Platform based on the M2M structure described in the international standard European Telecommunication Standards Institute (ETSI) Technical Committee (TC) M2M. Applies in an environment that provides the ability to do so.

Referring to the drawings, the M2M structure includes a network and application domain or M2M platform shown on the upper side of the drawing, and an M2M device / gateway domain M2M for providing the object intelligent communication service shown on the lower side of the drawing Device domain).

The network / application domain may access M2M Service Capabilities (M2M SC) 112, which is an M2M service capability, or an M2M Application 111 that provides service logic, a Core Network 113 such as 3GPP, And M2M SC 112.

The service capabilities (SCs) 112 of the network domain may interface with one or more core networks 113, in which case the functions of the core network may be utilized through known interfaces according to other existing standards.

The network / application domain may also include an access network 114 such as xDSL, WiMAX, which enables communication with the M2M device / gateway domain, and M2M management functions 115 and network management functions (Network Management functions (116).

On the other hand, the M2M device / gateway domain includes the M2M gateway 120 and the M2M devices 130 and 140.

The M2M gateway 120 may include an M2M application 121 and an M2M service capability 122.

In addition, the M2M device 130 may include an M2M application 131 and an M2M service capability 132. The M2M device 130, which is equipped with the M2M service capability 132, can interwork and interconnection with the network domain directly through the access network 114. [

For example, the M2M device 140, which does not include the M2M SC, is connected to the M2M gateway 120 through an M2M area network such as a zigbee or a bluetooth to operate in a network domain interworking and interconnection).

That is, the M2M devices 130 and 140 may operate the M2M application 131 to utilize the functions of the network domain to communicate with the M2M device or the M2M gateway through the M2M SCs 132 (or 122) Interworking and interconnection.

The M2M gateway 120 allows the M2M devices 140 to interworking and interconnection through the M2M SC 122 in the network / application domain.

M2M Service Capabilities (NSCL) in the network domain is implemented as a server platform and M2M service capability of the device / gateway domain (M2M service capability) Service Capabilities (DSCL / GSCL) 132 and 122 reside in the terminal and operate.

The service capability SC may include one or more of xAE, xGC, xRAR, xCS, xREM, xSEC, xHDR, xTM, xTM, xIP, xCB or xTOE, G for a device, or D for a device. That is, xIP can be NIP, GIP, or DIP. The xSEC described below is a security capability, which may be NSEC, GSEC or DSEC.

The Service Capability Layer (SCL) 122 and 132 of the M2M gateway 120 or the M2M device 130 form a specific interface with the Service Capability Layer (SCL) 112 of the network domain to interwork and communicate interconnection.

To this end, reference points of mIa, mId, and dIa are defined as the interface between the network domain and the device and gateway domains according to the M2M standard structure.

2 is a diagram of an ETSI TC M2M reference point as an environment to which an embodiment of the present specification is to be applied.

mIa is a reference point used in the network domain and is an interface specification between NSCL (M2M Service Capability Layer in the network) and NA (Network Application) provided by the M2M platform.

mId is the interface specification between the NSCL of the network domain and the D / G SCL (DSCL or GSCL) of the device / gateway domain. In other words, mId is an interface standard applied between the NSCL of the network domain provided by the M2M platform and the DSCL (M2M Service Capabilities in the M2M Device), which is the service capability layer of the device, and the NSCL of the network and the GSCL M2M Gateway).

dIa is a reference point used in the M2M device / gateway domain. It is an interface between a device service capability layer (DSCL) and a device application (DA) provided by the M2M device, a gateway service capability layer (GSCL ), A gateway application (GA) interface, and an interface specification of GSCL and DA provided by the M2M gateway.

The M2M service structure of the M2M standard structure includes, for example, a case 1, a case 2, a legacy case 1, a legacy case 2, a legacy case 3, Can be considered.

According to Case 1, the M2M service (SC) 122 and the M2M device (D) 210 including the M2M application 121 are linked with the NSCL of the network domain 290 through the mId reference point .

Case 2 includes an M2M device (D ') 230, as an example of an M2M device (D') 230 that includes an M2M application 121 but does not include an M2M service capability (SC) Does not include the M2M service capability SC and can operate in conjunction with the NSCL of the network domain 290 in conjunction with the M2M service capability (SC) 122 of the M2M gateway (G) 270 via the dIa reference point.

Legacy cases 1 to 3 refer to cases where the device is a non-standard device (d) 250 that is not a legacy device, i.e., an M2M device. In this case, since the legacy device d does not have an M2M application included in the M2M device, the legacy device d can operate in the network domain 290 through the interworking proxy capability (xIP) which is the service capability (SCL) interconnection).

Where x may be N for a network, G for a gateway, or D for a device. That is, xIP can be NIP, GIP, DIP.

The xIP can discover the structure of the M2M area network and create an M2M resource structure representing the M2M area network structure in the service capability layer SCL. When the M2M area network structure changes, the M2M resource structure can be managed to reflect this.

Legacy case 1 represents a case where the nonstandard specification device (d) 250 interworking and interconnection in the network domain 290 through the NIP of the network domain.

In addition, legacy case 2 represents a case where the nonstandard specification device (d) 250 interworking and interconnection in the network domain 290 via the GIP of the M2M gateway.

In addition, according to legacy case 3, the nonstandard specification device (d) 250 may interworking and interconnection in the network domain 290 through the DIP of the M2M device D. [

In summary, according to the document "M2M Functional Architecture (TS 102 690)" of the ETSI TC M2M, GIP / DIP is defined as performing interworking function between non-standard terminal and GSCL / DSCL.

The gateway interworking proxy capability (GIP capability) or the device interworking proxy capability (DIP capability) is an additional optional capability of the Gateway Service Capability Layer (GSCL) or the Device Service Capability Layer (DSCL), which is employed only when required by policy. And interworking between GSCL or DSCL. However, other interworking methods may be applied according to the characteristics of the existing legacy terminal, and there may be a limitation in the interworking function provided according to the characteristics of the M2M device or the gateway.

In addition, the ETSI TC M2M's "Interworking between the M2M Architecture and M2M Area Network technologies (TR 102 966)" document states that an Interworking Proxy Unit (IPU), such as GIP / DIP / NIP, discovers the M2M area network architecture. In addition, the ETSI M2M service capability layer generates an ETSI M2M resource structure representing an M2M area network, and performs a function of managing the ETSI M2M resource structure when the structure of the M2M area network is changed.

That is, the interworking proxy module IPU (GIP / DIP / NIP) discovers the M2M area network structure and generates a resource structure that can express it with the ETSI M2M SCL. And when the M2M area network structure is changed, the ETSI M2M resource has a function to manage this to reflect this.

In other words, GIP / DIP acts as a device application that makes resources of ETSI M2M through common conversion rules for non-standard terminals using M2M area network.

However, this is applicable only when the non-standard terminal can apply a common conversion rule provided by the M2M standard according to the standardized area network, that is, the terminal using the standard profile of the M2M area network such as Bluetooth.

In the case of a legacy terminal that uses a private profile that does not use a standardized area network or that cannot use a common conversion rule according to a standardized area network, even a non-standard terminal that uses a standardized area network is standardized in common. Since the conversion rule is not applicable, the GIP / DIP cannot provide the functions described above.

Here, the profile defines how to use the protocol stack for each M2M area network application. For example, in the case of Bluetooth, a serial port profile emulating a serial cable connection and a three-in-one phone (3) There are more than 30 profiles, including the Intercom Profile for implementing intercom, which is a function of -in-1 Phone, and the Headset Profile for implementing a headset that connects a personal computer (PC) or a mobile phone wirelessly. have.

Non-standard legacy terminals using private profiles other than these standard profiles cannot be accepted in GIP / DIP because general conversion rules cannot be applied.

The above-mentioned TR 102 690 document states that different interworking methods may be needed depending on the characteristics of non-standard terminals, and the TR 102 966 document points out that separate M2M applications may be required for each area network or for legacy terminals. .

In addition, since the GIP / DIP is an optional function in the ETSI TC M2M standard, the gateway (G) / terminal (D) that does not provide the GIP / DIP function may be connected to each terminal app of the non-standard legacy terminals. Device Applications) should be installed to enable interworking with these terminals.

Therefore, a gateway manufactured to provide a universal service for interworking communication devices of various standards should provide interworking services even if any non-standard legacy terminals are connected. Therefore, terminal applications (DAs) of all non-standard standard legacy terminals should be loaded. Can happen.

Therefore, according to the present invention, non-standard terminals that cannot be accommodated in the GIP / DIP can be effectively accommodated in the gateway G or the terminal D for various reasons such as using individual profiles.

In addition, according to the present invention, the gateway G or the terminal D which does not provide the GIP.DIP function may effectively accommodate the non-standard terminal to provide a network interworking service.

More specifically, according to the present invention, when the legacy terminal is connected to the gateway (G) or the terminal (D), it automatically plugs and downloads a device application (DA) installation file for the corresponding model in real time. Plug & Play can effectively accommodate legacy terminals using individual profile interfaces.

3 is a diagram illustrating a configuration of a legacy terminal, a gateway (G) / terminal (D) and servers according to an embodiment of the present invention.

Referring to the drawings, the legacy terminals d1 to d4 340 to 370 connect to the gateway G or the terminal D 400 through respective area networks.

The legacy terminals d1 340 and d2 350 communicate according to the standard communication of Bluetooth, and the legacy terminals d3 360 and d4 370 communicate according to the standard communication of Zigbee.

The legacy terminals d1 340 to d4 350 communicate with the gateway (G) / terminal (D) 400 through a standard area network, and apply a standard profile to which a common conversion rate provided by the M2M standard can be applied. In addition to performing communication through the M2M standard, communication is performed through a private profile that is not applicable to common conversion rules by an interlocking proxy module such as GIP / DIP / NIP provided by the M2M standard or provided by the M2M standard. The present invention can be applied to a case in which GIP / DIP is not installed in the gateway G / terminal D even when communication is performed through a standard profile to which a common conversion rate can be applied.

The gateway (G) / terminal (D) 400 includes a device app management module 410 and a service capability layer module (G / DSCL) 470.

The device app management module 410 is a module for managing an app of a device connected to the gateway G or the terminal D to provide an interworking function with the corresponding device. For example, a Do It Yourself (DIY) agent A device manager 411, an agent client 412, a device application manager 413, and a memory 414 are referred to as clients. Include.

The device manager 411 periodically searches for a device paired with the gateway (G) / terminal (D) and inquires a device identifier (Device ID), and the DA manager 413 downloads and installs a device application. It manages the information about the installed device application. The agent client unit 412 communicates with each element of the device app management module 410 to collect information (device app information) about the legacy terminal 340 and a corresponding device application, and the device app information management server ( Communication with the 310 is performed to collect information about the device application.

The device app information management server is called, for example, a DIY agent server, and includes an agent server 311 and a DA information management unit 313.

The agent server 311 communicates with the agent client unit 412 of the device app management module 410 of the gateway G / terminal D and provides information about the device application.

The DA information management unit 313 adds / deletes / views / changes device application identifiers (IDs), device application versions, and location information (URIs) of device application installation files for various device IDs. do.

The DA installation file management server 320 is a download server that manages device application (DA) installation files for each device identifier (Device ID).

The M2M server platform corresponds to the network service capability layer (NSCL) of the ETSI TC M2M standard and is a platform that interworks with the service capability layer (G / DSCL) 470 of the gateway (G) / terminal (D).

4 is a view for explaining a legacy terminal app management method according to an embodiment of the present invention.

First, a pairing monitoring process (S500) for the legacy device will be described.

The device app management module 410 of the gateway / terminal 400 according to the present invention requests a list of legacy terminals periodically paired through the device manager 411 (S510).

The legacy terminal 340 is paired with the M2M gateway (G) / terminal (D) 400 using, for example, an area network protocol such as Bluetooth or Zigbee (S520).

Accordingly, the device manager 411 receives a pairing terminal list including information on the newly paired legacy terminal 340, and changes the stored pairing terminal list to notify the agent client unit 412 (S530).

When a newly paired terminal is added and changed in the stored pairing terminal list, the agent client unit 412 of the device app management module 410 sends the device ID information of the corresponding legacy terminal to the device manager 411. Obtain by request through (S540).

Here, the device identification information is information for identifying a terminal app (DA) used by the legacy terminal 340 as a model ID, a MAC address (Media Access Control Address), or serial number of the legacy terminal 340. Terminal device unique number, such as this corresponds.

Hereinafter, a process of obtaining device app installation file location information (S600) will be described in detail.

The device app installation file location information acquisition process is performed by first checking whether a device app version corresponding to the device identification information is installed during the device app installation and driving process to be described below (S720), and the corresponding device app version is installed. It can also be implemented to run if it is not there. However, in this case, whenever there is a change such as the installation or updating of the device app, the memory 414 of the device app management module 410 corresponds to the device identification information to provide information about the device app and information on whether to install the device app. Must be saved.

Meanwhile, the agent client unit 412 of the device app management module 410 that acquires device identification information of the newly paired legacy terminal 340 identifies the device of the legacy terminal 340 to the device app information management server 310. The device transmits information and requests device app information on the corresponding legacy terminal 340 (S610).

The agent server 311 of the device app information management server 310 that receives the device identification information and requests the device app information requests the device app information on the device identification information from the device app (DA) information manager 313. (S620).

Accordingly, the DA information management unit 313 inquires DA information corresponding to the device identification information received from the storage unit 315 (S630).

The device app information refers to all information necessary for obtaining a device app, such as a device app identifier (DA ID), DA location information, and DA version information used by a legacy terminal having a device ID, and stored in correspondence with each device identification information. Stored in section 315.

The device app information management unit 313 transmits the read corresponding device app information to the agent client 412 of the gateway G / terminal D through the agent server 311 (S640 and S650).

Hereinafter, the device application installation and driving process (S700) will be described.

The agent client 412 that receives the device app information requests the device application manager 413 to install the device app (S710).

The device app manager 413 checks the memory 414 and checks whether the device app of the DA version corresponding to the device app information, for example, the device app identifier, is installed (S720). The device app is driven (S750). In this case, the memory 414 stores a device app installation history by configuring, for example, a list of whether the corresponding device app is installed in a one-to-one correspondence with device app information such as a device app identifier and device app version information.

However, if the corresponding device app is not installed, the device app manager 413 requests and receives the corresponding device app using the corresponding device app information from the device app installation file management server 320 (S730 and S740), and the downloaded device. Install and drive the app (S750).

When the device app is installed, the device app manager 413 stores the installation details of the device app in the memory 414 in response to the corresponding device app information.

 The terminal app DA installed as described above is registered with the G / DSCL 47 according to the ETSI TC M2M standard procedure and the M2M such as communication with the M2M server platform 330 in the legacy terminal 340 according to the M2M procedure. To provide services.

In the above description, the method for interworking with the device according to the embodiment of the present invention has been described as being performed by the procedure described with reference to FIGS. 3 to 4, but this is for convenience of description only and does not depart from the essential concept of the present invention. Within the implementation method, the execution procedure of each step may be changed, two or more steps may be integrated, or one step may be performed in two or more steps.

As described above, in the conventional method using a common module of GIP / DIP to interwork legacy terminals connected to the M2M area network, a common conversion rule provided by the M2M standard even in a non-standard area network or a standard area network. Not applicable to individual profile legacy terminal that can not be applied. In addition, the M2M gateway or terminal that does not have a GIP / DIP has a problem that must be equipped with all the terminal app (DA) corresponding to the non-standard legacy terminal in order to interface with the non-standard legacy terminal.

In order to solve this problem, the present invention proposed an automatic Plug & Play method of a legacy terminal through real-time terminal app download, and the method proposed in the present invention automatically generates a terminal application (Device Application) for a corresponding model when the legacy terminal is connected. It can be downloaded, installed, and driven, effectively accommodating legacy terminals into an M2M network.

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 variations 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.

400: gateway / device 410: device app management module

Claims (14)

An M2M object according to the M2M standard, comprising: obtaining device identification information of the terminal when the terminal is connected;
Acquiring device application information corresponding to the device identification information through a device application information management server;
Determining whether a device application corresponding to the device application information is installed in the M2M object; And
Acquiring a device application corresponding to the device identification information from a device installation file management server when the device application corresponding to the device identification information is not installed.
The method of claim 1,
And installing the obtained device application in an M2M object according to the M2M standard to provide an M2M service for the terminal.
3. The method of claim 2,
And storing information on whether to install the device application corresponding to the device application information.
The method of claim 3, wherein
The device application information includes a device application identifier and device application version information corresponding to the device identification information, and whether or not the device application is installed is stored in a one-to-one correspondence with the device identification information. .
3. The method of claim 2,
And the device identification information is at least one of a model ID, a MAC address, and a terminal unique number of the terminal.
3. The method of claim 2,
The device application information may include at least one of a device application identifier, a device application version, and location information of a device application installation file.
The method of claim 1,
In the device identification information acquisition step, the terminal interworking method of the M2M network, characterized in that requesting a list of the paired terminal periodically.
An M2M object according to the M2M standard, comprising: a device manager for obtaining device identification information of the terminal when the terminal is connected;
An agent client obtaining device application information corresponding to the device identification information through a device application information management server; And
A device application that determines whether a device application corresponding to the device application information is installed in the M2M object, and obtains a device application corresponding to the device identification information from a device installation file management server when the device application is not installed. M2M object comprising a management unit.
The method of claim 8,
The device application manager, installs the obtained device application to the M2M object to provide an M2M service for the terminal in a service capability layer.
The method of claim 9,
And a memory for storing information on whether the device application corresponding to the device application information is installed.
11. The method of claim 10,
The device application information may include a device application identifier and device application version information corresponding to the device identification information, and whether the device application is installed is stored in a one-to-one correspondence with the device identification information.
The method of claim 9,
The device identification information M2M object, characterized in that at least one of the model ID, MAC address and terminal unique number of the terminal.
The method of claim 9,
The device application information M2M object, characterized in that it comprises at least one of a device application identifier, a device application version, the location information of the device application installation file.
The method of claim 8,
The device manager, M2M object, characterized in that requesting a list of the terminal periodically paired.

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