KR100641831B1 - System and method of oma device management for dynamic node management - Google Patents

Abstract

A system and a method for managing an OMA(Open Mobile Alliance) device for a dynamic node management are provided to obtain a small amount of packets and high response speed by allowing a DM(Device Management) server to update a DM client, and maximize the efficiency of DM. A DM server(10) communicates with a DM client(20) through a certain protocol, transfers a DM command to the DM client(20), receives a corresponding response, and manages a DM. A DM agent(30) is installed in the DM client(20) that processes a command requested by the DM server(10) and responds to the command. An OMA DM engine module(32) performs a processing command requested by the DM server(10). A sub-module(34) communicates with the engine module(32) through a network protocol, and defines to connect a function with respect to a dynamic node to a device or a terminal.

Description

System and method of OMA device management for dynamic node management

1 is a configuration diagram of a DM agent of a conventional device management system.

2 is a block diagram of a DM agent in a device management system according to the present invention.

3 is a diagram illustrating a protocol stack configuration of a DM agent in a device management system according to the present invention.

4 is a flowchart illustrating a case in which the device management server inquires information on the device management client in the device management system according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: device management server 20: device management client

      30: OMA DM Agent 32: Device Management Engine Module

      34: submodule

The present invention relates to an OMA device management system and method for dynamic node management. The present invention relates to a dynamic node management system of an OMA (DM) device management (DM) client system. An OMA device management system and method for dynamic node management configured by separating a module from an OMA DM engine.

In general, device management technology is a technology that allows a third party to change the configuration of a device by remotely controlling a value of a variable or an object stored in a particular device in an effective manner.

The device management technology is being developed as an international standard based on SyncML Data Synchronization written by the SyncML Initiative (Sychronization Markup Language) Forum by the Open Mobile Alliance (OMA), and is already being developed for other standardization organizations and operators worldwide. It is accepted as the management technology standard.

The OMA device management technology is a standard that supports the most diverse functions compared to other device management technologies. The device management protocol standard, the device management document presentation standard, the standard for binding between transport protocols, device management tree and A standard relating to a device management node, a standard relating to a device description framework (DDF), a standard relating to a notification, and the like.

Currently, the OMA device management (DM) client consists of processing commands and responding to requests from the server.

In addition, the OMA DM client performs two-way authentication with the server before processing a command requested by the server.

Currently, as a DM client, it is spreading from home gateways and set-top boxes to digital home appliances such as refrigerators, TVs, and lights.

The OMA DM client performs a predetermined function when it is normally run on the mobile device.

The defined function is defined as MO (Management Object) and it is managed by the client in the tree.

For example, you can get the serial number of the device, change the user name, and so on.

The username is the data of a static tree node, but the device serial number is the dynamic information, and device information must be collected.

If you want to add a new function to collect dynamic information that should be applied from the device in addition to static node information, you need to change the DM client.

1 is a configuration diagram of a DM agent of a conventional device management system.

In FIG. 1, the DM agent 30 installed in the device 20 needs to obtain or store information in order to manage the device 20. These functions are all present in the DM agent 30, and corresponding functions are Function1 and Function2. , ...

The prior art shown in Figure 1 modifies the DM client by adding node processing to the code of the DM client when the user adds a new dynamic node to manage the device 20 in the server 10. After recompiling and creating a new image, a DM client module needs to be transmitted and updated to a device 20 such as a mobile device, causing a lot of inconvenience.

The present invention has been made to solve the above problems, with respect to the environment file for adding the connection, configuration and dynamic node between the engine module and the server module to the device management agent for the dynamic node management function of the OMA DM client system OMA device management system and method for dynamic node management that can add, change, delete, and execute equipment-related managed objects by adding and changing environment file and submodule of device management client only when dynamic node needs to be added It is to provide.

The OMA device management system for dynamic node management according to the present invention for achieving the above object, and communicates with the device management client through a predetermined protocol, and transmits a management command to the device management client and responds to it. OMA DM engine that is installed in the device management server that receives and performs device management, and the device management client that processes and responds to commands requested by the device management server, and performs the processing commands requested by the device management server. And a device management agent communicating with the engine module through a network protocol and having one or more submodules for defining a function for the dynamic node to be connected to a device or a terminal as the management of the dynamic node.

In addition, in the OMA device management system for dynamic node management according to the present invention, the network protocol for communication between the engine module and the submodule is selected from TCP / IP, UDP / IP, RS232, HTTP will be.

 In addition, in the OMA device management system for dynamic node management according to the present invention, the engine module includes a SyncML unit for communicating with the OMA DM client engine and the device management server, the sub-module and the engine module communicate with each other The TCP / IP unit or the UDP / IP unit or the HTTP unit or the RS232 unit may be included, and the submodule may include a dynamic management object management module.

On the other hand, OMA device management method for dynamic node management according to the present invention, the step of requesting the management command and device information from the device management server to the lower device management client, the engine module of the device management client retrieves the device management tree information Reading the submodule information of the corresponding dynamic node, determining an available communication protocol, and establishing a network connection to request management commands and device commands of the device management server, wherein the submodule obtains information and manages the device management client engine module. And transmitting the information to the server, and the device management client engine module transmitting the management information of the dynamic node received from the submodule to the server.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a DM agent in a device management system according to the present invention.

As shown in FIG. 2, the OMA device management system for dynamic node management according to the present invention includes an OMA DM engine module 32 and a submodule of an OMA DM server (DMS) 10 and a device 20 that is a device management client. And a device management client agent 30 that includes 34.

The DMS (DM Server) 10 communicates with the device management client 20 through a predetermined protocol, transmits a management command to the device management client 20, receives a response thereto, and performs device management.

The device management client 20 is a DMC (DM Client) in addition to the basic functions of performing a mutually satisfied function with the DMS (DM Server, 10), in addition to the OS area and other applications managed by the DMC (DM Client, 20) After the DMC (DM Client) agent 30 is installed, the result is configured to dynamically manage and add MO (Management Objects) to the OMA DM tree.

The device management agent 30 communicates with the OMA DM engine module 32 performing a processing command requested by the device management server 10 and the engine module 32 through a network protocol, As management, it includes one or more submodules 34 that define the functionality for the dynamic node to be connected to the apparatus or device 20.

In order to add a connection, configuration, and dynamic node between the engine module 32 and the server module 34, a configuration file is associated.

In particular, when it is necessary to add a dynamic node, the user can add or change only the configuration file of the DMC (DM Clent, 20) and the corresponding submodule 34, so that the management object (MO: Management Object) can be added, changed, deleted, and executed.

DMC (DM Client) 20 is a part of the engine module 32 that performs the function of OMA DM, one of which manages a dynamic node that operates in conjunction with a tree module and a device that can interoperate with applications other than DM, or It may consist of several submodules.

The engine module 32 and the submodule 34 communicate using network protocols (TCP / IP, UDP / IP, RS232, HTTP, etc.) available in the terminal, and the management node and the engine module of the submodule 34. (32) The managed object list with the part is managed by the configuration file.

In order for DMS (DM Server, 10) to add a new node to DMC (DM Client, 20), DMC (DM Client, 20) is running and DMC according to the specification defined by OMA DM by referring to configuration file. The DM Client 20 creates a Management Tree, adds a new node by registering a predetermined API as an external node registration function, and adds a new node, and a corresponding submodule 34 for a dynamically added node. And the device 20 communicate with each other using the available network protocol to define the function of this node to be connected to the device.

For example, the addition of such a dynamic node is the same as the case where a new node is added to manage information on the CPU usage of the terminal.

In addition, in the present invention, since the submodule 34 can be configured with one or several, in the case of automatically updating the DMC (DM Client, 20) in the DMS (DM Server, 10), a small packet amount and a high response rate can be achieved. Have

3 is a diagram illustrating a protocol stack configuration of a DM agent in a device management system according to the present invention.

Referring to FIG. 3, the DMS (DM Server) 10 and the DMC (DM Client, 20) perform OMA DM communication, and the engine module 32 and the submodule 34 of the DMC (DM Client) 20 are determined. Communicates using a network protocol available in a terminal device with an application protocol.

The engine module 32 includes a SyncML unit for communicating with an OMA DM Client Engine and the device management server 10, and the submodule 34 and the engine module 32 communicate with each other. A TCP / IP unit or a UDP / IP unit or an HTTP unit and an RS232 unit are included, and the submodule 34 includes a Dynamic MO Management Sub Module.

The port used by the submodule 34 informs the DM client engine module 32 of the port number when the submodule 34 is executed.

Since the engine module 32 of the DMC (DM Client) 20 stores and manages the port and connection information of the corresponding submodule 34 in a node of the DM tree, the DMC (DM Client) 20 has several submodules 34. It manages the information of each, and each submodule 34 can be configured as a module for each special purpose, the content of these functions are described in the configuration file (Configuration file) will be managed.

For example, a function for obtaining a serial number of a device terminal may be classified as a sub module A, and a function for managing a user name of the terminal device may be classified as a B sub module.

Here, when the DMS (DM Server) 10 adds, changes, deletes, or executes a specific node (dynamic node), the DMC (DM Client) 20 reads the information of the node from the DM tree and communicates with the submodules to communicate with the DMS ( DM Server, 10) can maximize the management of the terminal device by controlling the dynamic node by performing the desired device management command.

4 is a flowchart illustrating a case in which the device management server inquires information on the device management client in the device management system according to the present invention.

Referring now to Fig. 4, a flowchart of a method for managing a dynamic node through an OMA device management client according to the present invention will be described.

First, as a step of requesting information of a terminal, which is a device, in the DM server 10, the DMS (DM Server) 10 requests management commands and device information from the lower DMC (DM client, 20) (step ①).

Second, as a step of requesting information from the DM client engine module 30 to the submodule 34, the DMC (DM Client) engine retrieves the DM tree information and reads the submodule 34 information of the corresponding dynamic node. A communication protocol available with the module 34 is determined and a network connection is established to request management commands and device information of the DMS (DM Server) 10 (step ②).

Third, as a step of transmitting information from the submodule 34 to the client engine module 32, the submodule 34 obtains information and transmits the information to the DMC (DM Client) engine module 32. (Step ③).

Fourth, in the step of transmitting information from the DM agent 30 to the DMS 10, the DMC (DM Client) engine module 32 transmits the management information of the dynamic node received from the submodule 34 to the device management server ( 10) (step ④).

As described above, according to the OMA device management system and method for dynamic node management according to the present invention, when the device management client updates the device management server in the management of the dynamic node can have a small packet amount and high response rate In addition, there is an advantage that can maximize the efficiency of device management.

Although the present invention has been described in detail only in the specific embodiments described, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

Claims (4)

A device management server which communicates with a device management client through a predetermined protocol, transmits a management command to the device management client, receives a response thereto, and performs device management; And The OMA DM engine module is installed in a device management client that processes a command requested by the device management server and responds thereto, and communicates with the engine module through a network protocol with an OMA DM engine module performing a processing command requested by the device management server. And a device management agent having at least one submodule that defines a function of the dynamic node to be connected to a device or a terminal as a management of the dynamic node. The method of claim 1, The network protocol for communicating between the engine module and the submodule is selected from TCP / IP, UDP / IP, RS232, HTTP OMA device management system for dynamic node management. The method of claim 1, The engine module includes a SyncML unit for communicating with an OMA DM client engine and the device management server, and the sub module and the engine module include a TCP / IP unit or a UDP / IP unit or an HTTP unit or an RS232 unit for communicating with each other. And the submodule includes a dynamic management object management module. Requesting a management command and device information from a device management server to a lower device management client; The engine module of the device management client retrieves device management tree information, reads submodule information of a corresponding dynamic node, sets available communication protocols, and establishes a network connection to request management commands and device commands of the device management server. ; Acquiring the information and transmitting the information to the device management client engine module; And The device management client engine module comprises the step of transmitting the management information of the dynamic node received from the submodule to the server OMA device management method for dynamic node management.

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