KR101340323B1 - System and method for approaching the distributed data - Google Patents

Abstract

The present invention discloses a distributed oriented data access system and a method of operating the same. That is, at least one operating device operating each legacy system is registered as a slave device to configure a domain for processing the first process, and additional data is collected from the slave devices configuring the corresponding domain according to the first process. A first operating device; And registering at least one operating device operating each legacy system as a slave device to configure a domain for processing the second process, and collecting additional data from the slave devices configuring the corresponding domain according to the second process. And at least one of the slave devices registered in the first operating device, the second operating device registered in the slave device in the second operating device, to receive additional data corresponding to the first process and the second process. By providing each, it is possible not only to process one purpose but also to perform multiple purposes.

Description

Distributed-Oriented Data Access System and Its Method {SYSTEM AND METHOD FOR APPROACHING THE DISTRIBUTED DATA}

The present invention relates to a distributed data interoperability scheme, and more particularly, to form a plurality of domains (processes) for processing individual processes by applying an interworking configuration between operating devices operating a legacy system, and between domains The present invention relates to a distributed-oriented data access system and a method for enabling domain-specific access to distributed data operated on the basis of the specific operating device by configuring a domain to share a specific operating device.

An agent is a software agent, which is a kind of computer program, and is defined as a system that is an autonomous process that performs work on behalf of a user for a specific purpose, and has the ability to cooperate with other agents or users to perform work. .

The software agent has various characteristics according to the purpose. For example, the software agent grasps the intention of the user through autonomy, knowledge base, and reasoning ability to judge and act on their own without direct instruction or interference by the user or other agents. Intelligence to learn new knowledge through planning and learning, and to carry out the work required by the user to the host that actually handles the work instead of the current host. Mobility results in a reduction, and sociality that relies on the exchange of messages between agents when they need the help of other agents to perform tasks that one agent cannot handle. Reactivity and giving the wrong information Does not have the characteristics such as accuracy (Veracity), there are agents.

Furthermore, based on the above characteristics, the software agent forms a cooperative relationship for processing a task with the help of a plurality of agents or applications in order to perform a specific task using distributed data that is autonomously and independently operated in a legacy system. Representatively, the Multi-Agent Framework (MAF) is adopted.

The multi-agent is an agent that forms a cooperative relationship for processing a task with the help of a plurality of agents or applications in order to perform a specific task. How to configure, how to exchange messages between agents should be provided.

In this regard, the multi-agent infrastructure mainly consists of a centralized structure that uses a coordinating agent to exchange messages. However, a centralized structure differs from one agent platform to perform a task for a specific purpose. While forming a domain composed of a number of agents, there is a problem that autonomy and independence, which are characteristics of an agent system, can be excluded because a task must be performed in one domain.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to register one or more operating devices in which the first operating device operates each legacy system as a slave device to process the first process. After configuring the domain for the first process, and the second operating device registers at least one operating device for operating each legacy system as a slave device to configure a domain for processing the first process, the first operating device is processing the first process Request additional data to each slave device constituting the corresponding domain according to the first operation, and when the second operating device requests additional data to each slave device constituting the corresponding domain according to a second process process, the first operation Slave devices registered in the device and the second operating device, respectively, are subjected to the first process and the second process. In response to the additional data, at least one slave device registered at the same time to the first operating device and the second operating device, distributed-oriented data for providing additional data corresponding to the first process and the second process processing for each domain By providing an access system and a method thereof, it is possible to enable domain-specific access to distributed data managed based on a specific operating device.

Another object of the present invention is to register one or more operating devices that operate each legacy system as a slave device to configure a domain for processing a specific process, and to configure the domain in response to the specific process processing. A domain for distributed data operated based on a specific operating device by providing an operating device for identifying each slave device and acquiring additional data according to the specific process processing for the identified slave device, and a method of operating the same. To make it accessible.

Another object of the present invention is to register as a slave device to one or more operating devices operating as a master device, to configure each domain for processing individual processes, each master according to the process processing for each domain By receiving a request for additional data from the device, and providing an operating device and a method of operation for providing additional data by classifying the master device for each domain according to the additional data request, the distributed data that is operated based on a specific operating device It is to enable access by domain.

In order to achieve the above object, the distributed-oriented data access system according to the first aspect of the present invention may include registering one or more operating devices that operate each legacy system as a slave device to configure a domain for processing the first process, A first operating device collecting additional data from slave devices configuring a corresponding domain according to the first process process; And registering at least one operating device operating each legacy system as a slave device to configure a domain for processing the second process, and collecting additional data from the slave devices configuring the corresponding domain according to the second process. And at least one of the slave devices registered in the first operating device, the second operating device registered in the slave device in the second operating device, to receive additional data corresponding to the first process and the second process. It is characterized by providing for each domain.

Preferably, the first operating device is registered with the second operating device as a slave device, and provides additional data according to the second process process to the second operating device.

Preferably, the second operating device is registered with the first operating device as a slave device, and provides additional data according to the first process process to the first operating device.

Preferably, at least one of the first operating device and the second operating device is registered as a slave device in a third operating device constituting a domain to process the third process, and additional data according to the third process processing is performed. It characterized in that for providing to the third operating device.

An operation apparatus according to a second aspect of the present invention for achieving the above object, the operation management unit for configuring a domain for processing a specific process by registering one or more operating devices for operating each legacy system as a slave device; And an operation processing unit for identifying each slave device constituting the domain in response to the specific process processing and acquiring additional data according to the specific process processing for the identified slave device.

Preferably, the operation management unit is configured to register the at least one operating device previously registered as a slave device in another domain as a slave device to configure the domain.

Preferably, the operation processing unit is registered as a slave device in one or more operating devices operating as a master device to configure each domain, and providing additional data corresponding to the process processing for each domain to each master device. It features.

An operating apparatus according to a third aspect of the present invention for achieving the above object is an operation processing unit that is registered as a slave device to one or more operating devices operating as a master device, constituting each domain for processing individual processes; And a data management unit configured to receive an additional data request from each master device according to the process for each domain, and provide additional data by classifying the master device for each domain according to the additional data request.

The distributed-oriented data access method according to the fourth aspect of the present invention for achieving the above object, the first operating device for processing the first process by registering one or more operating devices operating each legacy system as a slave device; A domain configuration step of configuring a domain, wherein the second operating apparatus registers one or more operating apparatuses operating each legacy system as a slave apparatus to configure a domain for processing the first process; The first operating device requests additional data from each slave device constituting the corresponding domain according to the first process, and the second operating device requests each slave device constituting the corresponding domain according to the second process. An additional data request step of requesting additional data; And an additional data providing step of providing slave data to the slave device registered in the first operating device and the second operating device, respectively, in response to the first process and the second process. And at least one slave device registered to the first and second operating devices simultaneously provides additional data corresponding to the first process and the second process for each domain.

Preferably, the domain configuration step is characterized in that the first operating device is registered as a slave device in the second operating device, to configure a domain for processing the second process.

Preferably, the domain configuration step is characterized in that the second operating device is registered with the first operating device as a slave device to configure a domain for processing the first process.

Preferably, in the domain configuring step, at least one of the first operating device and the second operating device is registered as a slave device in a third operating device to configure a domain for processing a third process. .

A method of operating an operating device according to a fifth aspect of the present invention for achieving the above object includes a domain configuration for configuring a domain for processing a specific process by registering one or more operating devices for operating each legacy system as a slave device. step; A connection object confirmation step of confirming each slave device constituting the domain in response to the specific process processing; And a data acquisition step of acquiring additional data according to the specific process processing for the identified slave device.

Preferably, the domain configuration step is characterized in that the domain is configured by registering at least one operating device which is previously registered as a slave device in another domain as a slave device.

Preferably, the method comprises: a domain registration step of registering each slave domain with at least one operating device operating as a master device to configure each domain; And a data providing step of providing additional data to each master device according to the process for each domain.

A method of operating an operating device according to a sixth aspect of the present invention for achieving the above object is a domain that is registered as one or more slave devices to one or more operating devices that operate as a master device and constitutes each domain for processing an individual process. Registration step; A data request reception step of receiving an additional data request from each master device according to the process for each domain; And a data providing step of classifying the master device for each domain according to the additional data request and providing additional data.

Advantageously, the method comprises: a domain configuration step of registering at least one operating device for operating each legacy system as a slave device to configure a domain for processing a specific process; And a data acquisition step of acquiring additional data from each slave device constituting the domain in response to the specific process processing.

The computer-readable recording medium according to the seventh aspect of the present invention for achieving the above object, the domain configuration for configuring a domain for processing a specific process by registering one or more operating devices for operating each legacy system as a slave device step; A connection object confirmation step of confirming each slave device constituting the domain in response to the specific process processing; And a command for executing a data acquisition step of acquiring additional data according to the specific process processing for the identified slave device.

Preferably, the domain configuration step is characterized in that the domain is configured by registering at least one operating device which is previously registered as a slave device in another domain as a slave device.

Preferably, the recording medium, the domain registration step of registering each of the domains to be registered as a slave device to one or more operating devices operating as a master device; And a command for executing a data providing step of providing additional data to each master device according to the process for each domain.

A computer readable recording medium according to an eighth aspect of the present invention for achieving the above object is a domain that is registered as a slave device in one or more operating devices that operate as a master device, constituting each domain for processing an individual process. Registration step; A data request reception step of receiving an additional data request from each master device according to the process for each domain; And a command for executing a data providing step of classifying the master device for each domain and providing additional data according to the additional data request.

Preferably, the recording medium, domain configuration step of configuring a domain for processing a specific process by registering at least one operating device for operating each legacy system as a slave device; And an instruction for executing a data acquisition step of acquiring additional data from each slave device configuring the domain in response to the specific process processing.

Accordingly, according to the distributed-oriented data access system and the method according to the present invention, by applying the interworking configuration between the operating device operating the legacy system to form a plurality of domain (Process) to process individual processes, It is possible to carry out multiple objectives as well as to process objectives.

In addition, by configuring a domain so that specific operating systems can be shared among domains, domain-specific access to distributed data managed based on the specific operating device becomes possible, thereby establishing a base cost for distributed data interoperability. It can reduce costs and ensure maximum autonomy and independence of legacy systems.

1 is a schematic structural diagram of a distributed-oriented data access system according to an embodiment of the present invention.
2 is a schematic configuration diagram of a first operating device according to an embodiment of the present invention;
3 is a schematic configuration diagram of a second operating device according to an embodiment of the present invention;
4 is a schematic flowchart illustrating a method of operating a distributed-oriented data access system according to an embodiment of the present invention.
5 is a schematic flowchart illustrating a method of operating a first operating device according to an embodiment of the present invention.
6 is a schematic flowchart illustrating a method of operating a second operating device according to an embodiment of the present invention.

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

1 is a schematic structural diagram of a distributed-oriented data access system according to an embodiment of the present invention.

As shown in FIG. 1, the system configures a domain for processing a specific process by registering one or more operating devices that operate each legacy system as a slave device, and configures the domain according to the specific process processing. A first operating device (100) for collecting additional data from each operating device; And a second operating device 200 registered in at least one of the first operating devices 100 operating as a master device to configure each domain, and providing additional data in response to specific process processing for each domain. Has a configuration.

Here, the operating device refers to a server operating each legacy system, and is equipped with an agent for processing a process requested by a user, and an agent platform for interworking processing between a plurality of agents. (Agent Platform) is mounted on each of them to play the role of master device and slave device at the same time.

In the following description, it is assumed that the operating device that performs the role of the master device according to the activation of the mounted agent platform is described as the first operating device 100, and performs the role of the slave device according to the deactivation of the mounted agent platform. The operation device is assumed to be a second operation device 200 and will be described.

The first operating device 100 registers a plurality of second operating devices 200 to configure a domain for processing a specific process.

More specifically, the first operating device 200 operates as a master device according to activation of the mounted agent platform, thereby registering an access address (IP) of at least one second operating device 200 operating each legacy system. To configure a domain to handle a particular process. That is, the first operating device 100 corresponding to the 'server 1' registers the second operating device 200 corresponding to the 'server 2' as a slave device to configure the 'domain 1'. The first operating device 100 corresponding to '2' registers the second operating device 200 corresponding to 'Server 3' and 'Server 5' as a slave device to configure 'Domain 2', and also, 'Server 6'. The first operating device 100 corresponding to 'registers the second operating device 200 corresponding to the' server 1 'and the' server 5 'as a slave device to configure the' domain 3 '. Here, in the case of 'domain 3', as the first operating device 100 corresponding to 'server 6' operates as the master device, in the case of 'server 1' operating as the master device in 'domain 1', the second operation Act as device 200. Meanwhile, the first operating device 200 may configure a domain by registering an operating device constituting another domain as a slave device. That is, in the case of 'Server 1' operating as the first operating device 200 which is the master device in 'Domain 1', the second operating device 200 which is a slave device of 'Domain 3' is also configured. In the case of 'server 5' operating as the second operating device 200 which is a slave device at 2 ', it may be configured as the second operating device 200 which is a slave device at' domain 3 '.

In addition, the first operating apparatus 100 obtains additional data from each second operating apparatus 200 constituting the domain in response to a specific process process.

More specifically, the first operating apparatus 200 confirms the access address of each second operating apparatus 200 constituting the domain in response to a specific process, and based on the confirmed access address, the second operating apparatus ( 200, additional data according to the specific process processing is obtained. That is, the first operating device 100 corresponding to 'Server 1' in 'Domain 1' receives additional data according to a specific process from the second operating device 200 corresponding to 'Server 2' registered as a slave device. In addition, the first operating device 100 corresponding to the 'server 4' in the 'domain 2' is obtained from the second operating device 200 corresponding to the 'server 3' and the 'server 5' registered as slave devices. Acquiring additional data according to a specific process, and in addition, the first operating device 100 corresponding to 'Server 6' in 'Domain 3' corresponds to 'Server 1' and 'Server 5' registered as slave devices. Additional data according to a specific process is obtained from the second operating device 200.

The second operating device 200 is registered in the first operating device 100 to form a domain for processing a specific process.

More specifically, the second operating device 200 is registered with at least one first operating device 100 operating as a master device to configure each domain for processing a specific process. That is, the second operating device 200 corresponding to 'server 2' is registered in the first operating device 100 corresponding to 'server 1' to configure 'domain 1', and the 'server 3' and 'server 5' 'The second operating device 200 is registered as a slave device in the first operating device 100 corresponding to' server 4 'to configure' domain 2 ', and also,' server 1 'and' server 5 '. The second operating device 200 corresponding to 'is registered as a slave device in the first operating device 100 corresponding to' Server 6 'to configure' domain 3 '.

In addition, the second operating device 200 provides additional data to the first operating device 100 operating as a master device.

More specifically, the second operating device 200 receives an additional data request from the first operating device 100 operating as each master device in response to specific process processing for each domain, and according to the additional data request The first operating device 100 is divided into domains to provide additional data. That is, according to the specific process processing in 'Domain 1', the second operating device 200 corresponding to 'Server 2' provides additional data to the first operating device 100 corresponding to 'Server 1'. According to the specific process processing in 'Domain 2', the second operating apparatus 200 corresponding to 'Server 3' and 'Server 5' may add additional data to the first operating apparatus 100 corresponding to 'Server 4'. In addition, according to the processing of the specific process in 'Domain 3', the second operating apparatus 200 corresponding to 'Server 1' and 'Server 5' may be the first operating apparatus 100 corresponding to 'Server 6'. To provide additional data.

Hereinafter, with reference to FIG. 2, the specific configuration of the first operating device 100 according to an embodiment of the present invention.

That is, the first operating device 100 may include: an operation management unit 110 that configures a domain for processing a specific process by registering one or more second operating devices that operate each legacy system as a slave device; And an operation processing unit 120 for acquiring additional data from each of the second operation apparatuses 200 constituting the domain in response to the specific process processing.

Here, the operation management unit 110 refers to an agent platform (Agent Platform) for interworking processing between agents installed in the server, Agent Communication Channel (ACC) serving as a message transfer of a plurality of agents, the name and access address of the agent It may include an ANS (Agent Name Server) for managing the AMS (Agent Management System) for managing the creation, deletion, and the like.

In addition, the operation processing unit 120 refers to an agent installed in a server to process a process required by a user, and is mounted on a corresponding server and access information of a DBMS (Data Base Management System) and DBMS managing its own additional data. Interworking with Embedded DB (Data Base) that manages

The operation management unit 110 registers a plurality of second operation apparatuses 200 to configure a domain for processing a specific process.

More specifically, the operation management unit 110 operates as a master device according to the activation of the mounted agent platform, so that the access address delivered from the agent mounted on at least one second operation device 200 operating each legacy system ( By registering the IP to the Agent Name Server (ANS) and notifying the Agent Management System (AMS), a domain for processing a specific process is configured.

The operation processing unit 120 obtains additional data from each second operation apparatus 200 constituting the domain in response to a specific process.

More specifically, the operation processing unit 120 obtains additional data according to the specific process processing from each of the second operating apparatuses 200 constituting the domain in response to the specific process processing. That is, the operation processing unit 120 confirms the access address of each second operation apparatus 200 constituting the domain according to a specific process processing request transmitted from the embedded DB (Data Base), and based on the confirmed access address In conjunction with the agent mounted on the second operating device 200, additional data according to the specific process is acquired. In addition, the operation processing unit 120 transmits the acquired additional data to the DBMS (Data Base Management System), and notifies the Agent Management System (AMS) that the process is completed.

Hereinafter, with reference to FIG. 3, a detailed configuration of the second operating device 200 according to an embodiment of the present invention.

That is, the second operation apparatus 200 may include an operation processing unit 210 registered with at least one first operation apparatus 100 operating as a master apparatus so that each domain for processing a specific process is configured; And a data management unit 220 extracting additional data to the first operation device 100 operating as each master device in response to the specific process processing for each domain and providing the same through the operation processing unit 210. Have

Here, the operation processing unit 210 refers to an agent installed in the server to process a process required by the user, the data management unit 220 is mounted on the server to manage its own additional data DBMS (Data Base Management) It has a configuration including an embedded DB (Data Base) for managing the access information of the system and DBMS (Data Base Management System).

On the other hand, the second operating device 200 is equipped with an Agent Platform (Agent Platform) for interworking processing between the agents installed in the server, as in the first operating device 100, but driven as a slave device, the agent platform is deactivated Will remain in the state.

The operation processing unit 210 is registered in the first operation apparatus 100 to configure a domain for processing a specific process.

More specifically, the operation processing unit 210 is registered in the at least one first operation device 100 that operates as a master device to configure each domain for processing a specific process.

The data management unit 220 provides additional data to the first operating device 100 operating as a master device.

More specifically, the data management unit 220 receives an additional data request from the first operation device 100 operating as each master device in response to a specific process processing for each domain through the operation processing unit 210, and the additional data. According to the request, each of the first operating apparatuses 100 may be classified by domain to provide additional data. That is, the embedded DB (Data Base) constituting the data management unit 220 delivers access information of a DBMS (Data Base Management System) that manages its own additional data according to a request of the operation processing unit 210, and transmits the access information. By extracting and transmitting additional data to the operation processing unit 210 connected to a DBMS (Data Base Management System) based on the extracted additional data, the extracted additional data is classified for each domain and provided to the first operation apparatus 100.

As described above, according to the distributed-oriented data access system according to the present invention, by applying the interworking configuration between the operating device operating the legacy system (Legacy) by forming a plurality of domains (Domain) to process individual processes, It is possible to carry out a multi-purpose process as well as a process to handle the purpose of the. In addition, by configuring a domain so that specific operating systems can be shared among domains, domain-specific access to distributed data managed based on the specific operating device becomes possible, thereby establishing a base cost for distributed data interoperability. It can reduce costs and ensure maximum autonomy and independence of legacy systems.

Hereinafter, a distributed-oriented data access method according to an embodiment of the present invention will be described with reference to FIGS. 4 to 6. Here, the above-described configuration shown in Figures 1 to 3 will be described by referring to the reference numerals for convenience of description.

First, a method of operating a distributed-oriented data access system according to an embodiment of the present invention will be described with reference to FIG. 4.

First, the first operating device 100 registers a plurality of second operating devices 200 to configure a domain for processing a specific process (S110-S130).

Preferably, the first operating device 200 registers an access address (IP) of at least one second operating device 200 operating each legacy system by operating as a master device according to activation of the mounted agent platform. To configure a domain to handle a particular process. That is, referring to FIG. 1, the first operating device 100 corresponding to 'server 1' registers the second operating device 200 corresponding to 'server 2' as a slave device to configure 'domain 1'. In addition, the first operating device 100 corresponding to 'server 4' registers the second operating device 200 corresponding to 'server 3' and 'server 5' as a slave device to configure 'domain 2'. In addition, the first operating device 100 corresponding to the 'server 6' registers the second operating device 200 corresponding to the 'server 1' and the 'server 5' as a slave device to configure the 'domain 3'. . Here, in the case of 'domain 3', as the first operating device 100 corresponding to 'server 6' operates as the master device, in the case of 'server 1' operating as the master device in 'domain 1', the second operation Act as device 200. Meanwhile, the first operating device 200 may configure a domain by registering an operating device constituting another domain as a slave device. That is, in the case of 'Server 1' operating as the first operating device 200 which is the master device in 'Domain 1', the second operating device 200 which is a slave device of 'Domain 3' is also configured. In the case of 'server 5' operating as the second operating device 200 which is a slave device at 2 ', it may be configured as the second operating device 200 which is a slave device at' domain 3 '.

Thereafter, the first operating apparatus 100 requests additional data from each second operating apparatus 200 constituting the domain in response to a specific process (S140-S160).

Preferably, the first operating apparatus 200 confirms the access address of each second operating apparatus 200 constituting the domain in response to a specific process, and based on the confirmed access address, the second operating apparatus ( 200, request additional data according to the specific process processing. That is, referring to FIG. 1, the first operating device 100 corresponding to the 'server 1' in the 'domain 1' may process a specific process from the second operating device 200 corresponding to the 'server 2' registered as the slave device. Request additional data, and the first operating device 100 corresponding to the 'server 4' in the 'domain 2' is the second operation corresponding to the 'server 3' and the 'server 5' registered as slave devices. Request additional data according to a specific process processing to the device 200, and the first operating device 100 corresponding to 'Server 6' in 'Domain 3' is a 'Server 1' and 'Server registered as a slave device The second operating device 200 corresponding to 5 'is requested to have additional data according to a specific process.

Thereafter, the second operating device 200 provides additional data to the first operating device 100 operating as a master device (S170-S190).

Preferably, the second operating device 200 receives an additional data request from the first operating device 100 operating as each master device in response to specific process processing for each domain, and according to the additional data request, The first operating device 100 is divided into domains to provide additional data. That is, referring to FIG. 1, according to a specific process processing in 'domain 1', the second operating apparatus 200 corresponding to 'server 2' may add additional data to the first operating apparatus 100 corresponding to 'server 1'. In addition, according to the specific process processing in 'Domain 2', the second operating device 200 corresponding to 'Server 3' and 'Server 5' is the first operating device 100 corresponding to 'Server 4' ) And additionally, the second operating device 200 corresponding to 'server 1' and 'server 5' according to the specific process processing in 'domain 3' Provide additional data to the operating device (100).

Next, a method of operating the first operating device 100 according to the embodiment of the present invention will be described with reference to FIG. 5.

First, the operation management unit 110 operates as a master device according to the activation of the mounted agent platform, so that an access address (IP) transmitted from an agent mounted on at least one second operation device 200 operating each legacy system. To the ANS (Agent Name Server) (S210-S220)

Then, the operation management unit 110 notifies the AMS (Agent Management System) of the registration status of the access address (IP), thereby configuring a domain for processing a specific process (S230).

Then, the operation processing unit 120 checks the access address of each second operating device 200 constituting the domain according to a specific process processing request transmitted from the embedded DB (Data Base) (S240-S260).

Next, the operation processor 120 acquires additional data according to the specific process by interworking with an agent mounted in the second operation apparatus 200 based on the confirmed access address (S270-S280).

Thereafter, the operation processor 120 checks the access information of the DBMS (Data Base Management System), transfers the acquired additional data to the DBMS, and notifies the AMS (Agent Management System) that the corresponding process is completed (S290-). S330).

Next, an operation method of the second operating device 200 according to an exemplary embodiment of the present invention will be described with reference to FIG. 6.

First, the operation processing unit 210 is registered in at least one first operation device 100 that operates as a master device to configure each domain for processing a specific process (S410).

Then, the operation processing unit 210 when the additional data request is received from the first operating device 100 operating as each master device corresponding to the specific process processing for each domain, the embedded DB constituting the data management unit 220 Obtain access information of a DBMS (Data Base Management System) managing its own additional data from the (Data Base) (S420-S440)

Thereafter, the data management unit 220 extracts and transmits additional data to the operation processing unit 210 connected to the DBMS (Data Base Management System) based on the corresponding access information, so that the extracted additional data is classified by domain and thus, the first operating device. To be provided to (100) (S450-S470).

As described above, according to the distributed-oriented data access method according to the present invention, by forming a plurality of domains for processing individual processes by applying an interworking configuration between the operating system operating a legacy system, It is possible to carry out a multi-purpose process as well as a process to handle the purpose of the. In addition, by configuring a domain so that specific operating systems can be shared among domains, domain-specific access to distributed data managed based on the specific operating device becomes possible, thereby establishing a base cost for distributed data interoperability. It can reduce costs and ensure maximum autonomy and independence of legacy systems.

Meanwhile, the steps of the method or algorithm described in connection with the embodiments presented herein may be embodied in the form of program instructions that may be executed by various computer means and recorded on a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to the distributed-oriented data access system and the method according to the present invention, by applying the interlocking configuration between the operating device operating the legacy system to form a plurality of domains (Process) to process individual processes, specific operation between domains Overcoming the limitations of existing technologies in configuring domains to share devices with each other, not only the availability of the relevant technologies, but also the potential for market or sales of the applied devices, as well as the degree to which they are practically evident. Therefore, the invention has industrial applicability.

100: first operating device
110: operation management unit 120: operation processing unit
200: second operation device
210: operation processing unit 220: data management unit

Claims (22)

Registering at least one operating device operating each legacy system as a slave device to configure a domain for processing the first process, and collecting additional data from slave devices configuring the corresponding domain according to the first process processing; 1 operating device; And
Registering at least one operating device operating each legacy system as a slave device to configure a domain for processing a second process, and collecting additional data from slave devices configuring the corresponding domain according to the second process processing; 2 includes the operating device,
At least one of the slave devices registered in the first operating device is registered as the slave device in the second operating device to form a domain for processing the second process, or among the slave devices registered in the second operating device. At least one is registered with the first operating device as a slave device to configure a domain for processing the second process. The method of claim 1,
The first operating device,
And a second device registered in the second operating device as a slave device to provide additional data according to the second process to the second operating device. The method of claim 1,
The second operating device,
And a slave device registered in the first operating device, and providing additional data according to the first process to the first operating device. The method of claim 1,
At least one of the first operating device and the second operating device,
And a slave device registered to a third operating device constituting a domain for processing a third process, and providing additional data according to the third process process to the third operating device. An operation management unit configured to register one or more operating devices that operate each legacy system as a slave device to configure a domain for processing the first process; And
An operation processing unit for identifying each slave device constituting a domain for processing the first process and acquiring additional data according to the first process processing for the identified slave device;
The operation processing unit,
And at least one operating device previously registered as a slave device in another domain for processing a second process as a slave device for processing the first process to configure the domain. delete The method of claim 5, wherein
The operation processing unit,
And a slave device registered to at least one operating device operating as a master device to configure respective domains, and providing additional data corresponding to the process processing for each domain to each master device. Registered as a slave device to the master device that processes the first process to configure a first domain for processing the first process, and processing the second process in a state registered as a slave device to the first domain. An operation processing unit configured to overlap a master device as a slave device and configure a second domain for processing the second process; And
When additional data related to the processing of each of the first process and the second process is requested, the additional data related to the first process processing is provided to a master device configuring the first domain, and the second domain is configured to constitute the second domain. And a data management unit for providing additional data related to the second process process to a master device. One or more operating devices on which the first operating device registers one or more operating devices operating each legacy system as slave devices to form a domain for processing the first process, and the second operating device operates on each legacy system. A domain configuration step of configuring a domain for processing the first process by registering the slave device as a slave device;
The first operating device requests additional data from each slave device constituting the corresponding domain according to the first process, and the second operating device requests each slave device constituting the corresponding domain according to the second process. An additional data request step of requesting additional data; And
Each of the slave devices registered in the first operating device and the second operating device provides the additional data corresponding to the first process process to the first operating device and supplies the additional data corresponding to the second process process. And providing additional data provided to the second operating device,
The domain configuration step,
Register at least one of the slave devices registered to the first operating device as a slave device to configure the domain for processing the second process, or at least one of the slave devices registered to the second operating device. And registering one as a slave device to the first operating device to configure a domain for processing the second process. The method of claim 9,
The domain configuration step,
And the first operating device is registered with the second operating device as a slave device to configure a domain for processing the second process. The method of claim 9,
The domain configuration step,
And the second operating device is registered with the first operating device as a slave device so as to configure a domain for processing the first process. The method of claim 9,
The domain configuration step,
At least one of the first operating device and the second operating device is registered as a slave device in the third operating device to configure a domain for processing the third process. A domain configuration step of registering at least one operating device operating each legacy system as a slave device to configure a domain for processing the first process;
A connection target confirmation step of identifying each slave device constituting a domain for processing the first process; And
A data acquisition step of acquiring additional data according to the first process processing for the identified slave device;
The domain configuration step,
And configuring the domain by registering at least one operating device previously registered as a slave device in another domain for processing a second process as a slave device for processing the first process. delete The method of claim 13,
The method comprises:
A domain registration step of registering each of the domains as a slave device with at least one operating device operating as a master device; And
And a data providing step of providing additional data to each master device according to the process for each domain. Registered as a slave device to the master device that processes the first process to configure a first domain for processing the first process, and processing the second process in a state registered as a slave device to the first domain. A domain registration step of overlapping registration with a master device as a slave device to configure a second domain for processing the second process;
A data request receiving step of receiving a request for an additional data associated with processing each of the first process and the second process; And
In response to the additional data request, additional data related to the first process is provided to a master device configuring the first domain, and additional data related to the second process processing is provided to a master device configuring the second domain. Operating method of the operating device comprising a providing data providing step. 17. The method of claim 16,
The method comprises:
A domain configuration step of configuring a third domain for processing the third process by registering at least one operating device operating each legacy system as a slave device; And
And a data acquiring step of acquiring additional data from each slave device configuring the third domain in response to the third process process. A domain configuration step of registering at least one operating device operating each legacy system as a slave device to configure a domain for processing the first process;
A connection target confirmation step of identifying each slave device constituting a domain for processing the first process; And
And a command for executing a data acquisition step of acquiring additional data according to the first process processing for the identified slave device.
The domain configuration step,
And configuring the domain by registering at least one operating device previously registered as a slave device in another domain for processing a second process as a slave device for processing the first process. delete The method of claim 18,
The recording medium,
A domain registration step of registering each of the domains as a slave device with at least one operating device operating as a master device; And
And a command for executing a data providing step of providing additional data to each master device according to the process processing for each domain. Registered as a slave device to the master device that processes the first process to configure a domain for processing the first process, and in a state registered as a slave device to the domain, slave to the master device that processes the second process. A domain registration step of repeatedly registering as a device to configure another domain for processing the second process;
A data request receiving step of receiving a request for an additional data associated with processing each of the first process and the second process; And
In response to the additional data request, data for providing additional data related to the first process processing to a master device configuring the domain and providing additional data related to the second process processing to a master device configuring the other domain. And a command for executing the providing step. 22. The method of claim 21,
The recording medium,
A domain configuration step of configuring a third domain for processing the third process by registering at least one operating device operating each legacy system as a slave device; And
And a command for executing a data acquisition step of acquiring additional data from each slave device constituting the third domain in response to the third process process.

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