JP3534808B2 - Information resource management device and information resource management method - Google Patents

Description

Detailed Description of the Invention

[0001]

[Industrial application] In system design, development, and operation a. Provision of strategic systems that anticipate the needs of the times b. Information, effect for strategic resources of management information resources such as information systems information resource management c. Effective and systematic authoring and management of information resources d. Effective use in large scale, large numbers of people, and multiple places e. The present invention relates to an information resource management device suitable for realizing effective accumulation and reuse of know-how.

[0002]

2. Description of the Related Art In recent years, authoring tools for editing various information resources such as information such as texts, images, videos, sounds, and information systems have been highlighted. This authoring tool can be classified as follows according to the creation method. (1) Method of determining the scenario framework by aligning a prepared icons in the form of a flowchart. (2) Method according to the template, such as the timeline (time axis), and determines a scenario framework by editing the resource, to determine the timing and the order of execution of the various information resources. (3) how to create based on Turkey command to determine the scenario framework by describing the program directly. (4) Based on the framework called hypermedia system , " go to" link and scripting method. However, the authoring tools that are provided status quo, (1) routine, easy-to-use is good, but are functionally limited, (2) it is he wanted edited but advanced programming techniques, is between the time of great work required, we have a problem, such as. Among them, the hypermedia system is excellent in (1) providing an environment in which information resources that do not have a specific structure can be used while maintaining a bad structure, and (2) associative and exploratory access to information resources. It is recognized as an effective key technology that solves the above problems.
It is used in various support tools. This hypermedia system has a basic structure of a network composed of links that represent relationships between nodes, which are units of information that stores various information resources. By following the links, a target node is reached and stored in the node. View the information provided or execute the procedure.

For example, a link connecting nodes includes
The following types of links are known to exist: (1) A link that can be traced in both directions and a link that can be traced in only one direction. (2) In the card linked to a particular subject is fixed, editing the internal state is changed is subjected, moving the link object in the card, or link destination was set based on the target There are links. (3) Link the update of the contents of one of the link region coupled with the link, can be immediately reflected in the other link area. (4) A link in which a procedure is executed by following the link.

Further, there is one that realizes effective card search by accumulating and reusing node search history and development of advanced application system by providing original description language.

Further, as disclosed in Japanese Patent Laid-Open No. 3-149634, it is efficient for the reader to automatically select and display the next node to be read in accordance with the reader's request and level. There is also proposed a system that enables reading of hypertext and preferentially follows a node close to a reader's request without waste.

[0006]

THE INVENTION Problems to be Solved by conventional hypermedia system (1) poor management Organization of link nodes and node, (2) functionally related descriptions between limited node, bond
Law, (3) homogeneity (unification) of data, procedures, and control management mechanisms , (4) Declarative link and low-level system construction ability by script language. It was difficult to apply to practical systems in fields such as number of people, use in multiple places, systematic information resource management, know-how componentization, and reuse.

[0007] Accordingly, the present invention is, in order to solve the problems of the prior art, such as described above, wherein the producer referred to in movies, theater, cinema, the framework, such as staff, performer, (1) the time of execution mechanism separatists for managing production and operation of the system in, (2) system construction based on dynamic compilation generation of link structure, enabling an effective and systematic authoring and management of information resources based on the design basic policy of It is an object of the present invention to provide an information resource management device.

[0008]

[Means for Solving the Problems] Information resource according to the present invention
The management device manages information resources and controls the execution of task processing.
In the controlled information resource management device, a collection of procedures and hands
With the organization that contains the knowledge information data in the continuation aggregate
System resources with at least one and data structure
Have at least one of a structure and a collection of actual data
Data resources and objects containing procedures in the data resources
At least one of
Multiple resource storage that stores information resources including each
Part and one or more separate and independent of the plurality of resource storage parts
Of the plurality of resources stored in the direction section of
Used for task processing among multiple information resources stored in the department
Send a control signal to select an information resource to
One or more direction units that control the execution of processing
And holding knowledge information selected according to the control signal
Both of the above-mentioned one or more directory
Control signals sent from each direction section
Receive and select knowledge information according to the received control signal
The selected control signal according to the received control signal and the control signal.
Information resources used for task processing based on the knowledge information
Transfer information to and from the stored resource storage
The transfer time of the transfer information is determined, and the received control is performed.
Signal and knowledge information selected according to the control signal
Stores information resources used when executing task processing.
With the resource storage unit as the transfer destination.
Dynamically select from the storage section and select the resource storage section and the
The link structure with the direction section that transmitted the control signal
Dynamically generated by including the link that becomes the communication path,
Select from the multiple resource stores based on the network structure
Resource storage unit and the directory that issued the control signal
The transfer information determined above regarding the exchange of information with the
Depending on the transfer time and transfer time,
By doing so, the direction section and the lithography
Depending on the use of the link structure between the
Connection control, the direction unit and the resource class
It manages execution control by exchanging information with the payment department.
And one or more connection management units.

The information resource management device further includes
A number of resource storage units and one or more direction units
Each of the one or more connection management units is included as a component of each unit.
It is equipped with multiple control unit sections
At least one of the plurality of resource storage units
The source storage unit is the control unit that stores other control unit units.
And a storage unit.

The information resource management device further includes
A number of resource storage units and one or more direction units
Each of the above-mentioned one or more connection management units is a component of each unit.
At least one of the constituent elements of each part
A unit storage unit that stores attribute information corresponding to the element
Tasks performed by the direction departments 1 or more
As a framework, the processing structure that is the framework of processing,
Less of procedures, data, data structures and objects
And the frame of each of the components described above
And the procedures that make up the framework and the framework
At least one of data, data structures and objects
Stores it and supports multiple frameworks
Let's use multiple identifiers to identify multiple frameworks
A type storage unit for storing, and a plurality of type storage units stored in the type storage unit.
Extract the framework identified from the identifier and extract
In front of each part component corresponding to the framework that has been issued
It is necessary to extract each unit from the unit storage section
The element is modified and changed to the plurality of resource storage units and the one or more
There are few direction departments above and one or more connection management departments.
At least with a creation and editing unit to create one
Characterize.

The information resource management device comprises a first directory
Section and a second section different from the first section
And the direction section of
The same connection management between the connection part and the second direction part
From the first direction section, there is a link to the section
In the second direction section, the second direction
Sends a control signal that controls the on / off of the startup
Therefore, the link linked via the connection management unit
Select the information resource in the source storage to control the execution of the process.
The direction section
The processing status between the second department and the second department.
The feature is that they are switched according to usage.

The information resource management apparatus further includes
The direction section linked to the source storage section
Link structure is dynamically generated when the link processing is executed.
Control the connection of the link, and
The direction section that controls
Equipped with a production section that dynamically switches to the collection section
It is characterized by getting.

The information resource management device further includes
Number of control units included in each control unit
One or more direction units and storage of the plurality of resources
Information resources included in the department and the above-mentioned control unit department itself
At least one of the
Select the communication information according to the processing situation
A first production unit for transferring the communication information,
The communication information transferred from the first production unit.
Information and receives the communication information from the task processing
To have a second production part to capture
Characterize.

The information resource management method according to the present invention is
A plurality of resource storage units for respectively storing resources;
One or more directions separate from the resource store of
1 or more that controls the execution of task processing
From the direction section and the multiple resource storage sections
Selected resource storage and one or more directions
Equipped with one or more connection management units that exchange information with the department
The information resource management device manages and manages information resources.
In the information resource management method that controls the execution of
Knowledge information data is included in the continuation set and procedure set.
System having at least one of
At least a resource and a collection of data structures and actual data
The data resource that has either one, and the procedure for the data resource
An object resource having contained objects,
Information resources including at least one of the plurality of resources
One or more of the directions stored in each
Section stores a plurality of information stored in the plurality of resource storage sections.
Select the information resource used for task processing from the information resources.
Control signal for sending to the one or more connection management units.
Depending on the above, one or more of the direction units can process tasks.
Control at the time of execution, and the one or more connection management units
It holds knowledge information selected according to the signal.
In addition, the one or more connection management units are
At least one of the one or more direction units
The control signal transmitted from the direction unit is received,
The knowledge information is selected according to the received control signal, and
The connection management unit described above is configured to receive the received control signal and the control signal.
Resource storage based on knowledge information selected according to issue
Transfer information to be transferred to and from the department and when to transfer the transfer information
And the one or more connection management units have received the
Based on the control signal and the knowledge information selected according to the control signal
And store the information resources used when executing the task process.
A plurality of resources with the resource storage unit being the transfer destination
The one or more connection management units dynamically select from the storage unit,
The selected resource storage unit and the disc that issued the control signal.
The link structure with the rectification part
Dynamically generated by including the one or more connection management units
From the resource stores based on the link structure
The selected resource storage unit and the disc that issued the control signal.
The exchange of information with the collection unit is determined by the transfer
The link that serves as a communication path depending on the information and the transfer time
By controlling via one or more of the one or more connection management units
Both the direction unit and the resource storage unit
Connection control by using the above-mentioned link structure between the
Between the direction section and the resource storage section
It is characterized by managing execution control by exchanging information.
It

The information resource management device includes the plurality of resources.
Source storage unit and the one or more direction units and the one or more units
The connection management unit above and a plurality of
The information resource management method includes
A plurality of resource storage units and the one or more direction units
And the above-mentioned one or more connection management units as respective component elements.
An overall unit of the plurality of overall unit units including
At least one of the plurality of resource storage units included in the section
Store other control unit in the resource storage part
It is characterized by doing.

The information resource management device may further include:
A number of resource storage units and one or more direction units
Each of the above-mentioned one or more connection management units is a component of each unit.
Unit storage unit that stores information about each component
And is executed by one or more of the direction units
Framework is a processing structure that is the framework of task processing
A type storage unit that stores information about the framework
And the information resource management method includes:
Of at least one of the
Sex information is stored in the unit storage section, and procedures and data are stored.
And / or data structures and / or objects
Configure the framework of each component using
The procedures, data, and data that make up the framework are
Type and / or object structure
The plurality of frameworks are stored in the storage unit.
To identify the plurality of frameworks corresponding to
The identifier is stored in the type storage unit and stored in the type storage unit.
The framework identified by multiple identifiers
Each structure that corresponds to the extracted framework
The component is extracted from the unit storage, and the extracted
Each of the plurality of resource storage units is modified by modifying each component.
And said one or more direction parts and said one or more connecting pipes
Characterized by creating at least one of
It

The information resource management device comprises a first directory
Section that is different from the first direction section
A second direction section, and the information resource management method
Is the first direction section and the second direction section.
Link from the same connection management section to the connection section,
From the first direction section to the second direction
The second section, the activation of the second direction section
Said connection by sending a control signal to control the connection
Information in the resource storage unit linked through the management unit
The direction that controls the execution of processing by selecting resources
The first section and the second section.
Depending on the processing situation, you can switch between the
Characterized by dividing.

The information resource management method further includes
The direction section linked to the source storage section
Link structure is dynamically generated when the link processing is executed.
Control the connection of the link, and
The direction section that controls
It is characterized by dynamically switching to the rectification unit.

The information resource management device further comprises
Number of control units included in each control unit
One or more direction units and storage of the plurality of resources
Information resources included in the department and the above-mentioned control unit department itself
And at least one of the
A first production unit for transferring information and the communication information
And a second production section for receiving the information
The resource management method is performed by the first production unit,
Select the communication information according to the processing status of task processing
The selected production information to the second production
Forwarded to the second production section,
The received communication information is received, and the received
Characterized by capturing communication information for task processing
It

[0020]

[Action] information resource management apparatus according to the present onset Ming, the storage unit of the information resource of objects resource procedures system resources or data resources or data resources are included as appropriate proper use of by the execution control management of the information resources By clearly separating and separating the direction part, which is the mechanism for performing, the mechanism equivalent to the technique of using information resources can be effectively realized and made into a component in the direction part, so that the desired use technique is realized. It is possible to easily reuse the know-how of using the information resources of different experts simply by selecting the direction section and establishing a link through the connection control section. In addition, objects encapsulating procedures in a data structure called object-oriented can be managed collectively in resource storage unit units, and a message sending mechanism equivalent to how to use the objects can be implemented in the direction unit. By configuring the system by appropriately using the direction unit, which is a mechanism for managing control, as needed, different processing can be easily realized for the information resources stored in the same resource storage unit.

In addition, the information resource management apparatus can easily realize the reuse of the know-how, which is the utilization technology created in the past, by a simple operation such as incorporating the control unit section created in the past into the storage unit, Furthermore, a recursive system can be easily constructed in a visual form simply by storing the own control unit unit in the storage unit included in the control unit unit.

Further, the information resource management device, supervising unit section, the resource storage unit, certain components of the direction unit, system resources, data resources, using a variety of information resources that object resources, based on the typology of application systems It is possible to construct an effective system by searching and reusing this type by configuring the type.

Further , the information resource management device can easily execute the system execution strategy by dynamically switching the direction unit, which manages the control of how to use the information resources in the resource storage unit linked to the resource storage unit, dynamically at the time of processing. ,
The desired processing can be easily realized by changing the control method or appropriately switching the resource storage unit dynamically used by the direction unit as needed.

In addition, the information resource management device does not need to predetermine a direction unit that manages the execution control of the process by properly using the information resources in the resource storage unit, but needs it when necessary when executing the process. It is possible to dynamically compile and generate the link structure between the direction unit and the resource storage unit by selecting the direction unit to be used and establishing a link via the connection management unit.

In addition, the information resource management device enables navigation of the system processing according to the effective processing status using various information on the connection relation between the control unit sections, the execution strategy and the scenario based on the strategy. In addition, when executing a process, it is possible to retrieve and extract the necessary control unit parts according to the processing status and dynamically compile and generate the link structure between the control unit parts, that is, the direction parts. There is no need to create a link structure between departments.

Further , since the information resource management apparatus can perform integrated management in the network management unit via the network in units of the node parts which form a unit made up of the production unit and the control unit unit, It is possible to construct a system that uses the abstract concept of the node as a recognition unit without recognizing the level components such as the unit.

Further , the information resource management device dynamically analyzes attribute information according to the processing status at the time of system execution, and various information resources such as system resources, data resources and object resources, a resource storage section, a direction section, It is possible to dynamically customize the system of the transfer destination and execute processing at the transfer destination by transferring various components such as the control unit unit, the node unit, and the production unit via the network.

Further, the information resource management device, system resources, data resources, object resources, such as information resources, production unit, supervising unit section, Direction section, resource storage unit, the connection management unit, the node unit, various and network management unit By registering and storing the constituent elements separately and using various information stored in the attribute information storage unit, it is possible to dynamically narrow down and categorize according to the search conditions and search know-how to achieve various efficient parts. It is possible to search for.

In addition, the information resource management device can input information resources, resource storage section, direction section, connection management section, control unit section, production section, node section, network management section by simply inputting search conditions into the search section. It is possible to compile and generate the target system and various components by extracting various available information resources at various required levels by searching each of the various components and the like separately and independently.

In the information resource management apparatus, in the direction unit, heuristics regarding usage of information resources contained in the resource storage unit constituting the general unit unit, execution strategies, or basic strategic knowledge are fragmented in the direction unit. Just by describing in the strategic knowledge storage section, the control information and scenario framework (how to use information resources / procedures) necessary for execution of the direction section, the search of the direction section, and the attribute information necessary for reuse can be dynamically created. Compile and generate while analyzing and inferring the processing status of the system as needed,
Producers intend Sir which enables the compilation generation of the resource storage unit by storing extracted search information resources required to the resource storage unit in response to instruction shown in strategy knowledge.

Further , the information resource management device manages link connection control, compiles and creates a scenario framework, stores strategy / attribute information / link information, audits the compiled system or operation status, etc. If there is a problem, a production that has various functions such as generating a scenario framework (execution strategy) that is a problem solution plan, searching and extracting necessary information resources, and issuing instructions such as recompilation of link structure Providing departments enables effective and systematic operation and management of information resources.

[0032]

Embodiments of the present invention will be described below with reference to the drawings.

Example 1. 1 is a block diagram of an information resource management device according to a first embodiment of the present invention. As shown in the figure, this information resource management apparatus stores one or more resource storage units 101 for storing system resources, data resources, or object resources in which a procedure is included in data, and resource storage units 101. One or more of management of execution control of processing by appropriately using information resources in the resource storage unit 101 based on the execution strategy, which is a scenario framework related to usage of information resources Linking the direction unit 102, the resource storage unit 101, and the direction unit 102 to create a link structure, and the direction unit 102 and the resource storage unit 101 are separated and independent from each other.
Are integrated, and one or a plurality of connection management units 103 for exchanging information between them and managing execution control are configured. The information resource management apparatus according to the first embodiment is positioned as a recognition unit that manages the three constituent elements of the resource storage unit 101, the direction unit 102, and the connection management unit 103 that are separated and independent of each other. To call. The connection management unit 103 realizes a link structure for linking and integrating the direction unit 102 and the resource storage unit 101.
It is a communication path that realizes effective communication of information between each component. The functions realized by the connection management unit 103 are the direction unit 102 and the resource storage unit 101.
It is also possible to realize it as a function in the direction unit 102 or the resource storage unit 101 without realizing it as a component independent of the above. Further, for example, in the connection management unit 103, Direction 102, exchange of information between various parts components such resource storage unit 101, i.e., when performing took communication, the information input to the connection management unit 103, the connection management Direction stored in section 103
Remedies for instructions such as control signals sent from the unit 102, for example, a plurality of linked resource storage units 1
Use the knowledge information about the control to execute the process without delay by selecting the resource storage unit 101 to send the instruction from 01 or selecting the information resource in the resource storage unit 101 and giving the instruction. Then, the transfer destination, the transfer information, and the transfer time can be determined. Further, the connection management unit 103 manages connection control and execution control between the direction unit 102 and the resource storage unit 101 while linking information with different connection management units 103 in the same general unit unit 100 and exchanging information. You can

The information resources managed by the control unit section 100 consist of the following three types of information resources. (1) System resources are (a) a set of procedures / tasks, or a procedure group corresponding to the parts that make up a task, and a procedure group (b) that realizes a scenario framework that constitutes a system. ) It is composed of an organization in which various pieces of knowledge information data are included in a collection of procedures of procedure (c) and (a) which are made up of the procedure (a). (2) A data resource is composed of (a) a general-purpose framework having various data structures, and (b) a collection of actual data. (3) The object resources, the resources referred to in the object-oriented and consists from objects "in the data or data structure constituting the above data resources were encapsulated was inherently present, and necessary procedures" Say.

Next, an example of implementation of the resource storage unit 101 and the direction unit 102 will be shown. For example, as shown in FIG. 2, the resource storage unit 101 is a system resource storage unit 110 that stores system resources, a data resource storage unit 111 that stores data resources, or an object resource storage unit 112 that stores object resources. or supervising unit stores the overall unit unit storage 11
3 can be configured.

Further, for example, the direction unit 102 is
As shown in FIG. 3, the action unit 121 for practicing management of execution control of information resources in the resource storage unit 101 has a basic function, and the resource storage unit 10 has an optional function.
The information resource that is transmitted and received between each component such as a strategy knowledge storage unit 120 that stores a strategy that is a scenario framework for managing the execution control of the process by appropriately using the information resources in 1 and the processing progress status of the application system Such as the work storage unit 122 that stores various information indicating the internal state at the time of executing the process, or the dynamic attribute information at the time of executing the process that the direction unit 102 itself has, or prepared in advance at the time of compiling the system. The attribute information storage unit 123 stores declarative attribute information.

The operation of the above arrangement will be described below.

The direction section 102 plays a role equivalent to a director in movies and plays. For example, the outline of the role as a director is as follows, taking the production of a multimedia presentation system as an example.

The direction unit 102, based on a given presentation item, production / demonstration purpose, strategy knowledge such as method, policy, for example, a scenario framework such as a reproduction procedure according to the processing situation of each presentation item, Follow the instructions to start producing the presentation system for the items in charge of production. First, an existing resource storage unit 101 that can use information resources corresponding to staff and performers is searched, and the resource storage unit 1 is used as it is.
01 to reuse or extract available information resources,
Alternatively, the required information resources are collected by requesting the resource creation unit 124 to create a new one. Here, the staff and performers will be described. (1) staff and is, generalization procedures to be requires a video image information that has been digitized at the time of presentation of such procedures by calling from disk to display on the display, refer to the system. (2) Performers refer to concrete video images and audio files. Then, the direction unit 102 stores the collected information resources in the resource storage unit 101, and the connection management unit 1 having a link structure between the resource storage unit 101 and the direction unit 102 which is the commander of collecting information resources.
03 is created to dynamically compile and generate the control unit section 100.

Next, the direction section 102 will be described in detail. The direction unit 102 extracts, for example, various information indicating the processing status from the work storage unit 122 in the direction unit 102 according to the processing status and the purpose of use,
Various information and parameters regarding the purpose and method of use are extracted from the attribute information storage unit 123 in the direction unit 102, and by using these various information, strategic knowledge necessary for system construction, that is, task coordination is directed. It is appropriately and dynamically extracted from the strategy knowledge storage unit 120 stored in the unit 102. Then, de Irekushi <br/> tio emission unit 102, the information procedure is part of the required from the system resource storage unit 110 of the resource storage unit 101 based on, or procedures group, or knowledge information data A procedure group including the following is selected, and a general-purpose framework or actual data that realizes a necessary data structure is extracted from the data resource storage unit 111 as appropriate.
An object required as appropriate, that is, an object instantiated by actual data is extracted from the object resource storage unit 112, and further, the control unit unit 100 stored in the resource storage unit 101 is controlled as needed. By extracting from the unit storage unit 113, storing it in a new resource storage unit 101 , and creating a link structure between the resource storage unit 101 and the direction unit 102 in the connection management unit 103, a target task is realized. The direction unit 102 manages execution control by compiling and generating an application system and appropriately using the combined system.
The action part 121 in the inside performs.

In particular, in the object-oriented method of using an object resource consisting of an object in which a procedure is encapsulated in a data resource, when a message is given to the object, the object decodes the message and the object is followed according to the instruction of the message. Although it is an information resource to be used by a method of activating a procedure encapsulated in the action resource, the action unit 121 in the direction unit 102 acts as a strategy knowledge storage unit for the objects stored in the resource storage unit 101. The processing is executed by selecting an object according to information such as a stored message sending procedure, sending method, and object selecting method, and sending a message to the selected object.

For the general unit section 100, the action section 121 extracts various information such as control parameters indicating the processing status and execution strategy from the work storage section 122 and the attribute information storage section 123 in the direction section 102, The extracted control information is given to the integrated unit unit 100 stored in the integrated unit storage unit 113 in the resource storage unit 101 to activate and execute the internal state of the integrated unit unit 100 to the executable / accessible state. That is, the general unit storage unit 113 stores the general unit unit 10
Direct integration of 0 directly into the control unit 1
Direction section 1 is created by combining 00s as one information resource.
In 02, execution control can be managed.

The link structure of the direction unit 102 and the resource storage unit 101 is composed of a compilation generation dynamically performed as needed according to the processing status at the time of processing execution and a declarative compilation generation declaratively performed at the time of compilation of the application system. Created.

In the attribute information storage unit 123, various information indicating the execution strategy of the task processing to be realized in the direction unit 102 is declared declaratively at the time of system compilation or dynamically at the time of system execution. It is extracted from 120 and stored. The strategic knowledge storage unit 1 stores basic strategic knowledge such as policies, intentions, concepts, and ideas.
20 and the operational and practical strategy knowledge is stored in the attribute information storage unit 123. Therefore, if the strategy knowledge stored in the attribute information storage unit 123 cannot handle the situation, the action unit 121 infers the optimum execution strategy using the strategy knowledge source stored in the strategy knowledge storage unit 120. The strategy knowledge is automatically combined and stored in the attribute information storage unit 123.

[0045] The action portion 121 which is a component of the direction unit 102 may be configured as a block diagram shown in FIG. As shown in FIG. 4 , the action unit 121 manages the execution control of processing using the information resources in the resource storage unit 101, is positioned at a meta level with respect to the resource storage unit 101, and is unique to the task and assigned to the domain. Generalized global control unit 1 that does not depend
30 and a local control unit 131 depending on the domain.

The global control unit 130 is composed of generalized procedures that form a general-purpose framework of tasks to be realized in the general unit unit 100 and a type that realizes typification of the direction unit 102. In other words, the generalized procedure that constitutes the global control unit 130 constitutes the direction unit type, that is, the type, which is used during the collation process at the time of componentization, reuse, and search of the direction unit 102. The local control unit 131 performs execution control peculiar to the task realized in the control unit unit 100. Furthermore, strategic knowledge to be used when processing tasks,
Some attribute information is task-specific and domain-independent and domain-dependent, and a type check is performed by integrally determining all these domain-independent components.

By including the self in the general unit unit 100, that is, in the general unit storage unit 113 in the resource storage unit 101, the resource storage unit 10 is stored.
The recursive definition can be easily made and a recursive system can be easily built by incorporating the control unit section 100 itself including the unit 1.

The above is the description of the basic operation of the control unit section 100.

For example, when the present information resource management device is to be used as an authoring architecture for a multimedia presentation system, the direction unit 102 constructs a scenario framework containing presentation strategies and know-how, and creates a scenario framework for each resource. A connection management unit 1 based on a strategy such as a reproduction procedure according to the processing situation, that is, a scenario framework.
03 dynamically generates resource storage unit 101 and directory
Follow the link structure of the Deployment unit 1 02 performs execution control management of the presentation by properly selectively used for multimedia information resource. In the resource storage unit 101, as the “procedure for configuring a system resource”, a reproduction procedure of video image, voice, music, animation, etc. will be described.

Example 2. FIG. 5 is a block diagram of an information resource management device according to the second embodiment of the present invention. As shown in the figure, this information resource management apparatus is the same as the integrated unit section 100 shown in the first embodiment.
A unit storage unit 201 that stores each component such as the direction unit 102, the resource storage unit 101, and the connection management unit 103 and attribute information associated with the component, a generalized procedure that configures the “type” of each component, A type storage unit 202 that stores data, a data structure, an identifier indicating an object and a "type", a "type" to be created from the type storage unit 202, and each existing component that realizes that type From the unit storage unit 201, and by modifying and changing the extracted components, the creation / editing unit 200 that creates and edits the new general unit unit 100, the direction unit 102, the resource storage unit 101, and the connection management unit 103. Composed.

For example, as shown in FIG. 6, the creation / editing unit 20
0 indicates a processing procedure to be realized, a procedure, necessary data and data structure, know-how to use the system, and other information necessary for system construction by the user or is extracted from the unit storage unit 201 and stored. The attribute information storage unit 123, a search unit 211 that searches the unit storage unit 201 to extract various pieces of information registered and stored in the attribute information storage unit 123, and each component that satisfies various system design conditions, a unit storage unit An extraction unit 21 that extracts a required function from each component element extracted by 201.
2. A missing function creating unit 215 that edits and integrates the necessary functions selected by the extracting unit 212 into each component to create a missing function to complete each component, and a resource storage unit 1
A combination unit 213 that synthesizes the target general unit unit 100 by incorporating the general unit unit 100 in 01 or creating a connection management unit 103 that is integrated by establishing a link between the direction unit 102 and the resource storage unit 101. , The unit storage unit 2 for each component component created
It can be configured by a storage unit 214 which is registered and stored in 01.

By introducing the "type concept" into each part component, effective search / reuse of each part component can be realized. Generalization procedures that constitute the specific components and functions from among constituting each unit structure elements, systems, data, type storage unit that stores a data structure, comprising a framework integrated by extracting object "type" From 202
By specifying one "type", or by specifying multiple types of "types", extracting the required functions from each of the "types", and adding new functions Type "is synthesized. Basically, each component is realized by dividing it into a part that constitutes a “mold” and a part that does not. Therefore, at the time of search, the "type" check is performed by collating only the part forming the "type", and the respective component elements forming the same "type" are identified by the type storage unit 2.
You will look for it in 02. Also, this "type" check is made in each component unit. The utility of this "mold" is that the system has enabled effective automatic search, automatic creation, reuse, and componentization of each component. Also, for example, the direction unit 10
In 2, the same global control unit 130 that is a component of the action unit 121 is referred to as the same “type” direction unit 102.

The operation of the above arrangement will be described below.

First, when the new control unit section 100 is created, it is determined whether or not there is a "type" of each element component such as the existing control unit section 100, direction section 102, resource storage section 101, etc. that can be used. The search unit 211 investigates while referring to the attribute information in 123. Information necessary for the search is collected in advance in the attribute information storage unit 123 and stored in the attribute information storage unit 123 before the search is started.

When there is an available "type", the "type" is stored in the type storage unit 202, and the constituent elements, information resources, data resources, and object resources constituting the "type" are stored in the unit storage unit 201. The search unit 211 searches and extracts.

When the required function is included in the extracted constituent element, if the extraction unit is only one of the constituent elements of the same kind, the constituent element is reused as it is, and the constituent element of the same kind is reused. In the case where the constituents are duplicated or distributed among a plurality of constituent elements, a necessary function is extracted from the plurality of constituent elements by the extraction unit, and the extracted functions are combined into one constituent element by the “type”. “Type” of a new constituent element.

In the case where the necessary function does not exist in the existing constituent elements, and the function is versatile and suitable for constructing the “mold”, the new function created by the synthesizing unit 213 is used. A new function is added to the component, or a new component is combined in the combining unit 213. By the above operation, the general-purpose framework that constitutes the general unit unit 100 is completed.

Next, a part that depends on the domain of each part constituting the general-purpose framework of the general unit 100, that is, a part that does not form a "type" is created.

A required function is used from the unit storage unit 201 while referring to the attribute information storage unit 123, or
The search unit 211 searches for various information that can be used as a reference.

With reference to the search result, the missing function creating unit creates the missing necessary function in the domain-dependent part of the general-purpose framework completed previously.

When some of the required functions are realized in the existing general unit unit 100, the general unit unit 100 constitutes a "mold".
Resource storage unit 10 that constitutes a general-purpose framework of 0
The new integrated unit section 100 is combined by incorporating it into the No. 1 in the combining section 213.

The function is the control unit section 1
If you think it is appropriate to construct a "type" of 00,
The attribute information storage unit 123 is combined as an element that constitutes the “type” of the resource and as the “type” that constitutes a new component.
And the type storage unit 202

Next, a method for controlling the execution of a process for effectively using these information resources, that is, a scenario framework is created. When the general unit section 100 has a plurality of direction sections 102, a scenario framework including a description of the connection relationship between the information resources in the resource storage section 101 and the direction section 102 is created. This scenario framework is stored as strategy knowledge in the strategy knowledge storage unit 120 in the direction unit 102.

By the above operation, the completed direction unit 102 and the resource storage unit are integrated by linking them to create the connection management unit 103 corresponding to the communication path, thereby completing the target unit unit 100. To do.

As a result of the above-described operation, the constituent elements that are already created, that is, the overall unit section 100, the resource storage section 101, the direction section 102, the connection management section 103, and the constituent elements that constitute each constituent element element,
By reusing the constituent elements, the system resources, the data resources, and the object resources, it is possible to effectively and easily create the desired new general control unit section 100 and easily realize the desired task.

Example 3. FIG. 7 is a block diagram of an information resource management device according to the third embodiment of the present invention. As shown in FIG. 7, the information resource management apparatus includes one or a plurality of resource storage units 101 and system resource or data resources described in the first embodiment or object resources in which a procedure is included in data and the resource storage unit 101. The resource storage unit 1 that manages execution control of processing by appropriately using the information resources in the
01 and a plurality of independent and independent direction sections 102 are integrated by linking them to manage the connection control between them, and an integrated unit section 100 including one or a plurality of connection management sections 103 and the integrated unit section 100. It is composed of one or a plurality of direction sections 102 which are constituent parts of the general unit section 100 different from the above.

For example, as shown in FIG. 3, the direction unit 102 stores the strategy knowledge storage unit 120 for storing the execution strategy of the process by appropriately using the information resources in the resource storage unit 101 and the resource storage unit based on the strategy knowledge. 1
An action section 121 for practicing execution control management of information resources in 01, a work storage section 122 for storing various information indicating internal states such as information resources transmitted and received between respective component elements such as messages and progress of system processing, Alternatively, it can be configured by the attribute information storage unit 123 that stores the dynamic or static attribute information that the direction unit 102 itself has.

Further, the action unit 121, which is a component of the direction unit 102, can be configured as shown in the block diagram of FIG.
1 manages the execution control of the process using the information resource in 1 and is positioned at a meta level with respect to the resource storage unit 101.

The operation of the configuration described above will be described below.

The direction unit 102, based on the strategy stored in the strategy knowledge storage unit 120 and the attribute information in the attribute information storage unit 123, sets the strategy regarding the method of managing the execution control of the process by properly using the information resources. I have decided. The action unit 121 displays the strategy and information resources such as messages transmitted from the respective component elements stored in the work storage unit 122, for example, system resources, data resources, object resources, and internal states indicating the progress of processing. The process is executed while referring to various information. Therefore, for example, in the strategy knowledge storage unit 120 and the attribute information storage unit 123, the strategy knowledge for controlling the on / off of the activation of the action unit 121 is described in accordance with various information stored in the work storage unit 122, and the action unit 1
Different direction section 10 with different message in 21
By sending a control signal to the direction unit 102, such as by sending it to the work storage unit 122 of No. 2, the resource storage unit 10 is linked to the resource storage unit 101.
Direction unit 10 that manages the execution control of 1
It is possible to properly switch on and off of No. 2 according to the processing situation. In that case, direction section 102
Need not necessarily be the components that form the same general unit section 100 as long as the links are stretched.

[0071] Further, as shown in FIG. 7, a plurality of resource storage unit 101 one direction portion 102n is a component of the same overall unit portion 1 00 or a plurality of configuring different overall unit portion 1 00 The execution control of the resource storage unit 101 can be managed.
In this case, the direction unit 102 dynamically switches the resource storage unit 101 as appropriate by sending a connection control signal to the connection management unit 103 having a link,
It is possible to collect necessary information and manage execution control of a target process.

Example 4. 8 and 9 are block diagrams of an information resource management apparatus according to the fourth embodiment of the present invention. As shown in FIGS. 8 and 9,
The information resource management device is the control unit section explained in the first embodiment.
A plurality of units (control unit unit 100A and control unit unit 1
00B) and the production described below.
It includes an engine section 400. Control Unit Department 100 (Control Unit
Unit 100A and general unit 100B)
As described in Example 1, one of objects resource procedures to the system resources or data resources or data is contained or a plurality of resource storage unit 101, processing by appropriately selectively using information resources of the resource storage unit 101 One or a plurality of direction units 102 that are separate from and independent of one or a plurality of the resource storage units that manage the execution control of the resource storage unit 101 and the direction unit 102 by linking them together. of Ru is configured from the connection management unit 103 for taking a control of the connection control. Production unit 400 includes a pre-Symbol overall unit portion 100 with one or more of the direction section 102 which is a component of a different overall unit portion 100 and the one or more resource storage unit 101, a resource storage unit 1
01 is linked to 01 to manage the execution control of processing by using the information resources in the resource storage unit 101, and dynamically changes the direction unit 102 to another different direction unit 102.
Such switch, the connection control dynamic link resource storage unit 101 and the direction section 102, or, if row customizing constitute a connection management unit 103 by dynamic compilation generation of link structure system.

The operation of the configuration described above will be described below.

For example, as shown in FIG. 8, the general unit section 100A comprises a resource storage section 101x, a direction section 102a, and a connection management section 103e, and the general unit section 100B includes a resource storage section 101.
y, the resource storage unit 101z, and the direction unit 10
2b, a connection management unit 103f, and a connection management unit 103w. The resource storage unit 101x, which is a component of the control unit unit 100A, passes the control unit 103A via the link j, the link i, and the connection management unit 103e.
And a direction unit 102b which is a component of the general unit 100B via a link m. Resource storage unit 1 which is a component of the control unit unit 100B
01y is connected to the direction unit 102b, which is a component of the control unit unit 100B, via the link n, the link k, and the connection control unit 103k.
The resource storage unit 101z, which is a component of 0B, is connected to the direction unit 102b via the link o, the link k, the connection management unit 103f, and the link h, the link u, and the connection management unit 103w.

The resource storage unit 101x can be managed by the direction unit 102a belonging to the general unit unit A and the direction unit 102b belonging to the general unit unit B. In this case, the direction unit 10x is used.
2b or the instruction of the production unit 400 causes the direction unit 102b to move to the resource storage unit 10.
1x, resource storage unit 101y, resource storage unit 101
z is dynamically used properly, and the direction unit 1
02a or the production unit 400 to effectively manage the resource storage unit 101x,
Direction unit 102a and direction unit 102b
Are switched to each other as appropriate.

Further, the production section 400 analyzes the processing status and utilizes various information stored in the production section 400 to dynamically link the resource storage section 101 dynamically as needed. It is possible to perform processing such as searching and extracting 102, compiling and generating the link structure, and appropriately switching in the connection management unit 103.

[0077] In addition, the production unit 400, as shown in FIG. 8,
As shown in FIG. 9 , during execution of the system, the direction unit 102b is erased, the direction unit 102 that replaces the direction unit 102b is searched, and the selected direction unit 102c, direction unit 102d, resource storage unit 101x, and resource storage unit 101y. , A link structure with the resource storage unit 101z, that is, links p, q,
The system shown in FIG. 8 can be customized as shown in FIG. 9 by dynamically compiling and generating r, s, t and the connection management unit 103g according to the processing status of the system. Since the control unit section 100 is a collective term for a group of constituent elements in the unit of recognition, it is possible to establish a link relationship even with the constituent elements belonging to different control unit sections 100.

As described above, the production section 4
00 is the processing status of the system, and the direction unit 102
While analyzing the management ability of the information resource, the system is modified and changed as necessary to determine the optimum direction unit 102 that manages the information resources. While analyzing the processing status of the entire system, such as giving instructions on the implementation method, etc., the scenario framework corresponding to the work schedule for system execution is formulated and the system is customized as necessary.

Example 5. 10, 11, and 12 are block diagrams of an information resource management apparatus according to the fifth embodiment of the present invention. As shown in FIG. 10, the control unit unit 10 which is the framework for managing the execution control of the information resources shown in the first embodiment.
0 and the necessary control unit section 100 according to the processing status of the system are searched and extracted, and the link structure between the control section sections 100 thus extracted, that is, the direction section 102 is compiled and generated or created. The connection control that dynamically switches the links in the link structure, the progress management of the processing, the management of the work instruction / execution control according to the processing status, the production of the system, the formulation of the strategy that is the scenario framework in the operation It is composed of the production unit 400.

For example, the production section 400 can be constructed as shown in FIG. Product
As basic components of ® emission section 400, the following each part description
To do. Meta-action 405-flops-production unit 40
Ri bearers der the control of execution control processing performed took within 0, meta attribute information storage unit 404 is responsible for managing and storing various information to be used during the practice of managing execution control meta action 405 process. , Link connection control management unit 4
01 is an optional function that is positioned as a sub-component, and is a link between the direction unit 102 and the resource storage unit 101 via the connection management unit 103 dynamically according to the processing situation, and the direction unit 102.
It manages the connection control such as switching the links between them in the created link structure . Scenario frame
The work compile generation unit 402 includes the control unit unit 10.
Between 0, that is, dynamically compiling a link structure according to the processing status between the direction units 102 and issuing a work instruction to the direction unit 102 based on the strategic knowledge stored in the production unit 400 . Meta war
The abbreviated knowledge storage unit 403 describes a basic concept such as a policy, a method, a strategy, and a strategy to be realized in the production unit 400, that is, a way of thinking of the production unit 400, how to recommend things, how to use various information resources, etc. And store . The meta attribute information storage unit 404 stores various information / parameters that are actually used in real time during execution control management of processing, and attribute information generated based on strategy knowledge stored in the meta strategy knowledge storage unit 403. . The link information storage unit 407 includes a link structure between the direction unit 102 and the resource storage unit 101, information regarding the connection management unit 103, between the control unit units 100,
That is, various information regarding the link structure between the direction units 102 is stored . The inspecting unit 408 inspects and improves whether or not the work requested to each direction unit 102 is uninterrupted and the processing is performed as desired, the appropriateness of the scenario framework created and compiled, and the validity check. Make suggestions . Atget
The commander unit 409 registers request contents such as complaints, complaints, problems, and question items of the resource storage unit 101 corresponding to performers and staff via the direction unit 102, or registers request contents in the direction unit 102. Furthermore, it is the duty of the system to register the requests and request contents of the user of the system, and send an instruction to perform a proper process by prioritizing the registration request items in the judgment of the production unit 400 . The retrieval and extraction storage unit 410 retrieves and extracts each of the constituent elements and information resources that can be used when the scenario framework is compiled and generated, or when attribute information corresponding to operational knowledge rather than strategy knowledge is compiled and generated. When conducting an operation management audit, processing such as searching and extracting attribute information of each component and information resource and registering them in the work storage unit 406 is performed . The transmission / reception unit 411 includes various information resources that are stored in the resource storage unit 101 and are made into parts, and components of the direction unit 102, the resource storage unit 101, the control unit unit 100, the production unit 400, and the like, as necessary. The meta-strategy knowledge storage unit 403 transfers the various information resources and the transferred constituent elements, and transfers the received data between the constituent constituent elements.
The delivery destination of each received data is determined by analysis based on the strategy knowledge in the above or the attribute information in the meta attribute information storage unit 404. For example, transceiver unit 411, or not a, production unit the overall unit portion 100 as the destination 40
Select from the group of control unit departments that 0 manages,
Then, or sent to a direction 102 of the overall unit portion 100, and transferred to the resource storage unit 101, executes make a delivery plan, such as storing as information resource in the resource storage unit 101. Customize section 412
The meta-strategy knowledge storage unit 4 stores various information resources transferred between the respective constituent elements and the respective constituent elements as needed.
03 based on the strategy knowledge and the attribute information in the meta attribute information storage unit 404, for example, built-in in the main body, for example, the control unit unit 100 managed by the production unit 400.
You can replace it as a new direction section 102 ,
It is responsible for customizing the system by incorporating it as a collaborator, updating / reinforcing the information resource in the resource storage unit 101, and adding it as a new control unit unit 100 under the production unit 400 .

Further, the meta-action section 405 is shown in FIG.
As shown in FIG. 4, it can be configured by a global control management unit 420 and a local control management unit 421.

The operation of the configuration described above will be described below.

The information resource management device of the present invention is to construct and operate a system based on a framework of producers, directors, performers / staffs in movies / dramas, etc.
It was invented as an authoring architecture for management. Therefore, the production of a multimedia presentation system will be described as an example. In the information resource management device of the present invention, the producer corresponds to the production unit 400, the director corresponds to the direction unit 102, and the performers / staff correspond to various information resources in the resource storage unit 101.

Extraction of presentation items, production staff (director = direction section 102), request contents of target person, production / demonstration purpose, method, policy, and particularly presentation system such as performers and staff wishing to participate in production section 400. The strategy related to the production and operation of the meta strategy knowledge storage unit 40 of the production unit 400
Described in 3.

The meta-action unit 405 compiles and generates information necessary for system construction into a form that can be used by the production unit 400 while appropriately referring to the described strategy knowledge in the meta-strategy knowledge storage unit 403 and meta-attribute information. The data is stored in the storage unit 404. After that, the production unit 400 starts production planning of the system while referring to the attribute information stored in the meta attribute information storage unit 404.

The global control management section 420 in the meta-action section 405 of the production section 400 first searches and extracts the direction section 102, which is the person in charge of production (director). If the desired direction unit 102 does not exist, the creation is requested to the outside or the user . Extraction
Information such as production contents and policies of each presentation item is provided to the created direction unit 102, and an instruction to start production of the presentation system is given. The direction unit 102 starts production immediately after receiving the above information. In the direction unit 102,
Information resources corresponding to the staff and performers (see the first embodiment) are collected by a method such as reusing the existing resource storage unit 101 that can be used or newly creating. Then, the collected information resources are customized and stored in the resource storage unit 101, and the link management unit 103 creates a link structure between the resource storage unit 101 and the direction unit 102, which is the collection commander, thereby the integrated unit unit 100 is formed. It can be dynamically compiled and generated.

When the general unit section 100 is combined by the above series of operations, the direction section 102
Complies with the instruction scenario (strategy) received from the production unit 400 to compile and generate a demonstration scenario framework using the collected information resources. Then, according to this scenario framework, we will manage the performance of the presentation.

The production unit 400 is a general unit unit 10 which is a demonstration scenario framework for switching / editing each presentation item and interactive presentation according to input information from the user.
A network between 0s is created by referring to the data in the meta-attribute information storage unit 404 in the scenario framework compile generation unit 402, and compile-generated while searching and analyzing each component element and information resource in the search and extraction storage unit 410. The suitability and validity check of the scenario framework is audited by the audit unit 408, and the demonstration control is performed by the link connection control management unit 401 and the meta action unit 405.
The operation management of the presentation system is performed in the agenda unit 409 and the meta action unit 405.
Perform at. The various pieces of information on the created link structure that constitutes the network are stored in the link information storage unit 407 in the production unit 400.

Further, as shown in FIG. 10, according to the instructions from the production section 400A and the production section 400B,
Linking relationships ([a], [b] between the direction unit 102 which is a constituent element of the control unit unit 100A, control unit unit 100B, control unit unit 100X, control unit unit 100Y, control unit unit 100Z. ], [C], [d]), the connection management unit 103 between the direction unit 102 and the resource storage unit 101.
According to the processing status at the time of executing the processing of the network having the link relationship (h, i)
The control unit section 100B is deleted, and the control unit section 100C and the control unit section 100D are newly selected.
Link relationships ([a], [b], [c],
i) is deleted to create a new link relationship ([e], [f], c, t) as shown in FIG.
By customizing 3I, the connection management unit 103R, the connection management unit 103F, and the connection management unit 103G, a newly modified network can be dynamically compiled and generated. That is, the production unit 400 is
Modifying and customizing the system managed by itself as needed, that is, dynamically selecting and controlling links, such as compilation and generation of dynamic link structures and dynamic selection of links within link structures. By implementing the management of, it is possible to manage the execution and operation of the system while adapting to the environment.

Claims and requests from users during operation are appropriately agenda section 40 of production section 400.
9 is registered and the processing is appropriately performed based on the priority order determined by the production unit 400. Complaints from the resource storage unit 101 and the direction unit 102,
Requests are also processed in the agenda unit 409.

Further, according to the judgment and instruction of the direction unit 102, information resources stored in the resource storage unit 101, that is, procedures, componentized procedure groups, procedure groups constituting a scenario framework, and the procedure groups are stored. Sending and receiving knowledge, organization containing data, general-purpose framework of data structure, actual data, objects containing procedures specific to data resources, resource storage unit 101, control unit unit 100, etc., as needed. Part 4
11, the information resource transferred at 11 and received at the transfer destination is transferred to the resource storage unit 101 at the customization unit 412.
The presentation is carried out while performing two-way communication in the form of customization by being incorporated into. Especially, the presentation effect can be systematically improved by changing the presentation method and the like in real time by replacing the constituent elements. When it is possible to spend time, the database unit 60 stores necessary information resources and each component by cooperating work of the production unit 400 and the direction unit 102.
0, the system storage unit 201 can be searched, extracted, transferred to each unit, and combined in the customizing unit 412, whereby the system can be dynamically changed and improved according to the processing situation.

Here, the link relation [a] shown in FIG.
And the link relationship i will be described. This link relationship is
It has a function equivalent to the link shown in the fourth embodiment, and realizes the following various functions. Link relation [a], the information such as the data between the direction section 102, a communication path such as a control signal, such as messages and parameters. Therefore, by following this kind of link, the navigation of the application system is carried out while designating execution or stop of the processing of the direction unit 102. Whenever information is transmitted using this type of link, it is checked by the direction unit 102.

The link relation i is represented by the direction unit 102.
In the communication path between the connection management unit 103 and the connection management unit 103, when the resource storage unit 101 in which the information resource to be used in the direction unit 102 is stored is accessed and various information resources are utilized, Communication used for issuing work instructions, accessing the database, transmitting commands such as data, messages, and control signals to confirm the progress of processing in the resource storage unit 101, and receiving results for the commands. The route is managed by the connection management unit 103.
The command from the direction unit 102 is first stored in the connection management unit 103. In the connection management unit 103, the direction unit 1 that manages the connection management unit 103 for checking and censoring commands and data sent from each link.
Follow the instructions of 02. The permitted command / data is transmitted to the resource storage unit 101 that is the destination. However, the connection manager 103 normally checks and censors the connection manager 103.
Although the processing is independently performed based on the information obtained from the step 2, if a problem occurs, the processing is performed while asking the direction unit 102 to make a decision. Therefore, the latter link can reduce the load on the direction unit 102 more than the former link.

As shown in FIG. 10, the command sent based on the link relation i is first the connection management unit 103R.
Stored, to determine the resources to be sent according to the instruction of the direction unit 102P or direction unit 102Q in connection management unit 103R, for example,
It will be sent to the resource storage unit 101S.

The connection management unit 103 is normally managed by a plurality of direction units 102, and has a unique handling method for commands, data, etc. from each direction unit 102, or a common processing method.
A processing method that can be appropriately used is selected according to the input information, and the information instructed based on the input information is delivered to the destination. For example, even if the same command and data are used, the processing method can be changed according to the direction unit 102 when the direction unit 102 that is the transmission source is changed, or the resource storage unit 101 that is the transmission destination, or The processing procedure can be determined according to various information resources.

Example 6. FIG. 14 is a block diagram of an information resource management device according to the sixth embodiment of the present invention. As shown in FIG. 14, Example 1
~ One or more of the direction unit 102, the resource storage unit 101 described in any of the fifth embodiments,
A plurality of control unit units 100 including a connection management unit 103, a direction unit 102, and a resource storage unit 1
01 or between the direction units 102, a link between the node units 500 and a node unit 500 including one or a plurality of production units 400 that manages the configuration and operation of the associative network having a link structure and integrated editing. However, one or a plurality of network management units 50 that exchange information between the node units 500 and manage the execution control.
It is composed of 1.

For example, as shown in FIG. 15, the network management unit 501 stores a node address management unit 510 that stores or manages the identifier or identification information of the node unit 500, information resources sent by the production unit 400, and each unit. A transmission data management unit 51 that sends information to the node unit 500 that is each destination based on the transmission method instructed by the production unit 400 regarding the transmission information that is a component.
1 and a transmission data storage unit 51 for temporarily storing transmission data
It consists of 2.

By directly linking the production parts 400 in the same node part 500, information can be exchanged between them and the execution control can be managed, and the production parts 400 belonging to different node parts 500 can be connected to each other. With the link structure via the network management unit via the network, it is possible to exchange information between them and manage execution control. Further, in the production unit 400, the transmission / reception unit 411 that exchanges information between the node units 500 as shown in FIG.

The operation of the configuration described above will be described below.

Transmission and reception of information between the node portions 500 can be realized by the following mechanism. The transmission / reception unit 411 of the production unit 400 combines various information regarding transmission such as the form, type, content, destination, transmission timing / schedule, transmission method, etc. of information to be transmitted between the node units 500 into the network management unit 501. Send out. In the network management unit 501, it is temporarily stored in the transmission data storage unit 512. Transmission data management unit 511
Constantly monitors the transmission data storage unit 512 and immediately starts the transmission procedure when the transmission information is registered.
The transmission method is determined by analyzing the data described in the production unit 400. For example, a process chart of the transmission work is created. Create a schedule that tells you when, where and what to send. This is exactly the scheduling of transmission work. When the scheduling is completed, transmission data is created based on the process chart, and the transmission data is sent to the plurality of node portions 500 that are determined to arrive at the scheduled time. Scheduling is performed immediately after data is registered in the transmission data storage unit 512. If the transmission work conflicts at a certain timing, the attribute information attached to the transmission data is checked, priority is determined, and the conflict is resolved to transmit the data as appropriate. The operation described above is performed by the transmission data management unit 511. The destination of the data is determined by searching and extracting from the node address management unit 510. In the production unit 400, it is not necessary to describe a clear destination, any information registered in the node address management unit 510 may be used, and data described as a transmission destination is analyzed in the node address management unit 510. The destination can be determined by setting.

The node 5 which is effective by the above method
Data communication between the nodes 00 can be performed, and the work can be performed while the node portions 500 cooperate with each other. As the data to be transmitted, for example, the system resource, the data resource, and various constituent elements constituting the object resource shown in the first embodiment can be considered.

Example 7. 16 and 17 are block diagrams of an information resource management apparatus according to the seventh embodiment of the present invention. As shown in FIGS. 16 and 17, one or more of
One or a plurality of control unit sections 100 including a direction section 102, a resource storage section 101, and a connection management section 103, a plurality of node sections 500 including one or a plurality of production sections 400 , and one or a plurality of networks The unit of information for bidirectional communication between the management unit 501 and the node unit 500 via the network is appropriately switched, that is, the system resource, the data resource, the object resource, which are the information resources according to the first embodiment, Furthermore, the direction unit 102, the resource storage unit 101,
A transmission / reception unit 411 included in the production unit 400 that selects a communication unit such as the control unit unit 100 and the production unit 400 according to the processing status and transmits by a designated method, and the transmission information is received at the transmission destination and received. A customization unit 412 for dynamically incorporating information resources and components of each unit into the system as needed and customizing them.
Ri I and composed.

The operation of the above-mentioned structure will be described below.

Now, as shown in FIG. 16, the node portion 500M
To direction section 102B and control unit section 100
A series of operations for transferring A to the node section 500N and customizing and fetching it into the node section 500N will be described. First, in the production unit 400C, an information resource to be transmitted in the meta action unit 405 is selected using the data in the meta attribute information storage unit 404, the destination is determined, and the decision items are notified to the transmission / reception unit 411. Upon receiving the command, the transmission / reception unit 411 immediately determines the optimum transmission method, extracts / deletes / processes the transmission data, and sends the transmission data to the network management unit 501. The network management unit 501 stores the received transmission data in the transmission data storage unit 512. Transmission data management unit 511 analyzes the stored transmission data, performs schedule over-ring transmission schedule, and sends the data to the destination according to the schedule. That is, the direction unit 102B and the general unit unit 100A are sent to the node unit 500N which is the transmission destination. In the node section 500N, the transmission / reception section 411 in the production section 400G receives and stores it in the work storage section 406. Then, referring to the strategy knowledge stored in the meta-strategy knowledge storage unit 403 or the attribute information in the meta-attribute information storage unit 404, the meta-action unit 405 examines the method of incorporating into the system and follows the decision items. , The received data is processed and distributed to each department, and the assembling work by customization is performed in the customizing unit 412 as shown in FIG. The direction unit 102B is incorporated in the control unit unit 100S, and the control unit unit 100A is incorporated under the production unit 400G, thereby completing the customization in the node unit 500N. After that, in the node section 500N, it is possible to use the control unit section 100A as one component of the production section 400G and the direction section 102B as a component of the control unit section 100S.

Example 8. FIG. 18 is a block diagram of an information resource management device according to the eighth embodiment of the present invention . About the database section shown in FIG.
Will be described later in detail with reference to FIG. As shown in FIG. 18, this information resource management device, de Irekushon unit 102, a resource storage unit 101, supervising unit 10
0, the production unit 400, the node unit 500, the connection management unit 103, and the like, and individual concepts represented by various information resources constituting the system resources, data resources, and object resources shown in the first embodiment, constituent elements of each unit, and information resources. Attribute information storage unit 123 for storing information such as individual attribute information relating to the entity that constitutes each component, which is referred to when retrieving each component component, attribute information indicating a mutual relationship between each component component and a link structure, and a direction unit. 102, resource storage unit 101, control unit unit 100, production unit 400, node unit 500, network management unit 50
1, a connection management unit 103, a basic component storage unit 602 that stores system resources, data resources, and object resources separately and independently from each other, an internal state of components at the time of processing execution, a link structure, and a process execution history. A progress actual data storage unit 6 that stores the difference by separating the components into units and using the framework of the basic component storage unit 602 as a base.
03, newly compile and generate each part component,
Data to be written in the basic component storage unit 602 and progress actual data storage unit 603 when created by the user is created, or progress actual data of a component at the time of execution of processing is extracted from the component and stored in progress actual data. It is composed of a registration support unit 604 that creates data to be registered in the unit 603, and registers and stores the data in each storage unit.

Further, for example, the basic component storage unit 602
As shown in FIG. 19, a node unit storage unit 610 that stores information about the production unit 400 and the integrated unit unit 100 that configure the node unit 500, a production unit storage unit 611 that stores information about the production unit 400, and a direction unit. Information about the direction unit storage unit 612 that stores information about 102, and information about the resource storage unit 101, for example, various information resources such as system resources, data resources, and object resources described in the first embodiment, and attributes associated with the resource storage unit 101. A resource storage unit storage unit 613 that stores various information related to information and the like, a system that stores the substance of system resources and attribute information of each system resource, for example, information about the resource storage unit 101 to which the system resource belongs. A resource registration / storing unit 614, a data resource registration / storing unit 615 for storing data resource entities or accompanying attribute information, information of object resources or information associated therewith, for example, information about the resource storage unit 101 to which the object belongs, The direction unit 102 that manages the execution control of the object
Object resource registration and storage unit 6 for storing information regarding
16. A network management unit storage unit 61 that stores information about the network management unit 501 and information about the node section 500 managed by the network management unit 501.
7. Management by the management unit registration storage unit 618, which stores information about the control unit unit 100, the direction unit 102 that configures the control unit unit 100, information about the resource storage unit 101, information about the connection management unit 103, and the connection management unit. The connection management unit storage unit 619, which stores information regarding the direction unit 102 and the resource storage unit 101 that are operating, can be configured.

The operation of the above-mentioned structure will be described below.

A new node section 500 and a production section 4 are newly added.
00, direction unit 102, resource storage unit 10
1, it will be described how to register database unit 600 when the components such network management unit 501 is created. The registration support unit 604 clarifies components at various framework levels such as newly created components and various information resources, and registers them in the basic component storage unit 602 at each framework level. For example, the case of the node portion 500 will be described. Nodal point 50
0 is configured by one or a plurality of production units 400 and one or a plurality of integrated unit units 100.

The node unit storage unit 610 has a node unit 5
The identifiers indicating the production unit 400 and the control unit unit 100 that make up 00 are registered.

In the production unit storage section 611, among the constituent elements of the production section 400, an identifier indicating a constituent element unique to the production section 400, the substance of the constituent element, and attribute information are registered.

In the general unit registration / storage section 618, an identifier and attribute information indicating the direction section 102, the resource storage section 101, and the connection management section 103 constituting the general unit section 100 are described.

To the direction unit storage section 612, an identifier indicating the constituent element unique to the direction section 102, which constitutes the direction section 102, its substance, and attribute information, for example, information about the production section 400 already under its control, etc. To store.

The network management unit storage unit 617 stores the identifier of the network management unit 501, its entity, and the node unit 50 managed by the network management unit 501.
An identifier of 0 and network information unique to the system are stored.

To the resource storage unit storage section 613,
The various information resources constituting the resource storage unit 101 are divided into system resources, data resources, and object resources, and identifiers and attribute information indicating each information resource, for example, the general unit unit 100 to which the resource storage unit 101 belongs and the resource storage unit 101. Information about the direction unit 102 that can be linked to is stored.

The connection management unit storage unit 619 stores the identifier of the connection management unit 103 and the substance of the connection management unit 103.

The system resource registration / storage section 614 stores the system resource identifier, its substance, and attribute information described in the first embodiment, for example, information about the resource storage section to which the system resource belongs.

The data resource registration / storing section 615 stores the identifier of the data resource described in the first embodiment, its substance and attribute information, for example, information about the system resource closely related to or actually related to the data resource and its belonging. Stores information related to the resource storage unit in use.

To the object resource registration / storage section 616,
The identifier of the object resource described in the first embodiment, its substance and attribute information, for example, information about the resource storage unit 101 to which the object that is the object resource belongs and information about the direction unit 102 that can manage the execution control of the object. To store.

More specifically, in the case of the object resource, the instance name in which the object is instantiated and the substance of the data (instance) are registered. The methods and inherited classes of an object are defined and managed in the class that manages the object. That is, the component that handles the object resource can be recognized as a general-purpose framework for editing and managing the instance.
Therefore, the action unit 1 of the direction unit 102
In 21, the processing can be executed by selecting an instance stored in the resource storage unit 101 managed and supervised by the direction unit 102 and sending a message via the connection management unit 103. That is, the process is executed in a repeating cycle of instance selection and message transmission. In addition, the resource storage unit 101 also manages system resources and data resources, so that it is possible to easily realize a processing system in which selective execution of a system or procedure stored in a resource and sending of a message to an instance are integrated. [Exactly, the edit management of the object resource by the combination of the constituent elements can be recognized as a CASE tool in the object-oriented which manages the edit of the instance. ]Also,
It is possible to dynamically compile and create a framework that performs integrated editing and operation of objects, that is, instances, according to the processing status of the system. Therefore, management of a large number of instances can be realized systematically.

Further, in order to realize the version management of the processing system, the management of the execution history of the processing, the temporary stop reprocessing of the processing, etc. And the difference with the information already stored in the progress actual data storage unit 603 are appropriately registered in the progress actual data storage unit 603 as necessary.
Register and store through 04. Therefore, it is possible to return to any point in time, and by analyzing the execution history of processing, it is possible to further improve the system performance and problems.

Further, in order to effectively search and reuse the constituent elements and various information resources registered in the database section 600, the attribute information and navigation information associated with the constituent elements and various information resources, etc., are attributed. Information storage unit 1
Register at 23. Therefore, the meta information related to the information stored in the database unit 600 is stored in the attribute information storage unit 123.

Example 9. 20 is a block diagram of an information resource management apparatus according to the ninth embodiment of the present invention. As shown in FIG. 20, this information resource management apparatus includes the attribute information storage unit 123, the basic component storage unit 602 that registers and stores the components and various information resources, and the actual progress data storage that are shown in the eighth embodiment. Part 60
A database unit 600 composed of 3 and a search unit 701 and a search unit for searching the basic component storage unit 602 shown in the eighth embodiment for storing components and information resources in the database unit 600 and collecting target information. Using the components and information resources collected by 701, the resource storage unit 101, the direction unit 102, and the connection management unit 10
3. Compile and synthesize the link structure between the production unit 400, the node unit 500, the network management unit, the direction unit 102 and the resource storage unit 101, the link structure between the direction units 102, and the link structure between the node units 500, and Dynamically compile and synthesize constituent elements at the desired time from the execution history, and
It is composed of a unit synthesis unit 700 including a compile synthesis unit 702 that synthesizes a new system.

The operation of the above-mentioned structure will be described below.

In the unit synthesizer 700, the application system can be compiled and synthesized as follows. The attribute information storage unit 123 stores a unit map in which the logic relationships of the constituent elements are described. The unit map constitutes a constituent element-based scenario framework that constitutes the target application system. A scenario framework is constructed by extracting and combining components from the basic component storage unit 602 of the database unit 600 based on this scenario framework. Then, various information resources a system resource registration storage unit 614, data resource registration storage <br/> 615, object resource registration storage unit 616 constituting the resource storage unit 101 of the created scenario framework, more search unit Search and collected at 701, a resource storage unit 10
1 is synthesized. In particular, the information resource corresponding to the staff and the information resource corresponding to the performer are extracted from the basic component storage unit 602.

Next, in the search unit 701, the progress actual data storage unit 6 is searched for the information resources forming the desired version.
03, the difference is detected, and the target application system is reflected in the information resource and the target application system is compiled and synthesized 702.
Compile and synthesize in.

[0126] For example, direction 102 is if from production unit 400 receives the system configuration command, analyzes the strategy knowledge sent from the production unit 400, the connection management unit with resource storage unit 101 on the basis of the strategy Creation of 103 is started. Resource storage 1
01 and the connection management unit 103 are created by the attribute information storage unit 12
Refer to the attribute information and the unit map described in No. 3, and carry out. Multiple node units 500 and network management unit 5
The system construction by 01 can be configured by compiling and synthesizing based on the information registered in the database unit 600. With the unit map, know-how can be accumulated and reused in the form of a logic (mapping of components) based on the components of the system created in the past and the information resources made into parts.

When the production section 400 receives an instruction to plan, design, and develop an application system,
In order to realize the received instructions, based on the strategic knowledge that we have, construct a scenario equivalent to an execution strategy, procedure, and realization flow for building a system that satisfies the above requirements, and based on this scenario, Database part 6
00, the constituent elements are selected and extracted, and the constituent elements are positively acted on to autonomously operate the resource storage unit 101, the direction unit 102, the general unit unit 100, and the connection management unit. 103, a scenario framework composed of those link structures is constructed, and a real system, real data, and a real instance peculiar to an application field / domain are incorporated and completed in each constituent element constituting this scenario framework.

Also, without using the unit map,
The target system is compiled and compiled by exchanging information with the database unit 600 and searching to compile and synthesize unit 702.
Can be compiled and synthesized in. The operation procedure will be described below. First, in the network management unit storage unit 617, the network management unit 50 suitable for realizing the system to be combined now.
1 is extracted with reference to the attribute information stored in the network management unit storage unit 617, then the information of the node section 500 managed by the network management unit 501 is collected, and based on the information, The node unit storage unit 610 is searched, and each required node unit 500 is searched.
The production section 400 and the control unit section 1
Collect information about 00. Then, the production unit storage unit 611 and the general unit storage unit 618 are searched based on the information. First, in the production unit storage unit 611, a production unit 400 suitable for constructing a target system is extracted. When the production unit 400 is extracted, the production unit storage unit 611 stores information about the system configuration examples produced by the production unit 400 so far.
Node section 5 with reference to the system configuration example
00 or informs the production section 400 of the specifications of the system to be produced, and issues a command to the selected production section 400 to instruct the system configuration to cause the production section 400 to design the system. The required unit unit 100 is selected in the unit storage unit 618 based on the design plan of the node unit 500 created in the above procedure. Information about the direction unit 102, the resource storage unit 101, and the connection management unit 103 that form the overall unit unit 100 is collected together. Collected compatible Direction unit 102 conditions, resource storage unit 101, the connection management unit 103, respectively, Direction unit storage unit 612, resource <br/> over scan storage units storing unit 613, the connection management unit storing portion 619 Collect more. Supervising unit 100 which is more newly configured these operations, supervising unit storage 1
Register at 13 . The target system can be autonomously compiled and synthesized in the database section 600 by searching the database section 600, collecting information, and navigating the compilation procedure by the above procedure.

As described above, the compile synthesis by the unit synthesis section 700 of the application system enables the autonomous system synthesis based on the know-how contained in the constituent elements. It is also possible to unilaterally decide top down and compile and synthesize the system. That is, it is possible to compile and synthesize the system after explicitly designating the link structure and the like in advance.

Example 10. FIG. 21 is a block diagram of an information resource management device according to the tenth embodiment of the present invention. As shown in FIG. 21, the information resource management apparatus includes one or a plurality of database units 600 that store the information resources including the system resources, data resources, and object resources shown in the first embodiment and the control unit unit 100. Strategy information that is included in the direction unit 102 that constitutes the general unit unit 100 described in Example 1 and stores the usage and execution strategy of information resources.
The knowledge storage unit 120 and the control parameter referred to when the direction unit 102 is executed, or the direction unit 1
The attribute information storage unit 1 stores the attribute information related to the control mechanism realized in 02, or the attribute information referred to when searching and reusing the direction unit 102 when compiling a dynamic or static system.
23, and the compilation generates attribute information including the control parameters used during execution management processing of the direction 102 from the stored strategy knowledge strategy knowledge storage unit 120, and storage in the attribute information storage unit 123, the The system includes a system resource, a data resource, and an object resource, which are selected from the database unit 600 to dynamically or statically compile and generate the resource storage unit 101 and the connection management unit 103.

The operation of the configuration described above will be described below.

[0132] The direction unit 102 produces production policy, implementation method, staff to be employed, requests corresponding to the system corresponding to performers, procedures, data structure, actual data, production knowledge such as strategic knowledge and production instructions. receiving from the production unit 400 made over, when stored in strategic knowledge storage unit 120, immediately
Production of the resource storage unit 101 starts. First, the received strategy knowledge is compiled into a form that can be actually realized in the compile generation unit 300 and an available expression format, and stored in the attribute information storage unit 123. If the cooperative play with the production unit 400 is to be realized in a more robust form, at this stage, the auditing unit 4 of the production unit 400 is required.
After the 08 audit, the compilation work is repeated until permission is obtained.

When the inspection section 408 permits, the compile generation section 300 of the direction section 102 starts to formulate the information resource forming the resource storage section 101 based on the attribute information stored in the attribute information storage section 123. . Searching for information resources is performed in the database unit 600. In particular, as soon as an available resource storage unit 101 is found by investigating in the attribute information storage unit 123 of the database unit 600 whether there is any available resource storage unit 101 that has already been created, that resource storage unit 101 is extracted from the basic component storage unit 602 and fetched, and if not, system resources, data resources, and object resources are searched, and usable information resources are extracted. If not, various information resources will be newly created. Furthermore, the integrated unit section 100 that has already been created
If there are any available at, database part 600
Selected from the basic component storage unit 602 inside, and directly incorporated into the resource storage unit 101, and reuse of know-how to execute the system, and the direction unit 102 during operation.
Reduce the work load of. With the above operation, the collection of the parts that make up the resource storage unit 101 is completed.

When the resource storage unit 101 is completed, next, a specific method of using the parts in the resource storage unit 101 is determined. This usage method is called a scenario framework. Therefore, the compilation generation unit 300
Will create this scenario framework and store it in the attribute information storage unit 123. The scenario framework is set up with reference to the attribute information obtained by compiling the hand strategy knowledge received from the production unit 400 .

For example, when constructing a scenario framework for object resources, a method of selecting an instance and a method of giving a message to an instance will be described in a framework called a scenario framework. Then, the process is carried out on a trial basis based on the created scenario framework, the evaluation is requested to the auditing unit 408, and the scenario framework is repeated until the permission is obtained to complete the scenario framework. This is the formulation of the scenario framework. Further subsequently, the direction unit 102 and the resource storage unit 10
The connection management unit 103 having the one link structure is compiled and generated by referring to the attribute information storage unit 123 and the database unit 600.

In this way, the resource storage unit 101,
When the scenario framework and the connection management unit 103 are completed, as soon as the direction unit 102 is commanded to execute the process, the direction unit 102 executes the parts in the resource storage unit 101 according to the usage of the parts according to the scenario framework. Manages control.

[0137]

According to this invention, as described above, according to the present invention,
A mechanism that realizes information resource management, such as how to use and how to use information resources, by clearly separating and separating the mechanism that manages the execution control of information resources consisting of system resources, data resources, and object resources in object-oriented In addition, the system can be realized by clearly dividing it into information resources that have realized operational processing, and effective componentization and reuse is possible.

Further, by providing a general-purpose framework for storing the object resource and the execution control management mechanism by properly using the object resource corresponding to the message sending mechanism, the structuring of the object and the object For example, it becomes easy to clarify meta-level control knowledge about how to send messages.
It is possible to effectively construct an application system by object orientation.

Furthermore, knowledge is given to the link mechanism that connects the information resource and the execution control management mechanism, or the link mechanisms are integrated by implementing a plurality of different link mechanisms, so that the necessary knowledge and link mechanism can be appropriately provided. By autonomously managing information exchange such as proper use, effective processing methods can be appropriately adopted and processing efficiency can be improved in transmission arrangement when a large amount of information is frequently exchanged. it can.

[0140] In addition, were created in the past, information resources and the system integrating by distinctly separated linkage management mechanism of the execution control of the information resources, as an information resource, i.e., the system resources, data resources , Can be handled at the same level as the fourth information resource that is lined up with the object resource.

[0141] Further, by introducing the concept of "type" in the mechanism of managing information resources and execution control, it is possible to easily realize a typology, effective components of the reusable realized .

[0142] Further, it is possible to selectively use as necessary management mechanism for performing execution control of the processing of information resources during the execution of the process suitably dynamically through a link mechanism. Therefore,
The management mechanism in operation can be systematically used to manage another information resource simply by switching the link.

[0143] In addition, the implementation of dynamic compilation generation function of the link structure of the information resources and management mechanism, it is possible to dynamically create the link structure of both without creating a pre-link structure, large Easy development and operation of large-scale and complex systems.

[0144] Also, possible execution control of associative-inquisitive processing based on navigation mechanism links structure, further, between the management mechanism performs execution control information resources and the information resources or between the management mechanism Since it is possible to compile and generate a link structure according to the processing status, dynamic system design can be easily realized without creating a link structure in advance, and large-scale / complex system design and operation management are possible. become.

[0145] In addition, the distributed processing system for performing the combined operational management of integrated and network by a link to information resources that exist between remote locations in the network structure can be constructed easily, its information resources existing in a remote location It is possible to perform remote processing such as operating from the place, issuing work instructions, collecting information, etc.
Operation, system design, development, and operation management are possible without distinction as if they exist in the same place. For example, it is possible to realize an effective system in the fields of electronic conferences, collaborative work support, and groupware.

[0146] Furthermore, remote locations between the information resources exists easily realized construction of a distributed processing system for performing the combined operational management integrates network by a link to a network shape, an information resource to a remote location By sending the agent to the destination by sending the agent to the destination, such as customizing the system at the destination or performing version upgrade using the sent information resources at the destination. In, it is possible to realize the desired processing autonomously.

In addition , by performing distributed management of various systems by a method of distributed management of one system in units of types , parts, modules, or recognition units composed of a plurality of parts / modules, execution history Effective and systematic realization of difference management, version management, and reuse of expert know-how made up of parts and modules created in the past.
Retrieval of information managed in a distributed manner can be easily realized.

In addition , various systems are distributed by a method of managing one system by distributing and disassembling it in units of types , parts, modules, or recognition units of various levels composed of a plurality of parts / modules. By using the registered and stored database, the information necessary for restarting the system whose processing was interrupted can be extracted from the database as appropriate, for example, by specifying the version when restarting and extracting the necessary information. The system can be easily restarted by performing processing such as recompiling the system. Moreover, even when constructing a new system, the resolution of the system is set at a fairly detailed level, which enables effective reuse of parts / modules at various levels of recognition units of parts / modules. .

[0149] In addition, production of the system, know-how related to such operations, for example, heuristic related to such selection method of execution procedures and information resource of information resources, or, principle principle of strategic knowledge and system production or carried out the start of the instruction command Based on, it is possible to immediately compile and generate the attribute information that can be used from the strategic knowledge that I have. For example, in the case of a system production instruction, attribute information such as information resources necessary for producing the system according to the instruction, a search method, a rule of thumb about the design method, etc. A scenario framework corresponding to a resource usage manual can be compiled and generated. Then, in the case of a system production instruction based on the attribute information, an information resource that can achieve the purpose is searched, extracted, and fetched, and the execution control of the information resource is managed. The target system can be compiled and generated by linking with the mechanism. Therefore, by merely inputting the know-how regarding heuristic system production / operation such as an empirical rule as strategic knowledge, the production / operation of the system reflecting the know-how can be realized.

[0150] In addition, during the operation of the system, production or of the new system, if the improvement of the existing system is autonomously performed in the system itself, and checks such as appropriateness and adequacy and suitability of the system actually The effect, problem, etc. when used for, and if there is a problem, create an alternative solution to it, select an alternative and improve it, or compile and generate new function, strategy used It is possible to change the scenario framework by changing the knowledge to something else. Therefore, it is autonomous,
In addition, systematic operation management of information resources becomes possible.

[Brief description of drawings]

FIG. 1 is a block configuration diagram of an information resource management device showing a first embodiment of the present invention.

FIG. 2 is a configuration diagram of a resource storage unit of the information resource management device showing the first embodiment of the present invention.

FIG. 3 is a configuration diagram of a direction unit of the information resource management device showing the first and third embodiments of the present invention.

FIG. 4 is a configuration diagram of an action unit of the information resource management device showing the first and third embodiments of the present invention.

FIG. 5 is a system configuration diagram of an information resource management device showing a second embodiment of the present invention.

FIG. 6 is a configuration diagram of a card synthesizing unit of the information resource management device showing the second embodiment of the present invention.

FIG. 7 is a system configuration diagram of an information resource management device showing a third embodiment of the present invention.

FIG. 8 is a system configuration diagram of a link structure of an information resource management apparatus showing a fourth embodiment of the present invention before compilation generation.

[Fig. 9] Fig. 9 is a system configuration diagram of a link structure of an information resource management device showing a fourth embodiment of the present invention after compilation generation.

FIG. 10 is a system configuration diagram of a link structure of an information resource management device showing a fifth embodiment of the present invention before compilation generation.

FIG. 11 is a system configuration diagram of a link structure of an information resource management device showing a fifth embodiment of the present invention after compilation generation.

FIG. 12 is a configuration diagram of a production unit of an information resource management system showing Example 5 of the present invention.

FIG. 13 is a configuration diagram of a meta action unit in the production unit of the information resource management device showing the fifth embodiment of the present invention.

FIG. 14 is an explanatory diagram of a system configuration of an information resource management device showing a sixth embodiment of the present invention.

FIG. 15 is a configuration diagram of a network control management unit of an information resource management device showing a sixth embodiment of the present invention.

FIG. 16 is an explanatory diagram of a system configuration before transmission of the information resource management device showing the seventh embodiment of the present invention.

FIG. 17 is an explanatory diagram of a system configuration after transmission of the information resource management device showing the seventh embodiment of the present invention.

FIG. 18 is a configuration diagram of a database unit of the information resource management system showing Example 8 of the present invention .

FIG. 19 is a configuration diagram of a basic component storage unit of an information resource management device showing an eighth embodiment of the present invention.

FIG. 20 is a block diagram of an information resource management system showing Example 9 of the present invention.

FIG. 21 is a block diagram of an information resource management system showing Example 10 of the present invention.

[Explanation of symbols]

100 Control Unit 101 resource storage 102 Direction Department 103 Connection manager 113 Control Unit Storage Section 120 Strategy knowledge storage 123 attribute information storage section 200 Creation and editing department 201 unit storage 202 type storage 300 Compile generator 400 Production Department 401 Link connection control management unit 402 Scenario Framework Compilation Generator 403 Meta strategy knowledge storage 404 Meta attribute information storage unit 405 Meta Action Department 406 working storage 407 Link information storage unit 408 Audit Department 409 Agenda Department 410 Search Extraction Storage Unit 500 nodes 501 Network Management Department 600 database section 700 unit synthesis section 701 Search Department 702 Compile synthesis unit

Continued Front Page (56) References Hironobu Abe, Taiji Tsuchida, Mikiro Sasaki, Construction of hypermedia for application integration and application to actual system, Advanced Database System Symposium '93 Information Symposium Proceedings, Japan, Information Processing Society of Japan, December 2, 1993, Vol. 93, No. 9, pp. 37-44 Wendy Hall, Hugh Davis, Hypermedia ink service and the heir application of the information management, inflation management, inflation, management, management, management, and management, 1994. 36, No. 4, p. 197-202 (58) Fields investigated (Int.Cl. ⁷ , DB name) G06F 17/30 170-419 G06F 12/00 547 JISST file (JOIS)

Claims (12)

(57) [Claims] 1. An information resource management apparatus that manages information resources and controls execution of task processing, and has at least one of a set of procedures and an organization in which knowledge information data is included in the set of procedures. An information resource including at least one of a system resource, a data resource having at least one of a data structure and an aggregate of actual data, and an object resource having an object in which a procedure is included in the data resource is stored. A plurality of resource storage units, and one or more direction units that are separate and independent of the plurality of resource storage units, and among the plurality of information resources stored in the plurality of resource storage units, It transmits a control signal for selecting the one or more direction unit for controlling the time of execution of task processing, response to the control signal Together Holding the knowledge information selected Te
And receiving a control signal transmitted from each direction unit of the one or more direction units when executing task processing,
Knowledge of the selected knowledge information in response to received control signals were selected according to the control signal and the control signal thus received
Stores information resources used for task processing based on knowledge information
As the transfer information to be transferred between the resource storage unit that is
The transfer timing of the transfer information is determined, and the received control signal and the information selected according to the control signal are received.
Based on the identification information, a resource storage unit that stores information resources used during execution of task processing is dynamically selected as a transfer destination from the plurality of resource storage units, and the selected resource storage unit and the control signal are transmitted. Dynamically generating a link structure with the direction unit including a link serving as a communication path, and based on the link structure, the resource storage unit selected from the plurality of resource storage units and the direction unit transmitting the control signal. exchanges information with, by the transfer information and transfer timing in the determined, by a row Ukoto via the link as a communication path, between both of said resource storage unit and the direction section
Connection control by properly using the link structure of
Information between both the collection unit and the resource storage unit
An information resource management device comprising: one or more connection management units that manage execution control by exchange . 2. The information resource management apparatus further comprises: each of the plurality of resource storage units, the one or more direction units, and the one or more connection management units as respective constituent elements.
And comprising a plurality of overall units section comprising in at least one of the resource storage unit of said plurality of resource storage unit of a supervising unit section; and a supervising unit storage unit for storing other supervising unit section The information resource management device according to claim 1. 3. The information resource management device further comprises at least one of the respective component elements, with each of the plurality of resource storage units, the one or more direction units, and the one or more connection management units as each component element. A unit storage unit that stores attribute information corresponding to each of the component elements, and a processing structure that is a skeleton of task processing executed by the one or more direction units are used as a framework to define procedures, data, data structures, and objects. constitute the frame <br/> Muwaku of the various parts components using at least one stores at least one of the procedures and data and data structures and objects that make up the framework, a plurality of framework A type that stores multiple identifiers that identify multiple frameworks corresponding to A pay unit, is identified from a plurality of identifiers stored in the type storage unit
The framework is extracted, each of the component elements corresponding to the extracted framework is extracted from the unit storage unit, and each of the extracted component components is modified and changed to the plurality of resource storage units and the one or more directions. 2. The information resource management device according to claim 1, further comprising: a section and a creation / editing section that creates at least one of the one or more connection management sections. Wherein said information resource control device includes a first direction portion, said and a different second direction portion from the first direction portion, the second direction and the first direction portion parts and is stretched link to the same connection management unit, said the first direction the second direction unit from the unit, by transmitting a control signal for controlling the on-off activation of the second direction part, processing status between the connection management unit the direction unit for selecting to perform the control of the processing resources in the resource storage unit which is linked through, said second direction portion and the first direction portion 2. The information resource management device according to claim 1, wherein the information resource management device is switched and used properly according to Wherein said information resource control device further includes the <br/> dynamically searches the direction portion that links to the resource storage unit during the execution of task processing, the connection of the link to generate the link structure 5. The production unit according to claim 1, further comprising: a production unit that dynamically controls the direction unit that performs control when performing task processing to the searched direction unit. Resource management device. 6. The information resource management apparatus further includes the one or more direction units included in each of the plurality of unit units, the information resources included in the plurality of resource storage units, and A first production unit that selects the communication information corresponding to the processing status of the task processing and transfers the selected communication information, using at least one of the overall unit unit itself as communication information, and the first 3. The information resource management apparatus according to claim 2, further comprising a second production unit that receives the communication information transferred from the production unit of 1. and takes in the received communication information for task processing. 7. A plurality of resource storage units for respectively storing information resources, and one or more direction units separate from and independent of the plurality of resource storage units, the one or more directions for controlling execution of task processing. Managing information resources in an information resource management device including a unit, a resource storage unit selected from the plurality of resource storage units, and one or more connection management units for exchanging information with the one or more direction units. In an information resource management method for controlling execution of task processing, a system resource having at least one of a set of procedures and an organization in which knowledge information data is included in the set of procedures, a set of data structure and actual data A data resource having at least one of a body and an object resource having an object including a procedure in the data resource , Each of which stores at least one of the information resources in the plurality of resource storage units, and the one or more direction units use the plurality of information resources stored in the plurality of resource storage units for task processing. By transmitting a control signal for selecting an information resource to the one or more connection management units, the one or more direction units perform control during execution of task processing, and the one or more connection management units, Selected according to the control signal
That holds the knowledge information, the one or more connection management unit receives at least control signals originating from any of the direction of the one or more direction unit during the execution of task processing, the receiving
The knowledge information is selected according to the received control signal , and the one or more connection management units select the received control signal and the received control signal.
Based on the selected knowledge information in response to the control signal, resources
Determine the transfer information to be transferred and the rolling <br/> transmission timing of the transfer information to and from the scan storage unit, the one or more connection management unit, the control signals and the said received
Based on the knowledge information selected according to the control signal, the resource storage unit storing the information resource used when executing the task processing is dynamically selected as the transfer destination from the plurality of resource storage units , The connection management unit dynamically generates a link structure between the selected resource storage unit and the direction unit that has transmitted the control signal, including a link serving as a communication path, and the one or more connection management units include the link structure. Based on the above, the exchange of information between the resource storage section selected from the plurality of resource storage sections and the direction section that has transmitted the control signal is performed by the transfer information determined and the transfer time, and the link serving as a communication path is defined. The one or more connection management units are connected to the direction unit by controlling the
Usage of the link structure between the resource storage and both
Connection control by the key, the direction unit and the
Management of execution control by exchanging information between the two
Information resource management method and performing and. 8. The information resource management device includes the plurality of resource storage units, the one or more direction units, and the one or more connection management units as respective component elements.
Has a plurality of supervising unit parts, including in the information resource management method, the plurality of resource storage unit and said at least one direction portion between the one or more respective portions component respectively and connection management unit
The plurality of overall units section including by, claims, characterized in that at least one of the resource storage unit of said plurality of resource storage unit included in the overall unit portion that stores the other supervising unit section 7. The information resource management method described in 7. Wherein said information resource control device may further store information about the each part component and the said plurality of resource storage unit 1 or more and direction unit the one or more connection management unit as each section components each Executed by the unit storage unit and the one or more direction units
The processing structure that is the framework of the task processing
And a mold storage unit for storing information relating to the framework and over click, the information resource management method, the attribute information corresponding to at least one said respective portions component of the respective parts components to the unit storage portion storing said constitutes the framework for each part component, at least one of the procedures and data and data structures and objects that make up the framework with at least one of the procedures and data and data structures and objects stores in said mold storage section, the plurality of in association with the framework to store a plurality of identifiers identifying the plurality of frameworks in the type storage section, a plurality of identifiers stored in the type storage unit Identified from
The framework is extracted, each of the component elements corresponding to the extracted framework is extracted from the unit storage unit, and each of the extracted component components is modified and changed to the plurality of resource storage units and the one or more directions. The information resource management method according to claim 7, wherein at least one of a copy section and the one or more connection management sections is created. Wherein said information resource control device includes a first direction portion, said and a different second direction portion from the first direction unit, the information resource management method, the first direction tension links from the same connection management section to the said second direction section parts, the <br/> the first direction the second direction portion from portion, the second direction of the start of the on-off by sending a control signal for controlling, the direction section which selects to execute the control of the processing resources in the resource storage unit which is linked through the connection management unit, the said first direction portion 8. The information resource management method according to claim 7, wherein the information resource management method is switched between the second direction unit and the second direction unit according to a processing situation. Wherein said information resource control method further before
Serial the direction unit to link to the resource storage unit dynamically retrieved during the execution of task processing, the performing link structure produced by the connection control link, the direction section for controlling the time of execution of task processing The information resource management method according to any one of claims 7 to 10, wherein the searched direction section is dynamically switched. 12. The information resource management device is further included in each unit of the plurality of unit units.
The one or more direction units and the plurality of resources
Information resources included in the storage unit and each of the control unit units
As its own and the communication information at least one of has a first production unit for transferring the communication <br/> signal information, and a second production unit for receiving the communication information, the information resource management method Is, by the first production unit, selects the communication information corresponding to the processing status of the task processing, transfers the selected communication information to the second production unit, in the second production unit, 9. The information resource management method according to claim 8, wherein the transferred communication information is received, and the received communication information is fetched for task processing.