KR101289166B1 - Engineering products management system and operating method thereof - Google Patents

Abstract

The present invention relates to an engineering output management system for automatically generating Bill of Materials (BOM) code and BOM files for engineering outputs and a method of operation thereof. Engineering output management system according to an embodiment of the present invention, the engineering work environment information monitoring engine for monitoring the engineering work environment information, when the engineering output is generated, the generated engineering based on the monitored engineering work environment information A BOM code generation engine for generating a BOM code of a product, an engineering work area analysis engine for extracting a classification code related to an engineering work area from a database based on the engineering work environment information, and a database based on the engineering work environment information. The engineering business step analysis engine extracts a classification code associated with an engineering business step, and the engineering code by combining a classification code associated with the engineering business area and a classification code related to an engineering business step. And a classification code generation engine for generating a final classification code of a product, wherein the BOM code generation engine generates the BOM code based on the generated final classification code.

Description

ENGINEERING PRODUCTS MANAGEMENT SYSTEM AND OPERATING METHOD THEREOF}

TECHNICAL FIELD The present invention relates to an engineering output management system, and more particularly, to an engineering output management system for automatically generating Bill of Materials (BOM) code and a BOM file for an engineering output and a method of operating the same.

In the engineering industry, Bill of Materials (BOM) is a tool for systematic management of engineering deliverables, and BOM codes play an important role as information indexes for efficient retrieval and recycling of engineering deliverables.

In the conventional engineering industry, when managing engineering artifacts, a BOM file is manually generated and a classification code of the BOM file is manually written based on the designer's learning knowledge. Accordingly, the designer has to learn the classification code in advance, and there is a problem of re-learning a new classification code to reflect this whenever the version of the classification code is updated.

There is a need in the art for an engineering output management system and an operation method thereof for automatically generating BOM codes and BOM files for engineering outputs.

In order to solve the said subject, 1st aspect of this invention provides an engineering output management system. The engineering output management system includes an engineering work environment information monitoring engine that monitors engineering work environment information and a bill of materials (BOM) of the generated engineering work based on the monitored engineering work environment information when an engineering work product is generated. Bill of Materials) code generation engine for generating code, an engineering work area analysis engine for extracting classification codes related to engineering work areas from a database based on the engineering work environment information, and a database based on the engineering work environment information The engineering business step analysis engine extracting a classification code associated with an engineering business step in the; and the engineering code by combining a classification code related to the engineering business area and a classification code related to an engineering business step Including a classification code generation engine for creating the final classification code chulmul, where the BOM code generating engine is characterized in that the generating of the BOM code based on the generated final classification code.

A second aspect of the present invention provides a method of operating an engineering output management system. The operation method may include a process in which an engineering work environment information monitoring engine monitors engineering work environment information and, when an engineering output is generated, a BOM code generation engine based on the generated engineering work environment information. The process of generating the BOM code of the output, the process of the engineering work area analysis engine, extracting the classification code related to the engineering work area from the database based on the engineering work environment information, the engineering work phase analysis engine, the engineering work A process of extracting a classification code related to an engineering work step from a database based on environmental information, and a classification code generation engine combines the classification code related to the engineering work area and the classification code related to an engineering work step. Comprising the step of generating the final output code be of engineering, where the BOM code being generated based on the generated final classification code.

In addition, the solution of the above-mentioned problems does not list all the features of the present invention. The various features of the present invention and the advantages and effects thereof will be more fully understood by reference to the following specific embodiments.

An engineering output management system and method of operation thereof may be provided for automatically generating BOM code and BOM files for engineering outputs.

1 is a block diagram showing the configuration of an engineering output management system according to an embodiment of the present invention;
2 is a flowchart illustrating an operation method for automatically generating a BOM code and a BOM file for an engineering output in an engineering output management system according to an embodiment of the present invention;
3 is an exemplary diagram showing a format of a BOM file for an engineering output of an engineering output management system according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, the present invention describes an engineering output management system for automatically generating a bill of materials (BOM) code and a BOM file for an engineering output and a method of operating the same. Particularly, the present invention provides an engineering output management system for monitoring engineering work environment information and automatically generating a BOM code and a BOM file of the generated engineering work based on the monitored engineering work environment information when an engineering work product is generated. And a method of operation thereof. Through this, the present invention can systematically manage the BOM file in the engineering industry, and dynamically reflects this even when the classification code is changed later, thereby automatically generating a BOM code suitable for the new classification code.

1 is a block diagram showing the configuration of an engineering output management system according to an embodiment of the present invention.

As shown, the engineering output management system includes a client device 100 and an engineering output BOM generation device 110. The client device 100 includes an engineering work environment information transmission engine 102, and the engineering output BOM generating device 110 includes an engineering work environment information monitoring engine 112, an engineering work area analysis engine 114, and engineering Business step analysis engine 116, classification code generation engine 118, BOM code generation engine 120, BOM file generation engine 122, BOM file transmission engine 124, BOM file storage engine 126, BOM code Linking information extraction engine 128, unclassified engineering work environment information analysis engine 130.

Referring to FIG. 1, the client device 100 may be implemented as, for example, a personal PC, and engineering tools and software in the client device 100 may be executed by a worker and used to perform engineering work. . An engineering output is generated as a result of performing the engineering work.

The engineering work environment information transmission engine 102 in the client device 100 recognizes the generation of an engineering work product, extracts the engineering work environment information of the generated engineering work product, and then outputs the engineering work environment information monitoring engine through a communication network. Send to 112. Here, the engineering work environment information includes at least one of a file extension of the engineering output, a creation date and time, a type of engineering tool and software used, a file name, and operator information.

The engineering output BOM generating apparatus 110 monitors engineering work environment information and, when an engineering work product is generated, generates a BOM code and a BOM file of the generated engineering work product based on the monitored engineering work environment information. .

The engineering work environment information monitoring engine 112 in the engineering output BOM generating device 110 monitors engineering work environment information transmitted through a communication network, and monitors the monitored engineering work environment information in the engineering work area analysis engine ( 114) and engineering task analysis engine 116, respectively.

The engineering work area analysis engine 114 automatically extracts a classification code related to an engineering work area (ie, a work area) from a database based on the engineering work environment information. If one or more classification codes are extracted, the engineering work area analysis engine 114 may combine the extracted one or more classification codes. In this case, the classification codes overlapping through the union function may be combined to include only one. In addition, as an option, the classification code combination may further include a file name, a creation date and time, operator information, and the like, in addition to the extracted one or more classification codes.

The engineering work area analysis engine 114 may include a definition file defining a classification code related to an engineering work area, and an engineering work environment information and a classification code used in various engineering tasks to extract a classification code related to an engineering work area. You can refer to the mapping table. The definition file and the mapping table are stored in a database and can be updated periodically. If the classification code associated with the engineering work area cannot be extracted, that is, if the classification code associated with the engineering work area is not defined in the definition file, the engineering work area analysis engine 114 determines the engineering work. The environmental information monitoring engine 112 transmits a message indicating that the storage environment is inadequate to the engineering work environment information transmission engine 102 in the client device, thereby allowing the operator to reset the file name of the engineering output and the engineering work environment. You may be asked to save.

The engineering work stage analysis engine 116 automatically extracts a classification code related to an engineering work stage from a database based on the engineering work environment information. That is, the engineering work stage analysis engine 116 recognizes the engineering work stage by referring to the engineering research project schedule file in the database based on the creation date and time information of the engineering output among the engineering work environment information, and the recognized Extract classification codes related to engineering work steps. If one or more classification codes are extracted, the engineering task analysis engine 116 may combine the extracted one or more classification codes. In this case, the classification codes overlapping through the union function may be combined to include only one. For example, the engineering work stage may include a common stage, an investigation / analysis / review stage, a conceptual design stage, a basic design stage, a detailed design stage, a manufacturing and purchasing stage, a construction stage, a trial run and a testing stage, a task and a research termination stage. And the like. The engineering task stage analysis engine 116 may refer to a definition file that defines a classification code related to the engineering task stage, in order to extract the classification code associated with the engineering task stage. The definition file is stored in a database and can be updated periodically.

The classification code generation engine 118 generates a final classification code of the engineering output by combining the classification code associated with the engineering work area and the classification code associated with an engineering work step. In this case, the classification codes overlapping with the union function may be combined to include only one, or the combination codes may be combined without the elimination of duplicate classification codes through the full union function. Here, in combining the classification codes, the union function, the pool union function, and various other combination functions may be dynamically changed and selected. In addition, the classification code generation engine 118 may set the depth level of the final classification code, and may set in advance which number of classification codes in the combined classification code to use as the final classification code. The final classification code may be generated at the same time while the relevant engineering work is performed at the same time.

The BOM code generation engine 120 generates a BOM code of the generated engineering output based on the generated final classification code. Here, the BOM code generation engine 120 may refer to the mapping table between the final classification code and the BOM code to generate the BOM code. In addition, the BOM code generation engine 120 may separate and organize related final classification codes for the final classification codes from the classification code generation engine 118 and may be related to one BOM code. Several BOM codes can be linked and managed and maintained. The BOM code generation engine 120 may link the BOM codes based on a classification code related to an engineering work step, and such linking criteria may be dynamically changed and selected. The information about the BOM code linking may be reported as a document to an engineering worker by the BOM code linking information extraction engine 128.

The BOM file generation engine 122 generates the BOM file of the engineering output by setting the generated BOM code as a file name.

The BOM file transmission engine 124 transmits the generated BOM file to the client device, so that a worker can use the BOM file for engineering output management and work. Here, the delivery medium of the BOM file may be a mail, an in-house messenger system, or a document management system.

The BOM file storage engine 126 stores the generated BOM file in a database. Accordingly, the operator can search and manage the desired BOM file in the database, analyze what BOM files have been created, and use it as information data for future system upgrades. Frequency can be analyzed.

The unclassified engineering work environment information analysis engine 130 does not have a classification code associated with the engineering work area and an engineering work step, that is, a classification code associated with the engineering work area and an engineering work step does not exist in a database. In the case, the engineering work environment information monitoring engine 112 receives engineering work environment information, and automatically generates a new classification code that does not exist in the database based on the received engineering work environment information, the generated new classification code Save it to the database. In this case, the unclassified engineering work environment information analysis engine 130 may refer to engineering term definitions and Korean-English dictionary information in a database to generate a new classification code.

Although not shown, the database stores and manages a definition file defining a classification code related to an engineering work area and a definition file defining a classification code related to an engineering work step. The definition files can be updated periodically, and accordingly, the classification files related to the engineering work area and the work stage can be dynamically reflected in the future. In addition, there may be several definition files, and it is possible to set in advance which definition file to use. In addition, the database stores and manages a mapping table between engineering work environment information and classification codes used in various engineering tasks, engineering research project schedule files, engineering term definitions and Korean-English dictionary information, and BOM files.

2 is a flowchart illustrating an operation method for automatically generating a BOM code and a BOM file for an engineering output in an engineering output management system according to an exemplary embodiment of the present invention.

Referring to FIG. 2, when an operator generates an engineering output using engineering tools and software in a client device, the engineering work environment information transmission engine 200 in the client device recognizes generation of the engineering output (201). In step 203, the engineering work environment information of the generated engineering output is extracted and transmitted to the engineering work environment information monitoring engine 202 in the engineering output BOM generating device through the communication network (step 203). Here, the engineering work environment information includes at least one of a file extension of the engineering output, a creation date and time, a type of engineering tool and software used, a file name, and operator information.

The engineering work environment information monitoring engine 202 monitors engineering work environment information from the engineering work environment information transmission engine 200 through a communication network, and uses the monitored engineering work environment information as the engineering work area analysis engine 204. And the engineering task stage analysis engine 206 (steps 205 and 207).

The engineering work area analysis engine 204 automatically extracts a classification code related to an engineering work area (ie, work area) from a database based on the engineering work environment information (step 209), and extracts the extracted engineering work area from the database. The associated classification code is transmitted to the classification code generation engine 208 (step 213). If one or more classification codes are extracted, the engineering work area analysis engine 204 may combine the extracted one or more classification codes and transmit them to the classification code generation engine 208. In this case, the classification codes overlapping through the union function may be combined to include only one. In addition, as an option, the classification code combination may further include a file name, a creation date and time, operator information, and the like, in addition to the extracted one or more classification codes.

For example, when the engineering work environment information includes a file extension associated with a computer programming language such as ".c", ".cpp", or ".java", the engineering work area analysis engine 204 may automatically The engineering work area may be recognized as a computer part, and a classification code COM (Computer) corresponding to the computer part may be extracted. As another example, when the engineering work environment information includes a file name and a file extension of "playing machine design drawing.iam", the engineering work area analysis engine 204 may select a machine from a file name of "playing machine design drawing." Recognizing that it is a design drawing of a facility part, extracting a classification code MEC (Mechanic) corresponding to the facility part, and recognizing that it is a design drawing using an inventor tool, which is an engineering commercial CAD tool, from a file extension of "iam", The classification code INV (Inventer) corresponding to the tool can be extracted. In addition, the engineering work area analysis engine 204 extracts a classification code DES (Design) corresponding to "design" and a classification code DRW (Drawing) corresponding to "drawing" from the file name "playing machine design drawing". can do. In this case, the engineering work area analysis engine 204 generates a classification code combination called "MEC-DES-DRW-INV-playing machine design drawing-creation date and time-worker information" to generate a classification code generation engine 208. Can be sent.

The engineering work stage analysis engine 206 automatically extracts a classification code associated with an engineering work stage from a database based on the engineering work environment information (step 211), and classifies the classification code associated with the extracted engineering work stage. The code is sent to the code generation engine 208 (step 215). That is, the engineering work stage analysis engine 206 recognizes the engineering work stage by referring to the engineering research project schedule file in the database based on the creation date and time information of the engineering output among the engineering work environment information, and recognizes the Extract classification codes related to engineering work steps. If one or more classification codes are extracted, the engineering work stage analysis engine 206 may combine the extracted one or more classification codes and transmit them to the classification code generation engine 208. In this case, the classification codes overlapping through the union function may be combined to include only one. For example, the engineering work stage may include a common stage, an investigation / analysis / review stage, a conceptual design stage, a basic design stage, a detailed design stage, a manufacturing and purchasing stage, a construction stage, a trial run and a testing stage, a task and a research termination stage. And the like. The engineering research project schedule file plans an engineering work step by date and time, and therefore, the engineering work step analysis engine 206 may recognize the step of the engineering work through the creation date and time information of the engineering output. have. For example, if the generation time of the file " playing machine design drawing.iam " described above corresponds to the detailed design stage, the engineering work stage analysis engine 206 may classify the classification code " DE (Design)- DD (Detailed Design) "may be extracted.

The classification code generation engine 208 combines the classification code associated with the engineering work area and the classification code associated with an engineering work step to generate a final classification code of the engineering output (step 217), and generates the final classification code. To the BOM code generation engine 210 is transmitted (step 219). In this case, the classification codes overlapping with the union function may be combined to include only one, or the combination codes may be combined without the elimination of duplicate classification codes through the full union function. Here, in combining the classification codes, the union function, the pool union function, and various other combination functions may be dynamically changed and selected.

For example, the classification code generation engine 208 may simply combine a classification code associated with the engineering work area and a classification code associated with an engineering work step to designate a "DE-DD-MEC-DES-DRW-INV-playing machine design. And a classification code of "drawing-generation date and time-business information" may be primarily generated. Here, since "DE" and "DES" representing a design are overlapped, the classification code generation engine 208 removes "DES" through a union function from the primarily generated classification code, so that "DE-DD-MEC- The classification code "DRW-INV-Performance Drawing Design-Creation Date & Time-Operator Information" can be finally generated. Alternatively, the primary generated classification code may be used as a final classification code without removing duplicate classification codes through a pool union function.

The BOM code generation engine 210 generates a BOM code of the generated engineering output based on the generated final classification code (step 221), and transmits the generated BOM code to the BOM file generation engine 212. (Step 223).

The BOM file generation engine 212 generates the BOM file of the engineering output by setting the generated BOM code as a file name (step 225). The BOM file generated as described above is transmitted to the client device through a BOM file transmission engine. Here, the BOM file includes a specification part and a detailed information tree part as shown in FIG. 3. The specification part includes the classification code related to the engineering work area and the work stage of the engineering output, the file name of the engineering output, the main function, the main characteristics, the version, and the name of the corresponding equipment, device, system and module of the engineering output. The detailed information tree part includes upper and lower level structures of corresponding equipment, apparatus, systems, and modules of the engineering output.

Although not shown, in step 209 and 211, if the classification code associated with the engineering work area and engineering work step is not extracted, the unclassified engineering work environment information analysis engine is engineered from the engineering work environment information monitoring engine 202. The work environment information is received, and a new classification code which does not exist in the database can be automatically generated based on the received engineering work environment information and stored in the database. In this case, the unclassified engineering business environment information analysis engine may refer to an engineering term definition and Korean-English dictionary information in a database to generate a new classification code.

For example, a classification code corresponding to a file extension of an engineering output may be generated in the engineering work environment information. In addition, the keyword is parsed from the file name of the engineering output of the engineering work environment information, and the English of the keyword is extracted by referring to the Engineering Glossary Definition and the Korean-English dictionary information, and then the new classification code is written in two or more letters. Can be generated. If a file name includes English as a keyword, a new classification code may be generated with two or more letters in the English keyword. Also, if keyword extraction from a file name is not meaningful, the keyword is not extracted from the file name. The new classification code generated as described above is compared with the existing classification code included in the definition file in the database. If the generated new classification code does not exist in the existing classification code, the new classification code is added to update the definition file in the database. . If the generated new classification code exists in the existing classification code, a new classification code that does not exist in the existing classification code is generated by increasing the number of English letters constituting the classification code or performing keyword reparsing. The comparison with the existing classification code is repeated until As such, when the classification code associated with the engineering work area and engineering work step is not extracted, the engineering work environment information is automatically generated by storing a new classification code that does not exist in the database based on the engineering work environment information. The classification code information set corresponding to can be automatically extended.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: Client device
102: engineering environment information transmission engine
110: engineering output BOM generation device
112: engineering environment information monitoring engine
114: Engineering Workspace Analysis Engine
116: Engineering business phase analysis engine
118: classification code generation engine
120: BOM code generation engine
122: BOM file generation engine
124: BOM File Send Engine
126: BOM file storage engine
128: BOM code linking information extraction engine
130: Unclassified engineering work environment information analysis engine

Claims (9)

An engineering work environment information monitoring engine for monitoring engineering work environment information;
Bill of Materials (BOM) code generation engine for generating a bill of materials (BOM) code of the generated engineering output based on the monitored engineering work environment information when an engineering output is generated,
An engineering work area analysis engine for extracting a classification code related to an engineering work area from a database based on the engineering work environment information;
An engineering business step analysis engine for extracting classification codes related to engineering business steps from a database based on the engineering work environment information;
A classification code generation engine for generating a final classification code of the engineering output by combining a classification code related to the engineering work area and a classification code related to an engineering work step;
Here, the BOM code generation engine is an engineering output management system, characterized in that for generating the BOM code based on the generated final classification code.
The method of claim 1,
The engineering work environment information, engineering output management system including at least one of the file extension of the engineering output, the creation date and time, the type of engineering tools and software used, the file name, the operator information.
The method of claim 1,
And an engineering work environment information transmission engine in a client device that recognizes the generation of the engineering work product, extracts engineering work environment information of the generated engineering work product, and transmits the engineering work environment information to the engineering work environment information monitoring engine.
The method of claim 3, wherein
If the classification code related to the engineering work area and engineering work step is not extracted, the engineering work environment information is received from the engineering work environment information monitoring engine, and a new nonexistent database is not present in the database based on the received engineering work environment information. An unclassified engineering business environment information analysis engine generating a classification code and storing the generated new classification code in a database;
A BOM file generation engine configured to generate the BOM file of the engineering output by setting the generated BOM code as a file name;
Engineering output management system further comprises a BOM file transmission engine for transmitting the generated BOM file to the client device.
The process of monitoring the engineering work environment information engine,
Bill of Materials (BOM) code generation engine when the engineering output is generated, generating a BOM code of the generated engineering output based on the monitored engineering work environment information,
An engineering work area analysis engine extracts a classification code related to an engineering work area from a database based on the engineering work environment information;
An engineering business step analysis engine extracts classification codes related to engineering business steps from a database based on the engineering work environment information;
A classification code generation engine combining the classification code associated with the engineering work area with the classification code associated with an engineering work step to generate a final classification code of the engineering output;
The BOM code is generated based on the generated final classification code.
The method of claim 5, wherein
The engineering work environment information may include at least one of a file extension of the engineering output, a creation date and time, a type of engineering tools and software used, a file name, and operator information.
delete The method of claim 5, wherein
If the classification code associated with the engineering work area and the engineering work step is not extracted, the unclassified engineering work environment information analysis engine generates a new classification code that does not exist in the database based on the engineering work environment information. The method of operating an engineering output management system further comprising the step of storing the new classification code in a database.
The method of claim 5, wherein
Generating, by a BOM file generation engine, a BOM file of the engineering output by setting the generated BOM code as a file name;
The BOM file transmission engine further comprises the step of transmitting the generated BOM file to a client device.

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