KR20020039901A - Agent-based multi-processing analysis, automatic design, and engineering management information system and method thereof - Google Patents

Abstract

PURPOSE: A system and method for interpreting multi process, automating design, and managing design are provided to share and reuse the design information by integrating an interpretation solution and a design automation solution with respect to a material being processed on the Internet and linking the solutions with a design management information DB. CONSTITUTION: A user DB(322) stores member information and connection information according to users registered by a Hierarch structure. An engineering DB(323) stores basic element information and automatic design information necessary for a calculation according to work solutions. A design management information DB(324) stores work details according to solutions used by a user and work information which is a work result per each project. A processing unit comprises a certification unit(312), an interpretation unit(313), a design unit(314), a design management information unit(315), and a back end processor(316) and makes a user operate a corresponding work by inputting selecting one solution work and inputting corresponded input information. The processing unit transmits a control during an interpretation or design work to different work, and makes each processed work result into input information compatible to other work. The processing unit makes previously processed interpretation work information or design work information into input information as it is or by a modification in an interpretation or design work, and performs an interpretation or a design of new material based on basic element information and automatic design information of the engineering DB(323) and work information of the design management information DB(324), and updates the work information of the interpretation, a design automation, and design management information in the design management information DB(324).

Description

Agent-based multi-process analysis, design automation, and design management information system on the Internet and its method {AGENT-BASED MULTI-PROCESSING ANALYSIS, AUTOMATIC DESIGN, AND ENGINEERING MANAGEMENT INFORMATION SYSTEM AND METHOD THEREOF}

The present invention relates to a system and method for providing a relay service for fluid analysis, design automation, and design management information on the Internet, and more particularly, to an agent-based analysis, design automation, and design management information service over the Internet. The present invention relates to a system and a method for executing the multi-process.

In the analysis, design, and design management information service related to fluids, especially civil structures, building structures, and mechanical design, the user finally manages drawings, specifications, specifications, etc. as a project, It is hoped that information sharing will be closely performed in real time to reduce the loss of work as much as possible. However, in practice related to the fluid design, much effort has been spared to carry out a given design task at a given time, but excessive workload and inefficiency of the task are always a problem, and the development of computers and the technologies thereof are advanced. Accordingly, efforts to eliminate such inefficiencies and to design more economically, safely and more conveniently are increasing.

Typically, the analysis and design of fluids is managed as a project and consists of several steps. For example, in order to calculate the drawings, specifications, etc. necessary for the construction site based on the design of the structure of the bridge, etc., first, the general dimensions of the object to be designed in the section assumption step are assumed, and second, the load calculation step is assumed. Calculate the load applied to or applied to the object. Third, model the object and its load in the modeling stage. Fourth, in the analysis stage, apply the numerical analysis technique based on the model and the load modeled above. The stability is determined by calculating the forces to be performed. Fifth, in the design stage, calculations are performed in the main processor to determine the amount of elements to be assembled and the methods of assembly against the forces obtained in the previous stage. After this, drawings, specifications, and details are calculated based on various and complicated calculations in the design process.

In the above, the load calculation step is generally performed by fragmented formulas and in practice these sheets are usually used as needed to make these processes repeated using "MS Excel". The analysis step is carried out using a commercial numerical program. Numerical analysis generally includes finite element method (FEM), finite differential method (FDM), and boundary element method (BEM). At this time, the numerical program calculates more than imagined, and many models run more than 24 hours on a Pentium-class personal computer. In the above load calculation step and analysis step, the difficulty and efficiency of the work are determined by the specific gravity. Some structures have 90% analysis and 10% calculation, and some have 10% analysis and 90% calculation. In view of the increase in efficiency, it is reasonable to separate these tasks in practice, but the domestic design environment still employs the above two steps. In addition, the process of creating drawings and statements based on the analysis results is mostly done by hand or using simple macros, but there are few integrated systems for generating drawings or statements, and the analysis results are inputted and designed in connection with the drawings and statements. Almost no system can be automated.

Conventional conventional fluid design fields, as described above, require independent installation processes because the analysis or design automation solutions for fluids, ie civil structures, building structures, and mechanical designs are built independently, and each solution is designed to share information. You need an interface. Therefore, although it can be applied to the design stage manually by using the data obtained through the analysis, there are few kinds of outputs for the basic forms required for the construction such as drawings, statements, and specifications for civil engineering or building structures, and there are many restrictions.

In addition, since the Engineering Management Information System (EMIS) is not established in the related art, the results of each solution are not integrated and managed, and thus similar flows must be repeatedly processed, especially in the construction industry. The sharing of design changes made at construction or supervision sites was time-consuming and resulted in a loss of work because of the inconsistent data.

Therefore, in order to solve the above problems, the present invention integrates an analysis solution and a design automation solution related to a fluid on the Internet and links it with a design management information DB, thereby enabling the sharing and reuse of design information, and analyzing each of them. In addition, the design process dispatcher enables control to be transferred to the desired solution, allowing work to proceed, thereby overcoming the limitations of space and time, maximizing the productivity and management capabilities of design-related engineering tasks to build the construction CALS infrastructure.

1 is a block diagram of a multi-process analysis, design automation and design management information system on the Internet according to an embodiment of the present invention.

2 is a block diagram illustrating a configuration diagram of an analyzer according to an exemplary embodiment of the present invention.

3 is a block diagram showing the configuration of an automatic design machine according to an embodiment of the present invention.

4A, 4B, and 4C are flowcharts illustrating an operation flow of a multi-process analysis, design automation, and design management information system on the Internet according to an embodiment of the present invention.

In order to achieve this technical problem, the multi-process analysis, design automation and design management information system according to the characteristics of the present invention, a system that enables the multi-process relaying of the analysis, design automation and design management information service of the fluid on the Internet A user DB for storing member information and access information for each user registered in a high key structure; An engineering DB that stores basic element information and automatic design information required for calculation for each work solution; A design management information DB, which stores work information for each solution used by the user and work information which is a work result for each project; And a user registered in the user DB connects to a service using device, selects one of solution solutions of fluid solution, design automation solution, and design management information solution, and inputs corresponding input information to perform corresponding solution work. During the analysis or design work, control is transferred to different tasks so that the results of each task can be input information compatible with the different tasks. (B) By designing or changing design work information as input information, new fluids are analyzed and designed based on the basic element information of the engineering DB, automatic design information, and work information of the design management information DB. , Design automation and design management information services It includes a processing unit for updating the up information to the design management information DB.

The processing unit accesses an analysis solution through a service using device, selects a desired kind of fluid analysis, and inputs input information required for analysis, and thus, basic element information of the engineering DB and work information of the design management information DB. By dividing into the elements according to the, the analysis results for the fluid through the numerical analysis technique is extracted and displayed on the user's service using device, the analysis operation information is sent to the back-end processor to update the design management information DB It includes an interpreter to say.

The processing unit may access the design automation solution through a service using device, select a desired type of fluid design, and input input information required for the design, and the automatic design information of the engineering DB and the design management information DB work information. With reference to the design of the fluid through the calculation in the main processor for each fluid to display the output information to the user of the service using device, the design work information is sent to the back-end processor to update the design management information DB It further includes a design unit.

The processing unit, when the user accesses the design management information solution through the service using apparatus to select the design management information of the desired project, and extracts the corresponding job information from the design management information DB to display on the service using apparatus of the user, The design DB may further include a design management information unit configured to add a product to the extracted work information based on the engineering DB so that the user can manage the design work in an integrated manner and update the result in the design management information DB. .

In order to analyze the new fluid, the user connects to the analysis solution through a service using device, selects a desired fluid analysis, and changes the analysis work information that has been performed as it is or inputs the information. The information is divided into basic elements of the engineering DB and elements according to the work information of the design management information DB, and the analysis information is extracted by analyzing the new fluid through calculation by a numerical analysis technique.

In order to design a new fluid, the user connects to a design automation solution through a service using device, selects a desired fluid design, and changes the already performed design work information as input information. With reference to the automatic design information of the engineering DB and the operation information of the design management information DB, it is characterized in that the output information is extracted by the new fluid is designed through the calculation in the main processor for each fluid.

The design management information unit is characterized in that the operator can access to modify or add the basic element information and the automatic design information stored in the engineering DB.

The output information includes a drawing, a specification, a description, and the like.

The type of design management information service includes management of the design management information DB such as project management, drawing management, specification management, statement management, search of the engineering DB for the user, engineering DB management for the operator and user-defined data management. It features.

Accordingly, in the multi-process analysis, design automation, and design management information system according to an embodiment of the present invention, a user registered in the user DB is connected to a service using device, and an analysis solution, design automation solution, and design management information about fluids are provided. By selecting any one of the solution tasks and inputting the corresponding input information, you can work on the corresponding solution, and during the analysis or design work, the control results are transferred to the different tasks, and the result of each task is applied to the different tasks. It can be compatible input information, and in the analysis or design work, the analysis element information or design work information already performed is changed or input as input information, so the basic element information of the engineering DB, automatic design information, and design management information New fluids based on job information in DB Allow analysis and design to take place.

Multi-process analysis, design automation and design management information service building method according to the characteristics of the present invention, analysis, including a relay device for relaying the fluid analysis, design automation and design management information service in a multi-process on the Internet, Through the design automation and design management information system, a user can multi-process work on fluid analysis, design automation and design management information service.

(a) As the user accesses the relay device as a service using device, selects any one of an analysis solution for fluids, a design automation solution, and a design management information solution, and inputs corresponding input information. Allowing the user to work with the solution; And

(b) allowing the relay device to transfer control to different tasks during the work in the analysis solution or design solution so as to be input information compatible with the different tasks based on the analysis task information and the design task information respectively performed; Include.

The multi-process analysis, design automation and design management information service method,

(c) The relay device further includes the step of extracting the analysis information by analyzing the new fluid through the calculation by the numerical analysis technique, as the input information by changing or changing the analysis operation information already performed.

The multi-process analysis, design automation and design management information service method,

(d) extracting the output information by allowing the relay apparatus to automatically design a new fluid through calculation in the main processor for the fluid, as the input device changes the design work information already performed or changed as input information. Include.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, detailed configurations and operations of a multi-process analysis, design automation, and design management information service according to a preferred embodiment of the present invention may be easily implemented by those skilled in the art. It demonstrates in detail with reference.

Multi-process analysis, design automation and design management information system according to an embodiment of the present invention has the following features.

(1) comprehensive project management

In the multi-process analysis, design automation, and design management information system according to an embodiment of the present invention, by integrating and linking an analysis solution and a design automation solution, outputs such as drawings and statements can be obtained in various formats without duplication of work. By linking the Engineering Management Information System (EMIS) DB with analysis and design automation solutions, various design information can be managed efficiently and comprehensively. By reducing the work loss, it has the effect of constructing the infrastructure system of the Construction Continuous Acquisition and Life-cycle Support (CALS) that exceeds the existing Knowledge Management System (KMS) or Electronic Document Management System (EDMS).

(2) Real-time sharing and reuse of design information

In the multi-process analysis, design automation, and design management information system according to an embodiment of the present invention, a mobile work environment is established by providing an analysis, design automation, and design management information service through a network such as the Internet, thereby providing information on design details and work sites. Sharing, and users can purchase expensive analysis and design automation solutions and pay for a certain fee instead of requiring a separate installation process. have.

1 is a block diagram of a multi-process analysis, design automation, and design management information system on the Internet in accordance with an embodiment of the present invention.

As shown in FIG. 1, a multi-process analysis, design automation, and design management information system according to an embodiment of the present invention includes a user's service using device 100, the Internet 200, and a relay device 300. .

As the service using device 100 of the user, a computer that can access the relay device 300 through the Internet 200 is used. In addition, other communication devices such as a mobile phone that can be connected to the Internet 200 may be used. have.

The relay device 300 is a site that provides a multi-process analysis, design automation, and design management information service for various fluids according to an embodiment of the present invention. The relay device 300 includes a processing unit and a database unit. The database unit includes a user DB 322, an engineering DB 323, and a design management information DB 324.

The user DB 322 stores information about a user's identity to use a multi-process analysis, design automation, and design management information service according to an exemplary embodiment of the present invention. That is, the user must register the number of concurrent users in the case of a master ID such as ID, name, password, solution information to be used, contact information, etc. in order to use a multi-process analysis, design automation, and design management information system according to an embodiment of the present invention. do. The contacts described herein include all e-mail addresses, mobile communication terminal numbers, postal addresses, and the like. In addition, the paid service usage information for each member of the client registered as a member is also stored. The service usage information includes a service solution type, a service usage time, the number of accesses and a data transmission history.

In addition, when a user registers as a member, the user can register as a lower sub ID in the general ID, master ID, and master ID. The sub sub ID can be registered in the master ID to provide a unique ID defined by one master ID and password in order to allow multiple users who perform one project to access simultaneously. The user can use the service by entering the registered unique ID and password, and the service billing is to be inquired, billed and settled on the network in the form of a single integrated notice corresponding to the master ID.

The engineering DB 323 stores basic element information and automatic design information required for calculation for each work solution.

The design management information DB 324 stores work information for each solution used by the user and work information that is a work result for each project.

The DBs 322 ˜ 324 in the database unit of the relay device 300 according to the embodiment of the present invention are configured such that the information of each other is organically connected, unlike the organic connection of each DB 322 ˜ 324. You can also configure a separate DB where separate information is stored.

The processing unit includes an authentication unit 312, an analysis unit 313, a design unit 314, a design management information unit 315, and a backend processor unit 316.

The authentication unit 312 may include a listener waiting for a user's connection, a client acceptor reading when the user attempts to connect, an authentication manager for determining whether the user is a registered member, and a user. When the connection is made, the connection manager is configured to control the simultaneous user so that the user or the simultaneous user of the hierarchy structure can access the relay device 300 through authentication, and the connection time, frequency, and data transmission history. Etc., the user DB 322 is updated with access information such as billing for service use.

The interpreter 313 is again composed of an interpreter dispatcher 3131, a first interpreter 3132, and an Nth interpreter 3133, where a number of N interpreters are suitable for various different kinds of fluid analysis. Represents N analyzers. The interpreter dispatcher 3131 provides access to the interpreter corresponding to the analysis solution of the user's choice, with each interpreter again displaying an error handler 470 and a solver user interface (UI) manager 460 as shown in FIG. ), A solver wizard 450, a graphic modeler 440, a preprocessor 430, a solver 420, and a post processor 410.

The error handler 470 checks an error occurring during the calculation for fluid analysis or an error in the user input file and displays the same in the user's service using apparatus 100.

The solver UI manager 460 may recognize each solver 420 of the analysis solution and receive input information necessary for analysis from the service using apparatus 100 of the user.

The solver wizard 450 serves as a layout for presenting a basic model by allowing a user to interpret a fluid based on the most basic information.

The graphic modeler 440 outputs the result analyzed by the analysis solution to the service using apparatus 100 of the user in 2D or 3D graphics.

The preprocessor 430 performs element division for performing calculation by numerical analysis techniques such as finite element technique and boundary element technique before performing an analysis operation.

The solver 420 analyzes a fluid and extracts analysis information by performing core numerical analysis calculations such as a plate, a frame, a shell, and the like.

The post processor 410 reduces the calculation time of the entire system by performing detailed calculations that were postponed when performing the calculation of the solver 420.

The analysis unit 313 having the structure as described above, as the user connects to the analysis solution through the service using apparatus 100, selects the type of the desired fluid analysis, and inputs input information required for the analysis. 323 is divided into elements according to the work information of the design management information DB (324), and the analysis of the fluid through the calculation by the numerical analysis technique to use the analysis information of the user service apparatus 100 In this case, the design management information DB 324 is updated by transmitting the same to the backend processor unit 316. In addition, the analysis unit 313 transfers control to the design work after performing the analysis to be the basic input information of the design work, and reversely proceeds to the design work, and then transfers control to the analysis unit at the time when the analysis is necessary to perform the analysis. You can also

In order to analyze a new fluid, the user accesses an analysis solution through the service using apparatus 100 to select a desired fluid analysis, and changes the analysis work information that has been performed as it is or inputs the input information. By dividing the basic element information of the DB 323 and the elements according to the work information of the design management information DB 324, the analysis of the new fluid through the numerical analysis method is also performed to extract the analysis information accordingly do.

The design unit 314 is composed of an engineering design automata (EDA) dispatcher 3141, a first automatic designer 3142, and an Nth automatic designing machine 3143, where the N automatic designing machine is various. Numerous N automatic designs are shown to suit different types of fluid designs. The auto designer dispatcher 3141 provides access to the auto designer corresponding to the design solution of the user's choice, and each auto designer is again shown in FIG. 3 by the EDA UI Manager 580 and the EDA Wizard 570. ), An error handler 560, a preview modeler 550, a main processor 540, an Excel (EXCEL) generator 530, an XML (eXtensible Markup Language) generator 520, and a DWG (drawing) generator 510. have.

The EDA UI manager 580 may recognize each main processor 540 of the design solution and receive input information necessary for the design from the user's service using apparatus 100.

The EDA wizard 570 presents a layout of design work by allowing a user to make a basic design based on the most basic input information for automatic design.

The error handler 560 checks an error that occurs while the main processor 540 performs a calculation for automatic design or an error in a user input file and displays the same in the user's service using apparatus 100.

The preview modeler 550 allows the user to perform a preview through the service using apparatus 100 for the drawings, specifications, statements, etc. generated after the main processor 540 finishes the automatic design.

The main processor 540 performs various calculations and calculates results so that the fluid is designed automatically based on input information inputted by the user for automatic design, and includes an Excel generator 530, an XML generator 520, a DWG generator ( 510, the preview modeler 550.

The EXCEL generator 530 generates a statement output in a commercial "MS Excel" format according to a calculation result performed by the main processor 540.

The XML generator 520 generates outputs such as specifications and statements in a commercial "XML" format according to the calculation result performed by the main processor 540.

The DWG generator 510 generates a design drawing in a “dwg” format based on the calculation result performed by the main processor 540.

The design unit 314 having the structure as described above, as the user connects to the design automation solution through the service using apparatus 100, selects the type of the desired fluid design, and inputs input information required for the design. 323 and the design management information DB 324 to design the fluid through the calculation in the main processor for each fluid, so that the output information is displayed on the service using device 100 of the user and the back-end processor unit 316 ) To update the design management information DB 324. In addition, the design unit 314 transfers the control to the analysis work during the design so that the analysis work information and results can be input information when designing, for the design of a new fluid, the user through the service using apparatus 100 By connecting to the design automation solution to select the desired type of fluid design, and the design work information already performed or changed as input information, through the calculation by the automatic design information of the engineering DB (323) of the new fluid material The design is made and the output information is extracted accordingly.

The design management information unit 315 includes a project management manager 3157 for managing fluid analysis, design automation, and design management information service as one integrated project, a drawing management manager 3156 for managing drawings, and a specification for managing specifications. Specifications management manager (3155), statement management manager (3154) for managing statements, engineering DB search manager (3153) for users, engineering DB (323) management manager (3152) for users managing engineering DB (323), and users And a user-defined data management manager 3151 for managing the definition data. In addition, separate managers can be added for fluid analysis, design automation, and design management information services.

The design management information unit 315 composed of the above managers, as the user accesses the design management information solution through the service using apparatus 100 and selects the desired type of fluid design management information service, the design management information DB When the corresponding job information is extracted from the display device 324 and displayed on the user's service using apparatus 100, the user may add a product to the extracted job information based on the engineering DB 323 to integrate the design work. Management, and the result is updated in the design management information DB (324). In addition, the design management information unit 315 allows an operator to access a design management information solution to modify or add basic element information and automatic design information stored in the engineering DB 323. The type of the design management information service may include a design management information DB such as project management, specification management, statement management, engineering DB 323 management for the operator, engineering DB 323 search for the user, and user-defined data management. 324) management.

The back end processor unit 316 may refer to the engineering DB 323 or may refer to or update data stored in the design management information DB 324, and the interpreters and the design unit 314 of the analysis unit 313. Send / receive data to / from auto designers and refer to or update corresponding DB.

Service operation of a multi-process analysis, design automation, and design management information system according to an embodiment of the present invention having such a structure will be described in more detail.

4A, 4B, and 4C sequentially illustrate a process in which a user accesses a website to select and execute a desired solution in a multi-process analysis, design automation, and design management information system on the Internet according to an embodiment of the present invention. have.

4A, 4B, and 4C, in the multi-process analysis, design automation, and design management information system according to an embodiment of the present invention, a listener of the authenticator 312 waits for a user's connection ( S100, when the user connects (S110), the user information is requested to allow the user to input an ID and password (S120), and accordingly the client acceptor of the authentication unit 312 is authenticated when reading the member ID, etc. Determine if the manager is a member. If the member is not registered, ask the user if he / she wants to register the member, and if the member does not want to register, return to the main screen and wait for the user's access, or click the member registration menu window to receive member registration, Receive membership registration by inputting ID, name, password, solution information to be used, contact information, number of simultaneous users in case of master ID, etc.

If the member is registered and the authentication is successful (S130), a basic screen listing the solutions available to the member's service using device 100 is provided (S140). At this time, the member selects the desired solution from the various solutions listed on the basic screen (S150) and starts the corresponding solution.

At this time, the router 160 distributes so that the user can access the solution as the user selects the desired solution. If the user wants to analyze the fluid, the analysis solution window is clicked (S170). Click the window (S180), if you want to manage the design management information DB (324) where the analysis or automatic design is completed and the job information is stored, click the Automatic Engineering Management Information (AEMI) solution window. It may be (S190).

If the user wants to analyze the fluid, and clicks the analysis solution window (S170), as shown in FIG. 4B, basic input information about the fluid may be newly input (S340), but the existing work information may be utilized. In order to query the design management information DB 324 (S300), a similar operation to be interpreted is inquired (S310), and the data is set as basic input information (S320), and if necessary, the data is corrected (S330). ). If the basic input information for the analysis is made, it is possible to start the analysis by processing the input information data (S390). If there is additional data to be input by the user (S350), an additional data file is received (S360). Check (S370) to make sure there are no errors (S380) and then process the input information data to start the analysis. That is, the analysis unit 313 divides the element according to the basic element information of the engineering DB 323 and the information of the design management information DB 324 according to the basic input information input for analysis by the user, The analysis result of the fluid is displayed on the service using apparatus 100 of the user through the calculation by the analysis technique and transmitted to the back end processor 316 to update the design management information DB 324 (S400, S410). For example, the analysis unit 313 calculates the forces acting inside the user by applying a numerical analysis technique based on the object and the load modeled for the fluid, so that the user can analyze the fluid It is. In addition, the analysis unit 313 transfers the control to the design automation solution after completing the analysis if the analysis result requires the generation of drawings, so that the analysis input information or the information according to the analysis result is input information of the design automation solution. . In this case, the analysis work information, which is an analysis result of the calculated fluid structure, is used to determine input information and stability, etc. used in the analysis.

If the user wants to design the fluid, and clicks the design automation solution window (S180), the basic input information about the fluid is newly input for the design as shown in FIG. 4C, but the existing work information is utilized. In order to inquire the design management information DB 324 (S500) in order to search for an item similar to the automatic design (S510), set the input data as basic input information (S520), and modify the data if necessary. (S530). In this case, the input information may be directly configured to automatically design the fluid based on the input information used in the fluid analysis. Once the basic input information for the automatic design is made, the automatic design may be started by processing the input information data (S590). If there is additional data to be input by the user (S550), the additional data file is received (S560). After checking the error (S570) to ensure that there is no error (S580), the automatic design is started by processing the input information data. That is, according to the basic input information for the automatic design input by the user, the design unit 314 refers to the basic element information of the engineering DB 323 and the design management information DB 324, and calculates corresponding to each fluid. Is performed through the main processor, and the output is generated by the design of the fluid, and the output information is displayed on the service using apparatus 100 of the user and transmitted to the back end processor 316 to transmit the design management information DB 324. To update (S600, S610). In addition, the design unit 314 transfers the control to the analysis work when the analysis should be performed in parallel during the design work, so that the analysis work information or the result can be input information at the time of design. Here, the input information used in the design, the automatically designed drawings and outputs, and the output information become design work information.

Design management for management of design management information DB (324) that stores work information according to analysis or automatic design performed by users or engineering DB (323) that stores basic element information and automatic design information necessary for calculation When the information solution window is clicked (S190), as shown in FIG. 4A, the data is selected from project management, drawing management, specification management, statement management, design management information DB 324 search, and user-defined data management. Received in the transmission (S200) to modify, add, print, etc. (S210). The operator may modify or add information of the engineering DB 323 in which basic element information necessary for calculation and automatic design information are stored in order to enable analysis or design by adding a new fluid.

As described above, in the multi-process analysis, design automation, and design management information system according to an embodiment of the present invention, a user registered in the user DB 322 is connected to the service using device 100 to analyze the fluid. Select one of the solution, design automation solution, and design management information solution to enter the corresponding input information so that you can work on the solution and transfer control to different tasks as needed during analysis or design work. The result of each work performed can be input information compatible with different work, and in the analysis or design work, the engineering DB ( Basic element information, automatic design information, and design management information DB 324 Based on the information, new fluids are analyzed and designed.

The invention is susceptible to various modifications and implementations without departing from the scope of the claims set out below.

According to the embodiment of the present invention as described above, the following advantageous effects are expected.

First, by integrating and linking analysis solutions and design automation solutions, outputs such as drawings and statements can be obtained in various formats without duplication of work.

Second, by linking design management information DB with analysis and design automation solution, various design information can be managed efficiently and comprehensively, so that it can be shared and reused at design side and work site. Has the effect of building the system.

Third, by providing analysis, design automation, and design management information services through a network such as the Internet, a mobile work environment is established, and information sharing is closely performed in the design history and on the job site, so the connection between design and construction is expected.

Fourth, instead of purchasing expensive analysis and design automation solutions and requiring a separate installation process, users can use a desired solution by paying a certain fee and induce computerization of the overall engineering work environment.

Claims (12)

In a system that enables multi-process relaying of fluid analysis, design automation, and design management information services over the Internet, A user DB storing member information and access information for each user registered in a hierarchy structure; An engineering DB that stores basic element information and automatic design information required for calculation for each work solution; A design management information DB, which stores work information for each solution used by the user and work information which is a work result for each project; And A user registered in the user DB connects to a service using device, selects one of the solution solutions of the fluid solution, the design automation solution, and the design management information solution, and inputs corresponding input information to perform the corresponding solution work. During the analysis or design work, control is transferred to different work so that the result of each work can be input information compatible with different work. According to the operation information of the engineering DB and the basic element information of the engineering DB, the automatic design information, and the operation information of the design management information DB, the analysis and the design of the new fluid are performed. Work information in automation and design management information Based processing for updating the management information DB Multi-process analysis, design automation and design management information system, including. The method of claim 1, The processing unit, As the user accesses the analysis solution through the service using device, selects the desired type of fluid analysis, and inputs input information necessary for analysis, the user is divided into elements according to the basic element information of the engineering DB and the information of the design management information DB. The analysis unit extracts the analysis result of the fluid through a numerical analysis technique and displays the analysis result on the user's service using device, and transmits the analysis work information to a backend processor to update the design management information DB. Multi-process analysis, design automation and design management information system, including. The method of claim 1, The processing unit, As a user accesses a design automation solution through a service using device, selects a desired fluid type design and inputs input information required for the design, each user is referred to the automatic design information of the engineering DB and the information of the design management information DB. The design unit for performing the design of the fluid through the calculation in the main processor for the fluid to display the output information to the service user of the user, the design operation information is sent to the back-end processor to update the design management information DB Multi-process analysis, design automation and design management information system further including. The method of claim 1, The processing unit, As the user accesses a design management information solution through a service using device and selects a desired type of fluid design management information service, the corresponding work information is extracted from the design management information DB and displayed on the user's service using device. Design management information unit that allows the user to add the output to the extracted job information on the basis of the DB to allow the user to manage the integrated design work, and to update the result in the design management information DB Multi-process analysis, design automation and design management information system further including. The method of claim 2, The analysis unit, For the analysis of new fluids, the user accesses the analysis solution through the service using device, selects the type of fluid analysis desired, and changes the input analysis information as it is, or changes the information of the already performed analysis work as input information. Dividing the information into elements according to the element information and the information of the design management information DB, and analyzing the new fluid through the numerical analysis method to extract the analysis information Multi-process analysis, design automation, and design management information system. The method of claim 3, wherein The design unit, In order to design a new fluid, a user accesses a design automation solution through a service using device, selects a desired fluid design, and changes the already performed design work information as input information. Extracting output information by designing a new fluid through the calculation in the main processor for each fluid by referring to the automatic design information and the information in the design management information DB. Multi-process analysis, design automation, and design management information system. The method of claim 4, wherein The design management information unit, To allow the operator to access and modify or add basic element information and automatic design information stored in the engineering DB. Multi-process analysis, design automation, and design management information system. The method according to any one of claims 3 to 6, The output information, Including drawings, specifications and statements Multi-process analysis, design automation, and design management information system. The method of claim 4, wherein The type of the design management information service, Including managing the design management information DB, such as project management, drawing management, specification management, statement management, searching the engineering DB for users, engineering DB management for operators, and user-defined data management. Multi-process analysis, design automation, and design management information system. Analysis, design automation, and design management of fluids through an analysis, design automation, and design management information system that includes a relay device that enables multi-process relay of analysis, design automation, and design management information services on the Internet. In the method of working the information service in a multi-process, (a) As the user accesses the relay device as a service using device, selects any one of an analysis solution for fluids, a design automation solution, and a design management information solution, and inputs corresponding input information. Allowing the user to work with the solution; And (b) allowing the relay device to transfer control from one analysis solution or design solution to another during operation to become input information compatible with different jobs based on the analysis job information and the design job information respectively performed; Multi-process analysis, design automation and design management information service method, including. The method of claim 10, (c) extracting the analysis information by analyzing the new fluid through calculation by a numerical analysis technique, as the relay device changes the analysis operation information already performed or changes the input information into input information. Multi-process analysis, design automation and design management information service method further comprising. The method of claim 10, (d) extracting the output information by allowing the relay apparatus to automatically design a new fluid through calculation in the main processor for the fluid, as the input device changes the design work information already performed or changed as input information. Multi-process analysis, design automation and design management information service method further comprising.