KR20090048748A - The system which maintains/manages a data which relates with the facility - Google Patents

Abstract

The present invention relates to a system for maintaining and managing data related to facilities, and in the present invention, a total life cycle of facilities, such as a planning stage, a design stage, a construction stage, a maintenance stage, etc. Computer modules that can be stored and managed by interconnecting them in a hierarchical state) and <call each DF hierarchically interconnected through the information connection code according to the administrator's computer event. Computer module that can output>, <Computer module that can synchronize the information of other DF connected with specific DF according to the modified contents when modification event of specific DF occurs>, <Each DF (e.g., facility shape model information) According to the detailed information (e.g., price information, mass information, etc.) attached to the computer, a computer mother can proceed a series of application simulations (e.g., quotation simulation, quantity simulation, etc.) >, <Computation module that can gather each DF interconnected through information link code, generate a series of report data, and operate it>, and <Communicate with administrator remote communicator possessed by manager visiting the site. Computerized module that can remotely provide data stored on the system side to the site side, and a computer module that can remotely receive data processed on the site and update the data stored on the system side based on this. In this way, the manager can easily print and review not only the specific DF related to his / her work area, but also other DFs related to the corresponding DF, and return to the office without returning to the office. In this construction and installation site, each DF can be used remotely, so that the manager can make various judgments / operations on the current status of facilities. Judgment / operation on the aging of facilities, judgment / operation on the maintenance and management of facilities, judgment / operation on the estimation of new facilities, judgment / operation on the construction period of facilities, judgment / operation on the status of facility delivery, etc. It can be achieved effectively and guides each facility under the supervision of the manager to effectively go through a high-quality, life-cycle maintenance process.

Description

The system which maintains / manages a data which relates with the facility}

The present invention refers to data which relates to the Facility (DF), hereinafter referred to as "DF", which occurs in the total life cycle stage of a facility such as a planning stage, a design stage, a construction stage, and a maintenance stage. It is related to the system that maintains / manages each information. More specifically, the manager side can easily print and review not only a specific DF related to his / her work area, but also other DFs related to the corresponding DF. It is possible to try and remotely utilize each DF at the site where the facility is constructed and installed, without returning to the office, and through this, various judgments / operations on the current status of the facility (for the deterioration of the facility) Judgment / Operation, Judgment / Operation on Facility Maintenance / Management, Judgment / Operation on New Facility Quotation, Judgment / Operation on Period of Facility Construction, Judgment on the Status of Facility Delivery / DF maintenance and management system to guide each facility under the management of the management to effectively go through high quality life cycle maintenance procedures. will be.

In recent years, with the rapid growth of economic scale, various facilities such as bridges, tunnels, buildings, roads, etc. are being widely constructed throughout the country, and in proportion, how to maintain / manage the facilities to a certain level or more. The problem is emerging as a serious social concern.

In general, as shown in FIG. 1, under such a conventional facility maintenance / management system, on the facility manager side, for example, a facility shape model (eg, a two-dimensional facility drawing), facility design information, facility construction information, facility inspection information, facility After acquiring various DFs such as measurement information, facility maintenance history information, and procedure management manual for each work area, information processing devices such as computers (2: of course, depending on the situation, a plurality of such information processing devices are installed. The quality of the facilities (1) is maintained at a certain level by accumulating and storing them, and proceeding with the process of outputting and reviewing the DF if necessary.

However, under such a conventional system, it is common for each DF in the information processing apparatus 2 to be separately isolated and managed without any connection relationship with each other. Unless you make every effort to search and search one by one, you can only fragmentally print and review specific DFs related to your work area, while other DFs in other fields related to the DF will not be printed and reviewed at all. You can't try it.

For example, under the conventional system, the manager who manages the shape model of the bridge can only fragmentally output and review the shape model information of the bridge unless otherwise instructed, and other DFs related thereto, for example, The construction information of the bridge, the inspection information of the bridge, the measurement information of the bridge, the maintenance information of the bridge, and the management manual of the bridge cannot be printed or reviewed at all.

Of course, in the absence of such information sharing, each manager side can make various judgments / operations on the current status of facilities (decision / operation on aging of facilities, judgment / operation on maintenance / management of facilities, estimation / operation on estimation of new facilities). , The judgment / operation on the period of facility construction, the judgment / operation on the status of facility delivery, etc. cannot be achieved in a comprehensive and effective manner. Consequently, in this situation, each facility (1) maintains a high quality of life cycle / You will not go through any management procedures.

On the other hand, under the conventional facility maintenance / management system, each facility manager visits the site (H) where the facility (1) is constructed and installed at any time, and measures, inspects and confirms the state of the facility (1), and checks the result. By doing so, the facility (1) makes efforts to properly maintain a certain level or more of quality.

However, under such a conventional system, the site H in which the facility 1 is constructed and installed, and the office in which the information processing apparatus 2 for storing and managing the respective DFs are usually located are located in separate spaces. Therefore, the manager who visited the site H can directly input the information (e.g., the measurement / checking and confirmation information of the facility) that he has obtained, unless he returns to the remote office, to the information processing apparatus 1 side. Not only that, but also the information stored on the information processing apparatus 1 side cannot be vividly outputted and confirmed at the installation site H of the facility 1.

Of course, in the absence of such information input and acquisition, the manager who visited the site H measures the DF (for example, facility maintenance manual, etc.) accumulated and stored in the information processing apparatus 2 for the facility 1. By not being able to use it at all in the inspection and confirmation procedure, it is difficult to accurately judge the phenomenon appearing in the facility 1, and furthermore, after returning to the office, the existing DF is measured, inspected, and confirmed. According to the result, it is necessary to proceed with the additional computerized procedure>, thereby avoiding the unnecessary problem of increasing the overall work burden.

Naturally, even in this situation, each manager side can make various judgments / operations on the status of the facility 1 (judgment / operation on aging of the facility, judgment / operation on maintenance / management of the facility, judgment / operation on the estimation of new facilities) , The judgment / operation on the construction period of the facility, the judgment / operation on the status of facility delivery, etc. cannot be achieved in a comprehensive and effective manner, and as a result, each facility cannot undergo any high-quality life-cycle maintenance / management procedures at all. do.

Therefore, an object of the present invention is a computer module that can store and manage each DF in a layered state by interconnecting each DF through a series of information connection codes, and according to a computer-side event of the administrator, a layer through an information connection code. Computing module that can call and output each interconnected DF>, <Computation module that can synchronize the information of other DF connected with the DF according to the modification when the modification event of a specific DF occurs>, < According to the detailed information (e.g., price information, mass information, etc.) attached to each DF (e.g., facility shape model information), a computer system that can proceed a series of application simulations (e.g., quotation simulation, volume calculation simulation, etc.) Module>, <computing module that can gather each DF interconnected through the information link code, generate a series of report data, and operate it>, and <a manager remote communicator possessed by an administrator visiting the site. Computing module that can remotely provide data stored on the system side to the site side while taking the update>, <Computation module that can remotely receive data processed on site and update the data stored on the system side based on this> Etc. systematically arranged, through which the manager can easily output and review not only a specific DF related to his / her work area, but also other DFs in other fields related to the DF without any difficulty. By allowing each DF to be used remotely at the site where the facility was constructed and installed without returning to the office, the manager can make various judgments / operations on the status of the facility (decision / operation on the aging of the facility, Judgment / operation on the maintenance and management of facilities, judgment / operation on the estimation of new facilities, judgment / operation on the construction period of facilities, and facility delivery status The judgment / operations, etc.) and help to make more comprehensive and effective, through this, to which each facility placed under the control of the managers and guides to be available to experience the full life cycle of maintenance / quality control procedures.

Still other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

In order to achieve the above object, in the present invention, a signal connection with a manager terminal is performed, while storing and managing facility related data (DF: hierarchically interconnected through a data connection code) within a data storage block. And a DF maintenance / management control module for overall control of the reception / storage and output / modification procedures of the DF and the DF maintenance / management control module, according to the manager side output request event data through the manager terminal. The DF output management module which reads the information link code assigned to each DF, selectively calls the DFs hierarchically interconnected and outputs them through the manager terminal, and is controlled by the DF maintenance / management control module; A DF modification management module for modifying information of the DF according to the modification request event data of the manager through the manager terminal; Module and the DF maintenance / management control module, and when the information of the DF is modified by the DF correction management module, interlock the information of other DFs interconnected with the corresponding DF through the information connection code. In the following, a DF maintenance / management system consisting of a combination of DF synchronization modules for synchronizing information of respective DFs is disclosed.

In the present invention, the <computer module that can be connected to each other in a layered state by connecting the DF in a layered state through a series of information connection code>, <in accordance with the computer-side event of the administrator, hierarchically interconnected through the information connection code Computation module that can call and output each connected DF>, <Computation module that can synchronize the information of the other DF connected with the DF according to the modification when the modification event of a specific DF occurs>, and <Each DF ( For example, a computer module that can proceed a series of application simulations (e.g. quotation simulation, quantity calculation simulation, etc.) according to the detailed information (e.g. price information, mass information, etc.) attached to the facility shape model information>, <Communication module that can gather each DF interconnected through information link code, generate a series of report data, and operate it>, <Communication with administrator remote communicator possessed by manager visiting the site Computer module that can remotely provide data stored on the system side to the site>, <computer module that can remotely receive data processed on-site and update the data stored on the system side based on this> Since this system is systematically arranged / provided, in the implementation environment of the present invention, the manager side can print out and review not only a specific DF related to his or her field of work but also other DFs related to the DF without any extra effort. In addition, it is possible to remotely utilize each DF at the site where the facilities are constructed and installed without returning to the office, and eventually, various judgments / operations on the current status of the facilities (decision on the aging of the facilities) / Operation, judgment / operation on facility maintenance / management, judgment / operation on new facility quotation, judgment / operation on facility construction period, facility lead By being able to judge / operations for the status, etc.) to achieve a more comprehensive and effective, and as a result, each facility is placed under the control of the administrator will be able to effectively experience the entire life cycle of maintenance / management process of high quality.

Hereinafter, with reference to the accompanying drawings, a more detailed description of the DF maintenance / management system according to the present invention.

As shown in FIG. 2, the DF maintenance / management system 100 according to the present invention includes an administrator terminal 30 and an administrator remote communication device 10 through an online network 20, for example, an internet network, an intranet network, or the like. In this case, the manager remote communicator 10 means a communicator possessed by a manager who is visiting the site H where the facility 1 is constructed and installed. Module 101, DF processing guide window operating module 103, DF receiving module 110, information connection code check module 120, information connection code, which are collectively controlled by the DF maintenance / management control module 101. Insertion module 130, DF output management module 140, DF revision management module 150, DF synchronization module 250, application simulation module 160, DF history management module 210, field event processing module 180 ), The report operation module 230, the operation assistant module 105, and the like take a close combination.

In this case, the manager terminal 30, the manager remote communication device 10, and the like, for example, a notebook PC, a desktop PC, etc., a cellular phone (PCS phone: Personal Communications Services phone) , Synchronous / Asynchronous IMT-2000 (International Mobile Telecommunication-2000), Palm Personal Computer (PDA), Personal Digital Assistant (PDA), Smart Phone, WAP Phone (WAP phone: Wireless application protocol phone ), A mobile device such as a play-station, etc. may be flexibly selected according to the manager's situation.

In this situation, the DF processing guide window management module 103 controlled by the DF maintenance / management control module 101 is connected to the system 100 side by the administrator terminal 30. Through the B management module 104, various texts / images for accessing the operation information D / B 109 in the data storage block 106 and generating various service operation information stored therein, for example, a guide window. Flexibly extract / image / link / program information, various guide window setting information, and the like, and generate and generate guide windows 400: 401, 402, 403, 404 as shown in FIGS. 3A to 3D based on the extracted operation information. The basic environment of the various service procedures by the DF maintenance / management control module 101 is different by performing the role of selectively transmitting and posting the completed guide windows 400: 401, 402, 403, 404 to the manager terminal 30. It will help to be created smoothly without any problems.

Of course, each of these guide windows 400: 401, 402, 403, 404 includes <Items that can request input of a new DF>, <Items that can request output of an existing DF>, <Items that can request modification of an existing DF>, < Since there are various items that can request an application simulation related to an existing DF>, and an item that can request the output of a report related to an existing DF, the administrator side displays the information in each guide window (400: 401,402,403,404). Even with a simple computational operation to selectively manipulate (enter) / check menu items, for example, <the procedure of interconnecting each DF in a layered state, storing / managing>, and <each of the hierarchically interconnected Calling and outputting a DF>, <Modifying each DF and synchronizing the information of other DFs connected to the DF according to the modification>, and <In each DF (e.g., facility shape model information) According to the detailed information (e.g., price information, mass information, etc.), a series of application simulations (e.g., quotation calculation, volume calculation simulation, etc.)>, <Each DF interconnected through the information link code Gather, the process of generating a series of report data> can be flexibly advanced according to one's intention.

Here, the D / B management module 104 controlled by the DF maintenance / management control module 101 according to the computerized events of each of the computer modules arranged in the system 100 may be used to perform various types of DF maintenance / management services. Selectively store data in required areas such as facility shape model storage D / B 107, shape model related information storage D / B 108, and operation information D / B 109, or vice versa. · Will play the role of printing. In this case, the D / B management module 104 not only plays a role of storing and outputting various data, but also simultaneously plays an intelligent role of efficiently managing the data in the fastest time without overlapping.

In this case, the operation information D / B 109 controlled by the DF maintenance / management control module 101 generates various operation information necessary for executing the DF maintenance / management service, for example, a guide window 400: 401, 402, 403, 404. Including various text / image / video / link / program information, various guide window setting information, administrator registration information, registration information of the manager terminal 30, registration information of the manager remote communication device 10, the system 100 It plays a role of stably storing and managing resource status information of each DF, revision history information of each DF, etc. (Of course, each operation information listed above is flexibly added / deleted depending on the system situation. can be changed).

In addition, the facility shape model storage D / B 107 controlled by the DF maintenance / management control module 101 is a shape model (eg, three-dimensional facility drawing) of various facilities, for example, as shown in FIG. 4A. It is possible to stably store and manage the shape model of the bridge, the shape model of the building, the shape model of the road, the shape model of the tunnel, etc. together with the detailed information (eg mass information, price information, etc.) of the facility shape model. do.

In this case, various facility shape models stored and managed in the facility shape model storage D / B 107 have a feature of being a three-dimensional object-based model that may include not only basic geometric information but also other information.

Furthermore, the shape model related information storage D / B 108 controlled by the DF maintenance / management control module 101 stores various types of information related to the facility shape model (three-dimensional object-based model), for example, facility design information and facility. It plays a role of stably storing and managing construction information, facility inspection information, facility measurement information, facility maintenance history information, facility management manual, etc. (see FIG. 4A) (Of course, the information listed above is also a system-side situation. The item or range may be flexibly added / deleted or changed according to the above).

At this time, the operation auxiliary module 105 controlled by the DF maintenance / management control module 101 forms a series of communication relationships with the DF processing guide window management module 103, the operation information D / B 109, and the like. Various auxiliary procedures necessary for the implementation of the maintenance / management service, for example, a procedure for managing the system login process of the administrator, a procedure for updating the visit history of the administrator system 100, and updating data in the operation information D / B 109 Various procedures will be performed.

In a situation where such an infrastructure is provided, the DF maintenance / management control module 101 forms a series of signal connection relationships with the manager terminal 30, the manager remote communicator 10, and the like through the online network as described above. , <a procedure of interconnecting each DF in a hierarchical state through a series of information connection codes (C) to store/manage> (see FIG. 4A), and <in accordance with the computer-side event of the administrator, the information connection code (C) Calling and outputting each DF hierarchically interconnected through the process> (refer to FIGS. 4B and 4C), and <When a modification event of a specific DF occurs, the information of another DF connected to the DF is synchronized according to the modification. Procedure> (see FIGS. 6 and 7), <a set of applications according to the details (e.g., price information, mass information, etc.) attached to each DF (e.g., facility shape model information-3D object-based model). Proceed simulation (e.g. quotation simulation, quantity simulation, etc.) Procedure (see FIG. 8), <procedure of each DF interconnected through the information link code (C) to generate a series of report data, and operate it> (see FIG. 14), and <site (H) The procedure of remotely providing the data stored in the system 100 to the site H side while communicating with the administrator remote communicator 10 possessed by the visiting administrator, (see FIG. 11), at <site H Remotely access the processed data, and based on this, it performs the role of collectively controlling the procedure &gt; (see FIG. 11) for updating data stored in the system 100 side.

Of course, under the function of the DF maintenance / management control module 101, the administrator can not only output a specific DF related to his / her work field, but also various DFs in other fields related to the DF. Of course, even without returning to the office, at the site (H) where the facility (1) was constructed and installed, each DF can be remotely used immediately, resulting in various judgments / operations on the current state of the facility (1). Judgment / operation on the aging of facilities, judgment / operation on the maintenance and management of facilities, judgment / operation on the estimation of new facilities, judgment / operation on the construction period of facilities, judgment / operation on the status of facility delivery, etc. Effectively achieved, the result is that each facility under the control of a manager can effectively undergo a high-quality, life-cycle maintenance and management process.

At this time, the DF reception module 110 controlled by the DF maintenance / management control module 101 forms a series of signal connection relationships with the DF processing guide window management module 103, and the administrator mediates the manager terminal 30. After accessing the guide window 401, select a menu item posted thereon (see FIG. 3A), and when a new DF is transmitted from the administrator terminal 30 side, the new DF is accepted and the received new DF is received. After storing in the processing buffer 110a of the information connection code check module 120 to be described later, the procedure is performed, and if the notification that no other abnormality was found from the information connection code check module 120 side is delivered, The new DF is communicated with the facility shape model D / B 107, the shape model-related information storage D / B 108, and the like via the D / B management module 104. Stable storage of shape model related information in D / B (108) It will play a role of managing the intestine (see Fig. 4a).

At this time, the information connection code check module 120 controlled by the DF maintenance / management control module 101 forms a series of signal connection relationships with the DF reception module 110, and performs the function of the DF reception module 110. By the way, when the new DF is received in the processing buffer 110a, the header of the new DF is read to check whether a series of information connection codes exist in the new DF, and the check result is returned to the DF receiving module ( 110) and informs the information connection code insertion module 130.

Here, the information connection code insertion module 130 controlled by the DF maintenance / management control module 101 has the information connection code in the header of the new DF by performing the function of the information connection code check module 120 described above. If it is determined not to do so, as shown in Fig. 5, the manager setting details attached to the new DF (for example, manager setting information indicating that the new DF is of what kind and where it should belong) and the existing DF After referring to the information connection code assignment of these, based on this, a series of new information connection code is generated, and serves to insert the generated new information connection code (C) in the new DF.

In this way, even when a series of information connection codes C are added and inserted into the new DF, the above-described DF reception module 110 uses the facility shape model D / B via the D / B management module 104. 107, the communication with the shape model-related information storage D / B (108) and the like, and stably store and manage the new DF in the construction shape model D / B (107), shape model-related information storage D / B (108) (Refer to FIG. 4A), and as a result, all the DFs stored in the facility shape model D / B 107, the shape model related information storage D / B 108, and the like, for example, the shape of various facilities Models (of course, these facility shape models are three-dimensional object-based models), facility design information, facility construction information, facility inspection information, facility measurement information, facility maintenance history information, facility management manuals, etc. And a set of information consisting of the code of the object linked to it The shape model of the facility which can be provided with an absolute C (see FIG. 4A), and is eventually stored and managed in the facility shape model D / B 107 and the shape model related information storage D / B 108. , 3D facility drawing), facility design information, facility construction information, facility inspection information, facility measurement information, facility maintenance history information, facility management manual, etc. It naturally forms a connecting structure> (see Fig. 4b).

In this situation, the DF output management module 140 controlled by the DF maintenance / management control module 101 forms a series of signal connection relationships with the DF processing guide window management module 103, while the manager is connected to the manager terminal 30. After connecting to the guide window 401 via the menu, select the menu item posted thereto (see FIG. 3A), and when a series of DF output request data is transmitted from the administrator terminal 30 side, the D / B The management module 104 communicates with the facility shape model storage D / B 107 and the shape model related information D / B 108 and the like, and the DF selected by the manager, for example, the facility shape model and the shape model is related. Extract information and the like, and transmit the extracted DF to the manager terminal 30 via the interface module 102 to guide the DF to be displayed and displayed through the guide window 402. (See FIG. 3B).

In this way, in the situation where a shape model of a specific facility is output and displayed through the guide window 402, information related to the shape model (three-dimensional object-based model), for example, the shape, is displayed on the manager side. Sub-model information of the model, design information related to the geometric model, construction information related to the geometric model, inspection information related to the geometric model, measurement information related to the geometric model, maintenance history information related to the geometric model, and In order to examine a management manual related to the shape model and the like, when a specific menu item is selected, the DF output management module 140 stores the facility shape model D / B 107 and the shape model as shown in FIG. 4C. Read the information link code (C) assigned to each DF, for example, the unique code and the object code, by communicating with the related information D / B 108 and the like, and then hierarchically mutually Selected DF is selectively called and loaded, and each DF, which is called and loaded, is output through the administrator terminal side guide windows 403 and 404 in a colorful manner (see FIGS. 3C and 3D). Unlike in the related art, without particular effort, not only a specific DF related to the work field of the user, but also other DFs in other fields related to the DF can be variously printed and reviewed.

In this situation, the DF correction management module 150 controlled by the DF maintenance / management control module 101 forms a series of signal connections with the DF processing guide window management module 103, while the administrator guides the guide windows 402, 403, 404. 3), when a series of DF modification request data, for example, <new facility shape model> is transmitted from the administrator terminal 30 side, D / Through the B management module 104, the facility shape model storage D / B 107 is communicated with, and as shown in FIG. 6, the information of the specific shape model stored therein, for example, <first member. It plays the role of modifying and replacing the information of the configuration model> with the information of the corresponding configuration model. (Of course, the information contained in the manager's DF revision request data includes the facility construction information, facility inspection information, and facility management. Manual, etc. The same / similar application is carried out in the case of rain).

In this case, the DF synchronization module 250 controlled by the DF maintenance / management control module 101 performs a specific DF, for example, a specific facility shape model (three-dimensional object) by performing the function of the DF correction management module 150 described above. Base model)>, the communication information with the facility shape model storage D / B 107 via the D / B management module 104, and as shown in Figure 6, After extracting the information of the other shape models interconnected with the corresponding shape model through the code (C), the information is interlocked and changed according to the <Modification information of the specific facility shape model>. It plays a role of synchronizing the information of each shape model.

Of course, under this role, for example, if the information of the first member shape model is corrected (replaced) to the information of another shape model, the information connected to the first member shape model through the information link code (C). 1 The pier shape model, the bridge shape model, etc. can all express the change history of the first member shape model correspondingly. Consequently, in this situation, on the manager side, the geometric change of the facility (e.g., The effect of geometric changes can be checked in real time with visualized shape models (eg bridge shape models, first pier shape models, etc.), so that the appropriateness of the repair / replacement of the facility can be immediately reviewed.

In addition, the DF synchronization module 250 when the information of the specific DF, for example, <specific facility shape model> is modified by performing the function of the above-described DF correction management module 150, D / B management module 104 Through the communication with the shape model related information storage D / B 108, as shown in Figure 7, as shown in Figure 7, <external related information interconnected with the corresponding shape model through the information connection code (C)> extracted Afterwards, the information is interlocked and changed according to the <Modification of information of a specific facility shape model>, and through this, the information of each DF is synchronized. If the information contained in the DF amendment request data is facility construction information, facility inspection information, facility management manual, etc., the same / similar application and progress will be applied).

Under such a role, for example, when the information of the first member shape model is modified (replaced) with the information of another shape model, the DFs interconnected with the first member shape model through the information connection code C, For example, the first member construction information, the first member inspection information, the first member measurement information, the first member maintenance history information, the first member management manual, etc., all correspond to the change history of the first member shape model. As a result, in this situation, the manager side can reliably update and maintain the information of each of the DFs related thereto even under the change of the first member shape model.

On the other hand, the application simulation module 160 controlled by the DF maintenance / management control module 101 forms a series of signal connections with the DF processing guide window management module 103 while the administrator posts the guide windows 402, 403, 404. 3B, 3C, and 3D, when a series of application simulation request event data is transmitted from the administrator terminal 30 side, as shown in FIG. 8, each DF, for example, After extracting the detailed information (e.g., mass information, price information, etc.) attached to the facility shape model information and a predetermined application simulation scenario (e.g., volume calculation simulation scenario, quotation calculation scenario, etc.), the extracted details are applied to the application simulation. Depending on the scenario, you can assign and change and execute a series of simulation procedures (e.g., volumetric simulation procedure, quotation simulation procedure, etc.) To be carried out.

In this case, as shown in FIG. 9, the above-described application simulation module 160 includes an application simulation control unit 161 for overall control of the overall application simulation procedure, and an event occurrence check unit under the control of the application simulation control unit 161. 162, the DF detail reading unit 164, the simulation execution engine 167, the simulation scenario storage unit 166, the simulation operation information storage unit 165, and the like are closely combined.

Here, the event occurrence check unit 162 controlled by the application simulation control unit 161 forms a series of signal connection relationships with the DF processing guide window management module 103 via the information exchange unit 168, and the manager. Selects a menu item posted in the guide windows 402, 403, 404 (see FIGS. 3B, 3C, and 3D), and when a series of application simulation request event data is transmitted from the administrator terminal 30, the fact of occurrence of the corresponding event occurs. It serves to quickly deliver to the application simulation control unit 161.

In addition, the DF detail reading unit 164 controlled by the application simulation control unit 161 determines the occurrence of the application simulation request event by performing the function of the event occurrence check unit 162, and then the information exchange unit 168. Communication with the D / B management module 104 to access the facility shape model storage D / B 107, and then store the specific facility shape model (that is, the facility shape selected by the manager). After extracting the detailed information (for example, the price information of the facility, the mass information of the facility, etc.) attached to the model), and serves to reliably store and manage the detailed information of the extracted facility shape model in the processing buffer 163. (See FIG. 4A and FIG. 8) (Of course, this procedure is similar / similar to the case where the manager requests the progress of the application simulation procedure to be facility construction information, facility inspection information, facility management manual, etc.). Applied).

In this way, once the details of the facility shape model have been stored in the processing buffer 163, the simulation execution engine 167 controlled by the application simulation control unit 161 first approaches the processing buffer 163, and then the DF. After the procedure of extracting the detailed information of the facility shape model stored by the details readout unit 164 is performed, the simulation scenario storage unit 166 is accessed, and the simulation scenarios stored therein (eg, a quantity calculation scenario, Process of extracting the quotation calculation scenario).

Through this procedure, once the details of the facility shape model and the corresponding simulation scenario (ie, the simulation scenario requested by the administrator) are completed, the simulation execution engine 167 immediately retrieves the details of the facility shape model. Subsequent to the equations set in the simulation scenario, a series of applied simulation procedures (eg, volume calculation simulation procedure, quotation simulation procedure, etc.) are performed.

Under such a procedure, for example, if the simulation requested to be executed by the manager is the quotation simulation, and the target shape model of the quotation simulation is the bridge shape model, and the price of the bridge shape model is found to be X won per piece, the simulation The execution engine 167 substitutes this price X per unit into the equation set in the quotation simulation scenario. For example, if 12 AA bridges are installed in the XX section, the price is XX. You get a result of>.

After acquiring these results, the simulation execution engine 167 accesses the simulation operation information storage unit 165 and stores the simulation operation information stored therein, for example, graphic information for displaying simulation results, text information, link information, After extracting program information and the like, the extracted simulation operation information is combined to generate a series of simulation execution frames 500 in which the above-described results are expressed in letters, figures, and tables, and the generated simulation execution frames 500 are generated. A process of transferring the DF processing guide window management module 103 is performed.

In this way, when the simulation execution frame 500 is delivered, the DF processing guide window management module 103 immediately communicates with the manager terminal 300, and as shown in FIG. If the AA pier is installed in the XX section, and 12 pieces are purchased, the price is XX>. The procedure for displaying the simulation execution frame 500 through the guide window 400 in which the result of text, figure, table, etc. is displayed. In the end, under such an implementation environment, the administrator side simulates the result of estimating a specific shape model and calculating the quantity of a product in advance using only a very simple computational procedure for operating a menu item posted on the guide window 400. It becomes possible.

On the other hand, under the system of the present invention, each facility manager visits the site H where the facility 1 is constructed and installed at any time, measures, inspects and confirms the state of the facility 1, and checks the result. Efforts will be made to properly maintain the quality of facilities above a certain level.

Of course, since the site (H) where the facility (1) was constructed and installed, and the office where the system (100) for storing and managing each DF are located are located in separate and remote spaces, on the manager side who visited the site (H), Unless further action is taken, the information acquired (for example, the measurement / checking and confirmation information of the facility) cannot be directly input to the system 100 side, as well as stored in the system 100 side. Information can not be vividly printed and confirmed at the installation site (H) of the facility (1).

In such a sensitive situation, the site event processing module 180 of the present invention controlled by the DF maintenance / management control module 101 may be configured as a site H in which the facility 1 is constructed and installed, as shown in FIG. 11. The facility shape model storage D / B 107 and the shape model related information D according to the event data output from the manager remote communication 10 while selectively communicating with the manager remote communication device 10 possessed by the visiting manager. Call the DF stored in the / B (108), etc., and remote transmission to the manager remote communication device 10, or stored in the facility shape model storage D / B (107), shape model related information storage D / B (108), etc. It plays a role of modifying or synchronizing the information of the existing DF.

Of course, in the situation where the function of the field event processing module 180 is realized, the manager visiting the site H can obtain information (for example, the facilities of the facility) without returning to the remote office. Measurement / inspection and confirmation information) can be directly input to the system 100 side, as well as the information stored on the system 100 side can be output and confirmed in a vivid way at the installation site (H) of the facility (1) As a result, the advantage of being able to more accurately determine the phenomenon appearing in the facility 1 can be easily obtained. Furthermore, after returning to the office, the existing DF is applied to the result of measurement, inspection and confirmation of the facility 1. Therefore, the inconvenience of updating> can be easily avoided.

Naturally, even in this case, each DF transmitted to the manager remote communication unit 10, that is, a shape model (three-dimensional object-based model) of the facility, facility design information, facility construction information, facility inspection information, facility measurement information, facility maintenance Since management history information and facility management manuals naturally form a <structured interconnected structure> through an information link code (C), managers in the field, like managers in offices, have their own duties. In addition to the specific DF related to the field, other DFs related to the DF can be printed and reviewed in various ways.

At this time, as shown in FIG. 11, the manager remote communication device 10 held by the manager visiting the site H is selectively inputted by the manager while remotely communicating with the system-side site event processing module 180. The DF remotely to the field event processing module 180 side, or after receiving the DF transmitted from the field event processing module 180 side remotely, and outputs through the manager remote communicator 10 (DF field maintenance / management unit ( 300) is additionally installed.

Hereinafter, the detailed configuration of the above-described site event processing module 180 and the DF site maintenance / management unit 300 will be described in detail.

As shown in FIG. 12, first, the DF field maintenance / management unit 300 installed in the manager remote communicator 10 operates on the manager remote communicator 10 side operating system 10a via the information exchange unit 307. And a DF field maintenance / control control unit 301 for overall control of the overall DF site maintenance / management procedure, and under the control of the DF field maintenance / control control unit 301, the DF field treatment guide window operating unit ( 302, the facility communication unit 303, the system communication unit 306, and the like are closely combined.

At this time, when the DF site management guide window operating unit 302 controlled by the DF site maintenance control unit 301, the administrator operates the manager remote communication unit 10 to call the DF site maintenance / management unit 300 By accessing the operation information storage unit 304, various service operation information stored therein, for example, various texts / images / videos / links / program information for generating a guide window, various guide window setting information, etc. After extraction, the guide window 600 as shown in FIG. 13 is generated based on the extracted operation information, and the generated guide window 600 is output and posted through the administrator remote communication unit 10. Done.

Of course, in the DF field processing guide window 600, <items that can be remotely received by calling the DF stored on the system 100 side>, <items for guiding the DF can be modified (edited) in the field. >, &Lt; items for remotely transmitting the DF processed at the site H to the system 100 >, etc., the administrator side selectively operates (input) menu items posted in the guide window 600. Even with a simple computer operation to check, for example, <procedure to call DF stored on the system 100 side for remote reception>, <procedure to modify (edit) the DF in the field (H)>, <site (H) ), The procedure for remote transmission of the DF processed in the system to the system 100 side> can be flexibly advanced according to the user's intention.

In this situation, the facility communication unit 303 controlled by the DF site maintenance / management control unit 301 is a wireless communication sensor 1a (e.g., a bridge deck installed in the facility 1) via the information exchange unit 307. The wireless communication sensor installed in the bridge, the wireless communication sensor installed in the bridge, the wireless communication sensor installed in the bridge member, etc. (in this case, the RFID sensor may be selected as the wireless communication sensor, for example) and the corresponding facility (1). After extracting and identifying the information (for example, facility specific code information), the information on the completed facility is stored and managed stably in the processing buffer 305.

At this time, the system communication unit 306 controlled by the DF site maintenance / management control unit 301 connects to the system 100 via the information exchange unit 307, the online network 20, or the like, and the site described above. Selectively forming a series of signal connection relationships with the event processing module 180, according to the administrator's computer operation using the guide window 600, a series of DF transmission request message including the unique code information on the facility (1) side Is transmitted to the field event processing module 180 side>, <procedure to receive and receive the DF transmitted from the field event processing module 180 side, and output and display it through the guide window 600>, <Procedure for transmitting the modified (edited) by the administrator to the field event processing module 180 side> and the like.

On the other hand, as shown in Figure 12, the field event processing module 180 of the present invention in cooperation with the above-described DF field maintenance / management unit 300, the information exchange unit 187, online network 20, etc. On-site event processing control unit 181 for overall control of the processing procedure of the entire field event, while communicating with the manager DF on-site DF field maintenance / management unit 300, and the field event processing control unit ( The field communication unit 182, the DF output request relay unit 183, the system DF receiving unit 185, the field processing DF transfer unit 186, etc., which are under the control of 181, take a close combination.

At this time, the on-site communication unit 182 controlled by the on-site event processing control unit 181 via the information exchange unit 187, the online network 20, and the like, the manager remote communication unit 10 side DF field maintenance / management unit Sending information generated / extracted by the remote event processing module 180 side to the DF field maintenance / management unit 300 side while forming a series of signal connection relationships with the 300, or the DF field maintenance / management unit 300. After receiving the information transmitted from the) side, a series of data transmission / reception processing procedures for storing and managing the information in the processing buffer 184 is performed.

In this situation, the DF output request relay 183 controlled by the field event processing control unit 181 receives the DF output request event data of the manager remote communication unit 10 by performing the function of the field communication unit 182. Is connected to the DF output management module 140 (see FIG. 2) via the information exchange unit 187, the facility shape model storage D / B 107 of the data storage block 106, the shape model related. It serves to request the output of the DF stored in the information storage D / B (108).

In addition, the system DF receiving unit 185 controlled by the field event processing control unit 181 corresponds to a request of the DF output request relay unit 183, and when the DF is delivered from the DF output management module 140, the corresponding DF is transmitted. After receiving the, the communication with the field communication unit 182 described above, and serves to guide the DF can be remotely transmitted to the manager remote communication unit 10.

Further, the field processing DF delivery unit 186 controlled by the field event processing control unit 181 receives the DF request request event data from the manager remote communication unit 10 by performing the function of the field communication unit 182 described above. Contact with the DF correction management module 150, the DF stored in the facility shape model storage D / B 107 of the data storage block 106, the shape model related information storage D / B 108, and the like. It plays a role of inducing information contents to be modified or synchronized.

As a result, the manager visited the site H under the systematic linking operation of the DF site maintenance / management unit 300 and the site event processing module 180 described above, as mentioned above, without returning to the remote office. In addition, the information (e.g., measurement / inspection and confirmation information of the facility) can be directly input to the system 100 side, as well as information stored in the system 100 side (for example, facility management manual). Etc.) can be vividly outputted and confirmed at the installation site H of the facility 1, and, as a result, it is possible to easily obtain the advantage of more accurately judging the phenomenon shown in the facility 1.

Meanwhile, as shown in FIG. 2, under the control system of the DF maintenance / management module 101, in addition to each of the computer modules described above, the DF history management module 210 and the report operation module 230 are added. Is placed.

In this case, the DF history management module 210 controlled by the DF maintenance / management control module 101 forms a series of signal connection relationships with the DF reception module 110, the DF revision management module 150, and the like. When a storage event of a new DF, a DF modification event, or the like proceeds, the communication information is stored with the operation information storage D / B 109 via the D / B management module 104, and the storage history of the corresponding DF, the corresponding DF By storing and managing the revision history, etc. in the operation information storage D / B 109, in the future, when the report preparation / output event is performed by the report operation module 230, the storage / modification history of each DF is stably maintained to the manager side. It serves as a guide to ensure that it can be reported (of course, this storage / modification history can also be used for independent facility history management).

In this situation, the report operation module 230 controlled by the DF maintenance / management control module 101 forms a series of signal connection relationships with the DF processing guide window management module 103, and the administrator guides the guide window 400. 401, 402, 403, 404 by selecting a menu item (see Fig. 3a, 3b, 3c, 3d), when a series of report request event data is transmitted from the manager terminal 30, D / B management module 104 Communication with the facility shape model storage D / B 107, the shape model related information storage D / B 108, the operation information storage D / B 109, and the like, as shown in FIG. After collecting and storing the history of each DF and the corresponding DFs interconnected through the information link code (C), they are converted into data in the report format, and the data in the converted report format are converted into the DF processing guide window management module 103. It will serve to deliver to the side.

In this way, when the data in the report format is completed, the DF processing guide window management module 103 immediately communicates with the manager terminal 30, and the <shape model of the specific facility (three-dimensional object-based model), the corresponding Sub-shape model information of the shape model, design information related to the shape model, construction information related to the shape model, inspection information related to the shape model, measurement information related to the shape model, maintenance history information related to the shape model, Management manual, etc. related to the corresponding shape model> and their storage / modification histories are processed through the guide window 400 to display report data collectively expressed in text, pictures, tables, and the like. In the following, the administrator side, even with a very simple computational procedure for manipulating the menu items posted in the guide window 400, It is easy to acquire / use unified report data> that encompasses multiple information at once.

While specific embodiments of the invention have been described and illustrated above, it will be apparent that the invention may be embodied in various modifications by those skilled in the art.

Such modified embodiments should not be understood individually from the technical spirit or point of view of the present invention and such modified embodiments should fall within the scope of the appended claims of the present invention.

1 is an exemplary diagram conceptually illustrating a DF maintenance / management procedure according to the prior art.

2 is an exemplary diagram conceptually showing a detailed configuration of the DF maintenance / management system according to the present invention.

3A to 3D are exemplary views conceptually showing a publication state of a DF processing guide window according to the present invention.

4A to 4C are exemplary views conceptually illustrating a DF maintenance / management procedure of the DF maintenance / management system according to the present invention.

5 is an exemplary diagram conceptually illustrating the function performance of the information connection code insertion module according to the present invention.

6 and 7 are exemplary diagrams conceptually illustrating the performance of the DF modification management module and the DF synchronization module according to the present invention.

8 is an exemplary view conceptually illustrating the function performance of the application simulation module according to the present invention.

9 is an exemplary diagram conceptually showing a detailed configuration of an application simulation module according to the present invention.

10 is an exemplary diagram conceptually showing a publication state of a simulation execution frame according to the present invention.

11 is an exemplary view conceptually illustrating the function performance of the field event processing module according to the present invention.

12 is an exemplary diagram conceptually showing the detailed configuration of the DF site maintenance / management unit and the site event processing module according to the present invention.

13 is an exemplary view conceptually showing a publication state of the DF field treatment guide window according to the present invention.

14 is an exemplary view conceptually showing the function performance of the report operation module according to the present invention.

Claims (8)

It receives and stores and outputs / modifies the DF while storing and managing data related to the facility (DF), which is connected to the terminal of a manager and is hierarchically interconnected through an information connection code in a data storage block. A DF maintenance / management control module for overall control of the procedure; The DF, which is controlled by the DF maintenance / management control module, reads the information connection code assigned to each DF according to the manager side output request event data through the manager terminal, and selectively calls the DFs hierarchically interconnected. A DF output management module for outputting through the manager terminal; A DF modification management module controlled by the DF maintenance / management control module, and adapted to modify information of the DF according to manager-side modification request event data through the manager terminal; When the information of the DF is modified by the DF maintenance / management control module, and the information of the DF is modified by the DF correction management module, the information of other DFs connected to the corresponding DF through the information connection code is interlocked and changed. And a DF synchronization module for synchronizing information of each DF. According to claim 1, Controlled by the DF maintenance / management control module, according to the manager-side reception request event data through the manager terminal, receives a new DF, and stores the received new DF in the data storage block management A DF receiving module; Controlled by the DF maintenance / management control module, and when the new DF is received by the DF reception module, the header of the new DF is read to check whether the information connection code exists in the header. DF maintenance and management system further comprising an information connection code check module. The method according to claim 2, wherein the information is controlled by the DF maintenance / management control module, and when it is determined that the information connection code does not exist in the header of the DF by performing a function of the information connection code check module, And an information linking code insertion module for generating a new information linking code and inserting the generated new information linking code into the new DF with reference to the setting details of the DF and the information linking code assignment of the existing DFs. DF maintenance system. The method according to claim 1, further controlled by the DF maintenance / management control module, extracting detailed information attached to each DF according to manager-side simulation request event data through the manager terminal, and specifying the extracted details in advance. The DF maintenance / management system further comprises an application simulation module for simulating according to the application simulation scenario. The event data output from the manager remote communicator according to claim 1, wherein the event data output from the manager remote communicator is controlled by the DF maintenance / management control module and selectively communicates with an administrator remote communicator possessed by an administrator visiting the site where the facility is constructed and installed. According to, the DF maintenance, the DF further comprises a field event processing module for remote transmission to the manager remote communicator, or modify or synchronize the information of the DF stored in the data storage block; Management system. The system of claim 5, wherein the field event processing module comprises: a field event processing control unit configured to collectively control an overall field event processing procedure; A field communication unit controlled by the field event processing control unit and processing a data transmission / reception procedure with the manager remote communication unit; When the DF output request event data of the manager remote communication side is received by the field event processing control unit and the field communication unit performs a function, the DF output management module communicates with the DF output management module. A DF output request relay unit requesting an output of the stored DF; When the DF is controlled by the field event processing control unit and in response to a request of the DF output request relay unit, the DF is transmitted from the DF output management module side, the DF is received, and then the communication unit is contacted with the field communication unit. A system DF receiving unit for guiding the DF to be remotely transmitted to the manager remote communicator; Controlled by the field event processing control unit, and when the manager remote communication side DF request request event data is received by performing the function of the field communication unit, the DF correction management module communicates with the DF correction management module, so as to be stored in the data storage block. Facility-related data maintenance / management system comprising a field processing DF delivery unit for inducing modification or synchronization of the information stored in the DF stored. The method of claim 5, wherein the manager remote communicator remotely communicates the field event processing module with the field event processing module, and remotely transmits the DF input by the manager to the field event processing module, or transmits from the field event processing module. After receiving the DF, the DF maintenance / management system, characterized in that the DF field maintenance / management unit for outputting through the manager remote communication unit is additionally installed. The method of claim 1, wherein the DF is controlled by the DF maintenance / management control module, and in accordance with the manager-side report request event data through the manager terminal, each DF interconnected through the information connection code is put together, and report data. After generating the DF maintenance / management system, characterized in that it further comprises a report operation module for selecting and reporting to the administrator terminal side.

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