KR20040022473A - System And Method For Accumulating And Offering Bridge technique - Google Patents

Abstract

PURPOSE: A system and a method for accumulating/offering a bridge technology are provided to efficiently design/construct/maintain/research a bridge by making a designer/constructor/manager/researcher receive/use the bridge data stored in a database. CONSTITUTION: A bridge technology accumulation/management server(100) comprises a user interface(110), a bridge database(120), and a control part(130). The user interface receives a system control command, the bridge relation data, and a request message for the bridge relation data from a user, and offers/outputs the system management state data and the bridge relation data to the user. The bridge database accumulates/stores the bridge relation data by including a keyword search filed, a generating information field, a bride design filed, and other fields, manages entire system by receiving the system control command from the user, generates/transmits the system management state data to the user interface, and transmits the bridge relation data matched with the request message to the user interface.

Description

System And Method For Accumulating And Offering Bridge technique}

The present invention relates to a bridge technology accumulation providing system and method, and more particularly, to accumulate and store data necessary for the design, construction, maintenance, and research of a bridge in a DB, and the designers, builders, maintainers, and researchers use the DB for the bridge. The present invention relates to a system and method for providing accumulation of bridge technology for efficiently designing, constructing, maintaining, and researching.

In general, the history of civil engineering is quite old, but not so long ago that the records of the structures were systematically organized and passed on to technicians. The same is true for bridge structures.

In addition, the bridge structure has little meaning in terms of automation in designing a reliable bridge with minimal manpower due to the diversity of the structure. In addition, the concept of optimization for bridge design is also ineffective because the goal of optimization is constantly changing due to the changing trend with diversity.

Therefore, in the ever-increasing demand for bridge structures and competition among design and construction workers, the efficiency of engineers, designers who are design engineers for bridge structures, installers who are construction engineers, maintainers who are maintenance engineers, and researchers who are research engineers Is the most important competitive advantage factor.

For example, the most important competitive edge in the design of bridge structures is the basic design, which determines the appropriate shape of the bridge and determines the basic section. The economical cost of the entire bridge structure from the construction to the maintenance after construction This is the most important factor that influences. In reality, this basic design requires a lot of experience to be a designer who can set up a competitive bridge shape and cross section in a short time, and it is possible that even an experienced engineer may be limited or biased in any part. In addition, if there is a change in the bridge design method, it will require a lot of expenses such as trial and error and technical advice until technicians gain experience, which will be a cause of weakening the competitiveness of designers and builders.

As mentioned above, although the technical skills of designers, builders, maintainers and researchers on bridge structures are very important, in the past, despite the entry into the information age, systematic accumulation of technologies for designers, builders, maintainers and researchers of bridge structures There was a problem in that there was no provision system to efficiently design, construct, maintain and study bridges.

In order to solve the problems described above, an object of the present invention is to accumulate and store bridge design data, bridge construction data, bridge maintenance data and bridge knowledge data in a database (DB) to allow designers, builders, maintainers and researchers The bridge data stored in the DB is provided and used so that the bridge can be designed, constructed, maintained and researched more efficiently.

1 is a view showing a bridge technology accumulation providing system according to an embodiment of the present invention.

FIG. 2 is a view showing a bridge technology accumulation / management server in FIG. 1; FIG.

3 shows the bridge design module in FIG.

4 is a view showing a bridge construction module in FIG.

5 is a view showing the bridge maintenance module in FIG.

FIG. 6 shows the bridge knowledge module in FIG. 1; FIG.

7 is a flowchart illustrating a method for providing bridge technology accumulation according to an embodiment of the present invention.

FIG. 8 is a flowchart illustrating a process of accumulating bridge technology in FIG. 7; FIG.

FIG. 9 is a flowchart illustrating a bridge technology providing process in FIG. 7. FIG.

FIG. 10 is a flow chart showing the bridge design data providing step in FIG.

FIG. 11 is a flowchart illustrating a bridge construction data providing step of FIG. 9. FIG.

FIG. 12 is a flowchart illustrating a bridge maintenance data providing step of FIG. 9. FIG.

FIG. 13 is a flow chart showing the bridge knowledge data providing step in FIG.

Explanation of symbols on the main parts of the drawings

100: bridge technology accumulation / management server 110: user interface unit

120: bridge DB 130: control unit

200: Bridge Technology Client Group 210: Bridge Design Module

211: designer interface unit 212: design DB

213: design unit 220: bridge construction module

221: builder interface unit 222: construction DB

223: construction unit 230: bridge maintenance module

231: maintenance interface unit 232: maintenance DB

233: maintenance unit 240: bridge knowledge module

241: researcher interface unit 242: knowledge DB

243: Ministry of Knowledge 300: Bridge Technology Evaluation / Mediation Module

In order to solve the above-described object, the bridge technology accumulation providing system of the present invention manages the entire system, accumulates and stores bridge data and provides the user with the bridge technology accumulation, which is loaded on the bridge data pack and transmitted through the network to the entire system With a management server; Accumulate and store bridge design data, bridge construction data, bridge maintenance data and bridge knowledge data networked with the bridge technology accumulation / management server and included in the bridge data pack or included in the bridge related data input by the bridge technology requester. And a bridge technology client group which is provided to the bridge technology requester and transmitted to the bridge technology accumulation / management server via a network on bridge design data packs, bridge construction data packs, bridge maintenance data packs, and bridge knowledge data packs. It is characterized by.

In addition, the bridge technology accumulation providing method of the present invention comprises the steps of managing the entire system, accumulate and store the bridge data to provide to the user, and loaded on the bridge data pack to the entire system via the network; Accumulate and store bridge design data, bridge construction data, bridge maintenance, and bridge knowledge data contained in the bridge data pack or included in bridge-related data entered by the bridge technology requester, and provide the bridge technology data requester to the bridge design data pack. The construction data pack, the bridge maintenance data pack and the bridge knowledge data pack, characterized in that it comprises a step of transmitting to the bridge technology accumulation / management server via a network.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, a configuration of a bridge technology accumulation providing system according to an exemplary embodiment of the present invention will be described with reference to FIG. 1.

1 is a view showing a bridge technology accumulation providing system according to an embodiment of the present invention.

Bridge technology accumulation providing system according to an embodiment of the present invention comprises a bridge technology accumulation / management server 100 and the bridge technology client group 200.

The bridge technology accumulation / management server 100 manages the entire system, accumulates and stores bridge data and provides them to the user, and loads them in a bridge data pack and transmits them to the entire system through a network. do. In this case, the bridge data refers to bridge design data (Bridge Design Data), bridge construction data (Bridge Construction Data), bridge maintenance data (Bridge Maintenance Data) and bridge knowledge data (Bridge Knowledge Data) The bridge data pack is a bundle of the bridge data, a bridge design data pack that is a bundle of the bridge design data, a bridge construction data pack that is a bundle of the bridge construction data, and A bridge maintenance data pack, which is a bundle of bridge maintenance data, and a bridge knowledge data pack, which is a bundle of bridge knowledge data.

In addition, the bridge technology client group 200 is connected to the bridge technology accumulation / management server 100 by a network, and the bridge design data and bridges included in the bridge data pack or loaded on the bridge technology requester. Accumulate and store construction data, bridge maintenance data, and bridge knowledge data for bridge technology requesters, and accumulate the bridge technology through a network on bridge design data packs, bridge construction data packs, bridge maintenance data packs, and bridge knowledge data packs / To the management server (100). Here, the bridge technology requester refers to the user of the system, the designer of the bridge, the builder, the maintainer and the researcher.

In addition, the bridge technology accumulation providing system according to an embodiment of the present invention may be made by further comprising a bridge technology evaluation / mediation module 300 in the bridge technology accumulation / management server 100 and the bridge technology client group 200 The bridge technology evaluation / mediation module 300 is connected to the bridge technology accumulation / management server 100 and the bridge technology client group 200 through a network and evaluates the bridge related data to determine a price, and the corresponding bridge related data. It is a cyber market that brokers bridge-related data packs for its estimated price.

Hereinafter, the configuration of the bridge technology accumulation / management server 100 will be described with reference to FIG. 2.

FIG. 2 is a diagram illustrating the bridge technology accumulation / management server 100 in FIG. 1.

The bridge technology accumulation / management server 100 includes a user interface unit 110, a bridge DB (DataBase) 120, and a controller 130.

The user interface 110 receives a system control command, a bridge relation data, and a bridge data request message from a user, and outputs system management state data and bridge data. The bridge DB 120 includes a keyword search field, a general information field, a bridge design data field, a bridge construction data field, a bridge maintenance data field, and a bridge knowledge data field. The controller 130 manages the entire system according to the system control command of the user received from the user interface 110 and generates the system management status data to generate the corresponding user interface. To the bridge technology client group 200. From the bridge data pack received via the network from the network or from the bridge-related data received from the user interface unit 110 and the existing bridge data stored in the bridge DB 120 to generate new bridge data to the bridge DB (120) ), And store the data in the corresponding user interface unit 110 in response to the bridge data request message and load the data in the corresponding bridge data pack to the bridge technology client group 200 through the network.

Here, the division field of the bridge DB 120 and the contents stored in the corresponding division field are shown in Table 1 below.

Break field Contents Keyword search Bridge type (multiple), location, span, height, width, design code, material General information Name, location, construction period, designer, builder, cost, owner Bridge design data Drafting, Bill Reports & Summary, Analytical Input & Results, Alternatives, Designers, Designer Comments, Costs, Construction Schedules and Recommendations Bridge construction data Construction report (procedure, material, photograph), system, temporary structure report, environmental data, cost, opinion Bridge maintenance data Fundamental Status, Scheme, Critical Maintenance Points, Maintenance & Assessment Reporting, Costs, Comments Bridge knowledge data Design Codes, Research Reports, Papers, Relative Analysis, Material Data, Product Data

That is, the bridge technology accumulation / management server 100 receives the bridge data input from the user, the bridge design data input from the designer, the bridge construction data input from the builder, the bridge maintenance data input from the maintenance manager and received from the researcher It classifies and stores bridge knowledge data and provides the stored data to users, designers, builders, maintainers and researchers.

And, as shown in Figure 1, the bridge technology client group 200 is a bridge design module 210, bridge construction module 220, bridge maintenance module 230 and Bridge knowledge module 240 is configured to include.

First, the bridge design module 210 is connected to the bridge technology accumulation / management server 100 in a network to transmit a bridge data request message, bridges that optionally include bridge construction data, bridge maintenance data or bridge knowledge data New bridge design data are accumulated and stored to the designer using design-related data and existing bridge design data, and are loaded into a bridge design data pack and transmitted to the bridge technology accumulation / management server 100 through a network.

The bridge construction module 220 is connected to the bridge technology accumulation / management server 100 through a network to transmit a bridge data request message, and optionally includes bridge design data, bridge maintenance data, or bridge knowledge data. New bridge construction data is stored and stored to the builder by using construction-related data and existing bridge construction data, and loaded into a bridge construction data pack and transmitted to the bridge technology accumulation / management server 100 through a network.

The bridge maintenance module 230 is connected to the bridge technology accumulation / management server 100 through a network to transmit a bridge data request message, and optionally includes bridge design data, bridge construction data, or bridge knowledge data. The new bridge maintenance data is accumulated and stored by using the maintenance-related data and the existing bridge maintenance data, provided to the maintenance manager, and loaded on the bridge maintenance data pack and transmitted to the bridge technology accumulation / management server 100 through a network.

The bridge knowledge module 240 is connected to the bridge technology accumulation / management server 100 through a network to transmit a bridge data request message, and optionally includes bridge design data, bridge construction data, or bridge maintenance data. The new bridge knowledge data is accumulated and stored by using the knowledge-related data and the existing bridge knowledge data, provided to the researcher, and loaded into the bridge knowledge data pack and transmitted to the bridge technology accumulation / management server 100 through a network.

The bridge design data pack, the bridge construction data pack, the bridge maintenance data pack, and the bridge knowledge data pack may maintain compatibility with each module independently developed by the bridge technology requester using a unified format.

Hereinafter, a configuration of the bridge design module 210 will be described with reference to FIG. 3.

3 is a view showing the bridge design module 210 in FIG.

The bridge design module 210 includes a designer interface unit 211, a design DB 212, and a design unit 213.

The designer interface unit 211 receives a bridge design relation data and a bridge design data request message from a designer and outputs the bridge design data to a designer, and the design DB 212 provides the bridge. Accumulate and store design data, and the design unit 213 transmits a bridge data request message to be loaded on a bridge design data pack received from the bridge technology accumulation / management server 100 via a network or received from a designer. Create new bridge design data using the data and existing bridge design data stored in the design DB 212 and store it in the design DB 212, provide the new bridge design data to the designer, and load it into the corresponding bridge design data pack. The bridge technology accumulation / management server 100 is transmitted through a network.

The bridge design module 210 provides bridge design data to a designer, and the designer uses the bridge design data when designing the bridge, such as setting the shape of the bridge and setting the foundation cross section, and setting the shape of the bridge, the foundation cross section. By modifying and repeating the setting and the like, the bridge can be designed more efficiently. In addition, the bridge design module 210 provides bridge design data to the bridge technology accumulation / management server 100, and the corresponding bridge technology accumulation / management server 100 accumulates and stores the bridge design data to design a bridge. Provided by module 210, bridge construction module 220, bridge maintenance module 230 and bridge knowledge module 240, another designer, builder, maintainer and researcher can design, construct, and maintain bridges Make the bridge design data available for research.

Hereinafter, a configuration of the bridge construction module 220 will be described with reference to FIG. 4.

4 is a view showing the bridge construction module 220 in FIG.

The bridge construction module 220 includes a builder interface unit 221, a construction DB 222, and a construction unit 223.

The builder interface unit 221 receives bridge construction related data and bridge construction data request messages from a builder and outputs the bridge construction data to the builder, and the construction DB 222 provides the bridge. Accumulate and store construction data, and the construction unit 223 transmits a bridge data request message to be loaded on a bridge construction data pack received from the bridge technology accumulation / management server 100 via a network or received from a construction contractor. Create new bridge construction data by using the relevant data and existing bridge construction data stored in the construction DB 222 and accumulate and store the construction data in the construction DB 222, and provide the new bridge construction data to the contractor in the corresponding bridge construction data pack. Transmitted to the bridge technology accumulation / management server 100 via a network. .

The bridge construction module 220 provides bridge construction data to a builder. Accordingly, the corresponding builder can perform bridge construction more efficiently by obtaining data necessary for bridge construction using the bridge construction data at the time of bridge construction. In addition, the bridge construction module 220 provides bridge construction data to the bridge technology accumulation / management server 100, and the corresponding bridge technology accumulation / management server 100 accumulates and stores the bridge construction data to design a bridge. Provided by module 210, bridge construction module 220, bridge maintenance module 230, and bridge knowledge module 240, designers, other builders, maintainers, and researchers design, construct, and maintain bridges And make the bridge construction data available for research.

Here, the data necessary for the bridge construction and the contents of the data are shown in Table 2 below.

Classification data Contents record Construction log, environmental data (temperature, etc.), local difficulties, material properties, actual data of bridges (construction results, prestress forces, foundation structures, modified content, etc.) cost Construction cost Engineer tools Results of consulting, special tools for bridge construction, analysis program, product DB, machine DB Construction DB, Design Guide & Procedure for Temporary Structures Initial value Initial measured data during and after construction for maintenance

Hereinafter, the configuration of the bridge maintenance module 230 will be described with reference to FIG. 5.

FIG. 5 is a diagram illustrating the bridge maintenance module 230 in FIG. 1.

The bridge maintenance module 230 includes a maintenance manager interface 231, a maintenance DB 232, and a maintenance unit 233.

The maintenance manager interface 231 receives a bridge maintenance relation data and a bridge maintenance data request message from a maintenance manager, outputs the bridge maintenance data, and provides the maintenance data to the maintenance manager. The DB 232 accumulates and stores the bridge maintenance data, and the maintenance unit 233 transmits a bridge data request message and receives the bridge maintenance data pack received from the bridge technology accumulation / management server 100 through a network. The new bridge maintenance data is generated and stored in the corresponding maintenance DB 232 by using the bridge maintenance related data, which is loaded in or received from the maintenance manager, and the existing bridge maintenance data stored in the maintenance DB 232. Provide new bridge maintenance data to the maintainer and maintain the bridge Put the data Li pack over the network and transmits it to the bridge technology storing / management server (100).

The bridge maintenance module 230 provides bridge maintenance data to a maintainer, and the maintainer more efficiently by obtaining data necessary for bridge maintenance by using the bridge maintenance data during bridge maintenance. Bridge maintenance is possible. In addition, the bridge maintenance module 230 provides bridge maintenance data to the bridge technology accumulation / management server 100, and the bridge technology accumulation / management server 100 accumulates and stores the bridge maintenance data. By providing the bridge design module 210, bridge construction module 220, bridge maintenance module 230 and bridge knowledge module 240, designers, builders, other maintainers and researchers to design and construct bridges Make the bridge maintenance data available for maintenance, research and research.

Hereinafter, the configuration of the bridge knowledge module 240 will be described with reference to FIG. 6.

FIG. 6 is a diagram illustrating the bridge knowledge module 240 in FIG. 1.

The bridge knowledge module 240 includes a researcher interface unit 241, a knowledge DB 242, and a knowledge unit 243.

The researcher interface unit 241 receives bridge knowledge relation data and bridge knowledge data request messages from a researcher and outputs the bridge knowledge data to a researcher, and the knowledge DB 242 provides the bridge. Accumulate and store the knowledge data, and the knowledge unit 243 transmits a bridge data request message to be loaded into a bridge knowledge data pack received from the bridge technology accumulation / management server 100 via a network or received from a builder; New bridge knowledge data is generated using the related data and the existing bridge knowledge data stored in the knowledge DB 242 and accumulated and stored in the knowledge DB 242. The new bridge knowledge data is provided to the researcher, and the corresponding bridge knowledge data pack is stored. It is transmitted to the bridge technology accumulation / management server 100 via a network.

The bridge knowledge module 240 provides the bridge knowledge data to the researcher, and thus the researcher can perform the bridge research more efficiently by acquiring the data necessary for the bridge research using the bridge knowledge data during the bridge research. In addition, the bridge knowledge module 240 provides bridge knowledge data to the bridge technology accumulation / management server 100, and the corresponding bridge technology accumulation / management server 100 accumulates and stores the bridge knowledge data to design a bridge. Provided by module 210, bridge construction module 220, bridge maintenance module 230, and bridge knowledge module 240, designers, builders, maintainers and other researchers design, construct, and maintain bridges And make the bridge knowledge data available for research.

Hereinafter, a bridge technology accumulation providing method according to an exemplary embodiment of the present invention will be described with reference to FIG. 7.

7 is a flowchart illustrating a method for providing bridge technology accumulation according to an embodiment of the present invention.

The bridge technology accumulation / management server 100 manages the entire system, accumulates and stores bridge data, provides the user, and loads the bridge data in a bridge data pack to the entire system through the network (S101). Here, the bridge data refers to bridge design data, bridge construction data, bridge maintenance data or bridge knowledge data, the bridge data pack is a bridge design data pack, bridge construction data pack, bridge maintenance data pack or bridge knowledge data Means pack.

The bridge technology client group 200 accumulates and stores bridge design data, bridge construction data, bridge maintenance, and bridge knowledge data included in the bridge data pack or included in bridge-related data input by the bridge technology requester. It is provided to the requester and loaded on the bridge design data pack, bridge construction data pack, bridge maintenance data pack and bridge knowledge data pack and transmitted to the bridge technology accumulation / management server 100 via the network (S102).

Hereinafter, the bridge technology accumulation process S101 will be described with reference to FIG. 8.

FIG. 8 is a flowchart illustrating a bridge technology accumulation process S101 in FIG. 7.

The user interface 110 receives a system control command and bridge-related data from a user and transmits the data to the controller 130, and the bridge technology client group 200 transmits bridge design data, bridge construction data, and bridge maintenance data. Alternatively, bridge data representing bridge knowledge data may be loaded on the bridge design data pack, bridge construction data pack, bridge maintenance data pack, or bridge data pack representing bridge knowledge data pack and transmitted to the controller 130. Here, the "bridge design data, bridge construction data, bridge maintenance data or bridge knowledge data" transmitted by the bridge technology client group 200 to the bridge data pack is the bridge technology accumulation / management server that receives the data. From the standpoint of 100, it becomes "bridge related data", and the system control command is input by the user to manage the system.

Accordingly, the controller 130 determines whether the bridge related data is received from the bridge technology client group 200 or the user interface 110 or the system control command of the user is received from the user interface 110. (S201, S202).

At this time, when the determination result (S202), the system control command of the user is received, the control unit 130 manages the entire system according to the received system control command (S203), and generates system management status data After it is transmitted to the user interface unit 110 and provided to the user (S204). Here, the system management state data is data relating to the management state of the bridge technology accumulation providing system of the present invention.

On the other hand, when the determination result (S202), the bridge-related data is received, the control unit 130 uses the received bridge-related data and the existing bridge data stored in the bridge DB 120 to the new bridge data It generates and stores (S205) and stores it in the bridge DB 120 (S206). In this case, the new bridge data has a unique password and a keyword and is classified according to data fields and stored in the bridge DB 120.

Thereafter, the bridge technology client group 200 transmits a bridge data request message to the controller 130 through a network, or the user interface 110 transmits a user bridge data request message to the controller 130. When transmitting, the controller 130 receives the bridge data request message (S207), and determines whether the bridge data request message has been received from the bridge description client group 200 or from the user interface unit 110. It is determined (S208).

At this time, when the determination result (S208) and the bridge data request message is received from the bridge technology client group 200, the controller 130 is the corresponding bridge data among the new bridge data stored in the bridge DB (120) The bridge data stored in the data field corresponding to the request message is extracted (S209) and loaded on the bridge data pack and transmitted to the corresponding bridge technology client group 200 through the network (S210). That is, the new bridge data stored for each data field by comparing and searching the password and keyword included in the bridge data request message transmitted from the bridge technology client group 200 with the password and keyword of the new bridge data stored in the bridge DB 120. The bridge data with the password and the keyword are extracted from the data and transmitted.

On the other hand, when the determination result (S208), when the bridge data request message is received from the user, the control unit 130 of the new bridge data stored in the bridge DB (120) corresponding to the data field corresponding to the bridge data request message Extract the bridge data stored in (S211), and transmits to the user interface 110 to provide to the user (S212). That is, the password and keywords included in the bridge data request message transmitted from the user interface unit 110 and the password and keywords of the new bridge data stored in the bridge DB 120 are compared and searched, and among the new bridge data stored for each data field. It extracts and transmits bridge data where password and keyword match each other.

Hereinafter, the bridge technology providing process S102 will be described with reference to FIG. 9.

FIG. 9 is a flowchart illustrating a bridge technology providing process S102 in FIG. 7.

The bridge technology client group 200 receives bridge related data, which is data related to preaching, construction, maintenance, and knowledge of the bridge, from the bridge technology requester, and provides the bridge design data to the designer according to the type of the bridge related data. Providing the bridge construction data to the contractor, providing the bridge maintenance data to the maintainer, and providing the bridge knowledge data to the researcher. Then, the bridge design data, bridge construction data, bridge maintenance data, bridge knowledge data is transmitted to the bridge technology accumulation / management server 100. Here, "bridge data" transmitted by the bridge technology accumulation / management server 100 to the bridge data pack is "bridge related data" from the viewpoint of the bridge technology client group 200 that receives the "bridge data". Becomes

In detail, the bridge technology client group 200 receives the bridge-related data from the bridge technology requester (S301), and then determines whether the corresponding bridge-related data is bridge design-related data (S302).

At this time, when the determination result (S302), the bridge-related data is bridge design-related data, after the bridge technology client group 200 receives a bridge design data request message from the designer, bridge construction data, bridge maintenance Accumulate and store new bridge design data using the bridge design-related data and bridge design data, which optionally includes data or bridge knowledge data, and provide it to the designer. 100) (S303).

On the other hand, when the determination result (S302), the bridge-related data is not the bridge design-related data, the bridge technology client group 200 determines whether the bridge-related data is bridge construction data (S304).

At this time, when the determination result (S304), the bridge-related data is the bridge construction data, the bridge technology client group 200 receives the bridge construction data request message from the builder, bridge design data, bridge maintenance data Alternatively, the bridge construction data including bridge knowledge data and bridge construction data may be accumulated and stored using the existing bridge construction data and provided to the builder. The bridge technology accumulation / management server may be loaded on a bridge construction data pack through a network. (S305).

On the other hand, when the determination result (S305), the bridge-related data is not the bridge construction-related data, the bridge technology client group 200 determines whether the bridge-related data is bridge maintenance data (S306).

At this time, when the determination result (S306), the bridge-related data is the bridge maintenance data, the bridge technology client group 200 receives a bridge maintenance data request message from the maintenance manager, bridge design data, bridge Accumulate and store new bridge maintenance data using the bridge maintenance-related data and bridge maintenance data, optionally including construction data or bridge knowledge data, and provide it to the maintainer and load the bridge maintenance data pack into the bridge through the network. Transfer to the technology accumulation / management server 100 (S307).

On the other hand, when the determination result (S307), the bridge-related data is not the bridge maintenance data, the bridge technology client group 200 receives the bridge knowledge data request message from the researcher, bridge design data, bridge Accumulate and store bridge knowledge-related data including construction data or bridge maintenance data and new bridge knowledge data using existing bridge knowledge data to researchers and accumulate the bridge technology via a network by loading them into a bridge knowledge data pack. The management server 100 transmits (S308).

Hereinafter, the bridge design data providing step S303 will be described with reference to FIG. 10.

FIG. 10 is a flowchart illustrating a bridge design data providing step S304 of FIG. 9.

The bridge design module 210 receives bridge design-related data from a designer or receives bridge design-related data from the bridge technology accumulation / management server 200 to construct a design DB 212, and then applies bridge design data. Provide to the designer and transmits to the bridge technology accumulation / management server (100). Here, the "bridge data" transmitted by the bridge technology accumulation / management server 100 to the bridge design data pack is "bridge design related data" from the standpoint of the bridge design module 210 that receives the "bridge data". "Becomes.

In detail, the designer interface unit 211 receives bridge design-related data from a designer and transmits it to the design unit 213.

Accordingly, the design unit 213 receives the bridge design related data from the designer interface unit 211 (S401), and uses the received bridge design related data and the existing bridge design data stored in the design DB 212. New bridge design data is generated (S402) and accumulated and stored in the design DB 212 (S403).

Thereafter, the designer transmits a bridge design data request message to the designer interface 210 to receive the bridge design data necessary for designing the bridge.

Accordingly, the design unit 213 receives a bridge design data request message of a designer through the designer interface unit 211 (S404), and the new bridge design data stored in the design DB 212 corresponds to the bridge design data request message. In response to the determination whether it is insufficient (S405).

At this time, when it is sufficient in response to the determination result (S405), the bridge design data request message, the design unit 213 loads the bridge design data stored in the design DB 212 to the bridge design data pack through a network The bridge technology accumulation / management server 100 is transmitted to the designer interface unit 211 and provided to the designer (S410).

On the other hand, if it is insufficient in response to the determination result (S405), the bridge design data request message, the design unit 213 generates a bridge data request message and transmits it to the bridge technology accumulation / management server 100 (S406).

Accordingly, after the bridge technology accumulation / management server 100 receives the bridge data request message from the design unit 213, the bridge corresponding to the corresponding bridge data request message among the new bridge data stored in the bridge DB 120. The design-related data is extracted and loaded into the bridge design data pack and transmitted to the design unit 213 of the bridge design module 210 through a network.

Accordingly, after the design unit 213 receives the bridge design related data from the bridge technology accumulation / management server 100 (S407), the received bridge design related data and the new bridge design stored in the design DB 212 Another new bridge design data is generated using the data (S408), and stored in the corresponding design DB 212 (S409).

Thereafter, the design unit 213 loads another new bridge design data stored in the design DB 212 in a bridge design data pack and transmits it to the bridge technology accumulation / management server 100 through a network and the designer interface unit. The transmission to the 211 is provided to the designer (S410). Accordingly, the bridge technology accumulation / management server 100 accumulates and stores the received bridge design data in the bridge DB 120, and a designer designs the bridge efficiently with reference to the provided bridge design data.

Hereinafter, the bridge construction data providing step S305 will be described with reference to FIG. 11.

FIG. 11 is a flowchart illustrating a bridge construction data providing step (S305) in FIG. 9.

The bridge construction module 220 receives the bridge construction-related data from the builder or receives the bridge construction-related data from the bridge technology accumulation / management server 200 to build a design DB (212), the bridge construction data corresponding Provide to the builder and transmits to the bridge technology accumulation / management server (100). Here, the "bridge data" transmitted by the bridge technology accumulation / management server 100 loaded on the bridge construction data pack is "bridge construction related data" from the standpoint of the bridge construction module 220 receiving the "bridge data". "Becomes.

Hereinafter, in detail, the builder interface unit 221 receives bridge construction-related data from the builder and transmits it to the builder 223.

Thus, the construction unit 223 receives the bridge construction-related data from the builder interface unit 221 (S501), the received bridge construction-related data and the existing bridge construction data stored in the construction DB 222 New bridge construction data is generated (S502), and stored in the construction DB 222 (S503).

Then, the builder transmits a bridge construction data request message to the builder interface unit 221 in order to receive the bridge construction data necessary for constructing the bridge.

Accordingly, the construction unit 223 receives the bridge construction data request message of the builder through the builder interface unit 221 (S504), and the new bridge construction data stored in the construction DB 222 requests the bridge construction data. In response to the message, it is determined whether it is insufficient (S505).

At this time, when it is sufficient in response to the determination result (S505), the bridge construction data request message, the construction unit 223 loads the new bridge construction data stored in the construction DB 222 to the bridge construction data pack network Through the bridge technology accumulation / management server 100 through the transmission to the builder interface unit 221 is provided to the builder (S510).

On the other hand, if it is insufficient in response to the determination result (S505), the bridge construction data request message, the construction unit 223 generates a bridge data request message to the bridge technology accumulation / management server 100 It transmits (S506).

Accordingly, after the bridge technology accumulation / management server 100 receives the bridge data request message from the construction unit 223, the bridge corresponding to the corresponding bridge data request message among the bridge data stored in the bridge DB 120. The construction-related data is extracted and loaded on the bridge construction data pack and transmitted to the construction unit 223 of the bridge construction module 220 through a network.

Accordingly, the construction unit 223 receives the bridge construction-related data from the bridge technology accumulation / management server 100 (S507), and the new bridges stored in the received bridge construction-related data and the construction DB 222. Another new bridge construction data is generated using the construction data (S508), and stored in the construction DB 222 (S509).

Thereafter, the construction unit 223 loads another new bridge construction data stored in the construction DB 222 in a bridge construction data pack and transmits the data to the bridge technology accumulation / management server 100 through a network and the builder interface. Transfer to the unit 221 is provided to the builder (S510). Accordingly, the bridge technology accumulation / management server 100 accumulates and stores the received bridge construction data in the bridge DB 120 and the builder efficiently constructs the bridge with reference to the provided bridge construction data.

Hereinafter, the bridge maintenance data providing step S307 will be described with reference to FIG. 12.

FIG. 12 is a flowchart illustrating a bridge maintenance data providing step S307 of FIG. 9.

The bridge maintenance module 230 receives bridge maintenance related data from a maintenance manager or receives bridge maintenance related data from the bridge technology accumulation / management server 200 to build a maintenance DB 232. Provides the bridge maintenance data to the maintainer and transmits it to the bridge technology accumulation / management server 100. Here, the "bridge data" transmitted by the bridge technology accumulation / management server 100 loaded on the bridge maintenance data pack is "bridge maintenance" from the standpoint of the bridge maintenance module 230 that receives the "bridge data". Management-related data ".

In detail, the maintenance manager interface unit 231 receives data related to bridge maintenance from the maintenance manager and transmits the data to the maintenance unit 233.

Thus, the maintenance unit 233 receives the bridge maintenance-related data from the maintenance manager interface 231 (S601), the received bridge maintenance-related data and the existing stored in the maintenance DB (232) New bridge maintenance data is generated using the bridge maintenance data (S602), and stored in the corresponding maintenance DB 232 (S603).

Thereafter, the maintenance manager transmits a bridge maintenance data request message to the maintenance interface 231 to receive the bridge maintenance data necessary for maintaining the bridge.

Accordingly, the maintenance unit 233 receives the bridge maintenance data request message of the maintenance manager through the maintenance manager interface 231 (S604), and the new bridge maintenance data stored in the maintenance DB 232 is stored. In response to the bridge maintenance data request message, it is determined whether it is insufficient (S605).

At this time, if it is sufficient in response to the determination result (S605), the bridge maintenance data request message, the maintenance unit 233 bridges the new bridge maintenance data stored in the maintenance DB 232 bridge maintenance data Loaded into the pack is transmitted to the bridge technology accumulation / management server 100 via a network and transmitted to the maintenance manager interface unit 231 to provide to the maintenance manager (S610).

On the other hand, if it is insufficient in response to the determination result (S605), the bridge maintenance data request message, the maintenance unit 233 generates a bridge data request message to the bridge technology accumulation / management server 100 Transmit to (S606).

Accordingly, after the bridge technology accumulation / management server 100 receives the bridge data request message from the maintenance unit 233, the bridge corresponding to the corresponding bridge data request message among the bridge data stored in the bridge DB 120 is provided. The maintenance-related data is extracted and loaded on the bridge maintenance data pack and transmitted to the maintenance unit 233 of the bridge maintenance module 230 through a network.

Accordingly, the maintenance unit 233 receives the bridge maintenance-related data from the bridge technology accumulation / management server 100 (S607), the received bridge maintenance-related data and the maintenance DB (232) Another new bridge maintenance data is generated using the stored new bridge maintenance data (S608), and stored in the corresponding maintenance DB 232 (S609).

Thereafter, the maintenance unit 233 loads another new bridge maintenance data stored in the maintenance DB 232 in a bridge maintenance data pack and transmits it to the bridge technology accumulation / management server 100 through a network. It is transmitted to the maintenance manager interface 231 and provided to the maintenance manager (S610). Accordingly, the bridge technology accumulation / management server 100 accumulates and stores the received bridge maintenance data in the bridge DB 120 and the maintenance manager efficiently maintains the bridge with reference to the provided bridge maintenance data. do.

Hereinafter, the bridge knowledge data providing step S308 will be described with reference to FIG. 13.

FIG. 13 is a flowchart showing the bridge knowledge data providing step S308 in FIG. 9.

The bridge knowledge module 240 receives bridge knowledge related data from a researcher or receives bridge knowledge related data from the bridge technology accumulation / management server 200 to build a knowledge DB 242, and then applies bridge knowledge data. Provided to the researcher and transmitted to the bridge technology accumulation / management server (100). Here, the "bridge data" transmitted by the bridge technology accumulation / management server 100 loaded on the bridge knowledge data pack is "bridge knowledge related data" from the standpoint of the bridge knowledge module 240 that receives the "bridge data". "Becomes.

In detail, the researcher interface unit 241 receives bridge knowledge-related data from the researcher and transmits it to the knowledge unit 243.

Accordingly, the knowledge unit 243 receives the bridge knowledge related data from the researcher interface unit 241 (S701), and then receives the bridge knowledge related data and the existing bridge knowledge data stored in the knowledge DB 242. New bridge knowledge data is generated using (S702), and stored in the knowledge DB 242 (S703).

Then, the researcher transmits a bridge knowledge data request message to the researcher interface unit 231 to receive the bridge knowledge data necessary for studying the bridge.

Accordingly, the knowledge unit 243 receives the bridge knowledge data request message of the researcher through the researcher interface unit 241 (S704), and the new bridge knowledge data stored in the knowledge DB 242 requests the corresponding bridge knowledge data. In response to the message, it is determined whether it is insufficient (S705).

At this time, when the determination result (S705) is sufficient in response to the bridge knowledge data request message, the knowledge unit 243 loads the new bridge knowledge data stored in the knowledge DB 242 into a bridge knowledge data pack. Through the bridge technology accumulation / management server 100 through the transmission to the researcher interface unit 241 is provided to the researcher (S710).

On the other hand, when it is insufficient in response to the determination result (S705) and the bridge knowledge data request message, the knowledge unit 243 generates a bridge data request message to the bridge technology accumulation / management server 100. It transmits (S706).

Accordingly, after the bridge technology accumulation / management server 100 receives the bridge data request message from the knowledge unit 243, the bridge corresponding to the corresponding bridge data request message among the bridge data stored in the bridge DB 120 is received. The knowledge-related data is extracted and loaded on the bridge knowledge data pack and transmitted to the knowledge unit 243 of the bridge knowledge module 240 through a network.

Accordingly, the knowledge unit 243 receives bridge knowledge related data from the bridge technology accumulation / management server 100 (S707), and then receives the received bridge knowledge related data and the new bridge stored in the knowledge DB 242. Another new bridge knowledge data is generated using the knowledge data (S708), and stored in the knowledge DB 242 (S709).

Thereafter, the knowledge unit 243 loads another new bridge knowledge data stored in the knowledge DB 242 in a bridge knowledge data pack, and transmits it to the bridge technology accumulation / management server 100 through a network and the researcher interface. Transfer to the unit 241 is provided to the researcher (S710). Accordingly, the bridge technology accumulation / management server 100 accumulates and stores the received bridge knowledge data in the bridge DB 120 and the researcher efficiently studies the bridge with reference to the provided bridge knowledge data.

In addition, the embodiment according to the present invention is not limited to the above-described embodiments, and various alternatives, modifications, and changes can be made within the scope apparent to those skilled in the art.

As described above, the present invention accumulates and stores bridge design data, bridge construction data, bridge maintenance data, and bridge knowledge data in a DB so that a designer, a builder, a maintainer, and a researcher receive bridge data stored in a corresponding DB and receive data from each other. By sharing and using them, you can design, construct, maintain and study bridges more efficiently.

Claims (23)

A bridge technology accumulation / management server that manages the entire system, accumulates and stores bridge data, provides the user, and transfers the data to the entire system on a bridge data pack; Accumulate and store bridge design data, bridge construction data, bridge maintenance data and bridge knowledge data networked with the bridge technology accumulation / management server and included in the bridge data pack or included in the bridge related data input by the bridge technology requester. And a bridge technology client group which is provided to the bridge technology requester and transmitted to the bridge technology accumulation / management server via a network on bridge design data packs, bridge construction data packs, bridge maintenance data packs, and bridge knowledge data packs. Bridge technology accumulation providing system, characterized in that. The method of claim 1, A bridge that is a cyber market that is networked with the bridge technology accumulation / management server and the bridge technology client group, evaluates the bridge related data to determine a price, and brokers a bridge related data pack for the bridge related data at the estimated price. Bridge technology accumulation providing system, characterized in that further comprises a technology evaluation / mediation module. The method of claim 1, The bridge technology accumulation / management server, A user interface unit for receiving a system control command, bridge related data, and bridge data request messages from a user and outputting system management status data and bridge data to a user; A bridge DB including a keyword search field, a general information field, a bridge design data field, a bridge construction data field, a bridge maintenance data field, and a bridge knowledge data field to accumulate and store bridge data in a data field corresponding to the bridge data; Manage the entire system according to the system control command, generate the system management status data and transmit it to the corresponding user interface unit, the bridge-related data received from the bridge technology client group or the user interface unit and the existing bridge data stored in the bridge DB It generates a new bridge data to accumulate and store in the corresponding bridge DB, and transmits to the corresponding user interface unit in response to the bridge data request message, and loaded on the bridge data pack to the bridge technology client group, characterized in that it comprises a control unit Bridge technology accumulation providing system. The method of claim 1, The bridge technology client group, Connected with the bridge technology accumulation / management server, the bridge transmits the bridge data request message, accumulates and stores new bridge design data using the bridge design related data and the existing bridge design data, and provides the designer with the bridge design data pack. A bridge design module for transmitting to a technology accumulation / management server; Connected with the bridge technology accumulation / management server to transmit a bridge data request message, accumulate and store new bridge construction data using bridge construction-related data and existing bridge construction data, and provide it to the builder, and put the bridge construction data pack on the bridge. A bridge construction module for transmitting to the technology accumulation / management server; Connected with the bridge technology accumulation / management server, the bridge transmits the bridge data request message, accumulates and stores new bridge maintenance data using the bridge maintenance related data and the existing bridge maintenance data, and provides it to the maintenance manager. A bridge maintenance module mounted on a pack and transmitted to the bridge technology accumulation / management server; Connected with the bridge technology accumulation / management server, the bridge transmits the bridge data request message, accumulates and stores the bridge knowledge related data and the new bridge knowledge data using the existing bridge knowledge data, and provides the researchers with the bridge knowledge data pack. Bridge technology accumulation providing system comprising a bridge knowledge module for transmitting to the bridge technology accumulation / management server. The method of claim 4, wherein The bridge design module, A designer interface unit receiving bridge design data and bridge design data request messages from a designer and outputting the bridge design data to a designer; A design DB for accumulating and storing the bridge design data; The bridge data request message is transmitted to the new bridge design data by using the bridge design data stored in the bridge design data pack received from the bridge technology accumulation / management server or received from the designer and the existing bridge design data stored in the design DB. A bridge technology accumulation providing system comprising a design unit that generates and stores in a corresponding design DB, provides a corresponding new bridge design data to a designer, and transfers the data to a bridge technology accumulation / management server in a bridge design data pack. . The method of claim 4, wherein The bridge construction module, A builder interface unit for receiving a bridge construction related data and a bridge construction data request message from a builder and outputting the bridge construction data to a builder; A construction DB for accumulating and storing the bridge construction data; The bridge data request message is transmitted to the new bridge construction data using the bridge construction related data received from the bridge construction data pack received from the bridge technology accumulation / management server or received from the builder and the existing bridge construction data stored in the construction DB. Bridge technology accumulation providing system comprising a construction unit that generates and stores in the construction DB, provides the new bridge construction data to the builder, and transfers the data to the bridge technology accumulation / management server on the bridge construction data pack. . The method of claim 4, wherein The bridge maintenance module, A maintenance unit interface unit for receiving a bridge maintenance related data and a bridge maintenance data request message from a maintenance manager and outputting the bridge maintenance data to a maintenance manager; A maintenance DB for accumulating and storing the bridge maintenance data; The bridge data request message is transmitted to the bridge maintenance data pack received from the bridge technology accumulation / management server or by using the bridge maintenance related data received from the manager and the existing bridge maintenance data stored in the maintenance DB. It includes a maintenance unit that generates new bridge maintenance data, accumulates it in the corresponding maintenance DB, provides the new bridge maintenance data to the maintainer, and loads the bridge maintenance data pack on the bridge maintenance data pack to the bridge technology accumulation / management server. Bridge technology accumulation providing system, characterized in that made. The method of claim 4, wherein The bridge knowledge module, A researcher interface unit for receiving the bridge knowledge related data and the bridge knowledge data request message from the researcher and outputting the bridge knowledge data to the researcher; Accumulating and storing the bridge knowledge data and a knowledge DB; The bridge data request message is transmitted to the new bridge knowledge data by using the bridge knowledge related data stored in the bridge knowledge data pack received from the bridge technology accumulation / management server or received from the builder and the existing bridge knowledge data stored in the knowledge DB. A bridge technology accumulation providing system comprising a knowledge unit which generates and stores the accumulated data in a corresponding knowledge DB, provides the new bridge knowledge data to a researcher, and loads the data into a corresponding bridge knowledge data pack to the bridge technology accumulation / management server. . Managing the entire system, accumulating and storing bridge data, providing the user with the bridge data, and transferring the data to the entire system via a network; Accumulate and store bridge design data, bridge construction data, bridge maintenance, and bridge knowledge data contained in the bridge data pack or included in bridge-related data entered by the bridge technology requester, and provide the bridge technology data requester to the bridge design data pack. A bridge technology accumulation providing method comprising the step of transferring to a bridge technology accumulation / management server via a network on a construction data pack, a bridge maintenance data pack, and a bridge knowledge data pack. The method of claim 9, The bridge technology accumulation process, Determining whether a bridge-related data or a user's system control command has been received; Generating the new bridge data using the received bridge-related data and the existing bridge data when the bridge-related data is received and storing the accumulated bridge data; Receiving a bridge data request message to determine whether the bridge data request message has been received from a bridge description client group or from a user interface unit; When the bridge data request message is received from the bridge technology client group, extracting bridge data corresponding to the bridge data request message, loading the bridge data pack into a bridge data pack, and transmitting the data to the bridge technology client group; And when the bridge data request message is received from a user, extracting bridge data corresponding to the corresponding bridge data request message and transmitting the bridge data to the user interface unit to provide the bridge data request message to the user. . The method of claim 10, The bridge technology accumulation process, And receiving the system control command of the user, managing the entire system according to the received system control command, generating system management state data, and transmitting the generated system management state data to the user interface unit to provide the user with the user. Bridge technology accumulation providing method, characterized in that. The method of claim 9, The bridge technology providing process, Receiving bridge-related data from a bridge technology requester, and then determining whether the bridge-related data is bridge design-related data; When the bridge-related data is bridge design-related data, after receiving the bridge design data request message, new bridge design data is accumulated and stored using the bridge design-related data and the existing bridge design data and provided to the designer. And transmitting the data to the bridge technology accumulation / management server. The method of claim 12, The bridge technology providing process, Determining whether the bridge-related data is bridge construction data when the bridge-related data is not bridge design-related data; If the bridge-related data is bridge construction data, after receiving the bridge construction data request message, the bridge construction data and the existing bridge construction data are accumulated and stored to provide to the contractor and stored in the bridge construction data pack. The bridge technology accumulation providing method further comprises the step of transmitting to the bridge technology accumulation / management server. The method of claim 13, The bridge technology providing process, Determining whether the bridge-related data is bridge maintenance data when the bridge-related data is not bridge construction-related data; When the bridge related data is bridge maintenance data, after receiving the bridge maintenance data request message, the bridge maintenance data and the existing bridge maintenance data are accumulated and stored and provided to the maintenance manager. And loading the bridge maintenance data pack to the bridge technology accumulation / management server. The method of claim 14, The bridge technology providing process, If the bridge related data is not the bridge maintenance data, after receiving the bridge knowledge data request message, the bridge knowledge data request message is transmitted to the bridge technology accumulation / management server, and the bridge knowledge related data and the existing bridge knowledge data. Accumulating and storing new bridge knowledge data to provide to a researcher, and transferring the new bridge knowledge data to a bridge knowledge data pack to the bridge technology accumulation / management server. The method of claim 12, The bridge design data providing step, After receiving the bridge design related data, generating and storing new bridge design data using the received bridge design related data and the existing bridge design data; Receiving a bridge design data request message of a designer, and determining whether the stored new bridge design data is insufficient in response to the corresponding bridge design data request message; Generating and transmitting a bridge data request message if it is insufficient in response to the bridge design data request message; After receiving the bridge design related data, generating and storing another new bridge design data using the received bridge design related data and the stored new bridge design data; And transmitting the stored new new bridge design data to the bridge technology accumulation / management server and providing the same to the designer. The method of claim 16, The design data providing step, If the response to the bridge design data request message is sufficient, transmitting the stored bridge design data to the bridge technology accumulation / management server and providing the designer to the bridge technology accumulation providing method. . The method of claim 13, The bridge construction data providing step, After receiving the bridge construction related data, generating and storing new bridge construction data using the received bridge construction related data and the existing bridge construction data; Receiving a bridge construction data request message from a builder, and determining whether the stored new bridge construction data is insufficient in response to the bridge construction data request message; Generating and transmitting a bridge data request message when it is insufficient in response to the bridge construction data request message; After receiving the bridge construction related data, generating and storing another new bridge construction data using the received bridge construction related data and the stored new bridge construction data; And transmitting the stored new bridge construction data to the bridge technology accumulation / management server and providing the new bridge construction data to the builder. The method of claim 18, The bridge construction data providing step, Providing, if the response to the bridge construction data request message is sufficient, transmitting the stored new bridge construction data to the bridge technology accumulation / management server and providing it to the builder. Way. The method of claim 14, The bridge maintenance data providing step, After receiving the bridge maintenance related data, generating and storing new bridge maintenance data using the received bridge maintenance related data and the existing bridge maintenance data; Receiving a bridge maintenance data request message of a maintenance manager, and determining whether the stored new bridge maintenance data is insufficient in response to the corresponding bridge maintenance data request message; Generating and sending a bridge data request message if it is insufficient in response to the bridge maintenance data request message; After receiving the bridge maintenance related data, generating and storing another new bridge maintenance data using the received bridge maintenance related data and the stored new bridge maintenance data; And transmitting the stored new bridge maintenance data to the bridge technology accumulation / management server and providing it to the maintenance manager. The method of claim 20, The bridge maintenance data providing step, And, if sufficient in response to the bridge maintenance data request message, transmitting the stored new bridge maintenance data to the bridge technology accumulation / management server and providing the maintenance to the bridge technology. How to provide accumulation. The method of claim 15, The bridge knowledge data providing step, After receiving the bridge knowledge related data, generating and storing new bridge knowledge data using the received bridge knowledge related data and the existing bridge knowledge data; Receiving a researcher's bridge knowledge data request message and determining whether the stored new bridge knowledge data is insufficient in response to the corresponding bridge knowledge data request message; Generating and sending a bridge data request message if it is insufficient in response to the bridge knowledge data request message; After receiving the bridge knowledge related data, generating and storing another new bridge knowledge data using the received bridge knowledge related data and the stored new bridge knowledge data; And transmitting the stored new new bridge knowledge data to the bridge technology accumulation / management server and providing it to a researcher. The method of claim 22, The bridge knowledge data providing step, Providing, if sufficient in response to the bridge knowledge data request message, the stored new bridge knowledge data to the bridge technology accumulation / management server and providing it to the researcher. Way.