WO2013165066A1 - Remote simulation-based ship production system and method using mobile - Google Patents

Abstract

The present invention provides a remote simulation-based ship production system and method using a mobile that may cope with an emergency and an unexpected situation on-site by performing a production simulation based on a production plan, a resource plan, and a distribution plan in real time by using a worker's mobile at a ship production site through a modification and change of a simulation result value, and reflecting them through re-performing the simulation. According to the present invention, if an unexpected situation occurs in the process of executing ship production, such as differences between plans and results, a sudden situation arising on-site, and a work order change on-site, a shipyard worker immediately inputs a related information such as simulation data by using his/her mobile terminal so as to be able to obtain available simulation results reflecting the site situation in real time and to thus cope with the emergency and unexpected situation flexibly on-site.

Description

Remote simulation based shipbuilding production system and method using mobile

The present invention relates to a remote simulation based shipbuilding production system and method using mobile.

 In general, in the construction of ships at shipyards, business design is started according to the type and size of the ordered ships, and a large schedule is established in the production plan. After the sales design, the detailed design, the purchase schedule according to this plan is established, and the middle schedule plan is established to link with the purchase schedule.

 When the detailed design and the mid-schedule plan are established, the production design necessary for the production is again performed, and the small schedule necessary for the production is established for each department and the process, the purchase material is received, and the production is executed accordingly. Of course, in this case, the production schedule and production plan are separately established to link the manpower arrangement, dock arrangement, workshop arrangement, drying equipment schedule adjustment, and subcontractor schedule adjustment required for ship construction schedule.

 Such a production schedule is planned by establishing a medium schedule of about one year, and then, based on the schedule, detailed small schedule according to department and process time. That is, when establishing a mid-scheduling plan, each department, such as assembly, painting, designing, mounting, etc., and each process such as preceding, trailing, cabin, captain, captain, and battlefield, establishes a schedule according to the time.

 On the other hand, Korea's shipbuilding and marine industry is currently spurring the development of a variety of new production technologies and construction methods to maintain a technological competitive edge over latecomer countries such as China. One of these new technologies is the verification and optimized production of new construction methods. Much attention is paid to production simulation techniques to support the flow. However, due to the peculiarity of the shipbuilding and marine industry, the engineering to order industry, there is a limit to the direct application of simulation systems and tools applied to the make-to-stock industry such as machinery, automobiles, and aviation. Development of production simulation technology specialized for the marine industry is required.

 To this end, large shipyards in Korea have developed a variety of production simulation programs. These programs are usually developed by the demands and needs of the demand department, and it is true that they help to increase productivity. However, in shipyard yards, there is often a difference between the schedule presented by the small schedule and the work performance of the site. Since the existing shipbuilding production simulations do not reflect these differences in advance or in the field immediately, Can't take full advantage of the simulated results, which can lead to problems.

The present invention has been proposed to solve the above problems, in the shipbuilding production site, the operator performs a production simulation based on the production plan, resource planning, logistics plan, etc. in real time using mobile and modify the result value The purpose of the present invention is to provide a remote simulation-based shipbuilding production system and method that can be used to cope with emergencies and accidents in the field through the re-execution of the simulation.

 The present invention to achieve the above object,

 A mobile terminal for remotely inputting data for performing a simulation to a database server and inquiring a simulation result;

 Middleware that connects the mobile terminal and the database server to enable input and inquiry of the database server of the mobile terminal;

 A database server for requesting a simulation server to perform a simulation when there is data input from the mobile terminal, and storing a simulation result of the simulation server;

 A simulation server for performing simulations in conjunction with the database server;

 Provides a remote simulation-based shipbuilding production system using a mobile including.

 In addition, the present invention,

 As a method implemented on the remote simulation-based shipbuilding production system using the mobile,

 In relation to the execution of shipbuilding production, in case of data related to the difference between the plan and the performance, the on-site accident situation, and the change of the field work order, the mobile terminal inputs the relevant data for performing the simulation on the database server remotely in real time. Doing;

 Requesting, by the database server, to perform simulation with the simulation server when there is data input from the mobile terminal;

 The simulation server performing a simulation;

 Storing, by the database server, simulation results of the simulation server;

 Querying, by the mobile terminal, a simulation result stored in the database server;

 It provides a remote simulation-based shipbuilding production method using a mobile including.

According to the present invention, when an unexpected situation such as a difference between a plan and a performance, a site breakdown situation, and a change in the field work order occurs in the course of execution of shipbuilding production, a worker at a shipyard site uses his mobile terminal to make a related matter. By directly inputting the simulation data, it is possible to obtain a usable simulation result that reflects on-the-spot changes in real time, thereby flexibly responding to on-site emergency and unexpected situations.

1 is a block diagram of a remote simulation-based shipbuilding production system using a mobile according to the present invention.

 <Description of the code>

 1: mobile terminal

 2: middleware

 3: database server

 4: simulation server

 Hereinafter, with reference to the accompanying Figure 1 will be described in detail with respect to the present invention. In describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Remote simulation based shipbuilding production system using mobile

 1 is a block diagram of a remote simulation-based shipbuilding production system using a mobile according to the present invention.

 The present invention in the shipbuilding production site by using a mobile operator in real time production simulation based on production planning, resource planning, logistics planning, and the like through the modification of the result value, change and re-simulation of the simulation reflected It is an object of the present invention to provide a remote simulation-based shipbuilding production system using a mobile, which can cope with emergencies and sudden situations of the present invention, the mobile terminal (1), middleware (2), It comprises a database server 3 and a simulation server 4.

 The mobile terminal 1 is a smart phone or tablet PC type device used by a worker in a shipbuilding production site (yard), and remotely inputs data for performing a simulation with respect to the database server 3 and simulates it. It retrieves the result.

 The ultimate object of the present invention is to enable the operator of the shipyard site to flexibly cope with emergencies and accidents through simulation, and in this respect, the present invention particularly relates to the function of the mobile terminal 1. Various technical means which can realize the objective were provided. Hereinafter, this will be described in detail.

 First, in the course of the execution of shipbuilding production, if an unexpected situation occurs such as the difference between the plan and the performance, the site breakdown situation, the change of the field work order, and the like at the shipyard site, the worker can relate the data to the mobile terminal 1 in real time. You can immediately enter the simulation result that reflects the situation by entering. Therefore, even if an emergency or sudden situation occurs, the result can be predicted and coped in advance.

 Second, when the operator in the field inquires the simulation result with the mobile terminal 1, the simulation result value can be modified and changed by using a touch pad, in which case the operator performs a new simulation with the modified and changed simulation result value. It can be entered as data for. When it is necessary to modify or change the simulation result value, for example, it is obvious that the input of the data is insufficient or inaccurate and the simulation result does not sufficiently reflect the reality, or the simulation result value is artificially adjusted to the specific target value. And if you want to base your work on the simulation results. When the modified and changed simulation result values are input as data for performing a new simulation, the operator can obtain new simulation results closer to reality or more desired.

 Third, the worker can retrieve the simulation result from the database server 3 by using his mobile terminal 1 and store it on his own, so that the simulation result can be quickly and repeatedly viewed while the work is in progress. Sending results can lead to common awareness and coping with emergencies and outbreaks.

 Middleware (or middleware) generally refers to software that connects a service to many processes on multiple computers connected through a network. In the present invention, the middleware 2 is a mobile terminal 1 and a database server ( 3) by connecting, the input and inquiry to the database server (3) of the mobile terminal (1) is enabled.

 The database server 3 requests the simulation server 4 to perform a simulation when there is data input from the mobile terminal 1, and stores the simulation results of the simulation server 4. In addition, the simulation server 4 functions to perform a simulation in conjunction with the database server 3 as described above. According to a preferred embodiment of the present invention, the simulation server 4 has a plurality of programmed simulation logics itself, so that the simulation can be performed by selecting the simulation logic optimized for each situation.

 In this case, the database server 3 is provided with various planning databases on which the simulation is performed. Such a planning database may include a production planning database, a resource planning database, a logistics planning database, and the like. Here, the production plan database stores and manages various data for performing production-related simulation, and accordingly, the database server 3 supports the production-related simulation of the simulation server 4. In addition, the resource planning database stores and manages various data for performing resource-related simulation. Accordingly, the database server 3 supports the simulation of the resource-related simulation of the simulation server 4. In addition, the logistics planning database stores and manages various data for performing logistics-related simulation. Accordingly, the database server 3 supports the logistics-related simulation of the simulation server 4. In this case, according to a preferred embodiment of the present invention, the mobile terminal 1 may be provided with a data input window by dividing the fields into production planning, resource planning, logistics planning, and the like.

 On the other hand, the database server 3, as described above, the operator in the field is to modify and change the simulation result value, and input the modified and changed simulation result value as data for performing a new simulation, and thus obtain a new simulation result In this case, it stores and manages the history of the simulation results repeatedly performed. Of course, in this case, the operator can search the history of the simulation results repeatedly performed by using his mobile terminal 1, thereby making an objective evaluation of the actual work progress that has been performed in the field and based on this immediately. Planning can be made.

 As described above, according to the present invention, when an unexpected situation such as a difference between a plan and a performance, an on-site breakdown situation, and a change in the order of on-site work occurs in the execution process of shipbuilding production, the worker at the shipyard site may By immediately inputting the simulation data using the mobile terminal 1, it is possible to obtain a usable simulation result reflecting real-time fluctuations of the site, thereby flexibly coping with the emergency and sudden situation of the site.

Remote simulation based shipbuilding production method using mobile

 The present invention also provides a 'remote simulation-based shipbuilding production method using mobile', which is a method implemented on the above-described mobile simulation-based shipbuilding production system using mobile, the method according to the present invention is specifically described in the following order It can be implemented step by step according to. Hereinafter, this will be described in detail with reference to FIG. 1. However, in the description of the method according to the present invention, the same description as in the above description will be omitted.

 (Step S1) In relation to the execution of shipbuilding production, when data relating to the difference between the plan and the performance, the situation of on-site accidents, and the change of the order of on-site work occurs, the mobile terminal 1 remotely contacts the database server 3 in real time. Enter the relevant data for running the simulation. In this case, the middleware 2 connects the mobile terminal 1 and the database server 3 so as to enable input and inquiry to the database server 3 of the mobile terminal 1. → (Step S2) The database server 3 requests the simulation server 4 to perform simulation when there is data input from the mobile terminal 1. → (Step S3) The simulation server 4 performs the simulation. → (step S4), the database server 3 stores the simulation results of the simulation server 4. → (Step S5) The mobile terminal 1 inquires the simulation result stored in the database server (3).

 The above description is merely illustrative of the technical idea of the present invention, and various modifications, changes, and substitutions may be made by those skilled in the art without departing from the essential characteristics of the present invention. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

According to the present invention, in the process of shipbuilding production, it is possible to obtain the available simulation results reflecting the real-time fluctuations of the site, through which it is possible to flexibly cope with the emergency and abrupt situation of the site, the present invention It is a technology that can be widely used in shipbuilding and marine technology to realize its practical and economic value.

Claims (18)

1.  A mobile terminal for remotely inputting data for performing a simulation to a database server and inquiring a simulation result;

    Middleware that connects the mobile terminal and the database server to enable input and inquiry of the database server of the mobile terminal;

    A database server for requesting a simulation server to perform a simulation when there is data input from the mobile terminal, and storing a simulation result of the simulation server;

    A simulation server for performing simulations in conjunction with the database server;

    Remote simulation based shipbuilding production system using a mobile including.
2.  The method of claim 1,

    The mobile terminal is a remote simulation-based shipbuilding production system using a mobile, characterized in that a smart phone or tablet PC.
3.  The method of claim 1,

    The mobile terminal is a remote simulation using a mobile, characterized in that when the data related to the execution of the shipbuilding production, the difference between the plan and the performance, the site breakdown situation, changes in the field work order is input in real time Based shipbuilding production system.
4.  The method of claim 1,

    The mobile terminal is a remote simulation-based shipbuilding production system using a mobile, characterized in that for modifying and changing the result value by the operation of the touch pad in querying the simulation results.
5.  The method of claim 4, wherein

    The mobile terminal is a remote simulation based shipbuilding production system using a mobile, characterized in that for inputting the modified, changed simulation result value as data for performing a new simulation.
6.  The method of claim 1,

    The mobile terminal is a mobile simulation-based shipbuilding production system using a mobile, characterized in that for taking the simulation results from the database server and saves itself.
7.  The method of claim 1,

    The database server is a planning database that is the basis of the simulation, the remote simulation-based shipbuilding production system using a mobile, characterized in that it comprises a production planning database, resource planning database, logistics planning database.
8.  The method of claim 7, wherein

    The mobile terminal is a remote simulation-based shipbuilding production system using a mobile, characterized in that it comprises a data input window by dividing the field into production planning, resource planning, logistics planning.
9.  The method of claim 1,

    The database server is a remote simulation-based shipbuilding production system using a mobile, characterized in that for storing and managing the history of the repeatedly performed simulation results.
10.  The method of claim 9,

     The mobile terminal is a remote simulation-based shipbuilding production system using a mobile, characterized in that for inquiring about the history of the repeatedly performed simulation results.
11.  The method of claim 1,

     The simulation server has a plurality of programmed simulation logic itself, the remote simulation based shipbuilding production system using a mobile, characterized in that to perform the simulation by selecting the simulation logic optimized for each situation.
12.  A method implemented on a mobile simulation-based shipbuilding production system using a mobile, comprising a mobile terminal, a database server and a simulation server and middleware connecting the mobile terminal and the database server.

     In relation to the execution of shipbuilding production, in case of data related to the difference between the plan and the performance, the on-site accident situation, and the change of the field work order, the mobile terminal inputs the relevant data for performing simulation on the database server remotely in real time. Doing;

     Requesting, by the database server, to perform simulation with the simulation server when there is data input from the mobile terminal;

     The simulation server performing a simulation;

     Storing, by the database server, simulation results of the simulation server;

     Querying, by the mobile terminal, a simulation result stored in the database server;

     Remote simulation based shipbuilding production method using a mobile including.
13.  The method of claim 12,

     The mobile terminal is a remote simulation-based shipbuilding production method using a mobile, characterized in that for modifying and changing the result value by the operation of the touch pad in querying the simulation results.
14.  The method of claim 13,

     The mobile terminal is a remote simulation based shipbuilding production method using a mobile, characterized in that for inputting the modified, changed simulation result value as data for performing a new simulation.
15.  The method of claim 12,

     The mobile terminal is a remote simulation-based shipbuilding production method using a mobile, characterized in that for taking the simulation results from the database server and saves itself.
16.  The method of claim 12,

     The database server is a remote simulation-based shipbuilding production method using a mobile, characterized in that for storing and managing the history of the repeatedly performed simulation results.
17.  The method of claim 16,

     The mobile terminal is a remote simulation-based shipbuilding production method using a mobile, characterized in that for retrieving the history of the repeatedly performed simulation results.
18.  The method of claim 12,

     The simulation server itself has a plurality of programmed simulation logic, the remote simulation based shipbuilding production method using a mobile, characterized in that to perform the simulation by selecting the simulation logic optimized for each situation.

Images