KR101537224B1 - Apparatus and Method for Simulation of Shipyard Distribution - Google Patents

Abstract

The present invention relates to a shipboard logistics simulation apparatus and method, and more particularly, to a shipboard logistics simulation apparatus and method, which includes a collecting unit for receiving at least one of process information, schedule information, product information and facility information, A conversion unit for converting the process-oriented simulation model into predefined standard information, a simulation unit for executing a simulation based on the process-centered simulation model converted into the standard information, And a simulation result processing unit for generating the simulation result as a process-centered simulation result.

Description

[0001] APPARATUS AND METHOD FOR SIMULATION OF SHIPYARD DISTRIBUTION [0002]

More particularly, the present invention relates to an apparatus and method for simulating a shipyard logistics, and more particularly, to a process simulation system for generating simulation-based simulation models using process information, schedule information, product information, and facility information, To a shipyard logistics simulation apparatus and method for executing simulation by converting the standard information into standard information.

In the shipbuilding production plan, unlike other general manufacturing industries, the target product is a super large complex structure called a ship. Therefore, there are many members to constitute, and in the case of a process, a general manufacturer producing a small quantity of a small product has a production line suitable for producing an individual product , And in the case of shipbuilding, the process is complicated because it has a production line capable of accommodating composite products. In addition, some design information changes at the time of production planning, which increases the uncertainty of the plan.

Due to these problems, it is very difficult to establish a definite production plan at the beginning of the plan. Therefore, the shipbuilder plans to separate the production plans into large schedules, middle schedules, small schedules and action plans so that the site can be reflected. In the execution plan, a work plan that can be executed in the field is established in consideration of the actual site conditions so that the average weekly or monthly average workload per process can be satisfied as a constraint condition.

Simulation, on the other hand, has been used universally as a technique to find problems with process processes and logistics in the field of manufacturing and services and to find an optimal alternative for several alternatives. Especially, the automobile industry and the semiconductor manufacturing process line have been analyzed through simulation until now. However, in the case of shipbuilding industry, we intend to introduce DSS (Digital Shipbuilding System), which can be called Digital Manufacturing System or e-Manufacturing However, due to the nature of shipbuilding, it is not easy.

e-Manufacturing means that all parts of the manufacturing process are completely implemented on the computer and the plant is operated virtually. Therefore, it is possible to pre-check equipment and policy conversion by pre-testing the equipment, policy, operation conversion, etc., which are difficult to realize in reality, on a computer.

In the conventional logistics simulation, the simulation model is constructed by performing modeling based on the facility. The shipyard, which do not produce products in the aerospace and automotive, often used in the semiconductor manufacturing method or standardized plant has the disadvantage poor usability.

Korean Patent Publication No. 10-2010-0052634, entitled " SYSTEM AND METHOD FOR SIMULATING FACTORY STATUS "

It is an object of the present invention to provide a shipboard logistics simulation apparatus and method that provides a process-oriented logistics simulation modeling method based on a shipyard production plan that is easy for people familiar with shipyard sites to understand.

Another object of the present invention is to provide a shipyard logistics simulation apparatus and method for enabling a heterogeneous technology to be used at a time by linking modules of different platforms with standard technologies in order to perform shipyard logistics simulation.

It is another object of the present invention to provide a shipboard logistics simulation apparatus and method for connecting shipyard components to a process center and providing information resulting from the simulation to process centers.

According to an aspect of the present invention, there is provided an information processing apparatus including a collecting unit that receives at least one of process information, schedule information, product information, and equipment information, A conversion unit for converting the process-centered simulation model into predefined standard information, a simulation unit for executing a simulation based on the process-oriented simulation model converted into the standard information, And a simulation result processing unit for generating the simulation result as a process-centered simulation result.

The simulation model generation unit analyzes each process as an ICOM (Input Control Output Mechanism) based on function / activity, and structures the process using the analysis result. Then, based on each process, the simulation model generation unit analyzes the products, Can be applied to generate process-oriented simulation models.

The standard information may be configured based on XML.

The simulation result processing unit may generate a process-oriented simulation result as a report of a predetermined format in response to a user's request.

According to another aspect of the present invention, there is provided a method of simulating shipyard logistics by a shipyard logistics simulation apparatus, comprising the steps of: when at least one of process information, schedule information, product information, Generating a process-oriented simulation model using schedule information, product information, and equipment information, converting the process-oriented simulation model into predefined standard information, and converting the process- Executing a simulation, and generating a simulation result as a process-centered simulation result.

According to the present invention, it is possible to provide a method of modeling a process-oriented logistics simulation on the basis of a shipyard production plan that is well understood by people familiar with the shipyard scene.

In order to simulate shipboard logistics, modules of different platforms can be linked with standard technology so that heterogeneous technology can be used at once.

In addition, shipbuilding components can be connected to the process center, and the information from the simulation results can be linked to the process center.

1 is a block diagram schematically showing a configuration of a shipboard logistics simulation apparatus according to an embodiment of the present invention;
2 is a flow chart illustrating a method for simulating shipyard logistics in accordance with the present invention.

The foregoing and other objects, features, and advantages of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

Each functional unit represented in the present specification is only an example of implementation of the present invention. Therefore, other functional units may be used in other embodiments of the present invention without departing from the spirit and scope of the present invention. In addition, each functional unit may be implemented solely in hardware or software configuration, but may be implemented in combination of various hardware and software configurations that perform the same function.

1 is a block diagram schematically showing a configuration of a shipboard logistics simulation apparatus according to an embodiment of the present invention.

1, the shipyard logistics simulation apparatus 100 includes a collection unit 110, a simulation model generation unit 120, a conversion unit 130, a simulation unit 140, a simulation result processing unit 150, a database 160 ).

The collecting unit 110 receives at least one of process information, schedule information, product information, and facility information. Here, the schedule information may include a large schedule, a middle schedule, a small schedule, and is information related to execution plan information related to when the product is produced, and includes execution plan information (schedule per unit work, And may be configured based on the unit job name, start date, end date, detailed description, work space, detailed description, work space, worker assignment information). Process information includes factors affecting the process time of each process, information on the process time for each process, type of process flow taking into account the entrance and exit of the factory building, production method (cell production, .

The collecting unit 110 receives information such as process characteristics and equipment data, materials / subsidiary materials / product data, order / supply policies, and operator operation rules from the user. That is, the collecting unit 110 collects mechanical information (for example, operation time, list of components, operation time, etc.) of the facilities in the factory, The characteristics of the process itself are collected.

The simulation model generation unit 120 generates a process-oriented simulation model using process information, schedule information, product information, equipment information, and the like collected by the collection unit 110. The simulation model generation unit 120 generates a process-oriented simulation model by applying products, equipment, and schedule information according to processes, with respect to each process. Accordingly, the simulation model generated by the simulation model generation unit 120 can be generated for each process.

For example, the simulation model generation unit 120 estimates a mathematical model of a process time for each process based on a predetermined factor that affects the process time of each process, and performs simulation by a mathematical model including a stochastic error And generates a process-oriented simulation model. In addition, the simulation model generation unit 120 designates a layout for each process by arranging equipment corresponding to a facility list in which facilities of individual processes are arranged on the basis of the position, area, and facility list of the process, Process-oriented simulation models can be created by applying schedule information to the layout.

As described above, when certain information such as a process, a product to be generated through each process, equipment such as facilities and materials for a process, equipment, a schedule, and a target amount is input, the simulation model generating unit 120 generates simulation Create a model. That is, the simulation model generation unit 120 analyzes each process as an ICOM (Input Control Output Mechanism) based on the function / activity, structures the process using the analysis result, , Facility, and schedule information to generate process-oriented simulation models. In the ICOM, input / output (I / O) corresponds to a product which is input into and exported from the process. Control (c) includes processing rules of the process time (product load time, processing time, product unloading time, My Mechanism is the facility or worker responsible for the process.

For the shipyard, it is easy to construct a simulation model based on the process (process). Therefore, a simulation model is constructed around the process (process), and the process (process) takes schedule information used in the shipyard.

The process has a hierarchical structure in the order of "Work Package" - "Work Order", and the process is paired with facility information and human resource information And, in the case of the facility, information on the plant to which the facility belongs.

The conversion unit 130 converts the process-oriented simulation model generated by the simulation model generation unit 120 into predefined standard information. For example, the conversion unit 130 may convert the process-oriented simulation model into an XML form.

The conversion unit 130 can use the heterogeneous technology at a time by converting the simulation model generated based on the information collected from different platforms into predefined standard information.

The simulation unit 140 simulates the simulation model converted into the standard information by the conversion unit 130. The simulation unit 140 can simulate a simulation model by driving a pre-stored simulation program.

The simulation unit 140 performs simulation on the basis of schedule information previously established in the shipyard. For example, if the shipyard is in the stage of establishing 'medium-term', the simulation unit 140 may perform simulation of the 'work package' level.

In addition, the simulation unit 140 simulates the equipment and manpower consumed by the process, and simulates the facilities and manpower that can not be used simultaneously in other processes.

The simulation result processing unit 150 generates a simulation result in the simulation unit 140 as a process-centered simulation result. At this time, the simulation result processing unit 150 may generate a process-centered simulation result as a report of a predefined format according to a user's request. Here, the process-centered simulation results may include equipment and manpower in the process, process time, product (output), and the like.

The simulation result processing unit 150 can generate the process-oriented simulation results in various forms such as a chart and a text.

The database 160 stores a process-oriented simulation model converted into standard information by the conversion unit 130, a simulation result by the simulation result processing unit 150, and the like.

The simulation apparatus 100 configured as described above may typically include at least one computing means and storage means. Here, the computing means may be a general central processing unit (CPU), but may be a programmable device element (CPLD, FPGA) or a customized semiconductor processing apparatus (ASIC) suitably implemented for a specific purpose, Or may be non-volatile memory or non-volatile electromagnetic storage.

The simulation apparatus 100 may be a navigation device, a notebook, a mobile communication terminal, a smart phone, a portable media player (PMP), a personal digital assistant (PDA), a tablet PC, (Set-top box), smart TV, and the like.

2 is a flowchart illustrating a method for simulating shipyard logistics according to the present invention.

Referring to FIG. 2, when at least one of a process, a schedule, a product, and a facility is received (S202), the simulation apparatus generates a process-oriented simulation model using the received information (S204). That is, the simulation apparatus connects the product information, the facility information, and the schedule information based on the process to generate a process-oriented simulation model. In other words, the simulation apparatus analyzes each process as a function / activity-oriented ICOM (Input Control Output Mechanism), and structures the process using the analysis results. Then, the simulation apparatus generates process-oriented simulation models by applying products, equipment, and schedule information based on each process.

The simulation apparatus converts the process-oriented simulation model into predefined standard information (S206). For example, if the predefined standard information is in the form of XML, the simulation apparatus can convert the process-oriented simulation model into XML form.

The simulation apparatus simulates a process-oriented simulation model converted into standard information (S208), and generates a process-centered simulation result (S210).

The simulation apparatus can generate the simulation result of the process centered on the user's request, and generate and provide the simulation result report of the format requested by the user.

Meanwhile, the shipyard logistics simulation method can be written as a program, and the codes and code segments constituting the program can be easily deduced by a programmer in the field.

Thus, those skilled in the art will appreciate that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: shipyard logistics simulation apparatus 110: collecting section
120: simulation model generation unit 130:
140: Simulation unit 150: Simulation result processing unit
160: Database

Claims (5)

A collecting unit for collecting at least one of process information, schedule information, product information, and equipment information;
Each step of the process information is analyzed by ICOM (Input Control Output Mechanism) based on function / activity, and the process is structured using the analysis result. Then, product information, equipment information, schedule information A simulation model generation unit for generating a process-oriented simulation model by applying information;
A conversion unit for converting the process-oriented simulation model into predefined standard information;
A simulation unit for simulating a process-oriented simulation model converted into the standard information; And
And a simulation result processing unit for generating a simulation result as a process centered simulation result,
Wherein the simulation unit performs simulation in the form of consuming equipment and manpower consumed in the process, and performs simulations so that equipment or manpower that can not be used simultaneously can not be used in another process.
The method according to claim 1,
Wherein the simulation result processing unit generates a process-oriented simulation result according to a user's request as a report of a predetermined format and provides the result.
delete The method according to claim 1,
Wherein the standard information is configured based on XML.
A method for simulating shipyard logistics in a shipyard logistics simulation apparatus,
Wherein at least one of process information, schedule information, product information, and equipment information is received, each process of the process information is analyzed as ICOM (Input Control Output Mechanism) based on function / activity, Generating a process-oriented simulation model by applying product information, facility information, and schedule information according to a process, with respect to each process, after structuring the process;
Converting the process-oriented simulation model into predefined standard information;
Performing a simulation of a process-oriented simulation model converted into the standard information; And
Generating a simulation result as a process-centered simulation result,
Simulation is performed in the form of consuming equipment and manpower consumed in the process when simulating a process-oriented simulation model converted into the standard information, and making it impossible to use equipment or manpower that can not be used simultaneously in other processes Simulation method of shipyard logistics.

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