KR20170035014A - Comparative analysis system and method for plan and performance information of visualized and scalable offshore and shipbuilding process - Google Patents

Abstract

The present invention provides a system and method for comparing and analyzing planning and execution information of a shipbuilding offshore structure drying process. The planning and execution information comparison and analysis system for the shipbuilding offshore structure drying process includes a display unit; A drawing load module for loading the entire drawing including the plurality of blocks of the predetermined ship structure into the display unit; A view moving module for moving the visualized area to a desired position in the entire drawing loaded on the display unit; An accumulation modifying module for setting an open block among one or more blocks included in the moved visualization area among the plurality of blocks and adjusting the scale of the open block or visualizing the operation information included in the open block; And a progress rate display module for displaying the progress rate of each unit work of the unit configurations included in the open block visualized in different colors.

Description

Technical Field [0001] The present invention relates to a method and system for comparing and analyzing information on planning and execution of a shipbuilding offshore structure,

The present invention relates to a system and method for comparing and analyzing planning and execution information of a shipbuilding & offshore structure drying process in which shipbuilding offshore structures can be visually checked for work progress rate and detailed operation information for each block according to the accumulation of electronic drawings .

In shipbuilding industry, it is very important to understand the progress of the ship or offshore plant during the construction of a ship or an offshore plant and to compare and analyze it with the original schedule.

Conventionally, the work progress (or work progress, progress rate) of a ship or an offshore plant construction work was performed by writing the work manual on a daily basis, or by driving the production management program to a computer and inputting each item.

In case of using this method, it is difficult to grasp the whole process information and detail work information of each block, and it is impossible to compare and analyze with the original schedule plan in general, and the feedback between schedule plan and current work progress It has a problem that it is not easy.

In addition, the existing production management program has a problem in that it can not respond to the demand to grasp the information including the progress rate at a glance due to the lack of visibility.

Process Management Act in Shipbuilding (Patent Application No. 10-2004-0011522)

SUMMARY OF THE INVENTION An object of the present invention is to provide a method and apparatus for recognizing a unit work for each block according to accumulation of drawings displayed on a device and visually displaying an operation progress rate of a recognized unit work, And to provide a comparative analysis system and method for the planning and execution information of the shipbuilding offshore structure drying process.

In one embodiment, the present invention provides a planning and execution information comparative analysis system for a shipbuilding offshore structure drying process.

The planning and execution information comparison and analysis system for the shipbuilding offshore structure drying process includes a display unit; A drawing load module for loading the entire drawing including the plurality of blocks of the predetermined ship structure into the display unit; A view moving module for moving the visualized area to a desired position in the entire drawing loaded on the display unit; An accumulation modifying module for setting an open block among one or more blocks included in the moved visualization area among the plurality of blocks and adjusting the scale of the open block or visualizing the work information included in the open block; And a progress rate display module for displaying the progress rate of each unit work of the unit configurations included in the open block visualized in different colors.

The task information preferably includes task planning information of the unit configuration that constitutes each of the plurality of blocks and attribute information constituting the unit configuration.

In the progress rate display module unit, a predetermined predicted progress rate of each of the plurality of blocks is set.

Preferably, the progress rate display module compares the displayed progress rate with a predicted occupation rate included in the predicted rate of progress of the block, and displays the compared rate on the display unit.

The planning and execution information comparison and analysis system of the shipbuilding offshore structure drying process further includes a geographic information processing unit.

The geospatial information processing unit may include a spatial information setting module for setting spatial information of each of the plurality of blocks and an attribute information inquiry module for visualizing the attribute information of each of the plurality of blocks.

Preferably, the attribute information includes information on work contents, schedule, equipment, and work items required for each of the plurality of blocks.

The geographical information processing unit further includes a reserve ratio inquiry module.

The provision ratio inquiry module compares the resource of the block to which the attribute information is to be recorded with a predetermined reference resource to determine whether or not the work progress is possible.

In another embodiment, the present invention provides a method for comparing and analyzing planning and execution information of a shipbuilding offshore structure drying process.

According to the present invention, it is possible to recognize the unit work for each block according to the accumulation of the drawings displayed on the device, visually display the work progress rate of the recognized unit work, and make it possible for the worker to immediately grasp the progress rate and the preparation rate Effect.

In addition, the overall process information and detailed work information of each block can be grasped clearly, and the overall comparison and analysis with the initial schedule can be performed, and the feedback between the schedule and the current work progress rate is possible.

FIG. 1 is a block diagram showing the construction of a plan and execution information comparative analysis system of the shipbuilding offshore structure drying process of the present invention.
FIG. 2 is a view showing an operation process using a plan and execution information comparative analysis system of the shipbuilding offshore structure drying process of the present invention.
FIG. 3 is a flowchart showing a plan and execution information comparison and analysis method of the shipbuilding offshore structure drying process of the present invention.

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

FIG. 1 is a block diagram showing the construction of a plan and execution information comparative analysis system of the shipbuilding offshore structure drying process of the present invention. Fig.

1 and 2, the plan and execution information comparison and analysis system of the shipbuilding offshore structure drying process of the present invention mainly includes a display unit 100, a drawing load module unit 200, a view movement module unit 300, An accumulation modifying module unit 400 and an intensification rate display module unit 500. [

The display unit 100 is a device capable of visually displaying an operation state according to an operation command input and an operation command through a touch.

The drawing load module unit 200 visually loads the entire drawing through the display unit 100.

The whole drawing is a view including drawings for each block (B) of a ship-building marine structure including a ship and an offshore plant.

The entire drawing is configured differently depending on the type of the ship-building marine structure to be dried, and a plurality of whole drawings can be set in advance.

It is preferable that the block B is a part of the entire drawing divided into minimum units of the work to be opened when the ship structure is dried.

The view moving module 300 according to the present invention performs a function of moving the visualized area to a desired position in the entire drawing loaded in the display unit 100. [

The movement method may be performed through a work instruction such as a touch on the display unit 100 as described above.

That is, the view moving module 300 moves the screen to a location where the block B to be checked is located in the entire drawing.

Accordingly, one or more of the plurality of blocks B can be visualized in the moved visualized area.

The storage change module 400 may set one or a plurality of open blocks among one or more blocks B included in the moved visualized area among the plurality of blocks B, Or to visualize the task information included in the open block.

Here, the open block is a block selected by the operator for confirming the work status, and can be enlarged and displayed by a method such as expansion by the storage change module unit 400.

At this time, the work information constituting the open block to be enlarged can be visualized (2).

The work plan information of the unit configuration constituting each of the plurality of blocks B and the attribute information constituting the unit constitution.

In the progress rate display module 500, preset predetermined progress rates of the plurality of blocks B are set.

The expected progress rate is a progress rate according to a predetermined operation before the ship structure is dried.

The progress rate display module unit 500 may compare the displayed progress rate with the predicted progress rate included in the predicted progress rate of the corresponding block and display the same through the display unit 100. [

In addition, the planning and execution information comparative analysis system of the shipbuilding offshore structure drying process according to the present invention includes the geographical information processing unit 600.

The geospatial information processing unit 600 includes a spatial information setting module 610 for setting spatial information of each of the plurality of blocks B and an attribute information inquiry module 630 for visualizing the attribute information of each of the plurality of blocks B, (620).

Here, it is preferable that the attribute information includes information on work contents, schedule, equipment, and work items required for each of the plurality of blocks (B).

The geographical information processing unit 600 further includes a reserve ratio inquiry module 630.

The readiness ratio inquiry module 630 may compare the resource of the block in which the attribute information is recorded with a predetermined reference resource to determine whether the operation can be proceeded.

Next, the plan and execution information comparison and analysis method of the shipbuilding offshore structure drying process using the plan and execution information comparison analysis system of the shipbuilding offshore structure drying process constructed as above will be described with reference to FIG. 1 to FIG.

FIG. 3 is a flowchart showing a plan and execution information comparison and analysis method of the shipbuilding offshore structure drying process of the present invention.

A drawing load step of loading the entire drawing including the plurality of blocks B of the predetermined ship structure into the display unit 100 using the drawing load module unit 200 is performed.

As shown in FIG. 2A, the entire drawing to be loaded is loaded on the display unit 100.

A view moving step of moving the visualized area to a desired position in the entire drawing loaded on the display unit 100 is performed using the view moving module 300. [

As shown in Fig. 2 (b), the state is such that the visible region is moved to a desired position.

One or more open blocks among one or more blocks included in the moved visualized area among the plurality of blocks B may be set using the storage change module unit 300, Or an accumulation changing step of visualizing the operation information included in the open block.

The open block may be multiple.

As shown in FIG. 2 (c), the scale change module unit enlarges the open blocks and confirms that the unit information is changed due to the scale.

In addition, the work information constituting the open block to be enlarged can be visualized (2).

Then, by using the progress rate display module unit 500, the progress rate display step of displaying the progress rates of the respective unit work of the unit configurations included in the open block visualized in different colors is performed.

The work progress rate for each unit work can be immediately confirmed visually by different color and percentage indications by the progress rate rating table (1) displayed on the display unit (100).

Thereby, it is possible to make a comparison with the constant calculation using the progress rate.

Using the spatial information setting module 610, spatial data including the type, location, size, and spatial phase relationship of the terrain elements with respect to other terrain elements is set for each block. Here, the terrain element can be defined as a block.

Then, the spatial information setting module 610 enables the attribute information including the necessary work contents, the schedule, the equipment, and the member to be displayed in correspondence with the set block by using the attribute information inquiry module 620.

Accordingly, as shown in FIG. 2, it can be confirmed that the information of the selected block is visualized through the attribute information window.

In addition, the preparation rate inquiry module 630 can be used to check the resource inquired by the property information inquiry module 620, thereby confirming whether or not the work progress can be confirmed.

Through the above arrangement and operation, according to the embodiment of the present invention, unit work for each block is recognized in accordance with accumulation of drawings displayed on the device, the work progress rate of the recognized unit work is visually displayed, So that the operator can grasp it immediately.

In addition, volume process information and detailed work information of each block can be grasped clearly, and overall comparison and analysis with the initial schedule can be performed, and feedback between the schedule and the current work progress rate can be made possible.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

It is to be understood that the foregoing embodiments are illustrative and not restrictive in all respects and that the scope of the present invention is indicated by the appended claims rather than the foregoing description, It is intended that all changes and modifications derived from the equivalent concept be included within the scope of the present invention.

100:
200: Drawing load module section
300: view moving module
400: accumulation change module section
500: Progress rate display module section
600: geographic information processing section

Claims (12)

A display unit;
A drawing load module for loading the entire drawing including a plurality of blocks of a predetermined ship structure into the display unit;
A view moving module for moving the visualized area to a desired position in the entire drawing loaded on the display unit;
An accumulation modifying module for setting an open block among one or more blocks included in the moved visualization area among the plurality of blocks and adjusting the scale of the open block or visualizing the operation information included in the open block; And
And a progress rate display module unit for displaying an operation progress rate of each unit operation of the unit configurations included in the open block visualized in different colors
Comparison and Analysis System of Planning and Execution Information of Shipbuilding Offshore Structure Drying Process.
The method according to claim 1,
The job information includes:
Wherein the work plan information includes unit plan work plan information and attribute information constituting the unit structure constituting each of the plurality of blocks,
Comparison and Analysis System of Planning and Execution Information of Shipbuilding Offshore Structure Drying Process.
The method according to claim 1,
In the progress rate display module section,
A predetermined expected progress rate of each of the plurality of blocks is set,
The progress rate display module unit,
The displayed progress rate is compared with the expected occupation progress rate included in the predicted progress rate of the block and displayed on the display unit
Comparison and Analysis System of Planning and Execution Information of Shipbuilding Offshore Structure Drying Process.
3. The method of claim 2,
The planning and execution information comparative analysis system of the shipbuilding offshore structure drying process further includes a geographical information processing unit,
The geographical information processing unit,
A spatial information setting module for setting spatial information of each of the plurality of blocks;
And an attribute information inquiry module for visualizing the attribute information of each of the plurality of blocks
Comparison and Analysis System of Planning and Execution Information of Shipbuilding Offshore Structure Drying Process.
5. The method of claim 4,
Wherein,
A schedule, a design item, and a work member required for each of the plurality of blocks,
Comparison and Analysis System of Planning and Execution Information of Shipbuilding Offshore Structure Drying Process.
6. The method of claim 5,
The geographical information processing unit may further include a reserve ratio inquiry module,
Wherein the readiness ratio inquiry module comprises:
And compares the resource of the block in which the attribute information is recorded with a reference resource that is set in advance,
Comparison and Analysis System of Planning and Execution Information of Shipbuilding Offshore Structure Drying Process.
A drawing loading step of loading an entire drawing including a plurality of blocks of a predetermined ship structure into a display unit using a drawing load module unit;
A view moving step of moving a visible area to a desired position in the entire drawing loaded on the display unit using a view moving module;
An accumulation modifying module configured to set an open block among one or a plurality of blocks included in the moved visualization area among the plurality of blocks to adjust the scale of the open block or the work information included in the open block A storage change step of visualizing; And
And displaying a progress rate of each unit work of the unit configurations included in the open block visualized by using the progress rate display module unit in different colors
Comparing and Analyzing Plan and Execution Information of Shipbuilding Offshore Structure Drying Process.
8. The method of claim 7,
In the job information,
The work plan information of the unit structure constituting each of the plurality of blocks and the attribute information constituting the unit structure are included
Comparing and Analyzing Plan and Execution Information of Shipbuilding Offshore Structure Drying Process.
8. The method of claim 7,
In the progress rate display step,
Setting a predetermined expected progress rate of each of the plurality of blocks,
The progress rate display step may include:
And comparing the displayed progress rate with a predicted occupation progress rate included in the predicted progress rate of the block,
And displays the comparison result based on the comparison through the display unit
Comparing and Analyzing Plan and Execution Information of Shipbuilding Offshore Structure Drying Process.
9. The method of claim 8,
After the loading step, a geographic information processing step is performed,
The geographical information step includes:
Setting spatial information of each of the plurality of blocks using a spatial information setting module,
The attribute information of each of the plurality of blocks is visualized using the attribute information inquiry module
Comparing and Analyzing Plan and Execution Information of Shipbuilding Offshore Structure Drying Process.
11. The method of claim 10,
In the attribute information,
Schedule information, equipment items, and work member information required for each of the plurality of blocks
Comparing and Analyzing Plan and Execution Information of Shipbuilding Offshore Structure Drying Process.
11. The method of claim 10,
In the geographic information step,
And compares the resource of the block in which the attribute information is recorded with a reference resource that is set in advance,
Comparing and Analyzing Plan and Execution Information of Shipbuilding Offshore Structure Drying Process.

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