KR20140013321A - Apparatus for managing member of a floating marine structure and method for managing member of the same - Google Patents

Abstract

The present invention relates to an apparatus for managing a member and a method for managing member which is capable of improving the productivity while reducing the loss of materials by commanding the fabrication of holes into a member which corresponds to substitutive member information which is capable of replacing construction information of normal holes when the construction information of holes are not identical to model information and hole information of the member. According to an embodiment of the present invention, an apparatus for managing a member of a floating type marine structure having: a first database for storing model information of a member which is applied to a ship and hole information which is generated according to a pipe type which is applied to the member; a control unit for comparing construction information of constructed holes with information stored in the first database and deciding whether they are identical or not when the hole construction is finished according to the generated hole information, providing unique information of a member when they are identical, and storing the unique information given to the member in a second database; providing substitutive member information which substitutes non identical unique information of the member by interconnecting the unique information of the member with construction information of holes which are identical to the information stored in the first database and storing the substitutive member information in the second database; commanding fabrication of holes according to the construction information of holes to a member which corresponds to the unique information or substitutive member information of the member by comparing the model information of the member stored in the first database and the unique information of the member stored in the second database; and if the model information and the unique information are identical. [Reference numerals] (AA) Start; (BB,DD) No; (CC,EE) Yes; (FF) End; (S11) Generating hole information; (S13) Holes are constructed according to the hole information and generating hole construction information; (S15) Hole construction information identical?; (S16) Giving identification information of a member; (S17) Giving identification information of a member; (S18) Giving substitutive member information; (S19) Storing the given information in a second database; (S21) Thickness and material of member stored in the first and second database identical?; (S23) Commanding fabrication of hole to a member corresponding to the given identification information of the member or substitutive information

Description

FIELD OF MANUFACTURING AND METHOD FOR MANAGING MEMBER OF A FLOATING MARINE STRUCTURE AND METHOD FOR MANAGING MEMBER OF THE SAME

The present invention relates to an apparatus for managing a member of a floating offshore structure and a member management method thereof, and more particularly, when the construction information of a hole does not match the model information and the hole information of a member, a replacement that can be replaced by a construction information of a normal hole. The present invention relates to a member management apparatus and a member management method for a floating offshore structure capable of improving productivity while reducing loss of materials by instructing a member corresponding to the member information to process a hole.

Ships have a large number of holes with various sizes and positions due to their ballast system, electrical system, and various drainage channels, and in hull design, they are to be provided for production in the form of holes in the members.

Therefore, it is common practice to provide hull design modeling data to the design of the design, and to design the position, size of the hull designer by hand, and to construct, model, and draw the drawing manually by using the design design hole drawings distributed after the hole arrangement. It was.

In order to make one member with a hole, the hull designer looked at the manual drawings and keyed in the hole type and coordinate input work into the hull modeling of the chairman HOLE.

Therefore, the hull design modeling work and drawing creation depend on manual operation, which increases the design time (Man / Hour) and depends on the designer's judgment and ability manual work. Rework due to design errors causes additional input of raw materials and losses due to rework.

An object of the present invention is to reduce the loss of material by instructing the processing of the hole to the member corresponding to the replacement member information that can be replaced by the construction information of the hole if the construction information of the hole does not match the model information and the hole information of the member The present invention provides a member management apparatus for a floating offshore structure and a member management method thereof capable of improving productivity.

According to an embodiment of the present invention for achieving the above object, the model information of the member including the thickness, the material, the construction position and the size of the member to be applied to the hull, the model information of the member and applied to the member A first database for storing hole information including a shape and a size of a hole generated according to a type of pipe; And when the hole construction is performed according to the generated hole information, it is determined whether the construction information of the hole including the size, shape, and construction position of the hole is compared with the information stored in the first database, and if there is a match, the member Assigns the unique information of the member and stores the unique information of the assigned member in a second database, and if it does not match, the mismatched member in association with the construction information of the hole that matches the unique information of the member and the information stored in the first database. By assigning the replacement member information to replace the unique information of the information stored in the second database, the model information of the member stored in the first database and the unique information of the member stored in the second database by comparing the thickness and material of the member If there is a match, the hole of the part corresponding to the unique information of the member or The member management apparatus of the floating offshore structure including a control section for instructing the processing of holes as balls information is provided.

In the second database, substitute member information is stored in association with the unique information of the member, and the unique information of the member includes an assembly name, a member name, a material, and a thickness, and the substitute member information includes a block name and an assembly name. It is desirable to include the name, material, grade and thickness of the member.

When the construction information of the holes does not match, the controller may be modified to the construction information of the hole that matches the information stored in the first database, and the substitute member information is assigned to the modified construction information of the hole.

When the inquiry request signal for the unique information of any member is received, the control unit may provide the construction information and the stock information of the hole for the unique information of the corresponding member with reference to the second database.

Preferably, the controller divides the block in which the unique information of the member processed with the construction information of the normal hole and the replacement member information of the member processed with the modified construction information of the hole are displayed and displayed on the screen.

According to another embodiment of the present invention, there is provided a member management apparatus for a floating offshore structure utilizing a first database storing model information of a member including a thickness, a material, a construction position and a size of a member applied to a hull. A method of managing a member, the method comprising: generating hole information according to a pipe type of a member applied to the hull; Storing the generated hole information in the first database; Determining whether or not the hole construction information including the size, shape, and hole construction position of the hole is compared with the information stored in the first database when the hole construction is performed according to the generated hole information; If the determination result of the determining step is matched, the unique information of the corresponding member is given and the unique information of the assigned member is stored in the second database, and if it does not match, the unique information of the member is consistent with the information stored in the first database. Assigning substitute member information for replacing unique information of the inconsistent member in association with construction information of a hole to store in the second database; And comparing the model information of the member stored in the first database with the unique information of the member stored in the second database, and if the thickness and the material of the member match, according to the construction information of the hole in the member corresponding to the unique information or the substitute member information of the member. There is provided a member management method of a member management apparatus comprising the step of instructing the processing of a hole.

The second database stores substitute member information in association with unique information of the member, wherein the unique information of the member includes an assembly name, a name of a member, a material and a thickness, and the substitute member information includes a block name, an assembly name, It is desirable to include the name, material, grade and thickness of the member.

The storing in the second database may include modifying construction information of holes corresponding to information stored in the first database when the construction information of the holes does not match. Assigning substitute member information to the modified construction information of the hole; And storing the given substitute member information in the second database.

In addition, the member management method of the member management apparatus according to the present invention, after the step of storing in the second database, receiving an inquiry request signal for the unique information of any member; And providing the construction information and the stock information of the hole with respect to the unique information of the corresponding member with reference to the second database.

In addition, in the member management method of the member management apparatus according to the present invention, after the storing in the second database, the unique member information processed by the construction information of the normal hole and the replacement member information of the member processed by the construction information of the modified hole Preferably, the method further includes the step of classifying the arranged blocks and displaying them on the screen.

In addition to this, a computer-readable recording medium recording a computer program for executing the above methods is further provided.

According to an embodiment of the present invention, if the construction information of the hole does not match the model information of the member and the hole information, the loss of material is instructed by instructing the processing of the hole to the member corresponding to the replacement member information that can be replaced by the construction information of the normal hole. It is possible to reduce productivity while improving productivity.

In addition, according to the embodiment of the present invention, in the case of the construction information of the hole coinciding with the model information of the member and the hole information, the unique information of the member is given and the machining of the hole is instructed according to the construction information of the corresponding hole to the member corresponding to the unique information of the given member. If the construction information of the hole does not match the model information and the hole information of the member, the unique member information and the replacement member information having the correct hole construction information are assigned to the member corresponding to the assigned member unique information and the replacement member information. By processing the hole according to the process drawing of the hole, it is possible to prevent difficulty in supplying and lowering productivity due to an error generated during the hole processing. That is, even if there is an error in the construction information of the hole, the hole processing is instructed to the member corresponding to the replacement member information having the correct construction information of the hole. Re-blocking) has the effect of enabling normal use.

1 is a block diagram for explaining a member management apparatus of a floating offshore structure according to an embodiment of the present invention,
FIG. 2 is a block diagram illustrating the control unit shown in FIG. 1;
3 is an operation flowchart for explaining a member management method of the member management apparatus shown in FIG. 1;
4 is an exemplary view showing a menu for driving a main program applied to the present invention;
5 is a screen example showing an execution screen executed according to the selection of the menu shown in FIG. 4;
6 is an exemplary view showing a state in which the design hall is reflected in the hull member, and
7 is a screen example showing a state in which a member corresponding to the unique information and substitute member information of the member is disposed according to the present invention.

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

1 is a view illustrating a member management apparatus for implementing a member management method of a floating offshore structure according to an embodiment of the present invention.

Referring to FIG. 1, the member management apparatus 10 for a floating marine structure according to an embodiment of the present invention displays an input unit 11 for inputting information so that a service related to the present invention can be performed, and information related to the present invention. A display unit 13 to store the first database 14 for storing the model information and the hole information of the member as the information related to the present invention, and a second information for storing the unique information and the replacement member information of the member as the information related to the present invention. The database 15 and the control part 12 which instruct | indicates normal hole processing to a member are comprised.

The input unit 11 is an input unit capable of inputting a type of pipe applied to a member for generating hole information, for example, any one of step, trace, plate, and all.

In addition, the input unit 11 may input a desired block in the hull, and may input the unique information of the desired member among the unique information of the members in the input block. Thereby, the unique information of the member which has a hole can be listed up among the unique information of the input member.

The display unit 13 retrieves the unique information of the member disposed in the block input through the input unit 11 and displays it in a predetermined screen area, for example, the left area of the screen, and the member having a hole among the unique information of the member. Is displayed in a predetermined screen area, for example, in the right area of the screen.

In addition, the display unit 13 is separately displayed on the screen so as to distinguish between the case where the model information and the hole information of the member and the case where the construction information of the holes do not coincide with each other. For example, if the model information and the hole information of the member do not coincide with the construction information of the hole, the shape of the hole is displayed at the center of the block, and if the model information and the hole information of the member coincides with the construction information of the hole, the empty space is displayed. do. This allows the administrator to easily recognize which members are placed in which blocks.

The first database 14 stores model information of the member including the thickness, the material of the member applied to the hull, the construction position of the hole, the size, the improvement, the margin and the direction, and the like. In addition, the first database 14 generates hole information based on the manager or preset type of pipe and model information of the member, and stores the generated hole information in association with the model information of the member. The hole information includes the shape and size of the hole. In addition, the first database 14 may store construction information of the constructed hole according to the information of the hole. The construction process hole of the hole includes the size, shape of the hole, and the construction position of the hole.

The second database 15 stores the unique information of the member given when the construction information of the hole coincides with the information stored in the first database 14, that is, the model information of the member and the hole information. By modifying the unique information of, and the construction information of the hole that matches the model information and the hole information of the member to store the replacement member information that can replace the construction information of the incorrectly constructed hole. Here, the unique information of the member includes an assembly name, a member name, a material, and a thickness, and the substitute member information includes a block name, an assembly name, a member name, a material, a grade, and a thickness.

The controller 12 generates hole information based on the type of pipe input through the input unit 11 and the model information of the member stored in the first database 14, and is constructed when the hole is constructed according to the generated hole information. It is determined whether the construction information of the hole coincides with the information stored in the first database 14, that is, whether the construction of the normal hole is performed or whether the construction of the abnormal hole is made. It is stored in the second database 15 in association with the construction information of the hole, and when the construction of the abnormal hole is made, the unique information and the replacement member information of the member are given and stored in the second database 15 in association with the construction information of the abnormal hole. Abnormal hole construction information is corrected to normal hole construction information and corrected hole construction information Association built stores replacement information element in the second database (15). This can minimize the error of holes to be machined into the member.

In addition, the controller 12 may include the thickness and the material of the corresponding member stored in the first database 14 and the thickness included in the unique information or the replacement member information of the member stored in the second database 15 for the verification of the member on which the hole is to be processed. And compare materials and determine whether they match, and if they match, instruct the member corresponding to the unique information of the member to be processed according to the construction information of the hole. Instructs the hole to be processed according to the construction information of each corresponding hole.

Referring to FIG. 2, the control unit 12 includes the hole information generation unit 121, the first determination unit 122, the information providing unit 123, the second determination unit 124, the indicating unit 125, and the inquiry unit 126. ) And a display processing unit 127 and the like.

The hole information generation unit 121 generates hole information in which the pipe is to be arranged when the type of pipe is selected through the input unit 11 based on the model information of the member stored in the first database 14. The hole information includes the shape and size of the hole.

In addition, the hole information generation unit 121 generates the hole construction information when the hole is constructed according to the generated hole information and the model information of the corresponding member. The construction process hole of the hole includes the size, shape of the hole, and the construction position of the hole.

The first determiner 122 compares the construction information of the hole with the information stored in the first database 14, that is, the construction position of the hole included in the model information of the member, and compares the shape and size of the hole included in the hole information. Judge. That is, the first determination unit 122 determines whether the construction information of the hole to be formed in the member is the construction information of the normal hole.

The information providing unit 123 may be configured to be used when the construction information of the hole by the first determination unit 122 and the information stored in the first database 14 match, that is, when the construction information of the hole to be formed in the member is the construction information of the normal hole. Give unique information of. The unique information of the assigned member is stored in the second database 15, and the unique information of the corresponding member and the construction information of the hole are preferably stored in association with each other. The unique information of the member includes the assembly name, the name of the member, the material and the thickness.

In addition, the information providing unit 123 does not match the construction information of the hole by the first determination unit 122 and the information stored in the first database 14, that is, the construction information of the hole to be formed in the member is incorrect construction information of the hole. In this case, the unique information of the member is given. The unique information of the given member is stored in the second database 15 in association with the construction information of the wrong hole.

In addition, the hole information generation unit 121 determines the size of the hole that matches the information stored in the first database 14 when the construction information of the hole and the information stored in the first database 14 do not match by the first determination unit 122. Correct the construction information of the hole so that the construction of the hole is made to the shape and the construction position of the hole. The hole here is less than 300 pi. By modifying the construction information of the hole to be installed in the member so that the hole is processed according to the modified construction information of the hole, it is possible to reduce the loss of the member that occurs when the hole is made incorrectly.

The information providing unit 123 assigns replacement member information to the construction information of the corrected hole, and the assigned replacement grant information is stored in the second database 15 in correspondence with the unique information of the wrong member. Accordingly, when the unique information of the member is inquired, the unique information and the replacement member information of the wrong member may be provided together.

The second determination unit 124 determines whether the thickness and the material of the member in the above-described information stored in the first database 14 and the second database 15 match. That is, the thickness and the material of the member included in the unique information of the member associated with the construction information of the hole or the replacement member information associated with the modified construction information of the hole are included in the model information of the member stored in the second database 14 and Determine whether it matches the material. Here, it is possible to accurately check the member to reflect the construction information of the hole.

The indicating unit 125 determines that the thickness and the material of the member included in the unique information or the replacement member information of the member given by the information providing unit 123 are determined by the second determining unit 124. In the case of matching the thickness and material of the stored member, the processing of the hole is instructed according to the construction information of the hole or the construction information of the hole and the modified construction information of the hole to the member having the matching thickness and material.

In addition, the indicating unit 125 determines that the thickness and the material of the member included in the unique information or the replacement member information of the member given by the information providing unit 123 are determined by the second determination unit 124. If it does not match the thickness and material of the member stored in the process, the process moves to a process of providing replacement member information matching the thickness and material of the member.

When the inquiry unit 126 receives an inquiry request signal for the unique information of an arbitrary member from the manager through the input unit 11, the inquiry unit 126 responds to the received inquiry request signal to obtain the construction information and the stock information of the hole for the unique information of the corresponding member. Inquiry from the second database 15 provides an inquiry result.

The display processor 127 classifies the blocks on which the replacement member information is disposed and displays them on the screen. That is, the display processing unit 127 may distinguish and display a block in which a member in which holes are processed according to construction information of a normal hole is disposed and a block in which a member in which holes are processed according to construction information of a modified hole of replacement member information is displayed. This makes it easy for an administrator to recognize which blocks require which members.

A member management method of the member management apparatus of the floating marine structure having such a configuration will be described with reference to FIG. 3 as follows.

3 is an operation flowchart illustrating a member management method of the member management apparatus according to an exemplary embodiment of the present invention.

The member management apparatus 10 of the floating marine structure generates hole information according to the model information of the member stored in the first database 14 and the type of pipe selected or preset by the manager (S11). The generated hole information is stored in the first database 14.

If the construction of the hole is made according to the hole information stored in the first database 14, the member management apparatus 10 generates construction information of the constructed hole (S13). The time course report of the generated holes is stored in the first database 14.

Next, the member management apparatus 10 compares the construction information of the generated holes with the information stored in the first database 14 and determines whether or not they match (S15).

That is, the member management apparatus 10 matches the construction position of the hole included in the model information of the member stored in the first database 14, the size and shape of the hole included in the hole information with the construction information of the hole generated in step S13 described above. Determine whether or not.

As a result of the determination in step S15, when the construction information of the generated hole matches the information stored in the first database 14, the member management apparatus 10 gives the unique information of the member (S17).

The unique information of the assigned member is stored in the second database 15, and stored in association with the construction information of the hole stored in the first database 14 (S19).

As a result of the determination in step S15, when the generated construction information of the hole does not match the information stored in the first database 14, the member management apparatus 10 assigns the unique information of the member to the construction information of the mismatched holes ( S16).

The member management apparatus 10 corrects the construction information of the hole corresponding to the information stored in the first database 14 so as to correct the mismatched construction information, and assigns replacement member information to the modified construction information of the hole (S18). Here, it is described that the replacement member information is given to the construction information of the hole modified to enable the normal construction of the hole by correcting the construction information of the hole. However, the present invention is not necessarily limited thereto, and the replacement member information is an error of the member. Can also be used to modify parts.

The unique information of the member in which the wrong hole is constructed and the replacement member information in which the normal hole is constructed are stored in the second database 15. At this time, the unique information of the member on which the wrong hole is constructed is stored in association with the construction information of the wrong hole, and the replacement member information is stored in association with the construction information of the modified hole.

Thereafter, the member management apparatus 10 determines whether or not the thickness and the material of the members stored in the first database 14 and the second database 15 match (S21).

As a result of the determination in step S21, when the thickness and material of the members stored in the first database 14 and the second database 15 do not match, the member management apparatus 10 processes the above-described step S18 to modify the member. Move to give substitute member information with the modified member thickness and material.

As a result of the determination in step S21, when the thickness and the material of the member stored in the first database 14 and the second database 15 match, the member management apparatus 10 may be unique to the member having the same thickness and material. Instructs the hole to be processed according to the construction information of the stored hole or the construction information of the corrected hole or the unique information of the member and the replacement member information stored in association with the information or the replacement member information (S23) ). Through this instruction, it can be seen that any member is used in which block in the floating structure by arranging the member and the substitute member on which the hole is processed, as shown in FIG. 7.

As normal holes are processed in the members or normal and abnormal holes are processed in the members, the processing of wrong holes in the members can be minimized, thereby reducing the loss of materials and smoothly supplying and receiving the materials. do.

The member management apparatus 10 provides a main menu tool of a program applied to the hull design in order to bring up a hole worked by a chairman as shown in FIG. 4, and when a menu of 'Outtitting Hole' is selected from the provided menus, FIG. Provide screen information as shown in FIG.

The screen information shown in FIG. 5 includes a block input window 1, a first list-up window 2 displaying unique information of members disposed in a block input to the block input window 1, and a first list-up window ( Holes selected in the second list-up window (3) and second list-up window (3), which display the unique information and the replacement member information of the machined hole among the unique information of the member selected from the unique information of the member displayed in 2) The member detail window 4 which shows the model information about the unique information and the substitute member information of the processed member, and the work notification window 5 which displays a message generated during program execution, the total number of members, and the number of parts to be worked on. do.

The member management apparatus 10 may instruct the processing of the hole with the unique information of the member selected in the second list-up window 3 by selecting "Apply" shown in FIG.

The member having the hole processed according to the instruction is reflected in the hull as shown in Fig. 6, so that the manager can easily recognize at which position the member is to be placed. In FIG. 6, an orange part is a portion reflecting the hull model.

Embodiments of the present invention include computer readable media including program instructions for performing various computer implemented operations. The computer-readable medium may include program instructions, local data files, local data structures, etc., alone or in combination. The media may be those specially designed and constructed for the present invention or may be those known to those skilled in the computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floppy disks, and ROMs, And hardware devices specifically configured to store and execute the same program instructions. The medium may be a transmission medium such as optical or metal lines, waveguides, etc., including a carrier wave for transmitting a signal specifying a program command, a local data structure, and the like.

Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like.

The invention being thus described, it will be obvious that the same way may be varied in many ways. Such modifications are intended to be within the spirit and scope of the invention as defined by the appended claims.

10: member management device 11: input unit
12: control unit 13: display unit
14: the first database 15: the second database
121: hole information generation unit 122: first determination unit
123: information providing unit 124: second determination unit
125: indicating unit 126: inquiry unit
127: display processing unit

Claims (11)

Model information of the member including the thickness, material, construction location and size of the member to be applied to the hull, hole including the shape and size of the hole created according to the model information of the member and the type of pipe applied to the member A first database for storing information; And
When the hole construction is performed according to the generated hole information, it is determined whether or not the construction information of the hole including the size, shape, and the construction position of the construction hole is compared with the information stored in the first database, and if it matches, Assigns unique information and stores the unique information of the assigned member in a second database, and if it does not match, associates the unique information of the member with the construction information of the hole that matches the information stored in the first database. Substituting the member information to replace the unique information is stored in the second database, the model information of the member stored in the first database and the unique information of the member stored in the second database by comparing the thickness and material of the member When the hole is opened in the member corresponding to the unique information or substitute member information of the lower surface Member management apparatus of the floating offshore structure as a controller for instructing the information processing hole. The method according to claim 1,
In the second database, substitute member information is stored in association with unique information of the member.
The unique information of the member includes the assembly name, the name of the member, the material and the thickness,
The substitute member information includes a block name, an assembly name, a member name, a material, a grade, and a thickness of the member management apparatus of the floating offshore structure. The method according to claim 1,
The control unit
If the construction information of the hole does not match, the member management of the floating offshore structure, characterized in that to modify the construction information of the hole that matches the information stored in the first database and to give the replacement member information to the modified construction information of the hole Device. The method according to claim 1,
The control unit
When the inquiry request signal for the unique information of any member is received, the construction and inventory information of the hole for the unique information of the corresponding member is provided with reference to the second database, characterized in that the member management apparatus of the floating offshore structure. The method according to claim 1,
The control unit distinguishes the block in which the unique information of the member processed with the construction information of the normal hole and the replacement member information of the processed member with the modified hole construction information are displayed and displayed on the screen. Management device. A member management method using a member management apparatus for a floating offshore structure using a first database storing model information of a member including a thickness, a material, a construction position, and a size of a member applied to a hull,
Generating hole information according to a pipe type of a member applied to the hull;
Storing the generated hole information in the first database;
Determining whether or not the hole construction information including the size, shape, and hole construction position of the hole is compared with the information stored in the first database when the hole construction is performed according to the generated hole information;
If the determination result of the determining step is matched, the unique information of the corresponding member is given and the unique information of the assigned member is stored in the second database, and if it does not match, the unique information of the member is consistent with the information stored in the first database. Assigning substitute member information for replacing unique information of the inconsistent member in association with construction information of a hole to store in the second database; And
The model information of the member stored in the first database and the unique information of the member stored in the second database are compared. The member management method of the member management apparatus including the step of instructing a process. The method of claim 6,
The second database stores replacement member information in association with the unique information of the member.
The unique information of the member includes the assembly name, the name of the member, the material and the thickness,
The substitute member information includes a block name, an assembly name, a member name, a material, a grade, and a thickness. The method of claim 6,
The storing in the second database is
If the construction information of the holes does not match, correcting the construction information of the holes that match the information stored in the first database;
Assigning substitute member information to the modified construction information of the hole; And
And storing the assigned substitute member information in the second database. The method of claim 6,
After storing in the second database,
Receiving an inquiry request signal for the unique information of any member; And
And providing the construction information and the stock information of the hole with respect to the unique information of the corresponding member by referring to the second database. The method of claim 6,
After storing in the second database,
And dividing the block in which the unique information of the member processed with the construction information of the normal hole and the replacement member information of the member processed with the modified hole construction information are displayed and displayed on the screen. Absence management method. A computer-readable recording medium having recorded thereon a computer program for performing the member management method according to any one of claims 6 to 10.

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