KR20230013334A - Apparatus and method for selecting the optimal quay wall for mooring of vessel - Google Patents

Abstract

An optimal quay selecting device for mooring of a vessel and a method thereof are disclosed. The optimal quay selecting device comprises: a consideration factor management unit that manages preset consideration factor information for arranging offshore structures on quays installed in a shipyard; and an arrangement quay selection unit for selecting a quay where an offshore structure is to be moored based on work information to be performed on the offshore structure with reference to the consideration factor information.

Description

Apparatus and method for selecting the optimal quay wall for mooring of vessel}

The present invention relates to an apparatus and method for selecting an optimal quay wall for mooring a ship.

In the shipbuilding industry, in order to increase productivity, offshore structures such as ships or floating facilities are manufactured through an assembly process in which blocks are divided into blocks and then stacked or connected to each other.

As illustrated in FIG. 1 , in a shipyard, one or more quay walls 100 are provided as a space for performing subsequent processes after a ship is launched.

In the quay wall 100, while the marine structure is moored, installation work of equipment such as various mechanical devices, piping, and electrical equipment is performed on the marine structure. In addition, in the case of an offshore structure such as an LNG cargo ship, cargo hold work, cargo hold cut-out, cargo hold barging, and performance inspection may also be performed on the quay wall 100.

As such, the types and contents of work performed while the offshore structure is moored to the quay wall 100 vary. Therefore, the optimal quay wall 100 to moor the offshore structure may be determined according to the type of work equipment provided around the quay wall 100 . In addition, the quay wall 100 at which the offshore structure can be moored may be limited according to specification information such as the size or height of the offshore structure.

In determining the quay 100 to be moored for the operation of offshore structures, the optimal quay is generally selected depending on the empirical judgment of the operator at the start of the operation.

However, in the selection method of the optimal quay wall based on the empirical judgment of the operator, it is difficult to select the optimal target quay wall because the specification constraints and resource constraints of the offshore structure among several quay walls provided in the shipyard cannot be sufficiently considered. is being caused

In addition, all constraints and relative priorities are not considered at each point in time when the offshore structure is to be moored to the quay wall 100, so there is a problem in that unnecessary ship movement or process loss occurs.

Korean Patent Registration No. 10-2235787

According to the present invention, based on information on various factors to be considered in advance, such as vessel information, quay wall characteristic information, constraint condition information, performance index score, and priority conditions, the specification information of the offshore structure to be moored and the quay wall optimal for the work to be performed can be accurately selected. It is to provide an apparatus and method for selecting an optimal quay for mooring a ship that enables

The present invention is to provide an apparatus and method for selecting an optimal quay for mooring a ship, which can prevent unnecessary ship movement or process loss by allowing a marine structure to be moored at an optimal quay.

Other objects of the present invention will be readily understood through the following description.

According to one aspect of the present invention, a consideration factor management unit for managing preset factor information for arranging marine structures on quay walls provided in a shipyard; And a wharf selection unit including a wharf selection unit for selecting a quay where the offshore structure will be moored based on work information to be performed on the offshore structure with reference to the factor information to be considered, wherein the factor information to be considered includes vessel information, An apparatus for selecting an optimal quay, including quay characteristic information, task information, constraint information, and performance index score, is provided.

When the job information corresponding to the offshore structure is a preset top priority job, the quay selection unit may select a quay by using pre-stored arrangement status information, mooring suitability information, and a preset basic arrangement logic. Here, the mooring suitability information is information in which the suitability between each quay and each job information is defined as any one of the highest to lowest grades by referring to the quay wall characteristic information and each job information of each quay. can The basic arrangement logic is a logic for selecting a quay wall to be placed by searching for quay walls that can be placed by offshore structures in order of rank from the highest grade to the lowest grade based on the mooring suitability information, the quay wall characteristic information, work information, and ship specification information. can

When the job information corresponding to the offshore structure corresponds to a pre-designated maritime event, the arrangement quay selection unit may be set to omit selection of the arrangement quay and designate the offshore structure to be moored at sea.

If the work information corresponding to the offshore structure is not the highest priority task set in advance, the arrangement quay selection unit refers to the mooring suitability information and determines that the work according to the work information is inappropriate at the quay where the offshore structure is currently moored. , it is possible to re-select the placement quay using the basic placement logic. In addition, if it is determined that the operation according to the work information is appropriate at the quay where the offshore structure is currently moored by referring to the mooring suitability information, the quay where the offshore structure is already moored is set to a relatively higher grade than the moored quay. Basic arrangement logic may be performed to additionally search whether there is a spare quay wall where the offshore structure can be placed.

According to another aspect of the present invention, a computer program stored in a computer-readable medium for performing an optimal quay selection method, the computer program causing a computer to perform the following steps, the steps comprising: Collecting operation information of offshore structures; If the job information is a preset highest priority job, selecting a batch quay using previously stored batch status information, mooring suitability information, and a preset basic batch logic; If the work information is not the highest priority work, determining whether the work according to the work information is appropriate at the quay where the offshore structure is currently moored by referring to the mooring suitability information; If it is determined that the work according to the work information is inappropriate, re-selecting an arrangement quay using the basic arrangement logic; If it is determined that the work according to the work information is appropriate, the basic arrangement logic is performed for a quay wall set to a relatively higher grade than the quay wall to which the offshore structure is currently moored to determine if there is an additional quay wall where the offshore structure can be placed. A computer program stored in a computer-readable medium comprising the step of searching is provided.

Other aspects, features and advantages other than those described above will become apparent from the following drawings, claims and detailed description of the invention.

According to an embodiment of the present invention, based on information on various factors to be considered in advance, such as ship information, quay wall characteristic information, constraint information, performance index scores, and priority conditions, the information on the specifications of offshore structures to be moored and optimal for the work to be performed It has the effect of ensuring that the quay wall is accurately selected.

In addition, by allowing the offshore structure to be moored at the optimal quay, there is also an effect of preventing unnecessary vessel movement or process loss.

1 is a view illustrating the quay wall arrangement shape of a shipyard.
2 is a schematic block diagram of an apparatus for selecting an optimal quay wall according to an embodiment of the present invention.
Figure 3 is a view for explaining the operation of the placement quay wall selection unit according to an embodiment of the present invention.
4 is a view illustrating a layout schedule in which the results of selecting a quay wall are organized according to an embodiment of the present invention.
5 and 6 are flowcharts showing a method for selecting an optimal quay wall according to an embodiment of the present invention.

Since the present invention can make various changes and have various embodiments, specific embodiments will be illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and technical scope of the present invention.

2 is a schematic block configuration diagram of an apparatus for selecting an optimal quay according to an embodiment of the present invention, and FIG. 3 is a diagram for explaining the operation of an arrangement quay selector according to an embodiment of the present invention. It is a diagram illustrating a layout schedule in which the results of selecting the layout quay wall according to an embodiment of the invention are organized.

Referring to FIG. 2 , the apparatus 200 for selecting an optimal quay may include a layout status management unit 210, a consideration factor management unit 220, and a layout quay selection unit 230.

Here, each detailed component (for example, the arrangement status management unit 210, etc.) of the apparatus 200 for selecting the optimal quay wall may be configured as a kind of module that performs a designated role. Here, the module may be implemented in a software form, implemented in a hardware configuration such as a field programmable gate array (FPGA) or an application specific integrated circuit (ASIC), or a combination thereof. Of course, a module is not limited to software or hardware, and may be configured to reside in an addressable storage medium or configured to execute one or more processors. Functionality provided in components and modules may be combined into fewer components and modules or further separated into additional components and modules.

The arrangement status management unit 210 manages arrangement status information on quays provided in the shipyard and offshore structures moored at each quay. Placement status information may be stored in the database 250 .

As illustrated in FIG. 4, the arrangement status information is composed of information on offshore structures currently moored or planned to be moored in the future based on each of the quay walls provided in the shipyard in the form of a daily arrangement schedule and is provided to the user. can Here, the quay wall arrangement period of the offshore structure may be based on, for example, work schedule information in which a period corresponding to each work information is predefined.

The arrangement status information stored in the database 250 may include, for example, quay wall characteristic information for each quay wall provided in a shipyard. Quay wall characteristic information about each quay may include, for example, quay specification information (eg, length, width, water depth, etc. of the quay), quay resource restriction information, and the like. The quayside resource restriction information includes, for example, interference criterion information for determining whether or not to collide with an interferer existing in the quayside, quayside bit information about the position of a bit present in the quayside, bits of the quayside and the ship. Reference information of mooring ropes connected may be included.

In addition, the arrangement status information stored in the database 250 may include, for example, vessel characteristic information for each of the offshore structures moored at the quay. The ship characteristic information may include, for example, ship specification information (eg, ship type, ship length, width, etc.), ship resource restriction information, and the like. Vessel resource constraint information may include, for example, vessel bit information about the position of a bit present in an offshore structure.

The factor management unit 220 manages registration, renewal, etc. of information on each factor to be considered for selecting the optimal quay where the offshore structure is to be moored from among quay walls provided in the shipyard. Consideration factor information may be stored in the database 250 .

Consideration factor information for optimal quay selection may include, for example, ship information, quay characteristic information, work information, constraint information, performance index scores, priority conditions, and the like.

Ship information may include, for example, ship schedule information regarding L/C (launch date) and D/L (delivery date), ship characteristic information, and the like. Here, in relation to the mooring of the quay of the offshore structure, L/C (launch date) of the ship's schedule information may be designated as the quay arrangement start date, and D/L (delivery date) may be designated as the quay arrangement end date. In addition, ship characteristic information regarding ship specification information and ship resource restriction information may be considered to determine whether mooring of a quay of an offshore structure is affected by physical constraint conditions of the quay.

Quay wall characteristic information may include quay specification information (eg, length, width, water depth, etc. of the quay), quay resource restriction information, and the like. The quay wall characteristic information may be considered to determine whether a specific offshore structure corresponding to the vessel information can be placed in the corresponding quay.

The work information is information about work to be performed on an offshore structure that is moored to a quay or is to be moored. Offshore structures may be divided into several follow-up tasks to be performed at the quay for each ship type, and each of the classified tasks may have different work efficiency for each quay depending on available resources and environmental constraints for each quay.

Constraint information may be information defining workable quays for work to be performed in an offshore structure in consideration of available resources and environmental constraints for each quay. Constraint condition information may include, for example, information that classifies each of the quay walls into A to D grades based on the work to be performed. Taking the classification criteria for classifying each of the quays into A to D classes, for example, a quay that can maximize work efficiency as a professional quay can be classified as an A class quay, and can have the maximum work efficiency, but for other ship types Quays classified as professional quays may be classified as Class B quays. In addition, although the work efficiency is slightly lower, the quay where all the main operations are possible can be classified as a C-class quay, and the quay that can only prepare preparation work due to a lot of work loss or the main operation is impossible can be classified as a D-class quay.

The Key Performance Indicator (KPI) score is a score calculated by evaluating for the selection of quay walls for offshore structures. The number and cost of moving moored vessels, the ratio deployed on specialized quays, and the berthing rate (i.e., quays) The ratio of the length of the ship to the length) and the moving distance between the offshore structure and the quay may be calculated as digitized scores by a pre-specified calculation method targeting items to be considered with set weights.

Consideration items for calculating the performance indicator score and respective weights may be set and stored in the database 250 . Here, consideration items may be preset or added or deleted as needed, and weights for each consideration item may be preset or adjusted as needed. For example, in the case of trying to select a layout quay so that the number of ship movements is minimized, the weight for the number of ship movements can be set the highest among various consideration items, and placed on a specialized quay to ensure the highest work efficiency. In the case of trying to select a layout quay as much as possible, the weight for the professional quay layout rate can be set to the highest.

The priority condition is a constraint condition for determining priority when offshore structures of various types of ships are to be placed on the quay at the same time. The priority condition may be determined in consideration of, for example, work information to be performed on the quay, the number of tasks, the number of work days, and the like. For example, in the case of a cargo hold head removal operation in an LNG carrier, if the number of workable quay walls is limited to a small number compared to other operations, the priority may be set relatively high compared to other operations of the LNG carrier. Of course, priority conditions may be adjusted as needed.

The arrangement quay wall selection unit 230 refers to the factor information to be considered, and selects the optimal quay wall where the offshore structure will be moored according to the work to be performed on the offshore structure at each predetermined reference time point (see FIG. 3 ). At this time, reference may be made to information about the current arrangement of the mooring conditions of offshore structures for each quay.

Mooring suitability information for reference by the arrangement quay selection unit 230 to select a quay where the offshore structure is to be moored based on work contents may be stored in advance in the database 250 .

The mooring suitability information refers to quay wall characteristic information, ship specification information, and work information for each quay equipped in the shipyard, and determines whether the offshore structure for which a specific work is to be performed for each quay is suitable for mooring from A to A. It may be predefined information with D grade mooring suitability. The mooring suitability information may be identical to the aforementioned constraint information or generated using the constraint information.

When arranging the quay wall selection unit 230 to place the offshore structure on an arbitrary quay based on the work contents, if the work contents are the highest priority work that is performed for the first time in the offshore structure, the offshore structure is still Since it is not moored even at the quay, it is possible to select the optimal layout quay according to the basic layout logic specified in advance.

Here, the basic arrangement logic may be a logic for selecting an optimal quay by searching for quays on which offshore structures can be placed in order of grade from A quay to D quay based on work contents. The basic arrangement logic will be described in detail with reference to steps 620 to 670 of FIG. 6 .

In addition, if the work to be performed on the offshore structure is a maritime event, the arrangement quay wall selector 230 may designate the offshore structure to be moored at sea instead of being moored at the quay. Here, the maritime event may be related to work information such as trial run, gas trial (reducing the LNG tank to an appropriate temperature before moving the newly built LNG carrier to a pier), etc. performed at sea.

In addition, in the case of an offshore structure that is currently moored at a specific quay and the previous work has been completed, the arrangement quay wall selection unit 230 determines whether to proceed with the work information corresponding to the subsequent work while being moored at the currently moored quay, or other quays. It is possible to select an arrangement quay by determining whether to move to and proceed.

That is, the quay placement selection unit 230 refers to previously stored mooring suitability information, and if it is determined that it is inappropriate for the subsequent work to be carried out at the currently moored quay, it performs basic placement logic so that the offshore structure is moved and moored. It is possible to re-select the layout quay to be placed.

In addition, even if the arrangement quay selection unit 230 determines that the work to be carried out subsequently can be carried out even at the currently moored quay, if there is a spare quay that is expected to have a relatively high work efficiency compared to the work, move to the corresponding spare quay. Layout quays can also be selected.

At this time, the quay placement selection unit 230 refers to the mooring suitability information and also performs the basic placement logic described above, so that the quay wall of a relatively higher grade than the grade of the quay wall to which the offshore structure is currently moored is selected from A to B grades. You can search the layout quay in the order of .

If two or more quays of the same class are found, the arrangement quay selector 230 may select one quay using a preset quay score calculation technique (refer to step 630 of FIG. 6 to be described later). At this time, the arrangement quay selection unit 230 applies the quay score calculation technique to the quay where the offshore structure is currently moored and other movable free quays to determine whether to maintain the current quay or move to another free quay. can also be determined.

In order to correspond to the content selected by the arrangement quay selection unit 230 on whether to moor the offshore structure at A or D class quays based on the contents of each work, or moor at sea, the arrangement status management unit 210 Arrangement status information regarding the arrangement between the structure and the quay may be updated and stored in the database 250 .

5 and 6 are flowcharts showing a method for selecting an optimal quay wall according to an embodiment of the present invention.

Referring to FIGS. 5 and 6 , the apparatus 200 for selecting an optimal quay determines in step 510 whether it is time to select an arrangement quay for offshore structures. The selection of the quay wall may be set in advance to be repeated on a daily basis for a predetermined period of time, for example.

When it is the time of selecting the quay to be placed, in step 520, the apparatus 200 for selecting the optimal quay creates a task list for work information to be executed in each offshore structure for which the quay to be placed is to be selected.

That is, the work list may be information in which work information on an offshore structure to be moored newly and/or work information to be newly performed on an already moored offshore structure is retrieved and listed on a daily basis.

When the optimal quay wall selection device 200 generates a task list, for example, task information to be performed in each offshore structure according to predetermined arrangement criteria, such as priority by ship type, priority by task, large or small delay, etc. You can create them by sorting them in order.

If the job information to be placed is not retrieved, in order to maintain the existing arrangement quay selection state, the arrangement quay selection operation (steps 530 to 580) is omitted and set to wait in step 510 until the next arrangement quay selection time arrives. It could be.

The apparatus 200 for selecting an optimal quay wall selects an optimal quay wall for an offshore structure where the corresponding job information is to be performed by performing steps 530 to 580 described later in the order of the job information listed in the job list.

In step 530, the optimal quay selection device 200 determines whether the job information to be selected as the optimal quay is the highest priority job.

For example, in the case of an LNG carrier, work information may include cargo hold work, barn removal work, cargo hold hollowing work, trial run, etc., and in the case of a COT (Crude Oil Tank) ship, there may be shafting work, trial run, delivery preparation work, etc. can

Among the tasks to be performed for each ship type, the first task may be the highest priority task, and the offshore structure to be performed is the offshore structure that has not yet been moored to the quay and is moored to the quay for the first time.

If the task content is the highest priority task, the apparatus 200 for selecting the optimal quayside refers to previously stored mooring suitability information to determine whether there is an A-class spare quayside for mooring the offshore structure on which the corresponding task information is to be executed. To do so, proceed to step 620. For example, the spare quay may mean an empty quay where no offshore structure is currently moored, and the A-class quay means a quay defined as a specialized quay that maximizes work efficiency in relation to the corresponding work information.

Here, through steps 620 to 670, mooring suitability information to be referred to for selection of an optimal quay for the corresponding job information may be stored in advance in the database 250 (step 610).

Mooring suitability information refers to quay wall characteristic information, ship specification information, and work information to be performed for each quay provided in the shipyard, and whether or not the offshore structure to be moored is suitable for each quay A It may be predefined information with mooring suitability of grade D to D. To generate the mooring suitability information, the aforementioned constraint information may be used.

The optimal quay selection device 200 refers to the layout quay information stored in the database 250, and when it is determined that there is an A-class spare quay for mooring the marine structure on which the corresponding work information is to be carried out, the corresponding A quay in step 630. The water supply quay is selected as the placement quay.

However, if it is determined that there are two or more A-class spare quays, the optimum quay selection device 200 calculates a score for each spare quay with a pre-specified quay score calculation technique in step 630, and obtains a relatively high score. The calculated free quay can be selected as the layout quay.

Here, the quay wall score calculation technique refers to, for example, ship information, quay wall characteristic information, and constraint information, excludes spare quays where the offshore structure cannot moor, and calculates the above-mentioned performance index score for each of the spare quays that can be moored. It may be that the margin quay calculated with a relatively high score is selected as the arrangement quay.

However, if, by the determination in step 620, there is no A-class clearance quay that meets the work contents, in step 640, the optimum quay selection device 200 determines whether a B-class clearance quay exists by referring to the mooring suitability information. judge Here, the B-class quay has maximum work efficiency, but may be a quay designated as a professional quay for other ship types.

The optimum quay selection device 200 refers to the arrangement quay wall information stored in the database 250, and if there is a B class spare quay for mooring the offshore structure on which the corresponding work information is to be carried out, in step 630, the B class spare quay wall. is selected as the placement quay. At this time, if there are two or more B-class spare quays, the optimum quay selection device 200 may select any one B-class spare quay as the layout quay by applying the above-described quay score calculation technique.

However, if, by the determination in step 640, there is no Class B clearance quay that corresponds to the work, in Step 650, the optimum quay selection device 200 determines whether a Class C clearance quay exists by referring to the mooring suitability information. judge Here, the C-class quay has a little lower work efficiency, but may be a quay that can perform all main operations.

The optimal quay selection device 200 refers to the arrangement quay wall information stored in the database 250, and if there is a C-class spare quay for mooring the offshore structure on which the corresponding work information is to be carried out, in step 630, the C-class spare quay wall. is selected as the placement quay. At this time, if there are two or more C-class spare quays, the above-described quay score calculation technique may be applied to select an arrangement quay.

However, if, by the determination in step 650, there is no Class C clearance quay that meets the work contents, in Step 660, the optimum quay selection device 200 determines whether a Class D clearance quay exists by referring to the mooring suitability information. judge Here, the D-class quay may be a quay where only preparation work is possible because a lot of work loss occurs or the main work is impossible.

The optimum quay selection device 200 refers to the arrangement quay wall information stored in the database 250, and if there is a D-class spare quay for mooring the marine structure on which the corresponding work information is to be carried out, in step 630, the D-class spare quay. is selected as the placement quay. At this time, if there are two or more D-class spare quays, the above-described quay score calculation technique may be applied to select an arrangement quay.

However, if there is no D-class spare quay that meets the work content, the optimum quay wall selection device 200 processes the offshore structure on which the work content is to be carried out unplaced (step 670).

Unplaced offshore structures may remain moored at sea until a berth for placement is selected. In addition, the unplaced work content may be included again in the work list at the next time of selecting the quay for arrangement, and the process for selecting the quay for arrangement may proceed again (steps 510 and 520).

Referring back to FIG. 5, as a result of the determination in step 530, if the job information for which the arrangement quay is to be selected is not the highest job, the apparatus 200 for selecting the optimal quay determines whether the corresponding job information corresponds to a maritime event in step 540. judge

Here, the maritime event may be work information such as trial run, gas trial (reducing the LNG tank to an appropriate temperature before moving the newly built LNG carrier to a pier), etc. performed at sea without being moored at the quay.

If it corresponds to a marine event, the apparatus 200 for selecting the optimal quay wall proceeds to step 550 and sets the marine structure to be moored at sea where the corresponding work information will be carried out.

However, if it does not correspond to the maritime event, in step 560, the apparatus 200 for selecting the optimum quayside checks which quayside the offshore structure where the corresponding work will be carried out is moored in order to carry out the preceding work. do.

When the quay where the offshore structure is moored is confirmed, in step 570, the apparatus 200 for selecting the optimum quay will continue to moor the offshore structure corresponding to the work to the currently placed quay by referring to previously stored mooring suitability information. determine whether it is possible

The optimal quay selection device 200 refers to the mooring suitability information, and if it is determined that it is inappropriate for the corresponding offshore structure to be subsequently carried out at the currently moored quay, the basic arrangement logic already described with reference to steps 620 to 670 is performed to re-select the placement quay where the relevant offshore structure will be moved and moored.

For example, although the cargo hold work of an LNG carrier has been performed at the first quay, based on the cargo hold chief removal work, which is a subsequent work of the cargo hold work, it is impossible to remove the cargo hold chief from the first quay, or the priority prior to the first quay. This may be the case where the line needs to be moved to arrange it.

However, if it is determined that the offshore structure can continue to be moored at the currently deployed quay, the apparatus 200 for selecting the optimal quay determines whether there is a spare quay that is more suitable for the work, and determines the quay where the offshore structure is placed. A decision is made (step 580). By the decision in step 580, the offshore structure may be determined to continue the subsequent work at the currently placed quay (see SN2355 of quay wall 0A in FIG. 4), or it may be determined to move to another quay for subsequent work (Fig. 4 quays 0B and 0C see SN2342).

For example, the cargo hold work of an LNG carrier has been carried out at the first quay, and even at the first quay, the cargo hold chief removal work, which is a follow-up to the cargo hold work, is possible. This may correspond to the case of searching for the existence of a spare quay of the class.

In order to determine whether there is a spare quay where relatively high work efficiency is expected compared to the work contents, the apparatus 200 for selecting the optimal quay may newly place the offshore structure by referring to mooring suitability information and arrangement status information, for example. It is possible to determine the layout quay in the At this time, by performing the above-described basic arrangement logic, it is possible to search quay walls of a relatively higher grade than the grade of the quay where the offshore structure is currently moored in the order of class A to class B.

In addition, when two or more quays of the same class are searched for, any one quay may be selected using the quay score calculation technique as described above. Of course, it may also be determined whether to maintain the current quay or to move to another spare quay by using a quay score calculation technique targeting the quay where the offshore structure is currently moored and other free quays that can be moved.

Through the above-described process, decision information on A to D quay mooring, offshore arrangement, etc. for offshore structures of any work content is updated to arrangement status information on arrangement between offshore structures and quays, and can be stored in the database 250. there is. As illustrated in FIG. 4 , with reference to ship information or work schedule information, it is natural that the arrangement status information may also include period information on when and until when the marine structure to be placed on a specific quay is moored.

In addition, the apparatus 200 for selecting the optimal quay wall repeats the above-described steps 530 to 580 based on each job information listed in the job list generated in step 520 to determine the arrangement of quay walls for offshore structures corresponding to each job information. selection can be completed.

As described above, the apparatus and method for selecting the optimal quay for mooring a vessel according to the present embodiment is moored based on various factors to be considered in advance, such as ship information, quay characteristic information, constraint information, performance index scores, and priority conditions. There is a feature that allows accurate selection of the quay wall optimal for the technical information of the offshore structure to be performed and the work to be performed. In addition, there is also an advantage of preventing unnecessary ship movement or process loss by allowing the offshore structure to be moored to the optimal quay wall and to be operated.

Although the above has been described with reference to the embodiments of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. You will understand that it can be done.

100: quay wall 200: optimal quay selection device
210: Placement status management department 220: Consideration factor management department
230: arrangement quay selection unit 250: database

Claims (5)

a consideration factor management unit that manages preset consideration factor information for arranging offshore structures on quay walls provided in a shipyard; and
A wharf selection unit including a wharf selection unit for selecting a quay where the offshore structure will be moored based on work information to be performed on the offshore structure with reference to the factor information to be considered,
The consideration factor information includes line information, quay characteristic information, work information, constraint information, and performance index score, optimal quay selection device. According to claim 1,
When the job information corresponding to the offshore structure is a preset top-level job, the quay selection unit selects the quay by using pre-stored arrangement status information, mooring suitability information, and a preset basic arrangement logic,
The mooring suitability information refers to the quay wall characteristic information of each of the quays and the characteristic of each of the work information, and the suitability between each quay wall and each work information is defined as any one of the highest to lowest grades designated in advance,
The basic arrangement logic is a logic for selecting a quay wall to be placed by searching for quay walls that can be placed on a marine structure in order of rank from the highest grade to the lowest grade based on the mooring suitability information, the quay wall characteristic information, work information, and ship specification information. , Optimal quay selection device. According to claim 2,
When the operation information corresponding to the offshore structure corresponds to a pre-specified maritime event, the best quay selection device for omitting the selection of the disposition quay and specifying that the offshore structure be moored at sea. According to claim 2,
If the job information corresponding to the offshore structure is not a preset top priority job, the arrangement quay wall selection unit,
Referring to the mooring suitability information, if it is determined that the work according to the work information is inappropriate at the quay where the offshore structure is currently moored, the quay for placement is re-selected using the basic placement logic,
Referring to the mooring suitability information, if it is determined that the operation according to the work information is appropriate at the quay where the offshore structure is currently moored, the basic layout is set targeting the quay where the marine structure is already moored with a relatively higher grade. An optimal quay wall selection device that performs logic to additionally search whether there is a spare quay wall where the offshore structure can be placed. A computer program stored on a computer-readable medium for performing a method for selecting an optimum quay wall, the computer program causing a computer to perform the following steps, the steps comprising:
Collecting operation information of an offshore structure to be placed on a quay;
If the job information is a preset highest priority job, selecting a batch quay using previously stored batch status information, mooring suitability information, and a preset basic batch logic;
If the work information is not the highest priority work, determining whether the work according to the work information is appropriate at the quay where the offshore structure is currently moored by referring to the mooring suitability information;
If it is determined that the work according to the work information is inappropriate, re-selecting an arrangement quay using the basic arrangement logic;
If it is determined that the work according to the work information is appropriate, the basic arrangement logic is performed for a quay wall set to a relatively higher grade than the quay wall to which the offshore structure is currently moored to determine if there is an additional quay wall where the offshore structure can be placed. A computer program stored on a computer-readable medium comprising the step of searching.

Images