CN110659844A - Optimization method for assembly resource scheduling of mail-carrier outfitting workshop - Google Patents
Optimization method for assembly resource scheduling of mail-carrier outfitting workshop Download PDFInfo
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Abstract
The invention discloses an optimization method for assembly resource scheduling of a mail-ship outfitting workshop, which solves the problems that time planning in a spending process is not reasonable enough and a path of assembly resource scheduling is not optimized enough, can realize optimal path selection, reduces the transportation cost, can select the transportation priority and improves the assembly efficiency. The system comprises a scheduling platform, a data transmission module, a scheduling center server, an information acquisition module, a feedback module, a data processor, a delivery path planning module, a delivery sequence planning module, a delivery time optimization module, a monitoring module, an instruction sending module, a database, a storage, an assembly resource information statistical module, an operator configuration module, an assembly tool statistical module, an assembly resource type statistical module, an assembly resource quantity statistical module and an assembly resource position statistical module, wherein the scheduling platform is connected with the data transmission module, and the data transmission module is connected with the scheduling center server.
Description
Technical Field
The invention relates to the technical field of ship processing, in particular to an optimization method for scheduling assembly resources of a mail-ship outfitting workshop.
Background
Outfitting refers to everything on the ship except the ship's power plant and hull. Ship outfitting is the work of installing electronic equipment, electrical equipment, machinery and the like after launching a ship after the main structure of the ship is built. With the development of the macro economy and the adjustment of the industrial structure in China, the shipbuilding industry is continuously developing at a high speed, and the development of outfitting equipment and standards thereof in the future will show the development trends of modularization, fine product, international standardization, environmental protection, energy conservation, safety, comfort and portability.
However, in the existing method for scheduling assembly resources in the mail ship outfitting workshop, in order to realize efficient material scheduling, time planning in the scheduling process is not reasonable enough, and meanwhile, a good planning for a path of scheduling the assembly resources in the mail ship outfitting workshop is not provided, so that the transportation cost is increased, and the assembly efficiency is insufficient.
Disclosure of Invention
Aiming at the defects of the prior art, the invention provides the method for scheduling the assembly resources of the mail ship outfitting workshop, which solves the problems that the time planning in the process of spending is not reasonable enough and the scheduling path of the assembly resources is not optimized enough, reduces the transportation cost and improves the assembly efficiency.
In order to achieve the purpose, the invention is realized by the following technical scheme: an optimization system for assembly resource scheduling of a mail-carrier outfitting workshop comprises a scheduling platform, a data transmission module, a scheduling center server, an information acquisition module, a feedback module, a data processor, a delivery path planning module, a delivery sequence planning module, a delivery time optimization module, a monitoring module, an instruction sending module, a database, a storage, an assembly resource information statistics module, an operator configuration module, an assembly tool statistics module, an assembly resource type statistics module, an assembly resource quantity statistics module and an assembly resource position statistics module, wherein the scheduling platform is connected with the data transmission module, the data transmission module is connected with the scheduling center server, the scheduling center server is connected with the information acquisition module, the information acquisition module is connected with the feedback module, the feedback module is connected with the scheduling center server, and the scheduling center server is connected with the instruction sending module, the system comprises an instruction sending module, a dispatching center server, a data processor, a delivery path planning module, a delivery sequence planning module, a delivery time optimizing module and a feedback module, wherein the instruction sending module is connected with a dispatching platform, the dispatching center server is connected with the data processor, the data processor is connected with the delivery path planning module, the delivery path planning module is connected with the delivery sequence planning module, the delivery sequence planning module is connected with the delivery time optimizing module, and the delivery time optimizing module is connected with the feedback module.
Preferably, the dispatching center server comprises a database and a storage, the database is connected with the storage, and the dispatching center server is connected with the monitoring module.
Preferably, the information acquisition module comprises an assembly resource information statistic module, an operator configuration module, an assembly tool statistic module, an assembly position statistic module, an assembly type statistic module and an assembly quantity statistic module.
Preferably, the assembly resource information statistic module comprises an assembly resource type statistic module, an assembly resource quantity statistic module and an assembly resource position statistic module, the assembly resource type statistic module is connected with the assembly resource quantity statistic module, and the assembly resource quantity statistic module is connected with the assembly resource position statistic module.
Preferably, the assembly resource information statistics module is connected with the operator configuration module, the operator configuration module is connected with the assembly tool statistics module, the assembly tool statistics module is connected with the assembly position statistics module, the assembly position statistics module is connected with the assembly type statistics module, and the assembly type statistics module is connected with the assembly quantity statistics module.
An optimization method for assembly resource scheduling of a mail-ship outfitting workshop comprises the following specific steps:
the method comprises the following steps: when the assembly is needed, the assembly resource information needing to be scheduled is input through the scheduling platform, the assembly resource information needing to be scheduled enters the data transmission module through the scheduling platform, the data transmission module transmits the assembly resource information needing to be scheduled to the scheduling center server, the scheduling center server transmits the assembly resource information needing to be scheduled to the database after receiving the assembly resource information needing to be scheduled, and the database transmits the assembly resource information needing to be scheduled to the storage for storage after receiving the assembly resource information needing to be scheduled.
Step two: the method comprises the steps that a dispatching center server transmits assembly resource information needing to be dispatched to an information collection module, the information collection module receives the assembly resource information needing to be dispatched, an assembly resource information counting module starts to collect data of the assembly resource information, the data are collected through an assembly resource type counting module, the current resource type of a current workshop is counted, the assembly resource type counting module counts the current resource type information and transmits the data to an assembly resource quantity counting module, the assembly resource quantity counting module collects the current assembly resource quantity information of various types after receiving the information, and the assembly resource quantity counting module transmits the data to an assembly resource position counting module after collecting the current assembly resource quantity information of various types.
Step three: the assembling tool management system comprises an assembling tool counting module, an assembling resource position counting module, an operating personnel configuration module and an assembling resource position counting module, wherein the assembling tool counting module is used for collecting information of all assembling positions at present after receiving the information, the assembling tool counting module is used for transmitting the information to the operating personnel configuration module after collecting the information of all assembling positions at present, the operating personnel configuration module starts to count the personnel configuration condition and the work arrangement in a workshop at present after receiving the information, and the operating personnel configuration module transmits the collected data to the assembling tool counting module.
Step four: the assembling tool counting module starts counting the service condition quantity allocation and the like of various tools in a current workshop after receiving the information, after the assembling tool counting module counts and obtains data, the assembling tool counting module transmits the obtained data to the assembling position counting module, after the assembling position counting module receives the data, the assembling position information needing to be assembled is counted, after the assembling position counting module completes counting of the assembling position information, the assembling position counting module transmits the information to the assembling type counting module, and the assembling type counting module transmits the data to the assembling quantity counting module after counting the data.
Step five: the equipment quantity counting module counts the quantity of various currently required equipment materials after receiving the information, the equipment quantity counting module counts and completes the quantity of various currently required equipment materials, the information acquisition module collects and transmits the acquired information to the feedback module, the feedback module feeds the information back to the dispatching center server after receiving the acquired information, the dispatching center server transmits the information to the database after receiving the acquired information, and the database transmits the acquired information to the storage device for storage after receiving the acquired information.
Step six: the dispatching center server transmits the assembly resource information and the collected information to be dispatched to the data processor for data matching, the data processor transmits the information to the delivery path planning module after receiving the information, and the delivery path planning module performs optimal configuration on the path according to the assembly position information and the assembly resource position information and calculates the optimal path.
Step seven: the delivery path planning module transmits information to the delivery sequence planning module after optimizing and configuring the path, and the delivery sequence planning module preferentially transports materials which are required to be assembled urgently according to the current requirement after receiving the information.
Step eight: the delivery sequence planning module transmits the information to the delivery time optimization module, and the delivery time optimization module plans the delivery time according to the time required by material assembly, so that time configuration management is performed, and the time is saved.
Step nine: the delivery time optimization module transmits information to the feedback module, the feedback module feeds the information back to the dispatching center server after receiving the planning information, the dispatching center server transmits the information to the instruction sending module after receiving the planning information, and the instruction sending module sends a dispatching instruction to the dispatching platform according to the assembly resource information, the acquisition information and the planning information which need to be dispatched, and dispatches the information according to the dispatching platform display information.
Step ten: after the dispatching center server receives the relevant data, the data stored in the current dispatching center server can be monitored through the monitoring module, and the shortage of assembly materials is supplemented in time according to the data.
Advantageous effects
The invention provides an optimization method for assembly resource scheduling of a mail-ship outfitting workshop. The method has the following beneficial effects: according to the optimization method for scheduling assembly resources of the mail-ship outfitting workshop, the optimal path can be selected by calculating the path in the delivery path planning module, so that the delivery cost is reduced, the delivery priority can be selected by calculating in the delivery sequence planning module, calculating in the delivery time optimization module and configuring data acquired by the module by an operator, and the assembly efficiency is improved.
Drawings
FIG. 1 is a schematic diagram of the system of the present invention;
FIG. 2 is a schematic diagram of the assembly resource information statistics module of FIG. 1 in accordance with the present invention.
In the figure: 1. a scheduling platform; 2. a data transmission module; 3. a scheduling center server; 4. an information acquisition module; 5. a feedback module; 6. a data processor; 7. a delivery path planning module; 8. a delivery sequence planning module; 9. a delivery time optimization module; 10. a monitoring module; 11. an instruction issuing module; 31. a database; 32. a reservoir; 41. assembling a resource information statistical module; 42. an operator configuration module; 43. an assembly tool statistics module; 44. an assembly position counting module; 45. assembling a type statistical module; 46. an assembly quantity counting module; 411. assembling a resource type statistical module; 412. assembling a resource quantity counting module; 413. and assembling a resource position statistical module.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-2, the present invention provides a technical solution: an optimization system for assembly resource scheduling of a mail-carrier outfitting workshop comprises a scheduling platform 1, a data transmission module 2, a scheduling center server 3, an information acquisition module 4, a feedback module 5, a data processor 6, a delivery path planning module 7, a delivery sequence planning module 8, a delivery time optimization module 9, a monitoring module 10, an instruction sending module 11, a database 31, a storage 32, an assembly resource information statistics module 41, an operator configuration module 42, an assembly tool statistics module 43, an assembly resource type statistics module 411, an assembly resource quantity statistics module 412 and an assembly resource position statistics module 413, wherein the scheduling platform 1 is connected with the data transmission module 2, the scheduling platform 1 is used for inputting assembly resource information to be scheduled, the data transmission module 2 is connected with the scheduling center server 3, and the scheduling center server 3 is used for processing and recording various information in the scheduling process, the dispatching center server 3 is connected with the information acquisition module 4, the information acquisition module 4 is used for collecting currently required related data information, the information acquisition module 4 is connected with the feedback module 5, the feedback module 5 is used for feeding back the currently collected data information, the feedback module 5 is connected with the dispatching center server 3, the dispatching center server 3 is connected with the instruction sending module 11, the instruction sending module 11 is used for sending out dispatching instructions, the instruction sending module 11 is connected with the dispatching platform 1, the dispatching center server 3 is connected with the data processor 6, the data processor 6 is used for processing calculated data, the data processor 6 is connected with the delivery path planning module 7, the delivery path planning module 7 is used for calculating the current optimal path and saving delivery cost, the delivery path planning module 7 is connected with the delivery sequence planning module 8, the delivery sequence planning module 8 is used for calculating the current delivery priority, the delivery sequence planning module 8 is connected with the delivery time optimizing module 9, the delivery time optimizing module 9 is used for planning delivery time and improving assembly efficiency, and the delivery time optimizing module 9 is connected with the feedback module 5.
The dispatching center server 3 comprises a database 31 and a storage 32, the database 31 is connected with the storage 32, the storage 32 is used for storing all current information and facilitating later-stage checking, the dispatching center server 3 is connected with a monitoring module 10, the monitoring module 10 can monitor the data stored in the current dispatching center server 3, the information acquisition module 4 comprises an assembly resource information statistic module 41, an operator configuration module 42, an assembly tool statistic module 43, an assembly position statistic module 44, an assembly type statistic module 45 and an assembly quantity statistic module 46, the assembly resource information statistic module 41 comprises an assembly resource type statistic module 411, an assembly resource quantity statistic module 412 and an assembly resource position statistic module 413, the assembly resource type statistic module 411 is connected with the assembly resource quantity statistic module 412, and the assembly resource type statistic module 411 is used for counting the current inventory resource types, the assembly resource quantity counting module 412 is connected with the assembly resource position counting module 413, the assembly resource quantity counting module 412 is used for counting the current inventory resource quantity, the assembly resource information counting module 41 is connected with the operator configuration module 42, the operator configuration module 42 is used for counting the operator information in the current workshop, the operator configuration module 42 is connected with the assembly tool counting module 43, the assembly tool counting module 43 is used for counting the available tools in the current workshop, the assembly tool counting module 43 is connected with the assembly position counting module 44, the assembly position counting module 44 is used for counting the assembly resource assembly position information, the assembly position counting module 44 is connected with the assembly type counting module 45, the assembly type counting module 45 is used for counting the required assembly resource type information, and the assembly type counting module 45 is connected with the assembly quantity counting module 46, the assembly quantity counting module 46 is used for counting the information of the quantity of the required assembly resources.
An optimization method for assembly resource scheduling of a mail-ship outfitting workshop comprises the following specific steps:
the method comprises the following steps: when the assembly is required, the assembly resource information required to be scheduled is input through the scheduling platform 1, the assembly resource information required to be scheduled enters the data transmission module 2 through the scheduling platform 1, the data transmission module 2 transmits the assembly resource information required to be scheduled to the scheduling center server 3, the scheduling center server 3 transmits the assembly resource information required to be scheduled to the database 31 after receiving the assembly resource information required to be scheduled, and the database 31 transmits the assembly resource information required to be scheduled to the storage 32 for storage after receiving the assembly resource information required to be scheduled.
Step two: the dispatching center server 3 transmits the information of the assembly resources to be dispatched to the information collection module 4, after the information collection module 4 receives the information of the assembly resources to be dispatched, the assembly resource information statistics module 41 starts to collect data of the assembly resource information, the data are collected through the assembly resource type statistics module 411 to count the current resource type of a workshop, after the assembly resource type statistics module 411 counts the current resource type information, the data are transmitted to the assembly resource quantity statistics module 412, after the assembly resource quantity statistics module 412 receives the information, the information of the current assembly resource quantity of each type is collected, after the assembly resource quantity statistics module 412 collects the information of the current assembly resource quantity of each type, the data are transmitted to the assembly resource position statistics module 413.
Step three: the assembly resource position counting module 413 collects current assembly position information after receiving the information, the assembly resource position counting module 413 transmits the information to the operator configuration module 42 after collecting the current assembly position information, the operator configuration module 42 starts counting the current configuration condition and work arrangement of the personnel in the workshop after receiving the information, and the operator configuration module 42 transmits the collected data to the assembly tool counting module 43.
Step four: after receiving the information, the assembly tool position counting module 43 starts counting the use condition quantity allocation of various tools in the current workshop, after the assembly tool counting module counts and obtains the data, the assembly tool counting module 43 transmits the obtained data to the assembly position counting module 44, after the assembly position counting module 44 receives the data, the position information to be assembled is counted, after the assembly position counting module 44 completes counting the assembly position information, the assembly position counting module 44 transmits the information to the assembly type counting module 45, and after the assembly type counting module 45 completes counting the data, the data is transmitted to the assembly quantity counting module 46.
Step five: the assembling quantity counting module 46 counts the quantity of various assembling equipment currently required after receiving the information, the assembling quantity counting module 46 counts and completes the quantity of various assembling equipment currently required, the information collecting module 4 collects and transmits the collected information to the feedback module 5, the feedback module 5 feeds the information back to the dispatching center server 3 after receiving the collected information, the dispatching center server 3 transmits the information to the database 31 after receiving the collected information, and the database 31 transmits the collected information to the storage 32 for storage after receiving the collected information.
Step six: the dispatching center server 3 transmits the assembly resource information and the acquisition information to be dispatched to the data processor 6 for data matching, the data processor 6 transmits the information to the delivery path planning module 7 after receiving the information, and the delivery path planning module 7 performs optimal configuration on the path according to the assembly position information and the assembly resource position information to calculate the optimal path.
Step seven: the transportation path planning module 7 transmits the information to the transportation sequence planning module 8 after optimizing and configuring the path, and the transportation sequence planning module 8 preferentially transports the materials which are required to be assembled urgently according to the current requirement after receiving the information.
Step eight: the delivery sequence planning module 8 transmits the information to the delivery time optimizing module 9, and the delivery time optimizing module 9 plans the delivery time according to the time required by material assembly, so as to carry out time configuration management and save time.
Step nine: the delivery time optimization module 9 transmits information to the feedback module 5, the feedback module 5 feeds the information back to the dispatching center server 3 after receiving the planning information, the dispatching center server 3 transmits the information to the instruction sending module 11 after receiving the planning information, the instruction sending module 11 sends a dispatching instruction to the dispatching platform 1 according to the assembly resource information, the acquisition information and the planning information which need to be dispatched, and the dispatching is carried out according to the information displayed by the dispatching platform 1.
Step ten: after the dispatching center server 3 receives the relevant data, the monitoring module 10 can monitor the data stored in the current dispatching center server 3, and the shortage of the assembly materials can be supplemented in time according to the data.
The invention has the beneficial effects that: according to the optimization method for scheduling assembly resources of the mail-ship outfitting workshop, the optimal path can be selected by calculating the path in the delivery path planning module 7, so that the delivery cost is reduced, the delivery priority can be selected by calculating in the delivery sequence planning module 8, calculating in the delivery time optimization module 9 and data collected by the operator configuration module 42, and the assembly efficiency is improved.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides an optimizing system towards mail-carrier outfitting workshop assembly resource scheduling, including dispatch platform (1), data transmission module (2), dispatch center server (3), information acquisition module (4), feedback module (5), data processor (6), delivery path planning module (7), delivery sequence planning module (8) delivery time optimizing module (9), monitoring module (10), instruction sending module (11), database (31), accumulator (32), assembly resource information statistics module (41), operation personnel configuration module (42), assembly tool statistics module (43), assembly resource kind statistics module (411), assembly resource quantity statistics module (412), assembly resource position statistics module (413), its characterized in that: the dispatching platform (1) is connected with the data transmission module (2), the data transmission module (2) is connected with the dispatching center server (3), the dispatching center server (3) is connected with the information acquisition module (4), the information acquisition module (4) is connected with the feedback module (5), the feedback module (5) is connected with the dispatching center server (3), the dispatching center server (3) is connected with the instruction sending module (11), the instruction sending module (11) is connected with the dispatching platform (1), the dispatching center server (3) is connected with the data processor (6), the data processor (6) is connected with the delivery path planning module (7), the delivery path planning module (7) is connected with the delivery sequence planning module (8), the delivery sequence planning module (8) is connected with the delivery time optimization module (9), the delivery time optimization module (9) is connected with the feedback module (5).
2. The system for optimizing scheduling of assembly resources of a mail-carrier outfitting workshop according to claim 1, wherein the system comprises: the dispatching center server (3) comprises a database (31) and a storage (32), the database (31) is connected with the storage (32), and the dispatching center server (3) is connected with the monitoring module (10).
3. The system for optimizing scheduling of assembly resources of a mail-carrier outfitting workshop according to claim 1, wherein the system comprises: the information acquisition module (4) comprises an assembly resource information statistic module (41), an operator configuration module (42), an assembly tool statistic module (43), an assembly position statistic module (44), an assembly type statistic module (45) and an assembly quantity statistic module (46).
4. The system for optimizing scheduling of assembly resources of a mail-carrier outfitting workshop according to claim 1, wherein the system comprises: the assembly resource information statistic module (41) comprises an assembly resource type statistic module (411), an assembly resource quantity statistic module (412) and an assembly resource position statistic module (413), wherein the assembly resource type statistic module (411) is connected with the assembly resource quantity statistic module (412), and the assembly resource quantity statistic module (412) is connected with the assembly resource position statistic module (413).
5. The system of claim 3, wherein the system comprises: the assembling resource information counting module (41) is connected with the operating personnel counting module (42), the operating personnel counting module (42) is connected with the assembling tool counting module (43), the assembling tool counting module (43) is connected with the assembling position counting module (44), the assembling position counting module (44) is connected with the assembling type counting module (45), and the assembling type counting module (45) is connected with the assembling quantity counting module (46).
6. An optimization method for assembly resource scheduling of a mail-ship outfitting workshop is characterized by comprising the following steps: the method comprises the following specific steps:
the method comprises the following steps: when assembly is needed, assembly resource information needing to be scheduled is input through the scheduling platform (1), the assembly resource information needing to be scheduled enters the data transmission module (2) through the scheduling platform (1), the data transmission module (2) transmits the assembly resource information needing to be scheduled to the scheduling center server (3), the scheduling center server (3) transmits the assembly resource information needing to be scheduled to the database (31) after receiving the assembly resource information needing to be scheduled, and the database (31) transmits the assembly resource information needing to be scheduled to the storage (32) for storage after receiving the assembly resource information needing to be scheduled;
step two: the dispatching center server (3) transmits the assembly resource information to be dispatched to the information acquisition module (4), after the information acquisition module (4) receives the assembly resource information to be dispatched, the assembling resource information statistical module (41) starts to collect the data of the assembling resource information, the data are collected by an assembly resource type statistic module (411) to count the current resource type of the workshop, after the assembly resource type statistic module (411) counts the current resource type information, transmitting the data to an assembly resource quantity counting module (412), the assembly resource quantity counting module (412) receiving the information, collecting the information of the quantity of the current assembly resources of each type, and after a statistical module (412) of the quantity of the current assembly resources of each type collects the information of the quantity of the current assembly resources of each type, transmitting the data to a statistical module (413) of the positions of the assembly resources;
step three: after receiving the information, the assembly resource position counting module (413) collects current assembly position information, after collecting the current assembly position information, the assembly resource position counting module (413) transmits the information to the operator configuration module (42), after receiving the information, the operator configuration module (42) starts to count the current personnel configuration condition and work arrangement in the workshop, and the operator configuration module (42) transmits the collected data to the assembly tool counting module (43);
step four: after receiving the information, the assembling tool counting module (43) starts to count the use condition quantity allocation and the like of various tools in the current workshop, after the assembling tool counting module (43) counts and obtains the data, the assembling tool counting module (43) transmits the obtained data to the assembling position counting module (44), after the assembling position counting module (44) receives the data, the assembling position counting module (44) counts the position information to be assembled, after the assembling position counting module (44) counts the assembling position information, the assembling position counting module (44) transmits the information to the assembling type counting module (45), and after the assembling type counting module (45) counts the data, the assembling type counting module (46) transmits the data to the assembling quantity counting module;
step five: the system comprises an assembly quantity counting module (46), an information acquisition module (4), a feedback module (5), a scheduling center server (3), a database (31), a storage device (32), a feedback module (5) and a monitoring module, wherein the assembly quantity counting module (46) counts the quantity of various types of assemblies required currently after receiving information, the information acquisition module (4) collects and transmits the collected information to the feedback module (5), the feedback module (5) feeds back the collected information to the scheduling center server (3), the scheduling center server (3) transmits the collected information to the database (31), and the database (31) transmits the collected information to the storage device (32) for storage after receiving the collected information;
step six: the dispatching center server (3) transmits the assembly resource information and the acquisition information to be dispatched to the data processor (6) for data matching, the data processor (6) transmits the information to the delivery path planning module (7) after receiving the information, and the delivery path planning module (7) performs optimized configuration on the path according to the assembly position information and the assembly resource position information and calculates an optimal path;
step seven: after the delivery path planning module (7) optimizes and configures the path, the information is transmitted to the delivery sequence planning module (8), and after the delivery sequence planning module (8) receives the information, the materials which are required to be assembled urgently are preferentially transported according to the current requirement;
step eight: the delivery sequence planning module (8) transmits the information to the delivery time optimizing module (9), and the delivery time optimizing module (9) plans the delivery time according to the time required by material assembly, performs time configuration management and saves time;
step nine: the delivery time optimization module (9) transmits information to the feedback module (5), the feedback module (5) feeds the information back to the dispatching center server (3) after receiving the planning information, the dispatching center server (3) transmits the information to the instruction sending module (11) after receiving the planning information, the instruction sending module (11) sends a dispatching instruction to the dispatching platform (1) according to the assembly resource information, the acquisition information and the planning information which need to be dispatched, and the dispatching is carried out according to the information displayed by the dispatching platform (1);
step ten: after the dispatching center server (3) receives the relevant data, the data stored in the current dispatching center server (3) can be monitored through the monitoring module (10), and the shortage of assembly materials can be supplemented in time according to the data.
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| CN115809746A (en) * | 2023-02-03 | 2023-03-17 | 中远海运特种运输股份有限公司 | Pulp ship stowage method, system, equipment and medium based on full-ship automatic stowage |
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