CN114357551A - Guarantee decision module system and implementation method thereof - Google Patents

Abstract

The invention discloses a guarantee decision module system and an implementation method thereof. The guarantee decision module system and the realization method thereof comprise the following steps: the user with the authority inputs and logs in a user name and a password through a login interface; selecting an interface; step three: selecting a reserve layout scheme design; step four: storage capacity expansion selection; step five: selecting new storage; step six: and (4) stock supply calculation selection, namely selecting stock supply calculation on a selection interface, selecting and configuring stock supply strategy model parameters, setting optimization parameters, and setting basic supply demand and demand point deployment information. Performing reserve supply strategy simulation calculation, and displaying a reserve supply strategy result in the Gis system after the simulation is completed; step seven: the export reporting module may export a reserve layout schema and a reserve supply schema and generate a Word document.

Description

Guarantee decision module system and implementation method thereof

Technical Field

The invention relates to the technical field of material management, in particular to a guarantee decision module system and an implementation method thereof.

Background

The supplies are the important basis for carrying on the field training activity, also are the important guarantee that carries on the relief of disaster. The rapid, safe, accurate and timely delivery and transportation of materials is a necessary condition for material guarantee, is a powerful link for realizing the material guarantee, and aims to meet the guarantee requirement of equipment material storage of various actions, so that the material consistency in quantity, time and space is realized, and the continuity of supply is ensured.

The layout of the material supply points must meet the requirements of providing timely, proper and applicable materials, rationalizing the material guarantee and striving to complete the material guarantee task in the most economic and safe mode. The reason why the short supply boards appear at present in the past is that the points are frequently built and are excessively dispersed when the emergency and quick supply are looked at in the past. With the new period, the materials face various challenges such as profound changes in styles, heavy joint guarantee task and the like. Therefore, it is important to study the overall layout of the material supply.

In order to effectively, accurately, economically and safely provide logistics material guarantee, planning of material distribution routes and material storage points is a key technology. In the processes of selecting a transportation scheme and planning a transportation route, different targets put forward different requirements for path planning, and therefore a guarantee decision module system is provided for optimizing the storage layout.

Disclosure of Invention

The invention aims to provide a guarantee decision module system and an implementation method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a guarantee decision module system comprises a software system, wherein the software system is designed by a layered structure, the software system comprises a UI display layer, a business logic layer, an algorithm module and a data persistence layer, the UI display layer comprises a user interaction module and a Gis display module, the user interaction module is used for parameter configuration of the business logic layer, algorithm selection of the algorithm module and report export of the data persistence layer, the Gis display module is used for displaying storage layout position display, supply strategy result display and vehicle transportation material simulation route display, the business logic layer is used for completing calling logic of algorithms, driving logic of interface display data and processing various storage layout optimization algorithm interface business logics, the algorithm module comprises a storage layout model, a storage layout optimization algorithm, a supply strategy model and a supply strategy optimization algorithm, the data persistence layer is composed of a database, the data persistence layer comprises software system configuration data, algorithm parameter data, network path data, material information data, warehousing information data, demand point information data and basic data.

As a further scheme of the invention: the software system also comprises a reserve layout calculation module, a supply strategy calculation module, a report output module, a Gis display module and a user management module, wherein the reserve layout calculation module is used for providing a calculation input interface of a reserve layout for a user and calculating a reserve layout demand input by the user, the supply strategy calculation module is used for providing a calculation input interface of a supply strategy for the user and optimizing and planning a path of a supply distribution demand input by the user, the report output module is used for providing a report output function for the reserve layout calculation and the supply strategy calculation performed by the user, the Gis display module is used for displaying road network, supply point position, demand point position and planned path information of an area by using a satellite map as background information and is simultaneously used for visually performing overall situation separation and calculation result analysis by the user, and the user management module is used for providing a user login function and providing management for the user, the user management mainly comprises adding and deleting users.

As a still further scheme of the invention: the software system also comprises a login interface, a selection interface, a warehousing layout optimization selection interface, a warehousing capacity expansion interface, a newly-built warehousing interface, a supply strategy main interface and a scheme management interface, wherein the login interface comprises a user name input box, a password input box, a determination selection interface and an exit selection interface, the selection interface comprises a reserve layout scheme design selection and a reserve supply calculation selection, the warehousing layout optimization selection interface comprises a warehousing capacity expansion selection interface and a newly-built warehousing selection interface, the warehousing capacity expansion interface comprises an exit selection interface, an existing warehousing point list and an optimization analysis selection interface, the existing warehousing list comprises a sequence number, a warehouse name, a type, a quantity and a unit cost, the selection frame is arranged below the sequence number, the input frame is arranged below the unit cost, the newly-built warehousing interface comprises an exit selection interface, an alternative to-be-built warehousing point list, a maximum newly-built warehousing quantity and an optimization analysis selection interface, the alternative to-be-built storage point list comprises selection, warehouse names, types, quantity and unit cost, a selection frame is arranged below the selection frame, an input frame is arranged below the unit cost, an input frame is arranged on the rear side of the maximum to-be-built storage quantity, a supply strategy main interface comprises closing selection, supply strategy analysis, storage layout optimization, a calculation report, a supply cushion list, a demand point list, a risk area list, model selection, path planning selection and allocation distribution selection, setting selection is arranged on the rear side of the supply point list, the supply point list comprises a sequence number, a warehouse name, a type and a quantity, the demand point list comprises a sequence number, a demand point name, a type and a demand quantity, setting selection is arranged on the rear side of the risk area list, the risk area list comprises a sequence number, a risk area and a risk grade, the model selection comprises the lowest vehicle cost, the lowest loss and the highest complete passing probability, the scheme management interface corresponds to a calculation report of the main interface of the supply strategy, and comprises transfer distribution report time, node total number, supply point position information, supply point capacity information, demand point position information, demand point demand information, time consumption, a planning scheme and report export selection.

A method for realizing a guarantee decision module system comprises the following steps:

the method comprises the following steps: the user with the authority inputs and logs in a user name and a password through a login interface;

selecting an interface;

step three: selecting a reserve layout scheme design, clicking the reserve layout scheme design of a selection interface, and entering a storage layout optimization selection interface;

step four: and (4) warehouse capacity expansion selection, namely clicking the warehouse capacity expansion on a warehouse layout optimization selection interface, entering a supply point list for capacity expansion setting, and enabling a user to select a warehouse point to be subjected to capacity expansion from the list and set different unit expansion costs. And after the setting is finished, click optimization analysis is carried out to carry out warehouse capacity expansion calculation. When a user needs to switch to a page of 'newly built warehousing', the page can be returned through a return button at the upper part;

step five: and newly building a warehouse selection, clicking the newly built warehouse on the warehouse layout optimization selection interface, selecting the position of the warehouse to be newly built in the alternative list, setting the unit cost of newly building the warehouse, and finally calculating through an optimization analysis button. If the user wants to switch the page, the page can be returned by the return button on the upper part;

step six: and (4) stock supply calculation selection, namely selecting stock supply calculation on a selection interface, selecting and configuring stock supply strategy model parameters, setting optimization parameters, and setting basic supply demand and demand point deployment information. Performing reserve supply strategy simulation calculation, and displaying a reserve supply strategy result in the Gis system after the simulation is completed;

step seven: the export reporting module may export a reserve layout schema and a reserve supply schema and generate a Word document.

As a still further scheme of the invention: the software GIS system is developed by adopting a Google map, the Google map has a satellite map display mode, can better and accurately display the landform information, is particularly friendly to the support of satellite maps in some remote areas, can display the coordinates of demand points and supply points of the supply guarantee system based on Gis, and can display the running route of a guarantee vehicle. The GIS system can store buffered GIS data and can support an off-line map function; the point selection, the distance measurement and the track drawing in the GIS system are more accurate and visual, the data can support eight decimal points, and the system function requirements are greatly met.

Compared with the prior art, the invention has the beneficial effects that:

the guarantee decision module system is integrally designed in a layered mode, a UI display layer, a business logic layer, an algorithm module and a data persistence layer are used for constructing, functions are realized by a storage layout calculation module, a supply strategy calculation module, a report output module, a Gis display module and a user management module, and the guarantee decision and the transportation planning of materials can be conveniently carried out by matching with an operation interface.

Drawings

FIG. 1 is a software overview framework diagram of a safeguard decision module system and its implementation method.

FIG. 2 is a functional block diagram of a safeguard decision module system and a method for implementing the same.

FIG. 3 is a diagram of a security decision module system and a login interface in an implementation method thereof.

FIG. 4 is a diagram of a warehouse layout optimization selection interface in a security decision module system and its implementation.

FIG. 5 is a diagram of a storage capacity expansion interface in a security decision module system and an implementation method thereof.

FIG. 6 is a diagram of a new warehousing interface in a security decision module system and its implementation method.

FIG. 7 is a diagram of a provisioning policy main interface in a safeguard decision module system and method for implementing the same.

FIG. 8 is a diagram of a deposit layout optimization in a safeguard decision module system and method for implementing the same.

FIG. 9 is a diagram of a solution management interface in a safeguard decision module system and an implementation method thereof.

FIG. 10 is a Gis display diagram of a security decision module system and its implementation method.

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 to 10, in an embodiment of the present invention, a guarantee decision module system includes a software system, the software system is designed by a layered structure, the software system includes a UI display layer, a business logic layer, an algorithm module, and a data persistence layer, the UI display layer includes a user interaction module and a Gis display module, the user interaction module is used for parameter configuration of the business logic layer, algorithm selection of the algorithm module, and report derivation of the data persistence layer, the Gis display module is used for displaying a storage layout position display, a supply policy result display, and a vehicle transportation material simulation route display, the business logic layer is used for completing a calling logic of an algorithm, a driving logic of interface display data, and processing various storage layout optimization algorithm interface business logics, the algorithm module includes a storage layout optimization algorithm, a supply policy model, and a supply policy optimization algorithm, the data persistence layer is composed of a database and comprises software system configuration data, algorithm parameter data, network path data, material information data, warehousing information data, demand point information data and basic data.

The software system also comprises a reserve layout calculation module, a supply strategy calculation module, a report output module, a Gis display module and a user management module, wherein the reserve layout calculation module is used for providing a calculation input interface of a reserve layout for a user and calculating a reserve layout demand input by the user, the supply strategy calculation module is used for providing a calculation input interface of a supply strategy for the user and optimizing and planning a path of a supply distribution demand input by the user, the report output module is used for providing a report output function for the reserve layout calculation and the supply strategy calculation performed by the user, the Gis display module is used for displaying road network, supply point position, demand point position and planned path information of an area by taking a satellite map as background information and is simultaneously used for visually performing overall situation separation and calculation result analysis by the user, and the user management module is used for providing a user login function and providing management for the user, the user management mainly comprises adding and deleting users.

The software system also comprises a login interface, a selection interface, a warehousing layout optimization selection interface, a warehousing capacity expansion interface, a newly-built warehousing interface, a supply strategy main interface and a scheme management interface, wherein the login interface comprises a user name input box, a password input box, a determination selection and an exit selection, the selection interface comprises a stock layout scheme design selection and a stock supply calculation selection, the warehousing layout optimization selection interface comprises a warehousing capacity expansion selection and a newly-built warehousing selection, the warehousing capacity expansion interface comprises an exit selection, an existing warehousing point list and an optimization analysis selection, the existing warehousing list comprises a sequence number, a warehouse name, a type, a quantity and a unit cost, the selection box is arranged below the sequence number, the input box is arranged below the unit cost, the newly-built warehousing interface comprises an exit selection, a candidate to-be-built warehousing point list, a maximum newly-built warehousing quantity and an optimization analysis selection, the alternative to-be-built storage point list comprises selection, warehouse names, types, quantity and unit cost, a selection frame is arranged below the selection frame, an input frame is arranged below the unit cost, an input frame is arranged on the rear side of the maximum to-be-built storage quantity, a supply strategy main interface comprises closing selection, supply strategy analysis, storage layout optimization, a calculation report, a supply cushion list, a demand point list, a risk area list, model selection, path planning selection and allocation distribution selection, setting selection is arranged on the rear side of the supply point list, the supply point list comprises a sequence number, a warehouse name, a type and a quantity, the demand point list comprises a sequence number, a demand point name, a type and a demand quantity, setting selection is arranged on the rear side of the risk area list, the risk area list comprises a sequence number, a risk area and a risk grade, the model selection comprises the lowest vehicle cost, the lowest loss and the highest complete passing probability, the scheme management interface corresponds to a calculation report of the main interface of the supply strategy, and comprises transfer distribution report time, node total number, supply point position information, supply point capacity information, demand point position information, demand point demand information, time consumption, a planning scheme and report export selection.

A method for realizing a guarantee decision module system comprises the following steps:

the method comprises the following steps: the user with the authority inputs and logs in a user name and a password through a login interface;

selecting an interface;

step three: selecting a reserve layout scheme design, clicking the reserve layout scheme design of a selection interface, and entering a storage layout optimization selection interface;

step four: and (4) warehouse capacity expansion selection, namely clicking the warehouse capacity expansion on a warehouse layout optimization selection interface, entering a supply point list for capacity expansion setting, and enabling a user to select a warehouse point to be subjected to capacity expansion from the list and set different unit expansion costs. And after the setting is finished, click optimization analysis is carried out to carry out warehouse capacity expansion calculation. When a user needs to switch to a page of 'newly built warehousing', the page can be returned through a return button at the upper part;

step five: and newly building a warehouse selection, clicking the newly built warehouse on the warehouse layout optimization selection interface, selecting the position of the warehouse to be newly built in the alternative list, setting the unit cost of newly building the warehouse, and finally calculating through an optimization analysis button. If the user wants to switch the page, the page can be returned by the return button on the upper part;

step six: and (4) stock supply calculation selection, namely selecting stock supply calculation on a selection interface, selecting and configuring stock supply strategy model parameters, setting optimization parameters, and setting basic supply demand and demand point deployment information. Performing reserve supply strategy simulation calculation, and displaying a reserve supply strategy result in the Gis system after the simulation is completed;

step seven: the export reporting module may export a reserve layout schema and a reserve supply schema and generate a Word document.

A Gis system outputs an optimal supply strategy and a storage layout scheme through an optimization model and an optimization algorithm, a GIS system is adopted to visually output and display information such as supply routes, storage layouts and the like before and after optimization, a decision layer can grasp related information and schemes on an electronic map more macroscopically and directly, and information visualization degree and decision efficiency are improved. The GIS system can store buffered GIS data and can support an off-line map function; the point selection, the distance measurement and the track drawing in the GIS system are more accurate and visual, the data can support eight decimal points, and the system function requirements are greatly met.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (5)

1. A safeguard decision module system, comprising a software system, characterized in that: the software system is designed by a layered structure, the software system comprises a UI display layer, a business logic layer, an algorithm module and a data persistence layer, the UI display layer comprises a user interaction module and a Gis display module, the user interaction module is used for parameter configuration of the business logic layer, algorithm selection of the algorithm module and statement export of the data persistence layer, the Gis display module is used for displaying storage layout position display, supply strategy result display and vehicle transportation material simulation route display, the business logic layer is used for completing calling logic of the algorithm, driving logic of interface display data and processing various storage layout optimization algorithm interface business logics, the algorithm module comprises a storage layout model, a storage layout optimization algorithm, a supply strategy model and a supply strategy optimization algorithm, the data persistence layer is composed of a database, and the data persistence layer comprises software system configuration data, algorithm parameter data, data, Network path data, material information data, warehousing information data, demand point information data and basic data.

2. The safety decision module system of claim 1, wherein: the software system also comprises a reserve layout calculation module, a supply strategy calculation module, a report output module, a Gis display module and a user management module, wherein the reserve layout calculation module is used for providing a calculation input interface of a reserve layout for a user and calculating a reserve layout demand input by the user, the supply strategy calculation module is used for providing a calculation input interface of a supply strategy for the user and optimizing and planning a path of a supply distribution demand input by the user, the report output module is used for providing a report output function for the reserve layout calculation and the supply strategy calculation performed by the user, the Gis display module is used for displaying road network, supply point position, demand point position and planned path information of an area by using a satellite map as background information and is simultaneously used for visually performing overall situation separation and calculation result analysis by the user, and the user management module is used for providing a user login function and providing management for the user, the user management mainly comprises adding and deleting users.

3. The safety decision module system of claim 1, wherein: the software system also comprises a login interface, a selection interface, a warehousing layout optimization selection interface, a warehousing capacity expansion interface, a newly-built warehousing interface, a supply strategy main interface and a scheme management interface, wherein the login interface comprises a user name input box, a password input box, a determination selection interface and an exit selection interface, the selection interface comprises a reserve layout scheme design selection and a reserve supply calculation selection, the warehousing layout optimization selection interface comprises a warehousing capacity expansion selection interface and a newly-built warehousing selection interface, the warehousing capacity expansion interface comprises an exit selection interface, an existing warehousing point list and an optimization analysis selection interface, the existing warehousing list comprises a sequence number, a warehouse name, a type, a quantity and a unit cost, the selection frame is arranged below the sequence number, the input frame is arranged below the unit cost, the newly-built warehousing interface comprises an exit selection interface, an alternative to-be-built warehousing point list, a maximum newly-built warehousing quantity and an optimization analysis selection interface, the alternative to-be-built storage point list comprises selection, warehouse names, types, quantity and unit cost, a selection frame is arranged below the selection frame, an input frame is arranged below the unit cost, an input frame is arranged on the rear side of the maximum to-be-built storage quantity, a supply strategy main interface comprises closing selection, supply strategy analysis, storage layout optimization, a calculation report, a supply cushion list, a demand point list, a risk area list, model selection, path planning selection and allocation distribution selection, setting selection is arranged on the rear side of the supply point list, the supply point list comprises a sequence number, a warehouse name, a type and a quantity, the demand point list comprises a sequence number, a demand point name, a type and a demand quantity, setting selection is arranged on the rear side of the risk area list, the risk area list comprises a sequence number, a risk area and a risk grade, the model selection comprises the lowest vehicle cost, the lowest loss and the highest complete passing probability, the scheme management interface corresponds to a calculation report of the main interface of the supply strategy, and comprises transfer distribution report time, node total number, supply point position information, supply point capacity information, demand point position information, demand point demand information, time consumption, a planning scheme and report export selection.

4. A method for realizing a guarantee decision module system is characterized in that: the method comprises the following steps:

the method comprises the following steps: the user with the authority inputs and logs in a user name and a password through a login interface;

selecting an interface;

step three: selecting a reserve layout scheme design, clicking the reserve layout scheme design of a selection interface, and entering a storage layout optimization selection interface;

step four: and (4) warehouse capacity expansion selection, namely clicking the warehouse capacity expansion on a warehouse layout optimization selection interface, entering a supply point list for capacity expansion setting, and enabling a user to select a warehouse point to be subjected to capacity expansion from the list and set different unit expansion costs. And after the setting is finished, click optimization analysis is carried out to carry out warehouse capacity expansion calculation. When a user needs to switch to a page of 'newly built warehousing', the page can be returned through a return button at the upper part;

step five: and newly building a warehouse selection, clicking the newly built warehouse on the warehouse layout optimization selection interface, selecting the position of the warehouse to be newly built in the alternative list, setting the unit cost of newly building the warehouse, and finally calculating through an optimization analysis button. If the user wants to switch the page, the page can be returned by the return button on the upper part;

step six: and (4) stock supply calculation selection, namely selecting stock supply calculation on a selection interface, selecting and configuring stock supply strategy model parameters, setting optimization parameters, and setting basic supply demand and demand point deployment information. Performing reserve supply strategy simulation calculation, and displaying a reserve supply strategy result in the Gis system after the simulation is completed;

step seven: the export reporting module may export a reserve layout schema and a reserve supply schema and generate a Word document.

5. The system implementation method of a safeguard decision module according to claim 4, wherein: the software GIS system is developed by adopting a Google map, the Google map has a satellite map display mode, can better and accurately display the landform information, is particularly friendly to the support of satellite maps in some remote areas, can display the coordinates of demand points and supply points of the supply guarantee system based on Gis, and can display the running route of a guarantee vehicle. The GIS system can store buffered GIS data and can support an off-line map function; the point selection, the distance measurement and the track drawing in the GIS system are more accurate and visual, the data can support eight decimal points, and the system function requirements are greatly met.

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