CN114004632A - Order thermodynamic diagram construction method and equipment - Google Patents

Abstract

The method comprises the steps that a current map is displayed through stores under a user-selected geographic position and a target brand; acquiring relevant information of all target stores displayed on a current map, wherein the relevant information comprises geographical position information of the stores, order channels and distribution range information; and constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic layer. Therefore, the information of all stores under the same brand can be visually displayed in multiple layers.

Description

Order thermodynamic diagram construction method and equipment

Technical Field

The application relates to the field of computers, in particular to a method and equipment for constructing an order thermodynamic diagram.

Background

With the rapid development of technologies such as internet, big data and the like, people's social life is more and more convenient, online orders are more and more performed, and many stores receive orders from internet platforms and provide services such as catering, takeaway, delivery and the like. The management of all stores under a certain brand is only the collection management of data, and no tool is available for displaying the condition of each store in a unified and visual way. In the store expanding and site selecting process, a target customer centralized place is also urgently needed to be found, and a tool is also needed to visually present the order distribution of the brand store.

Disclosure of Invention

An object of the present application is to provide a method and a device for constructing an order thermodynamic diagram, which solve the problem of management of all stores under the same brand and the problem of visual display of store information in the prior art.

According to one aspect of the application, a method for order thermodynamic diagram construction is provided, the method comprising:

displaying a current map based on the user-selected geographic location and stores under the target brand;

acquiring relevant information of all target stores displayed on a current map, wherein the relevant information comprises geographical position information of the stores, order channels and distribution range information;

and constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic layer.

Optionally, constructing a plurality of layers on the current map based on the relevant information of all the target stores, including:

determining a polygonal area where each target store is located based on the related information of all the target stores, wherein the polygonal area is determined by corresponding distribution range information when the target stores use order channels;

determining a circular area by taking the geographical position of each target store as a center and customizing a radius;

and constructing a distribution range layer on the current map according to the polygonal area and the circular area.

Optionally, constructing a plurality of layers on the current map based on the relevant information of all the target stores, including:

and constructing a thermal map layer on the current map based on the relevant information of all the target stores and the area population number corresponding to the current map, wherein the thermal map layer comprises store thermodynamic diagrams, brand thermodynamic diagrams and area population thermodynamic diagrams.

Optionally, the multiple map layers include a custom map layer, and the constructing multiple map layers on the current map based on the relevant information of all target stores includes:

acquiring a request of a user for a custom layer of the current map, and judging whether the user has the authority of the custom layer based on the request and the account authority;

and if so, acquiring a sponsor area and a sponsor point location selected by the user on the current map, and displaying the sponsor area and the sponsor point location on the custom layer to complete the construction of the custom layer.

Optionally, constructing a plurality of layers on the current map based on the relevant information of all the target stores, including:

establishing a store card for each target store, wherein the store card comprises an input frame for inputting geographic position information and associated card information of all employees in the store;

visually displaying the store cards of each target store on the plurality of layers.

Optionally, after constructing the thermal map layer on the current map based on the relevant information of all the target stores and the number of area populations corresponding to the current map, the method includes:

and determining a valid order and an invalid order of each target store, and adjusting the distribution range on the order thermodynamic diagram based on the valid orders and the invalid orders.

Optionally, adjusting the delivery range on the order thermodynamic diagram based on the valid order and the invalid order comprises:

marking a distribution range corresponding to the effective order on the order thermodynamic diagram by using a first color, and expanding an area where the first color is located to a preset distribution range;

marking a distribution range corresponding to the invalid orders on the order thermodynamic diagram by using a second color, and removing an area where the second color is located in the distribution range when the number of the invalid orders reaches a preset threshold value.

Optionally, the method comprises:

acquiring information of sales volumes of all stores under a target brand, and sequencing the sales volumes according to the increasing sequence of the sales volumes;

and deepening and displaying the display colors of the polygonal areas corresponding to the stores according to the sales quantity sequence.

According to another aspect of the present application, there is also provided an apparatus for order thermodynamic diagram construction, the apparatus including:

display means for displaying a current map based on the user-selected geographic location and stores under the target brand;

the system comprises an acquisition device, a display device and a display device, wherein the acquisition device is used for acquiring relevant information of all target stores displayed on a current map, and the relevant information comprises geographical position information of the stores, order channels and distribution range information;

and the construction device is used for constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic diagram.

According to still another aspect of the present application, there is also provided an apparatus for order thermodynamic diagram construction, the apparatus including:

one or more processors; and

a memory storing computer readable instructions that, when executed, cause the processor to perform the operations of the method as previously described.

According to yet another aspect of the present application, there is also provided a computer readable medium having computer readable instructions stored thereon, the computer readable instructions being executable by a processor to implement the method as described above.

Compared with the prior art, the method and the system have the advantages that the current map is displayed through stores under the target brand and the geographical position selected by the user; acquiring relevant information of all target stores displayed on a current map, wherein the relevant information comprises geographical position information of the stores, order channels and distribution range information; and constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic layer. Therefore, the information of all stores under the same brand can be visually displayed in multiple layers.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 illustrates a flow diagram of a method of order thermodynamic diagram construction provided in accordance with an aspect of the present application;

FIG. 2 is a schematic diagram illustrating an store order thermodynamic diagram in an embodiment of the present application;

FIG. 3 shows a schematic diagram of a brand order thermodynamic diagram in an embodiment of the present application;

fig. 4 shows a schematic structural diagram of an order thermodynamic diagram building device provided in yet another aspect of the present application.

The same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

In a typical configuration of the present application, the terminal, the device serving the network, and the trusted party each include one or more processors (e.g., Central Processing Units (CPUs)), input/output interfaces, network interfaces, and memory.

The Memory may include volatile Memory in a computer readable medium, Random Access Memory (RAM), and/or nonvolatile Memory such as Read Only Memory (ROM) or flash Memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, Phase-Change RAM (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read-Only Memory (EEPROM), flash Memory or other Memory technology, Compact Disc Read-Only Memory (CD-ROM), Digital Versatile Disc (DVD) or other optical storage, magnetic cassette tape, magnetic tape storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.

Fig. 1 shows a flow diagram of a method of order thermodynamic diagram construction provided according to an aspect of the present application, the method comprising: step S11-step S13, wherein, in step S11, the current map is displayed based on the geographical position selected by the user and the store under the target brand; step S12, acquiring relevant information of all target stores displayed on a current map, wherein the relevant information comprises geographical position information of the stores, order channels and distribution range information; step S13, constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, where the plurality of layers include a distribution range layer and a thermodynamic diagram. Therefore, the information of all stores under the same brand can be visually displayed in multiple layers.

Specifically, in step S11, the current map is displayed based on the user-selected geographic location and stores under the target brand; here, the current map is a map that can be edited and displayed after being called from an application program (such as a highrise map or a hectogram) that can provide a map when the user locates a position, and the geographical positions of all stores under the same brand are edited into the map, and an input box that can select a position is provided, and the user selects a store, including an operation of selecting an area to which the geographical position of the store belongs, and an operation of selecting a store under the area to which the geographical position of the store belongs. The method can support two modes to locate the position of interest, the first mode is that the position can be searched, the position related to the input word can be matched according to the obtained search position of the user, when the user selects the desired position, the position can be located, the peripheral information is displayed, and the current map is displayed; the second way is to provide the user with a selection operation of selecting a store, and the user selects an interested store, directly locates the selected store, displays the surrounding information and displays the current map. For example, the store in the area of shanghai of the target brand may be selected by selecting a search address from a plurality of specific locations matched after shanghai, or by selecting all stores belonging to the shanghai area or by selecting some stores.

Specifically, in step S12, relevant information of all target stores displayed on the current map is acquired, where the relevant information includes geographic location information of the stores, order channels, and distribution range information; when the same brand is managed, the related information of all stores under the brand is acquired, and the related information includes the geographical location information, the allowed order channel information and the distribution range information of each store, wherein the order channel is an e-commerce platform for placing orders through different platforms, such as a take-out order, and may include order channels such as hungry and mei groups, the distribution range is different distribution ranges corresponding to each order channel, such as a distribution range of 5 km when store a uses hungry, a distribution range of 4.5 km when using mei groups, and a distribution range of 1 km when a store clerk goes to distribute. The order channels of the stores are also selected when the selection is made, for example, a mei qun takeaway channel, a hungry channel and a custom channel can be selected. When the selected target store and the correspondingly selected order channel are determined, acquiring the related information; when the information is obtained, an external application program interface corresponding to an order channel, such as an API interface opened by a take-out platform, may be called to obtain a distribution range and order details of each store, where the order details include latitude and longitude information of the order.

Specifically, in step S13, a plurality of layers are built on the current map based on the relevant information of all target stores, and an order thermodynamic diagram is determined according to the plurality of layers and the current map, where the plurality of layers include a distribution range layer and a thermodynamic layer. Here, when the order thermodynamic diagram is constructed, a plurality of layers may be constructed based on the current map displayed in step S11, so that the order thermodynamic diagram is determined by integrating the current map information and the display contents on the plurality of layers. The order thermodynamic diagram comprises a distribution range diagram layer and a thermodynamic diagram layer, so that information such as a distribution range, an effective order thermodynamic diagram, an invalid order thermodynamic diagram and a city population thermodynamic diagram can be displayed.

In some embodiments of the present application, in step S13, a polygonal area where each target store is located is determined based on the related information of all target stores, where the polygonal area is determined by the distribution range information corresponding to the order channel used by the target store; determining a circular area by taking the geographical position of each target store as a center and customizing a radius; and constructing a distribution range layer on the current map according to the polygonal area and the circular area. Here, the distribution range is a distribution range of a store under the current brand, for example, a distribution range of a take-out store, and may be determined according to a distribution range corresponding to an order channel, or may be customized by taking the store as a center; specifically, the distribution range layer supports switching of multiple display modes, for example, supports 3 types: a beautiful party delivery range, hungry how to deliver a range, and a circular area centered at a store is displayed. And displaying the layer after the user selects a display mode of a target store and a distribution range from the store list in the current map.

In some embodiments of the present application, in step S13, a thermodynamic layer is constructed on the current map based on the relevant information of all target stores and the number of area populations corresponding to the current map, where the thermodynamic layer includes store thermodynamic diagrams, brand thermodynamic diagrams, and area population thermodynamic diagrams. The acquired related information of the target stores is summarized, an thermodynamic diagram of the order can be generated, the thermodynamic diagram includes an effective order and an ineffective order of the selected store, the thermodynamic diagrams of the orders of all stores of the current brand, and the population quantity of the area corresponding to the current map can be counted to form a population thermodynamic diagram, such as a city population thermodynamic diagram. In displaying the thermodynamic diagrams, as shown in fig. 2, selecting a thermodynamic diagram type, such as an store order thermodynamic diagram, and then displaying the corresponding thermodynamic diagram according to the selection of the user on an order channel (i.e., an order platform) and the selection of an order date and an order type, where the order type includes a valid order and an invalid order, may be performed. A display in the brand order thermodynamic diagram may also be selected as shown in FIG. 3.

In some embodiments of the present application, the plurality of layers include a custom layer, and in step S13, a request of a user for the custom layer of the current map is obtained, and whether the user has an authority to customize the layer is determined based on the request and an account authority; and if so, acquiring a sponsor area and a sponsor point location selected by the user on the current map, and displaying the sponsor area and the sponsor point location on the custom layer to complete the construction of the custom layer. Here, use self-defined map layer can freely draw the region on the map, can be used for the shop to carry out trade circle positioning planning when expanding, for example according to the current trade circle planning scheme of brand, will be in the business of recruiting business, open business and stage in, the shop waits to be in the circular region of drawing again the trade circle of states such as recruiting business, sets for corresponding colour, forms the trade circle planning picture. The method comprises the steps that content display of multiple layers can be carried out on an order thermodynamic diagram, whether a user has the authority of adding layers is controlled according to account authority, firstly, a request that the user wants to add a new layer on the order thermodynamic diagram is obtained, for example, a request for customizing the layer is requested on a current map, whether the user has the authority is judged according to the request, if the user has the authority, a region which is customized on the order thermodynamic diagram by the user is obtained, the customized region can be a sponsor region selected by the user, the sponsor region represents that shops in the region can be subjected to sponsor, and the sponsor point is the geographic position where the shops used for conducting the sponsor are located, and the sponsor point is marked; and displaying the selected recruiting area and the marked recruiting point position on a new image layer, wherein the new image layer is still on the order thermodynamic diagram, and the order thermodynamic diagram can support the content display of a plurality of image layers, so that a recruiting map is formed, and the brand headquarters can conveniently view the recruiting area and the marked recruiting point position. And carrying out custom adding of the layer on the order thermodynamic diagram based on the account authority of the user, and custom adding of a distribution range on the custom layer. The order thermodynamic diagram supports a custom adding layer, whether a current user has the authority or not is judged according to the account authority of the user, if yes, the user is allowed to operate the custom adding layer, a custom adding distribution range can be added when the custom layer is carried out, therefore, when the custom layer is selected for displaying, a circular area is drawn for each store according to the custom adding distribution range, and the circular area drawn by the custom of each store is displayed on the order thermodynamic diagram. The mode of customizing the demarcated area can be added quickly: drawing a circular area according to the circle center position and the radius input by a user, and manually dragging and drawing: and acquiring the click dragging operation of the user in the map according to the new area clicked by the user, and drawing a circular area.

In some embodiments of the present application, relevant information of all stores under a target brand is obtained, where the relevant information includes geographic location information, order channels, and distribution range information; subsequently, determining a target store and a used order channel based on the selection operation of the user on the store; thereby constructing an order thermodynamic diagram based on the relevant information of the target store.

In some embodiments of the present application, in step S13, a store card is established for each target store, wherein the store card includes an input box for inputting geographic location information and associated card information of all employees at the store; and visually displaying the store cards of each target store on a plurality of layers. When store management is performed, store cards can be established for each target store, the store cards are visually displayed on a plurality of layers of an order thermodynamic diagram, the store cards comprise an input frame for inputting geographic position information and associated card information of all employees in the store, the geographic position of the store can be input on the store cards, so that the store cards of the store are initially established, and then the employee card information, including names, titles and other information of employees in the store, is established under the store cards, so that the store cards are associated; after the store cards are displayed on the order thermodynamic diagram, a user can click and check the card information of each store and the related information of all staff in the store; it is more convenient to manage stores.

In some embodiments of the present application, valid orders and invalid orders for each target store are determined, and a delivery range on the order thermodynamic diagram is adjusted based on the valid orders and the invalid orders. The distribution range on the order thermodynamic diagram can be optimized according to the used diagram layer, the distribution range on the distribution range diagram layer is optimized, and an effective order and an invalid order under each target store can be determined according to order information acquired from an external application program interface of an order channel, wherein the invalid order refers to an order generated by the conditions of returning or overtime payment; and optimizing the distribution range on the order thermodynamic diagram according to the quantity of all valid orders and invalid orders placed in each store. Specifically, a distribution range corresponding to the effective order is marked by using a first color on the order thermodynamic diagram, and an area where the first color is located is expanded to a preset distribution range; marking a distribution range corresponding to the invalid orders on the order thermodynamic diagram by using a second color, and removing an area where the second color is located in the distribution range when the number of the invalid orders reaches a preset threshold value. Here, on the order thermodynamic diagram, the delivery range of each store is visually displayed, the delivery range is marked by using the determined valid orders and invalid orders, the area of the delivery range where a valid order is located may be marked by using a first color, for example, red to mark a polygonal area, the order in the polygonal area is a valid order, the area of the delivery range where an invalid order is located may be marked by using a second color, for example, green to mark a polygonal area, when the number of invalid orders in the green polygonal area reaches a preset threshold, it is described that the delivery range at this time is unreasonable, for example, the delivery time may be long due to too long distance, the user cancels the order, and therefore the delivery range needs to be adjusted, the delivery position where an invalid order is located may be eliminated, and the area where an invalid order is located is narrowed, the green area in the distribution range on the thermodynamic diagram can be removed, and the distribution range can be narrowed to the range of valid orders. According to the area marked by the first color where the valid order is located, the surrounding distribution points can be expanded, some users may exist around the area, more users are mined, the distribution range can be further expanded appropriately to obtain a new distribution range, and the new distribution range is displayed on the order thermodynamic diagram.

In some scenario embodiments of the present application, a distribution range layer and a population thermodynamic diagram in the thermodynamic layer may be used to optimize the distribution range, specifically, store positions, the distribution range and a city population thermodynamic diagram are visually presented, and an area with a relatively concentrated population at an edge of the distribution range of a certain store is determined, so that the distribution range of the store covers the population concentration, and more traffic is obtained. The distribution range can be combined with thermodynamic diagrams of valid orders and invalid orders of the stores to optimize the distribution range, specifically, store positions, the distribution range and store order thermodynamic diagrams are visually presented, when the number of valid orders at the edge of the distribution range of a store is small and the number of invalid orders is large, the invalid orders can be analyzed, for example, whether the invalid orders are invalid orders caused by long distribution distance or other distribution problems or not can be reduced, and therefore the distribution range of the stores can be reduced, and the number of the invalid orders is reduced.

In some embodiments of the present application, the method comprises: acquiring information of sales volumes of all stores under a target brand, and sequencing the sales volumes according to the increasing sequence of the sales volumes; and deepening and displaying the display colors of the polygonal areas corresponding to the stores according to the sales quantity sequence. The sales volume information of the stores can be visually displayed on the order thermodynamic diagram, when the order thermodynamic diagram is constructed, the sales volume information of all stores under the target brand can be obtained, the stores are sorted in an increasing mode according to the sales volumes to obtain sales volume sorting, and when the order thermodynamic diagram is constructed according to the related information of the stores and the sales volume sorting, the colors displayed in the polygonal areas corresponding to the stores on the thermodynamic diagram are darker as the sales volumes are higher, so that the sales condition of each store can be visually seen according to the degree of the displayed colors.

In addition, a computer readable medium is provided, on which computer readable instructions are stored, and the computer readable instructions are executable by a processor to implement the aforementioned method for order thermodynamic diagram construction.

Corresponding to the method described above, the present application also provides a terminal, which includes modules or units capable of executing the method steps described in fig. 1, fig. 2, fig. 3, or various embodiments, and these modules or units may be implemented by hardware, software, or a combination of hardware and software, and this application is not limited thereto. For example, in an embodiment of the present application, there is also provided an apparatus for order thermodynamic diagram construction, the apparatus including:

one or more processors; and

a memory storing computer readable instructions that, when executed, cause the processor to perform the operations of the method as previously described.

For example, the computer readable instructions, when executed, cause the one or more processors to:

displaying a current map based on the user-selected geographic location and stores under the target brand;

acquiring relevant information of all target stores displayed on a current map, wherein the relevant information comprises geographical position information of the stores, order channels and distribution range information;

and constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic layer.

Fig. 4 shows a schematic structural diagram of an order thermodynamic diagram building device provided in yet another aspect of the present application, where the device includes: the display device 11 is used for displaying a current map based on a geographical position selected by a user and stores under a target brand; the acquiring device 12 is configured to acquire relevant information of all target stores displayed on a current map, where the relevant information includes geographic location information of the stores, an order channel, and distribution range information; the constructing device 13 is configured to construct a plurality of layers on the current map based on the relevant information of all the target stores, and determine an order thermodynamic diagram according to the plurality of layers and the current map, where the plurality of layers include a distribution range layer and a thermodynamic diagram.

It should be noted that the content executed by the display device 11, the obtaining device 12 and the constructing device 13 is the same as or corresponding to the content in the above steps S11, S12 and S13, and for brevity, the description is omitted here.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

It should be noted that the present application may be implemented in software and/or a combination of software and hardware, for example, implemented using Application Specific Integrated Circuits (ASICs), general purpose computers or any other similar hardware devices. In one embodiment, the software programs of the present application may be executed by a processor to implement the steps or functions described above. Likewise, the software programs (including associated data structures) of the present application may be stored in a computer readable recording medium, such as RAM memory, magnetic or optical drive or diskette and the like. Additionally, some of the steps or functions of the present application may be implemented in hardware, for example, as circuitry that cooperates with the processor to perform various steps or functions.

In addition, some of the present application may be implemented as a computer program product, such as computer program instructions, which when executed by a computer, may invoke or provide methods and/or techniques in accordance with the present application through the operation of the computer. Program instructions which invoke the methods of the present application may be stored on a fixed or removable recording medium and/or transmitted via a data stream on a broadcast or other signal-bearing medium and/or stored within a working memory of a computer device operating in accordance with the program instructions. An embodiment according to the present application comprises an apparatus comprising a memory for storing computer program instructions and a processor for executing the program instructions, wherein the computer program instructions, when executed by the processor, trigger the apparatus to perform a method and/or a solution according to the aforementioned embodiments of the present application.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims (11)

1. A method of order thermodynamic diagram construction, the method comprising:

displaying a current map based on the user-selected geographic location and stores under the target brand;

acquiring relevant information of all target stores displayed on a current map, wherein the relevant information comprises geographical position information of the stores, order channels and distribution range information;

and constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic layer.

2. The method of claim 1, wherein constructing a plurality of layers on the current map based on the relevant information of all target stores comprises:

determining a polygonal area where each target store is located based on the related information of all the target stores, wherein the polygonal area is determined by corresponding distribution range information when the target stores use order channels;

determining a circular area by taking the geographical position of each target store as a center and customizing a radius;

and constructing a distribution range layer on the current map according to the polygonal area and the circular area.

3. The method of claim 1, wherein constructing a plurality of layers on the current map based on the relevant information of all target stores comprises:

and constructing a thermal map layer on the current map based on the relevant information of all the target stores and the area population number corresponding to the current map, wherein the thermal map layer comprises store thermodynamic diagrams, brand thermodynamic diagrams and area population thermodynamic diagrams.

4. The method of claim 1, wherein the plurality of layers comprise custom layers, and wherein constructing the plurality of layers on the current map based on the relevant information of all of the target stores comprises:

acquiring a request of a user for a custom layer of the current map, and judging whether the user has the authority of the custom layer based on the request and the account authority;

and if so, acquiring a sponsor area and a sponsor point location selected by the user on the current map, and displaying the sponsor area and the sponsor point location on the custom layer to complete the construction of the custom layer.

5. The method of claim 1, wherein constructing a plurality of layers on the current map based on the relevant information of all target stores comprises:

establishing a store card for each target store, wherein the store card comprises an input frame for inputting geographic position information and associated card information of all employees in the store;

visually displaying the store cards of each target store on the plurality of layers.

6. The method according to claim 1, wherein after constructing the thermal map layer on the current map based on the relevant information of all the target stores and the area population number corresponding to the current map, the method comprises:

and determining a valid order and an invalid order of each target store, and adjusting the distribution range on the order thermodynamic diagram based on the valid orders and the invalid orders.

7. The method of claim 6, wherein adjusting a delivery range on the order thermodynamic diagram based on the valid order and the invalid order comprises:

marking a distribution range corresponding to the effective order on the order thermodynamic diagram by using a first color, and expanding an area where the first color is located to a preset distribution range;

marking a distribution range corresponding to the invalid orders on the order thermodynamic diagram by using a second color, and removing an area where the second color is located in the distribution range when the number of the invalid orders reaches a preset threshold value.

8. The method according to claim 1, characterized in that it comprises:

acquiring information of sales volumes of all stores under a target brand, and sequencing the sales volumes according to the increasing sequence of the sales volumes;

and deepening and displaying the display colors of the polygonal areas corresponding to the stores according to the sales quantity sequence.

9. An apparatus for order thermodynamic diagram construction, the apparatus comprising:

display means for displaying a current map based on the user-selected geographic location and stores under the target brand;

the system comprises an acquisition device, a display device and a display device, wherein the acquisition device is used for acquiring relevant information of all target stores displayed on a current map, and the relevant information comprises geographical position information of the stores, order channels and distribution range information;

and the construction device is used for constructing a plurality of layers on the current map based on the relevant information of all the target stores, and determining an order thermodynamic diagram according to the plurality of layers and the current map, wherein the plurality of layers comprise a distribution range layer and a thermodynamic diagram.

10. An apparatus for order thermodynamic diagram construction, the apparatus comprising:

one or more processors; and

a memory storing computer readable instructions that, when executed, cause the processor to perform the operations of the method of any of claims 1 to 8.

11. A computer readable medium having computer readable instructions stored thereon which are executable by a processor to implement the method of any one of claims 1 to 8.

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