CN111737376B - Visualized information comparison method and device, electronic equipment and storage medium - Google Patents

Abstract

The embodiment of the application provides a visualized information comparison method, a visualized information comparison device, electronic equipment and a storage medium. The method comprises the following steps: determining two areas to be compared, wherein the areas to be compared comprise a plurality of sub-areas; acquiring region data of each sub-region covered by each region to be compared; based on the position of each subarea on the electronic map, the area data of each subarea corresponding to the two areas to be compared are displayed on the corresponding position on the electronic map in a first display mode. When the region data of the two regions to be compared are compared, the region data and the geographic position are combined and displayed, and compared with a pure chart form, the data difference between the regions to be compared can be found more intuitively.

Description

Visualized information comparison method and device, electronic equipment and storage medium

Technical Field

The application relates to the technical field of data processing, in particular to a visualized information comparison method, a visualized information comparison device, electronic equipment and a storage medium.

Background

In practical applications, to know the difference situation of different areas, it is generally necessary to compare the data of different areas to determine the traffic overlap ratio between different areas, which areas are dominant in which aspects, and which areas are disadvantageous in which aspects.

In the prior art, the data is compared by using a pure list or chart, such as comparing the data between different areas in the form of thermodynamic diagrams, cellular thermodynamic diagrams or grid thermodynamic diagrams. However, when the data between different areas are compared in a list and chart mode, the data can only be reflected, the comparison result is single, and the visualization effect is poor.

Disclosure of Invention

The present application aims to solve at least one of the above technical drawbacks, especially the technical drawbacks of the prior art with poor visualization.

In one aspect, an embodiment of the present application provides a visual information comparison method, where the method includes:

determining two areas to be compared, wherein the areas to be compared comprise a plurality of sub-areas;

acquiring region data of each sub-region covered by each region to be compared;

based on the position of each subarea on the electronic map, the area data of each subarea corresponding to the two areas to be compared are displayed on the corresponding position on the electronic map in a first display mode.

Optionally, determining two regions to be aligned may include:

determining two objects to be compared and a comparison range;

and determining two areas to be compared according to the central position and the comparison range of each object to be compared.

Optionally, the first display mode is a data representation display mode, the area data of each sub-area corresponding to the two areas to be compared are displayed on the corresponding position on the electronic map by adopting the first display mode, and the method includes:

determining the display result of a data representation display mode of the region data of each sub-region corresponding to the two regions to be compared;

and displaying the display results corresponding to the subareas on the corresponding positions on the electronic map based on the positions of the subareas on the electronic map.

Optionally, the method may further include:

receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode;

and displaying the region data of the sub-region corresponding to the sub-region viewing request to the user.

Optionally, if the sub-areas covered by the two to-be-compared areas include the same sub-area, displaying the area data of each sub-area corresponding to the two to-be-compared areas on the corresponding position on the electronic map by adopting a first display mode, where the method includes:

obtaining the comparison result of the region data of the two regions to be compared in the same sub-regions;

based on the positions of the same subareas on the electronic map, the comparison results corresponding to the same subareas are displayed at the corresponding positions on the electronic map in a first display mode.

Optionally, the first display mode is a data representation display mode, and the comparison results corresponding to the same sub-areas are displayed at corresponding positions on the electronic map by adopting the first display mode, including:

determining the display result of the same sub-regions corresponding to the data representation display mode according to the comparison result of the same sub-regions;

and displaying the display result of the same subareas corresponding to the data representation display mode on the corresponding position of the electronic map based on the position of the same subareas on the electronic map.

Optionally, the data representation display mode includes color display, and determining a display result of the data representation display mode of the region data of each sub-region corresponding to the two regions to be compared includes:

determining the display color of the region data corresponding to each sub-region corresponding to the two regions to be compared in a data representation display mode;

if the subareas covered by the two areas to be compared contain the same subareas, determining that the same subareas correspond to the display colors of the data representation display mode according to the comparison results corresponding to the same subareas.

Optionally, the method may further include:

Receiving a specified sub-region viewing request, wherein the specified region viewing request comprises a region type identifier;

determining a target subarea aimed by the appointed subarea viewing request according to the area type identifier;

and displaying the target subarea according to a first preset mode.

Optionally, displaying the target sub-region according to a first preset mode includes:

other sub-areas than the target sub-area are hidden.

Optionally, the method may further include:

and comparing and displaying the region data of the sub-regions corresponding to the regions to be compared by adopting a second display mode for each sub-region corresponding to the two regions to be compared.

Optionally, the second display mode includes at least one of a bar graph, a chart, and a fan graph.

Optionally, the method may further include:

when receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode, displaying a display result of the sub-region corresponding to the region viewing request corresponding to the second display mode according to a second preset mode.

On the other hand, the embodiment of the application provides a visualized information comparison device, which can comprise:

the to-be-compared region determining module is used for determining two to-be-compared regions, wherein each to-be-compared region comprises a plurality of sub-regions;

The regional data acquisition module is used for acquiring regional data of each subregion covered by each region to be compared;

and the region data display module is used for displaying the region data of the sub-regions corresponding to the two regions to be compared on the corresponding position of the electronic map in a first display mode based on the position of the sub-regions on the electronic map.

Optionally, the to-be-aligned region determining module is configured to:

determining two objects to be compared and a comparison range;

and determining two areas to be compared according to the central position and the comparison range of each object to be compared.

Optionally, the first display mode is a data representation display mode, and the area data display module is used for:

determining the display result of a data representation display mode of the region data of each sub-region corresponding to the two regions to be compared;

and displaying the display results corresponding to the subareas on the corresponding positions on the electronic map based on the positions of the subareas on the electronic map.

Optionally, the apparatus may further include a first user request processing module for:

receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode;

and displaying the region data of the sub-region corresponding to the sub-region viewing request to the user.

Optionally, if the two sub-areas covered by the two areas to be compared include the same sub-area, the area data display module is configured to:

obtaining the comparison result of the region data of the two regions to be compared in the same sub-regions;

based on the positions of the same subareas on the electronic map, the comparison results corresponding to the same subareas are displayed at the corresponding positions on the electronic map in a first display mode.

Optionally, the first display mode is a data representation display mode, and when the comparison results corresponding to the same sub-areas are displayed at corresponding positions on the electronic map by adopting the first display mode, the area data display module is used for:

determining the display result of the same sub-regions corresponding to the data representation display mode according to the comparison result of the same sub-regions;

and displaying the display result of the same subareas corresponding to the data representation display mode on the corresponding position of the electronic map based on the position of the same subareas on the electronic map.

Optionally, the data representation display mode includes color display, and when determining a display result of the data representation display mode of the region data of each sub-region corresponding to the two regions to be compared, the region data display module is configured to:

Determining the display color of the region data corresponding to each sub-region corresponding to the two regions to be compared in a data representation display mode;

if the subareas covered by the two areas to be compared contain the same subareas, determining that the same subareas correspond to the display colors of the data representation display mode according to the comparison results corresponding to the same subareas.

Optionally, the apparatus further includes a second user request processing module, configured to:

receiving a specified sub-region viewing request, wherein the specified region viewing request comprises a region type identifier;

determining a target subarea aimed by the appointed subarea viewing request according to the area type identifier;

and displaying the target subarea according to a first preset mode.

Optionally, when the second user request processing module displays the target sub-area according to the first preset manner, the second user request processing module is configured to:

other sub-areas than the target sub-area are hidden.

Optionally, the area data display module is further configured to:

and comparing and displaying the region data of the sub-regions corresponding to the regions to be compared by adopting a second display mode for each sub-region corresponding to the two regions to be compared.

Optionally, the second display mode includes at least one of a bar graph, a chart, and a fan graph.

Optionally, the apparatus may further include an associated display module for:

when receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode, displaying a display result of the sub-region corresponding to the region viewing request corresponding to the second display mode according to a second preset mode.

In yet another aspect, an embodiment of the application provides an electronic device comprising a processor and a memory configured to store a computer program that, when executed by the processor, causes the processor to perform any of the methods described above.

In yet another aspect, embodiments of the present application provide a computer-readable storage medium storing a computer program, which when run on a computer, causes the computer to perform any of the methods described above.

The technical scheme provided by the embodiment of the application has the beneficial effects that:

according to the scheme provided by the embodiment of the application, the coverage area of each region to be compared can be divided into the subareas, when the region data of the two regions to be compared are compared, the region data of each subarea corresponding to the two regions to be compared can be displayed at the corresponding positions on the electronic map based on the positions of the subareas on the electronic map.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are required to be used in the description of the embodiments of the present application will be briefly described below.

Fig. 1 is a schematic flow chart of a visual information comparison method according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a visual display interface for region data according to an embodiment of the present application;

FIG. 3 is a schematic diagram of another visual interface for comparing regional data according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a visual information comparing device according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the application.

As used herein, the singular forms "a", "an", "the" and "the" are intended to include the plural forms as well, unless expressly stated otherwise, as understood by those skilled in the art. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof. It will be understood that when an element is referred to as being "connected" or "coupled" to another element, it can be directly connected or coupled to the other element or intervening elements may also be present. Further, "connected" or "coupled" as used herein may include wirelessly connected or wirelessly coupled. The term "and/or" as used herein includes all or any element and all combination of one or more of the associated listed items.

In many practical application scenarios, it is necessary to compare data of different areas. For example, it is often necessary for merchants to compare their own store data with competing store data to determine the business overlap ratio between each other and which business circles are dominant and which are inferior. Existing approaches typically use the form of a pure list or chart of thermodynamic diagrams, cellular thermodynamic diagrams, or grid thermodynamic diagrams to compare data between markets. Wherein, the grid thermodynamic diagram is to aggregate discrete data points in square grid areas, and render square prisms with different color heights according to the number of the data points falling into the areas; the honeycomb thermodynamic diagram is that discrete data points are aggregated in a hexagonal area, and high hexagonal prisms with different colors are rendered according to the number of the data points falling into the area; the thermodynamic diagram is to display map data, display the user enthusiasm area and the geographical area where the user is located in a special highlight form, and describe the population density and the change trend by using picture tiles to be overlaid on the map.

However, after actual investigation, the grid thermodynamic diagram and the found honeycomb thermodynamic diagram cannot show the range boundary of the region, and only the height of the data on the map is highlighted, so that the range of the reflected region cannot be reached; thermodynamic diagrams over-aggregate data and thus fail to analyze the data further.

Based on the above, the embodiment of the application provides a visualized information comparison method, a visualized information comparison device, electronic equipment and a storage medium, which aim to solve part or all of the technical problems.

The following describes the technical scheme of the present application and how the technical scheme of the present application solves the above technical problems in detail with specific embodiments. The following embodiments may be combined with each other, and the same or similar concepts or processes may not be described in detail in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Fig. 1 shows a flow chart of a visual information comparison method provided in an embodiment of the application. As shown in fig. 1, the method includes:

step S101, two areas to be compared are determined, wherein the areas to be compared comprise a plurality of sub-areas.

The region to be compared refers to a region to be compared in which data is required to be compared, and the region to be compared refers to the region, which is not limited in the embodiment of the present application, for example, a business district region covered by a mall may be used as the region to be compared, or a region covered by a tourist attraction may be used as the region to be compared. For convenience of description, the business district of the market a and the business district of the market B are hereinafter exemplified as two areas to be compared.

In practical application, the region to be compared may be divided into a plurality of sub-regions, and specifically, how many sub-regions need to be divided, and the size of each sub-region may be preconfigured, which is not limited by the embodiment of the present application. For example, assuming that the size of each sub-area is 1 square kilometer, the to-be-compared area may be divided into a plurality of sub-areas of 1 square kilometer, and for convenience of user knowing each sub-area included in each to-be-compared area in the electronic map, the corresponding position of each sub-area in the electronic map (such as the area a in fig. 2) may be represented by a square grid (such as the square grid area in fig. 2), where one grid represents one sub-area, and the represented actual area is 1 square kilometer in size.

It will be appreciated that, fig. 2 is a schematic diagram of a schematic visual interface, in practical application, the display result of the visual interface may be shown in fig. 3, and fig. 3 is an alternative schematic diagram of practical display effect, which is also merely for more directly illustrating the comparison effect of the embodiment of the present application, and the content shown in fig. 3 with unclear details may be specifically referred to the corresponding content description in fig. 2, where the content in the fig. should not be construed as limiting the embodiment of the present application.

It will be appreciated that the electronic map is discrete, scaled down followed by units that can be aggregated, and scaled up followed by diffusion, i.e., the electronic map can be scaled up or scaled down based on the user's operation. Correspondingly, if the electronic map includes each sub-region represented by the grid, the displayed grids can be correspondingly enlarged and displayed according to the enlarging operation, or correspondingly reduced and displayed according to the reducing operation.

In an alternative embodiment of the present application, determining two regions to be aligned includes:

determining two objects to be compared and a comparison range;

and determining two areas to be compared according to the central position and the comparison range of each object to be compared.

The object to be compared is an object to be subjected to data comparison, and the type of the object to be compared is not limited in the embodiment of the application, and can be a mall, a tourist attraction and the like. The comparison range refers to the size information of the area to be compared, for example, the area can be 2 km square in a market. Further, in determining the object of the region to be compared and the comparison range, two regions to be compared may be determined based on the center position of each comparison object and the comparison range of each comparison object.

In an example, it is assumed that the comparison objects are an a market and a B market, the comparison range of the a market is 3 km, and the comparison range of the B market is 3 km, where a circular area determined by taking the center position of the a market as the center, taking the comparison range of the a market as the radius of 3 km is taken as one area to be compared, the center position of the B market as the center, and taking the comparison range of the B market as the radius of 3 km is taken as another area to be compared.

In addition, in practical applications, the method for determining the object to be compared is not limited, for example, the method may be a comparison object defaulted by the user or a comparison object to be compared performed last time, or may be a region range (such as a city, a region, etc.) selected by the user, object information which can be used as the comparison object in a user-specified range is provided to the user, and the user selects two objects to be compared based on the object information which can be used as the comparison object.

Step S102, obtaining area data of all subareas covered by all areas to be compared.

In practical application, each sub-region may be assigned a unique identifier, and each sub-region has information corresponding to itself, is associated with the unique identifier of the sub-region, and may be stored in the form of a table by a mysql database. Wherein the information of the sub-region corresponding to the sub-region itself specifically includes which data, and the embodiment of the application is not limited. For example, when the area to be compared is a mall area of a mall, the information of the included subareas may be information such as a mall identifier included in the subarea, a city identifier to which the subarea belongs, a passenger flow of each included mall in the subarea, and a longitude and latitude of the subarea.

In practical application, the region data of the sub-region refers to the data corresponding to the sub-region, that is, each sub-region may have one corresponding region data, and the acquired region data is specifically which data in the information corresponding to the sub-region, which is not limited in the embodiment of the present application. For example, when the sub-area is a sub-area covered by a business district area of a mall, at this time, the area data of each sub-area may be a passenger flow volume of each mall in the sub-area in the information corresponding to the sub-area, and so on.

The manner of acquiring the region data of each sub-region covered by each region to be compared may be preconfigured, and the embodiment of the present application is not limited. For example, the area data can be configured to be stored in a server, when the terminal device needs to acquire the area data, the area data can be acquired from the server, the local cache area data can be updated periodically according to a set period, in addition, the comparison time can be set, the user can acquire the area data of each subarea covered by each area to be compared in different time periods, the comparison is performed on the area data in different time periods, and then the comparison results in different time periods can be obtained.

Step S104, based on the position of each sub-region on the electronic map, the region data of each sub-region corresponding to the two regions to be compared are displayed on the corresponding position on the electronic map in a first display mode.

The first display mode may be preconfigured, and the example of the present application is not limited. For example, the first display mode may be configured to directly display the acquired data, graphically display the acquired data, or characterize different area data with different display colors, and so on.

In practical application, after the region data of each sub-region corresponding to the two regions to be compared are obtained, the obtained region data can be displayed on the corresponding position of the sub-region on the electronic map in a first display mode. For example, a certain sub-region is located at the a position of the electronic map, and at this time, the region data of the sub-region may be displayed at the a position on the electronic map in a first display manner.

In the embodiment of the application, the coverage range of each region to be compared can be converted into each sub-region, and when the region data of the two regions to be compared are compared, the region data of each sub-region corresponding to the two regions to be compared can be displayed at corresponding positions on the electronic map based on the positions of each sub-region on the electronic map. In other words, when comparing the region data of the two regions to be compared, the embodiment of the application realizes the combined display of the region data and the geographic position, and can more intuitively find the data difference between the regions to be compared in comparison with the form of a pure chart.

In an alternative embodiment of the present application, a first display mode is a data representation display mode, and the displaying of the area data of each sub-area corresponding to two areas to be compared on the electronic map by using the first display mode includes:

determining the display result of a data representation display mode of the region data of each sub-region corresponding to the two regions to be compared;

and displaying the display results corresponding to the subareas on the corresponding positions on the electronic map based on the positions of the subareas on the electronic map.

In the embodiment of the application, the first display mode may be a data representation display mode, and the data representation display mode refers to a mode of representing different data by adopting different display modes without directly displaying the data. The specific display mode of the data representation display mode can be preconfigured, and the embodiment of the application is not limited. For example, the data representation display modes include display mode 1 and display mode 2, and data 1 to data 10 are represented by display mode 1, and data 11 to data 20 are represented by display mode 2. At this time, when the acquired data are data 1 to data 10, the first display mode is display mode 1, and when the acquired data are data 11 to data 20, the first display mode is display mode 2. In yet another example, the data representation display modes are different color display modes, such as adopting red representation data 1-data 10 and adopting green representation data 11-data 20, when the acquired data are data 1-data 10, red is displayed at the corresponding position on the electronic map, and when the acquired data are data 11-data 20, green is displayed at the corresponding position on the electronic map.

Further, in practical application, after the area data of each sub-area corresponding to the two areas to be compared are obtained, when the first display mode represents the display mode for the data, a display result corresponding to the area data of each sub-area (that is, what display mode is adopted to display the area data) can be determined, and then the area data of each sub-area is displayed at a corresponding position on the electronic map by adopting the display result corresponding to the area data of each sub-area.

In an example, it is assumed that the data representation display mode includes red and green, red representation data 1-10 are adopted, green representation data 11-20 are adopted, the subarea covered by the area to be compared includes subarea 1 and subarea 2, the area data of the subarea 1 is data 5, and the area data of the subarea 2 is data 15; further, it may be determined that the display result of the region data of the sub-region 1 corresponding to the data representation display mode is red, and the display result of the region data of the sub-region 2 corresponding to the data representation display mode is green, and at this time, red may be displayed at a corresponding position of the sub-region 1 on the electronic map, and green may be displayed at a corresponding position of the sub-region 2 on the electronic map.

In an alternative embodiment of the present application, if the sub-areas covered by the two to-be-compared areas include the same sub-area, the area data of each sub-area corresponding to the two to-be-compared areas is displayed on the corresponding position on the electronic map by adopting a first display mode, including:

obtaining the comparison result of the region data of the two regions to be compared in the same sub-regions;

based on the positions of the same subareas on the electronic map, the comparison results corresponding to the same subareas are displayed at the corresponding positions on the electronic map in a first display mode.

In practical application, the middle part of the subareas covered by the two acquired areas to be compared on the electronic map may include some overlapping areas and non-overlapping areas, where the overlapping areas are called identical subareas in the embodiment of the present application, and the non-overlapping areas are called non-identical subareas in the embodiment of the present application. For example, the subarea covered by the area to be compared 1 includes subarea 1-subarea 10, the subarea covered by the area to be compared 2 includes subarea 5-subarea 15, at this time, the subarea 5-subarea 10 is an overlapping area, the subarea 1-subarea 4 and the subarea 11-subarea 15 are non-overlapping areas, that is, the subarea 5-subarea 10 are identical subareas in the subareas covered by the two areas to be compared, and the subarea 1-subarea 4 and the subarea 11-subarea 15 are different subareas in the subareas covered by the two areas to be compared.

Further, if the current subarea is the same subarea in the coverage range of the two areas to be compared, namely, the overlapping subarea in the coverage range of the two areas to be compared, at this time, the area data of the two areas to be compared in the subarea can be compared to obtain a comparison result, and then the obtained comparison result is displayed at a corresponding position on the electronic map in a first display mode. The method for comparing the area data is not limited in the embodiment of the present application, for example, a ratio between two area data may be used as a comparison result.

In an example, it is assumed that the two areas to be compared are a business turn area of the a business turn area and a business turn area of the B business turn area, the sub-area a is an overlapping sub-area in the business turn area of the a business turn area and the business turn area of the B business turn area, and the area data of the sub-areas is passenger traffic. At this time, the passenger flow volume a of the market a in the subarea a and the passenger flow volume B of the market B in the subarea a may be obtained from a mysql (relational database management system) database based on the identifier of the subarea a, and then the ratio of the passenger flow volume a to the passenger flow volume B is used as a comparison result of the area data of the subarea a, and is displayed in the position where the subarea a is located in the electronic map in a first display manner.

In an alternative embodiment of the present application, a first display mode is a data representation display mode, and the comparison results corresponding to the same sub-regions are displayed at corresponding positions on an electronic map by using the first display mode, including:

determining the display result of the same sub-regions corresponding to the data representation display mode according to the comparison result of the same sub-regions;

and displaying the display result of the same subareas corresponding to the data representation display mode on the corresponding position of the electronic map based on the position of the same subareas on the electronic map.

In practical application, when the first display mode includes the data representation display mode, if the current subarea is the same subarea of the two areas to be compared, after the comparison results corresponding to the same subarea are obtained, the display result corresponding to the data representation display mode is determined according to the comparison results corresponding to the subareas, and then the display result corresponding to the subarea is displayed at the position where the subarea of the electronic map is located.

In an example, it is assumed that the regional data of the subregion is the passenger flow volume, and the comparison result is the ratio of the passenger flow volumes of the two markets in the subregion, and at this time, different comparison results (i.e., different ratios) may be preconfigured to correspond to the display results of the data representation display mode. For example, a comparison result with a ratio greater than 1 corresponds to a display result 1, a comparison result with a ratio less than 1 corresponds to a display result 2, and a comparison result with a ratio equal to 1 corresponds to a display result 3. Correspondingly, after determining the comparison result corresponding to the subarea, the display result can be determined according to the corresponding comparison result, if the comparison result corresponding to the subarea is greater than 1, the display result corresponding to the data representation display mode of the subarea is the display result 1, and the display result 1 is displayed at the position of the subarea in the electronic map.

In the embodiment of the present application, if coverage areas of two areas to be compared include non-overlapping sub-areas, area data of each sub-area corresponding to the two areas to be compared is displayed at a corresponding position on an electronic map by adopting a first display mode, including:

determining the areas to be compared corresponding to the non-overlapped subareas;

determining the display result of the data representation display mode of the region data of each non-overlapped subarea according to the corresponding region to be compared;

and displaying the display results corresponding to the non-overlapped subareas at corresponding positions on the electronic map.

For different subareas in subareas covered by the two areas to be compared, when determining a display result of a data representation display mode of area data of the different subareas, different display results can be adopted when different areas to be compared are configured in advance in different area data. For example, when the region data of the region 1 to be compared adopts a data representation display mode, the display result is display color 1, and when the region data values are different, the saturation of the display color 1 is higher; the display result of the region data of the region 2 to be compared is the display color 2 when the data representation display mode is adopted, and when the region data value is larger, the saturation of the display color 2 is higher.

In practical application, if the current subarea is a non-overlapping area, when determining a display result of the data representation display mode of the area data of the subarea, determining an area to be compared to which the subarea belongs; further, determining a display result corresponding to the region to be compared, and then displaying the display result corresponding to the region to be compared as a display result corresponding to the sub-region on the corresponding position of the electronic map. If the values of the region data of the region to be compared are different, different display results are configured, after the display results corresponding to the region to be compared are determined, the final corresponding display result can be determined according to the specific value of the region data of the sub region, and then the final corresponding display result is displayed at the corresponding position on the electronic map.

In an alternative embodiment of the present application, the data representation display mode includes color display, and determining a display result of the data representation display mode of the region data of each sub-region corresponding to the two regions to be compared includes:

determining the display color of the region data corresponding to each sub-region corresponding to the two regions to be compared in a data representation display mode;

If the subareas covered by the two areas to be compared contain the same subareas, determining that the same subareas correspond to the display colors of the data representation display mode according to the comparison results corresponding to the same subareas.

In practical applications, the data representation display mode may include color display, that is, when determining the display result of the region data of the same sub-regions, that is, determining the display color of the region data of the sub-regions, then the display color of the sub-regions may be displayed at the corresponding position in the electronic map. If the subareas covered by the two subareas to be compared contain the same subareas, different comparison results are also preconfigured to correspond to different display colors for the same subareas, and then the display colors corresponding to the data representation display modes of the same subareas can be determined according to the comparison results corresponding to the same subareas.

In an example, it is assumed that the comparison result is a ratio of the passenger flows of the two markets in the subareas, the display color corresponding to the comparison result with the ratio greater than 1 is red, the display color corresponding to the comparison result with the ratio less than 1 is green, and the display color corresponding to the comparison result with the ratio equal to 1 is gray. Further, if the ratio is greater than 1, the greater the ratio is, the higher the saturation of the color red is displayed, whereas if the ratio is less than 1, the smaller the ratio is, the lower the saturation of the color green is displayed.

In the embodiment of the application, when the region data corresponding to each sub-region in the two regions to be compared are different, different colors can be adopted for display, so that a user can more intuitively know the competition intensity of the two regions to be compared in each sub-region, and further, the operation strategy can be better configured according to the competition intensity. For example, when the area to be compared is a market area of a mall, the advertisement can be put according to the competition intensity obtained by analysis when the advertisement is put in the mall, so that more clients are attracted to improve sales of the mall.

In an alternative embodiment of the present application, the method may further comprise:

receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode;

and displaying the region data of the sub-region corresponding to the sub-region viewing request to the user.

Wherein the sub-region view request represents an action of a user to view region data of the sub-region, and a manner of triggering the sub-region view request may be preconfigured. For example, the request may be triggered by clicking, where clicking on the selected sub-region triggers a sub-region viewing request, and the selected sub-region is the sub-region to be viewed.

In practical application, after the area data of each sub-area is displayed at the corresponding position on the electronic map in the first display mode, a sub-area viewing request of the user can be received, where the sub-area viewing request can include a viewed sub-area identifier selected by the user. Further, the selected sub-region can be determined according to the sub-region identification, and then the region data of the selected sub-region is acquired and displayed to the user. The mode of displaying the area data to the user can be preconfigured, and the embodiment of the application is not limited, for example, a prompt box can be displayed, and the area data can be displayed in the prompt box.

It can be understood that, when the sub-region selected by the user is the same sub-region of the two regions to be compared, the region data displayed at this time may include the region data of the two regions to be compared corresponding to the selected sub-region, the comparison result, and the like.

In an example, as shown in fig. 2, assuming that the two areas to be compared are the business district of the market a and the business district of the market B (e.g., the area a in fig. 2), the subarea a is an overlapping subarea (i.e., the same subarea) of the business district of the market a and the business district of the market B, the subarea d only belongs to the business district of the market a, the area data of the subarea is the passenger volume, and the comparison result is the ratio of the passenger volumes of the two markets in the subarea. Further, if the subarea selected by the user is subarea a, the passenger flow volume of the market a in the subarea a, the passenger flow volume of the market B in the subarea a, and the ratio of the passenger flow volume of the market a in the subarea a to the passenger flow volume of the market B in the subarea a may be displayed to the user (e.g. area e in fig. 2); if the subarea selected by the user is subarea d, only the passenger flow volume of the market A in the subarea d can be provided for the user. Of course, in practical application, ranking information of the passenger flow volume of each market in the selected subarea in the passenger flow volume of all subareas included in each market can be displayed to the user. For example, for sub-region a, the current volume of traffic of the market a within that sub-region a is ranked 12 in the volume of traffic of all sub-regions included in the market a, at which point information characterizing the ranking 12 may be presented to the user together (e.g., region e in fig. 2).

In an alternative embodiment of the present application, the method further comprises:

receiving a specified sub-region viewing request, wherein the specified region viewing request comprises a region type identifier;

determining a target subarea aimed by the appointed subarea viewing request according to the area type identifier;

and displaying the target subarea according to a first preset mode.

Wherein the specified sub-region view request indicates an action of which type of sub-region is selected for display by the user, and a manner in which the specified sub-region view request specifies the sub-region view request may be preconfigured. For example, a virtual button may be provided that triggers a specified sub-region viewing request, which when clicked by a user is considered to trigger a specified sub-region viewing request, and then a region type identifier is provided to the user, which triggers a specified sub-region viewing request based on the provided region type identifier.

In practical application, the user-triggered specified sub-region viewing request can be identified by a region type, and the region type identification is used for identifying the type of the sub-region. The types of the subareas specifically include those, and the embodiment of the application is not limited, and the types may include the subareas belonging to the to-be-compared area 1, the subareas belonging to the to-be-compared area 2, the overlapping subareas, the non-overlapping subareas, the comparison result is that the to-be-compared area 1 is dominant, the comparison result is that the to-be-compared area 2 is dominant, and the like. Further, a target sub-region can be determined from all the sub-regions covered by the two regions to be compared according to the region type identifier, and the target sub-region is displayed at the corresponding position of the electronic map according to a first preset mode.

In one example, as shown in FIG. 2, assume that the comparison results in the ratio of the passenger flows of market A and market B in the sub-area. When the ratio of a certain subarea is greater than 1, the competition of the market A in the subarea is superior, when the ratio of the certain subarea is less than 1, the competition of the market B in the subarea is superior, and when the ratio of the certain subarea is equal to 1, the competition of the market A and the market B in the subarea is in a level state. At this time, an "analysis setting" virtual button may be provided, and when the user clicks on "analysis setting", an option of region type identification is provided, such as "a market dominant sub-region", "B market dominant sub-region", "leveling region", and "all" shown in fig. 2, and further, the user may trigger a specified sub-region viewing request based on the provided region type identification option. If the user triggers the appointed subarea viewing request by selecting the option of 'subarea with the market A being dominant', the appointed subarea viewing request comprises an area type mark which is marked as the market A being dominant (namely the ratio is larger than 1); correspondingly, the comparison result can be determined to be the subarea with the ratio larger than 1 (namely the target subarea), and then the target subarea is displayed according to a first preset mode.

In an alternative embodiment of the present application, displaying the target sub-region according to a first preset manner includes:

other sub-areas than the target sub-area are hidden.

In practical application, the first preset manner may be configured in advance, and the embodiment of the present application provides an optional embodiment manner to hide other sub-areas except for the target sub-area, that is, only the currently determined target sub-area is displayed in the electronic map. For example, as shown in fig. 2, assume that the target sub-region selected by the user is "a-market dominant sub-region", and only a square grid filled with black lines is displayed in fig. 2.

In an alternative embodiment of the present application, the method may further comprise:

and comparing and displaying the region data of the region corresponding to each region to be compared by adopting a second display mode for each region corresponding to the two regions to be compared.

In the embodiment of the present application, the second display manner may include at least one of a histogram, a chart, and a fan-shaped chart.

For example, when the second display mode is a bar graph, at this time, the area data of each sub-area corresponding to each area to be compared is converted into the bar graph, and the obtained bar graph is displayed.

It can be understood that the sub-areas of the to-be-compared area corresponding to the second display mode and the first display mode are in one-to-one correspondence. For a grid on the map, if two areas to be compared simultaneously correspond to the network, the subarea corresponding to the grid simultaneously corresponds to the area data of the two areas to be compared, and at this time, for the subarea, the area data of the two areas to be compared corresponding to the subarea are simultaneously displayed in a second display mode, and if the subarea is displayed in a bar graph, the subarea corresponds to two bar graphs.

In practical application, for a sub-region belonging to an overlapping region of two regions to be compared, at this time, the region data of the sub-region includes region data corresponding to the two regions to be compared, and when the region data of the sub-region corresponding to the region to be compared is displayed in a second display mode, the region data of the sub-region corresponding to the two regions to be compared may be displayed in a second display mode.

In an example, assuming that a certain sub-area belongs to an overlapping area in the area coverage of the market a and the area coverage of the market B, the area data is the passenger traffic, and the second display mode is a bar graph. Correspondingly, the regional data of the subarea at this time includes the passenger flow of the market A in the subarea and the passenger flow of the market B in the subarea, and at this time, the passenger flow of the market A in the subarea and the passenger flow of the market B in the subarea can be converted into a bar graph, and the bar graph is compared and displayed. Such as a bar graph representing the volume of traffic in the sub-area for market a and a bar graph representing the volume of traffic in the sub-area for market B are shown adjacent (specifically as shown in region f of fig. 2).

In an alternative embodiment of the present application, the method may further comprise:

when receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode, displaying a display result of the sub-region corresponding to the region viewing request corresponding to the second display mode according to a second preset mode.

In practical application, if the region data of each sub-region corresponding to the region to be compared is displayed in the second display mode, when the receiving sub-region viewing request is received, the region data of the sub-region corresponding to the sub-region viewing request displayed in the second display mode may also be displayed in the second preset mode, so that the first display mode of the region data of the sub-region and the second display mode of the region data of the sub-region achieve the linkage effect.

The second preset mode may be preset, and the embodiment of the present application is not limited. For example, the region data of the sub-region corresponding to the sub-region view request displayed by the second display method is highlighted, for example, the region g in fig. 2 is highlighted.

In the embodiment of the application, precious performance resources are saved by adopting the chart linkage mode, and visual and efficient visual analysis data of a user can be met.

In order to better illustrate the visualized information comparison method provided by the embodiment of the application, the method is described in detail below in connection with an actual application scene. As shown in fig. 3 (some text contents in fig. 3 may be referred to the contents of the corresponding part in fig. 2), in this example, it is assumed that the area to be compared is a business district of a new middle office market (a market) and a business district of an euonymus sink market (B market) in guangdong, and the regional data of the sub-areas is the passenger traffic of the previous month.

In practical application, if the user selects to bind the current account number to the market a, when data comparison is performed, the province to which the market a belongs can be determined first, then the target city in which the market a is located is determined, further market information of all the target cities can be obtained and provided for the user, and the user selects the market B through the market prompt information.

The target city may be divided into a plurality of sub-areas, each sub-area may be 1 square kilometer, and a square grid representation (i.e., one sub-area corresponds to one grid) is adopted in the electronic map, and each sub-area has corresponding grid data (i.e., information of a sub-area), where the grid data may include an identifier of the grid, a market identifier located in the grid range, a previous month passenger flow volume of each market located in the grid range, a longitude and latitude of the grid, a city identifier to which each market located in the grid range belongs, a ranking information of a previous month passenger flow volume of each market located in the grid range in each market, and so on.

Further, according to the grid data of each grid of the target city, determining grids comprising the A market identifier and/or the B market identifier, then obtaining the passenger flow volume data of each sub-grid, and according to the positions of each grid, displaying the passenger flow volume data of each grid in an electronic map of the target city in a first display mode.

For a grid, if the grid data of the grid includes the a market identifier but does not include the B market identifier, it is indicated that there is no business overlapping between the two markets within the range of the grid, and at this time, the grid may be displayed in a corresponding position in the electronic map of the target city by using display color 1 (e.g., the display mode of grid a in fig. 3); further, if the grid data of the grid includes both the market mark a and the market mark B, and the ratio between the passenger flow of the market a and the passenger flow of the market B is greater than 1, it is indicated that the market a is dominant in the area of the grid, and at this time, the display color 2 can be used to display the market a at a corresponding position in the electronic map; if the grid data of the grid comprises both the market mark A and the market mark B, but the ratio of the passenger flow of the market A to the passenger flow of the market B is smaller than 1, the dominant market B in the area range of the grid is indicated to be large, and the display color 3 can be adopted to display the market B at the corresponding position in the electronic map. If the ratio between the passenger flow volume of the market A and the passenger flow volume of the market B is 1, the display color 4 can be adopted to display the passenger flow volume of the market A and the passenger flow volume of the market B at the corresponding position in the electronic map. It should be noted that, the display colors 1 to 4 are different colors, and when the ratio is greater than 1, and the greater the ratio is, the higher the saturation of the display color in the display color 2 is (i.e., the darker the display color is); when the ratio is smaller than 1, and the smaller the ratio is, the higher the saturation of the display color in the display color 3 (i.e., the darker the display color is).

Based on the method, each grid is displayed in the map according to the respective position, and the display mode of each grid is different when the passenger flows are different, so that a user can clearly know the respective dominant areas of the A market and the B market through the display mode of the grid, and the combination of market data and geographic positions of the A market and the B market is realized, and the data visualization is also realized.

Further, in this example, the user may choose to view the traffic conditions (i.e., traffic conditions for the corresponding region) included with each grid. At this time, when the user selects the grid to be checked through a setting manner (such as a mouse click manner), then the customer flow of the first month before the market a, the customer flow of the first month before the market B, the ratio of the customer flow of the first month before the market a to the customer flow of the first month before the market B, and the ranking information of the customer flow of the first month before the market a in the grid in the first month of all grids of the market a, which are included in the grid data of the grid, can be obtained, and the ranking information is provided to the user, and particularly as shown in a region B in fig. 3, the display effect of the region can be seen from the display result of a region e in fig. 2.

In addition, in this example, the passenger flow of the market a and the passenger flow of the market B included in each grid may be displayed in a bar graph manner (i.e., a second display manner), and when the user selects a grid to be viewed, the bar graph corresponding to the grid may be marked and displayed, as shown in fig. 3, in addition to the display manner shown by the area B, in which, assuming that the user hovers the mouse over the grid shown in (1) in the graph, the area data of the network may be displayed to the user in the display manner shown by the area B, and the bar graph display result corresponding to the area may be highlighted (such as highlighting or other display manners), as shown in the display effect shown by the area d in fig. 3. The display sequence of the bar graph corresponding to each grid is not limited, for example, the size of the passenger flow of the market a, which is included in each grid, can be sequentially displayed in a sorting way. In addition, in this example, a thumbnail of a bar chart corresponding to the area data of each sub-area is displayed (as shown in the f area in fig. 3), in practical application, a "range selector" function option corresponding to the thumbnail may be provided for the user, the user may select, through the function option, a time range corresponding to the data to be checked by sliding left and right or other manners, and after the user selects a certain time range, the area data of each sub-area of the market a and the market B corresponding to the time range may be correspondingly displayed on each corresponding grid and on the corresponding bar chart.

In practical application, in order to quickly view the grids that are dominant in each market, a grid category screening function is further provided, at which time, the user may select the category of the currently displayed grid through an option in the displayed "analysis setting" (see "analysis setting" function area shown in fig. 2). For example, when "a market-dominant business area" is selected, only the grid of a market-dominant business may be displayed in the large-scale area, when "B market-dominant business area" is selected, only the grid of B market-dominant business may be displayed in the large-scale area, and when "all" is selected, all the grids included may be displayed in the large-scale area.

In addition, in practical application, other information (shown in a g area in fig. 3) of the area to be compared may be displayed, for example, information such as province information, city information, current date, and the like of the area to be compared may be displayed. And the user enlarges or reduces the electronic map through the displayed enlarged or reduced virtual buttons (shown in the area e in fig. 3).

The embodiment of the present application provides a visualized information comparing device, as shown in fig. 4, the visualized information comparing device 60 may include: a region to be compared determination module 601, a region data acquisition module 602, and a region data display module 603, wherein,

The region to be compared determining module 601 is configured to determine two regions to be compared, where the region to be compared includes a plurality of sub-regions;

the region data acquisition module 602 is configured to acquire region data of each sub-region covered by each region to be compared;

the region data display module 603 is configured to display, based on the positions of the sub-regions on the electronic map, the region data of the sub-regions corresponding to the two regions to be compared, in a corresponding position on the electronic map in a first display manner.

Optionally, the to-be-aligned region determining module is configured to:

determining two objects to be compared and a comparison range;

and determining two areas to be compared according to the central position and the comparison range of each object to be compared.

Optionally, the first display mode is a data representation display mode, and the area data display module is used for:

determining the display result of a data representation display mode of the region data of each sub-region corresponding to the two regions to be compared;

and displaying the display results corresponding to the subareas on the corresponding positions on the electronic map based on the positions of the subareas on the electronic map.

Optionally, the apparatus may further include a first user request processing module for:

Receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode;

and displaying the region data of the sub-region corresponding to the sub-region viewing request to the user.

Optionally, if the two sub-areas covered by the two areas to be compared include the same sub-area, the area data display module is configured to:

obtaining the comparison result of the region data of the two regions to be compared in the same sub-regions;

based on the positions of the same subareas on the electronic map, the comparison results corresponding to the same subareas are displayed at the corresponding positions on the electronic map in a first display mode.

Optionally, the first display mode is a data representation display mode, and when the comparison results corresponding to the same sub-areas are displayed at corresponding positions on the electronic map by adopting the first display mode, the area data display module is used for:

determining the display result of the same sub-regions corresponding to the data representation display mode according to the comparison result of the same sub-regions;

and displaying the display result of the same subareas corresponding to the data representation display mode on the corresponding position of the electronic map based on the position of the same subareas on the electronic map.

Optionally, the data representation display mode includes color display, and when determining a display result of the data representation display mode of the region data of each sub-region corresponding to the two regions to be compared, the region data display module is configured to:

determining the display color of the region data corresponding to each sub-region corresponding to the two regions to be compared in a data representation display mode;

if the subareas covered by the two areas to be compared contain the same subareas, determining that the same subareas correspond to the display colors of the data representation display mode according to the comparison results corresponding to the same subareas.

Optionally, the apparatus further includes a second user request processing module, configured to:

receiving a specified sub-region viewing request, wherein the specified region viewing request comprises a region type identifier;

determining a target subarea aimed by the appointed subarea viewing request according to the area type identifier;

and displaying the target subarea according to a first preset mode.

Optionally, when the second user request processing module displays the target sub-area according to the first preset manner, the second user request processing module is configured to:

other sub-areas than the target sub-area are hidden.

Optionally, the area data display module is further configured to:

and comparing and displaying the region data of the sub-regions corresponding to the regions to be compared by adopting a second display mode for each sub-region corresponding to the two regions to be compared.

Optionally, the second display mode includes at least one of a bar graph, a chart, and a fan graph.

Optionally, the apparatus may further include an associated display module for:

when receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode, displaying a display result of the sub-region corresponding to the region viewing request corresponding to the second display mode according to a second preset mode.

It should be noted that, since the apparatus provided in the embodiment of the present application is an apparatus capable of executing the method in the embodiment of the present application, those skilled in the art will be able to understand the specific implementation of the apparatus in the embodiment of the present application and various modifications thereof based on the method provided in the embodiment of the present application, so how the apparatus implements the method in the embodiment of the present application will not be described in detail herein. The means employed by those skilled in the art to practice the methods of embodiments of the present application are within the intended scope of the present application.

Based on the method provided by the embodiment of the application, the embodiment of the application also provides an electronic device, and the electronic device in the embodiment of the application comprises a processor and a memory, wherein the memory is configured to store a machine computer program, and the computer program when executed by the processor causes the processor to execute the visualized information comparison method.

Embodiments of the present application provide a computer-readable storage medium on which a computer program is stored, which when run on a computer, enables the computer to perform an information comparison method for implementing visualization.

As an example, fig. 5 shows an electronic device suitable for the visual information comparison method provided by the embodiment of the present application, as shown in fig. 5, the electronic device 2000 includes: a processor 2001 and a memory 2003. The processor 2001 is coupled to a memory 2003, such as via a bus 2002. Optionally, the electronic device 2000 may also include a transceiver 2004. It should be noted that, in practical applications, the transceiver 2004 is not limited to one, and the structure of the electronic device 2000 is not limited to the embodiment of the present application.

The processor 2001 is used in the embodiment of the present application to implement the functions of the modules shown in fig. 4.

The processor 2001 may be a CPU, general purpose processor, DSP, ASIC, FPGA or other programmable logic device, transistor logic device, hardware components, or any combination thereof. Which may implement or perform the various exemplary logic blocks, modules and circuits described in connection with this disclosure. The processor 2001 may also be a combination of computing functions, e.g., comprising one or more microprocessor combinations, a combination of a DSP and a microprocessor, etc.

Bus 2002 may include a path to transfer information between the components. Bus 2002 may be a PCI bus, an EISA bus, or the like. The bus 2002 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, only one thick line is shown in fig. 5, but not only one bus or one type of bus.

The memory 2003 may be a ROM or other type of static storage device that can store static information and computer programs, a RAM or other type of dynamic storage device that can store information and computer programs, an EEPROM, a CD-ROM or other optical disk storage, optical disk storage (including compact disks, laser disks, optical disks, digital versatile disks, blu-ray disks, etc.), magnetic disk storage media or other magnetic storage devices, or any other medium that can be used to carry or store a desired computer program in the form of a data structure and that can be accessed by a computer, but is not limited to such.

The memory 2003 is used for storing a computer program for executing an application program of the present application, and execution is controlled by the processor 2001. Processor 2001 is operative to execute a computer program of an application program stored in memory 2003 to implement the actions of the visual information comparison device provided by the embodiment shown in fig. 4.

It should be understood that, although the steps in the flowcharts of the figures are shown in order as indicated by the arrows, these steps are not necessarily performed in order as indicated by the arrows. The steps are not strictly limited in order and may be performed in other orders, unless explicitly stated herein. Moreover, at least some of the steps in the flowcharts of the figures may include a plurality of sub-steps or stages that are not necessarily performed at the same time, but may be performed at different times, the order of their execution not necessarily being sequential, but may be performed in turn or alternately with other steps or at least a portion of the other steps or stages.

The foregoing is only a partial embodiment of the present application, and it should be noted that it will be apparent to those skilled in the art that modifications and adaptations can be made without departing from the principles of the present application, and such modifications and adaptations are intended to be comprehended within the scope of the present application.

Claims (13)

1. A visual information comparison method, comprising:

determining two areas to be compared, wherein the areas to be compared comprise a plurality of sub-areas;

acquiring region data of each sub-region covered by each region to be compared;

determining display results of first display modes of region data of all the subregions corresponding to the two regions to be compared, wherein the first display modes are data representation display modes, the data representation display modes are modes for representing different data by adopting different display modes, and the display results indicate the display modes of the region data of the corresponding subregions;

based on the position of each subarea on the electronic map, displaying a display result corresponding to each subarea on the corresponding position of the electronic map;

if the sub-areas covered by the two to-be-compared areas include the same sub-area, displaying a display result corresponding to each sub-area on the corresponding position on the electronic map based on the position of each sub-area on the electronic map, including:

obtaining the comparison result of the region data of the two regions to be compared in the same sub-regions;

Based on the positions of the same subareas on the electronic map, the comparison results corresponding to the same subareas are displayed at the corresponding positions on the electronic map in the first display mode.

2. The method of claim 1, wherein the determining two regions to be aligned comprises:

determining two objects to be compared and a comparison range;

and determining the two areas to be compared according to the central position of each object to be compared and the comparison range.

3. The method according to claim 1, wherein the method further comprises:

receiving a sub-region viewing request of a user for the sub-region displayed in the first display mode;

and displaying the region data of the sub-region corresponding to the sub-region viewing request to the user.

4. The method of claim 1, wherein the first display mode is a data representation display mode, the comparison results corresponding to the same sub-regions are displayed at corresponding positions on the electronic map by using the first display mode, and the method comprises:

determining the display result of the data representation display mode corresponding to the same subareas according to the comparison result corresponding to the same subareas;

And displaying the display result of the same sub-regions corresponding to the data representation display mode on the corresponding position of the electronic map based on the position of the same sub-regions on the electronic map.

5. The method according to claim 1, wherein the data representation display mode includes color display, and the determining the display result of the data representation display mode of the region data of each sub-region corresponding to the two regions to be compared includes:

determining the display colors of the data representation display modes corresponding to the region data of each sub-region corresponding to the two regions to be compared;

and if the subareas covered by the two areas to be compared contain the same subareas, determining that the same subareas correspond to the display colors of the data representation display mode according to the comparison results corresponding to the same subareas.

6. The method according to claim 1, wherein the method further comprises:

receiving a specified sub-region viewing request, wherein the specified sub-region viewing request comprises a region type identifier;

determining a target sub-region aimed by the appointed sub-region viewing request according to the region type identifier;

And displaying the target subarea according to a first preset mode.

7. The method of claim 6, wherein displaying the target sub-region in a first preset manner comprises:

hiding other subareas except the target subarea.

8. A method according to claim 3, characterized in that the method further comprises:

and comparing and displaying the region data of the region corresponding to each region to be compared by adopting a second display mode for each region corresponding to the two regions to be compared.

9. The method of claim 8, wherein the second display means comprises at least one of a bar graph, a chart, a fan graph.

10. The method of claim 8, wherein the method further comprises:

when receiving a sub-region viewing request of the user for the sub-region displayed in the first display mode, displaying a display result of the sub-region corresponding to the sub-region viewing request corresponding to the second display mode according to a second preset mode.

11. A visual information comparison device, comprising:

The device comprises a to-be-compared region determining module, a comparison region determining module and a comparison region determining module, wherein the to-be-compared region determining module is used for determining two to-be-compared regions, and the to-be-compared region comprises a plurality of sub-regions;

the region data acquisition module is used for acquiring region data of each sub-region covered by each region to be compared;

the region data display module is used for determining display results of first display modes of region data of all the subregions corresponding to the two regions to be compared, wherein the first display modes are data representation display modes, the data representation display modes are modes for representing different data by adopting different display modes, and the display results indicate the display modes of the region data of the corresponding subregions;

the region data display module is further used for displaying a display result corresponding to each sub-region on the corresponding position of the electronic map based on the position of each sub-region on the electronic map;

if the two sub-areas covered by the to-be-compared areas include the same sub-area, the area data display module is further configured to: obtaining the comparison result of the region data of the two regions to be compared in the same sub-regions; based on the positions of the same subareas on the electronic map, the comparison results corresponding to the same subareas are displayed at the corresponding positions on the electronic map in the first display mode.

12. An electronic device comprising a processor and a memory:

the memory is configured to store a computer program which, when executed by the processor, causes the processor to perform the method of any of claims 1-10.

13. A computer readable storage medium for storing a computer program which, when run on a computer, causes the computer to perform the method of any of the preceding claims 1-10.