CN114115525B

CN114115525B - Information display method, device, equipment and storage medium

Info

Publication number: CN114115525B
Application number: CN202111276937.8A
Authority: CN
Inventors: 不公告发明人
Original assignee: Beijing Chengshi Wanglin Information Technology Co Ltd
Current assignee: Beijing Chengshi Wanglin Information Technology Co Ltd
Priority date: 2021-10-29
Filing date: 2021-10-29
Publication date: 2022-11-18
Anticipated expiration: 2041-10-29
Also published as: CN114115525A

Abstract

The application provides an information display method, device, equipment and storage medium, wherein the method comprises the following steps: in the panoramic roaming mode, a first picture corresponding to a first roaming visual angle is displayed on a graphical user interface, the first picture is a local picture of a panoramic picture corresponding to the panoramic roaming mode, and a plurality of mark labels are arranged in the panoramic picture; receiving a first input to a target markup tag of a plurality of markup tags; responding to the first input, and acquiring a target high-definition image corresponding to a target mark label; updating a target area associated with the target mark label in the panoramic picture according to the target high-definition image; and displaying a target picture comprising a first amplified image corresponding to the target high-definition image on a graphical user interface. According to the method and the device, the amplification of the local high-definition details can be realized, the sense of reality of the local detail display process is effectively enhanced, and the browsing experience of a user is optimized.

Description

Information display method, device, equipment and storage medium

Technical Field

The present application relates to the field of computer technologies, and in particular, to an information display method, apparatus, device, and storage medium.

Background

Panoramic roaming is increasingly receiving wide attention with the characteristics of strong reality, convenience and quickness in operation. Under a panoramic roaming scene, a user can roam in a virtual space by switching the view angles, so that the user can simulate walking in the space to browse pictures, and a roaming effect is realized.

In the prior art, a user cannot deeply check an interested area when the user is in panoramic roaming, that is, cannot know the detailed part of the interested area, and thus the browsing experience of the user is affected.

Disclosure of Invention

The embodiment of the application provides an information display method, an information display device, information display equipment and a storage medium, and aims to solve the problem that in the prior art, a user cannot deeply check an interested area when the user roams in a panoramic view, and browsing experience of the user is influenced.

In a first aspect, an embodiment of the present application provides an information display method, where a graphical user interface is provided by an electronic device, the method including:

in a panoramic roaming mode, displaying a first picture corresponding to a first roaming visual angle on the graphical user interface, wherein the first picture is a local picture of a panoramic picture corresponding to the panoramic roaming mode, and a plurality of mark labels are arranged in the panoramic picture;

receiving a first input to a target markup tag of the plurality of markup tags;

responding to the first input, and acquiring a target high-definition image corresponding to the target mark label;

updating a target area associated with the target mark label in the panoramic picture according to the target high-definition image;

and displaying a target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface.

In a second aspect, an embodiment of the present application provides an information display apparatus, which provides a graphical user interface through an electronic device, and the apparatus includes:

the first display module is used for displaying a first picture corresponding to a first roaming visual angle on the graphical user interface in a panoramic roaming mode, wherein the first picture is a local picture of a panoramic picture corresponding to the panoramic roaming mode, and a plurality of mark labels are arranged in the panoramic picture;

a receiving module for receiving a first input to a target markup tag of the plurality of markup tags;

the acquisition module is used for responding to the first input and acquiring a target high-definition image corresponding to the target mark label;

the updating module is used for updating a target area associated with the target mark label in the panoramic picture according to the target high-definition image;

and the second display module is used for displaying a target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface.

In a third aspect, an embodiment of the present application provides an electronic device, which includes a processor, a memory, and a computer program stored in the memory and capable of running on the processor, and when the computer program is executed by the processor, the method implements the steps of the information display method according to the first aspect.

In a fourth aspect, an embodiment of the present application provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and the computer program, when executed by a processor, implements the steps of the information display method according to the first aspect.

According to the technical scheme, in the panoramic roaming mode, a first picture corresponding to a first roaming visual angle in a panoramic picture is displayed on a graphical user interface, first input of a user to a target mark label in the first picture is received, a target high-definition image corresponding to the target mark label is obtained in response to the first input, a target area related to the target mark label is updated according to the target high-definition image, the target picture comprising a first amplified image corresponding to the target high-definition image is displayed on the graphical user interface, the target area related to the target mark label can be updated to a target high-definition image with higher definition based on the first input of the user, the first amplified image corresponding to the target high-definition image is displayed, amplification of local high-definition details is achieved, reality sense of a local detail display process is effectively enhanced, and browsing experience of the user is optimized.

Drawings

FIG. 1 is a schematic diagram illustrating an information display method according to an embodiment of the present disclosure;

FIG. 2 is a schematic diagram illustrating a first screen of a graphical user interface provided by an embodiment of the application;

FIG. 3 is a schematic diagram of a target tag in a plurality of tags according to an embodiment of the present disclosure;

FIG. 4 is a diagram illustrating an exemplary update of a target area of a first frame according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of an information display device provided in an embodiment of the present application;

fig. 6 shows a schematic diagram of an electronic device provided in an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, of the embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be appreciated that reference throughout this specification to "one embodiment" or "an embodiment" means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present application. Thus, the appearances of the phrases "in one embodiment" or "in an embodiment" in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more embodiments.

In various embodiments of the present application, it should be understood that the sequence numbers of the following processes do not mean the execution sequence, and the execution sequence of each process should be determined by the function and the inherent logic of the process, and should not constitute any limitation to the implementation process of the embodiments of the present application.

In the prior art, under a panoramic roaming scene, a user cannot deeply check an interested area, so that the browsing experience of the user is influenced. To this end, in some embodiments of the present application: the plurality of mark labels can be arranged on the panoramic picture, the high-definition image corresponding to the target mark label is used for updating the target area associated with the target mark label according to the selection of the user on the target mark label in the plurality of mark labels, the improvement of the area definition is realized, the details of the high-definition image can be displayed, so that the user can check the high-definition image conveniently, the reality sense of the local detail display process is effectively enhanced while the amplification of the local high-definition detail is realized, and the browsing experience of the user is optimized.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Fig. 1 is a schematic flowchart of an information display method according to an exemplary embodiment of the present application, where the information display method according to the embodiment of the present application may provide a graphical user interface through an electronic device, as shown in fig. 1, the method includes the following steps:

step 101, in a panoramic roaming mode, displaying a first picture corresponding to a first roaming visual angle on a graphical user interface, wherein the first picture is a local picture of a panoramic picture corresponding to the panoramic roaming mode, and a plurality of mark labels are arranged in the panoramic picture.

The electronic device in the embodiment of the application can be a mobile phone, a computer, a tablet computer and other devices for displaying the panoramic picture of the target space. The panoramic picture of the target space can be formed by attaching a panoramic picture (2D image) of the target space to a ball or making a sky box, so that the real-scene watching effect of a user is improved, the corresponding panoramic picture can be observed under different roaming visual angles, and the panoramic roaming experience is obtained. The panoramic picture of the target space can also be a picture corresponding to a space model generated after the space modeling is carried out on the target space, the space model generated through the space modeling corresponds to a virtual three-dimensional space, in the virtual three-dimensional space, a user can continuously switch roaming visual angles through operations of clicking a roaming point, adjusting the roaming visual angles and the like, and the corresponding virtual three-dimensional space picture can be observed under different roaming visual angles, so that the panoramic roaming experience is obtained.

The target space may be varied in different application fields. For example, the target space may be a room space, and may be a vehicle exterior space or a vehicle interior space. Of course, these are also only exemplary, and the embodiments of the present application do not limit the specification, location, type, and other attributes of the target space.

The panoramic roaming mode refers to a mode capable of carrying out user operation on a panoramic picture, and in the panoramic roaming mode, a first picture corresponding to a first roaming visual angle is displayed on a graphical user interface, so that a user can watch the corresponding picture at the first roaming visual angle. Referring to fig. 2, a specific illustration of a first screen corresponding to a first roaming view is shown for a graphical user interface, and a user may continuously switch the roaming view by clicking a roaming point, adjusting the roaming view, and the like.

The first picture is a local picture of the panoramic picture, a plurality of mark tags are arranged in the panoramic picture, each mark tag corresponds to detailed data, and the detailed data can contain a high-definition image. The corresponding display modes of a plurality of mark labels in the panoramic picture can be the same or different. In the case where the display patterns of the plurality of markup tags are the same, the markup tags in the panoramic picture can be displayed in the same display pattern, and in the case where the plurality of markup tags correspond to at least two display patterns, the markup tags can be distinguished by the display patterns, and the markup tags of the same display pattern can be further classified into one category.

For a plurality of markup tags in the panoramic picture, each markup tag is associated with an area in the panoramic picture, that is, a binding relationship is formed between the markup tag and the associated area, and the position of the markup tag may be located in the associated area or outside the associated area. In order to clearly show the binding relationship between the tag and the area, the embodiment of the present application is described by taking the location of the tag in the associated area as an example.

The label tag can display related information corresponding to the related area, and the size, position, outline and other information of the area related to the label tag can be determined through the related information displayed in the label tag; the mark label can also display guide information for prompting a specific input mode, so that a user can perform corresponding input on the mark label according to the guide information.

Step 102, receiving a first input to a target markup tag of the plurality of markup tags.

After the first screen corresponding to the first roaming visual angle is displayed on the graphical user interface, a first input of a user to a target mark label in the plurality of mark labels is received, wherein the first input includes but is not limited to clicking, long pressing, sliding and the like, and the first input can be understood as a selection input of the user in the plurality of mark labels, and an input mode corresponding to the selection input can be displayed in the target mark label. Since the graphical user interface shows the first frame, the target markup tags are markup tags in the first frame. Referring to fig. 3, the first screen includes a tag label 1, a tag label 2, and a tag label 3, and determines that the tag label 1 is a target tag label according to a selection of the tag label 1 by a user, and in fig. 3, a case where relevant information corresponding to a related area and guidance information for prompting a specific input mode are not displayed for the tag label is illustrated.

And 103, responding to the first input, and acquiring a target high-definition image corresponding to the target mark label.

Because the target tag corresponds to the detailed data, and the detailed data may include a high-definition image, after receiving the first input to the target tag, in response to the first input, the high-definition image corresponding to the target tag is acquired. The detailed data corresponding to the target tag can be stored in the electronic device, and can also be stored in a server communicating with the electronic device.

And 104, updating a target area associated with the target mark label in the panoramic picture according to the target high-definition image.

The image content of the target high-definition image corresponding to the target mark label is the same as the image content in the area image of the target area associated with the target mark label, and the definition of the image content is different. After the target high-definition image corresponding to the target mark label is obtained, the target area associated with the target mark label in the panoramic picture can be updated according to the target high-definition image, so that the target area is updated to a high-definition image with high definition. And updating the target area, namely updating the area image corresponding to the target area.

In the case that the position of the target mark label is located in the target area, since the target mark label is a mark label in the first picture, the target area may also be located in the first picture, and the target area is updated, which may be understood as updating a local area in the first picture. When the target area is updated, it may be understood that the local area is updated for the first screen and a screen (another partial area including the target area) adjacent to the first screen.

And 105, displaying a target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface.

After the target area is updated based on the target high-definition image, in order to facilitate a user to more carefully view the high-definition image of the area associated with the target mark label, a target picture including a first magnified image corresponding to the target high-definition image may be displayed on the graphical user interface. In addition, in the embodiment of the present application, any available method may be used to amplify the target high-definition image to obtain an amplified image thereof, which is not limited in this embodiment of the present application. For example, only the area where the target high-definition image is located in the first screen may be enlarged, or all the screen contents displayed on the graphical user interface may be enlarged as a whole. Specifically, the rendering camera may also be advanced in a direction of the target high-definition image to implement analog lens advancing, zoom in the target high-definition image, and display a target picture including a first zoomed-in image corresponding to the target high-definition image on the graphical user interface.

According to the implementation process, in a panoramic roaming mode, a first picture corresponding to a first roaming visual angle in a panoramic picture is displayed on a graphical user interface, a first input of a user to a target mark label in the first picture is received, a target high-definition image corresponding to the target mark label is obtained in response to the first input, a target area associated with the target mark label is updated according to the target high-definition image, the target picture comprising a first amplified image corresponding to the target high-definition image is displayed on the graphical user interface, the target area associated with the target mark label can be updated to the target high-definition image with higher definition based on the first input of the user, the first amplified image corresponding to the target high-definition image is displayed, amplification of local high-definition details is achieved, reality sense of the local detail display process is effectively enhanced, and browsing experience of the user is optimized.

In an optional embodiment of the present application, each of the plurality of tag tags corresponds to at least one high definition image; the responding to the first input, acquiring a target high-definition image corresponding to the target mark label, including:

responding to a first input of the target mark label, and sending an image acquisition request carrying identification information corresponding to the target mark label to a server;

receiving a target high-definition image corresponding to the target mark label fed back by the server;

the target high-definition image is determined by the server in at least one high-definition image corresponding to the target mark tag based on the image acquisition request.

For a plurality of tag labels in the panoramic picture, the detailed data corresponding to each tag label comprises at least one high-definition image, and the image content corresponding to the high-definition image is the same as the image content in the area image of the area associated with the tag label in the panoramic picture, and the definition of the image content is different from that of the image content in the area image. Aiming at the condition that the current mark label corresponds to at least two high-definition images, the image contents of the high-definition images are the same, and the definition of the high-definition images is different.

After receiving a first input to a target tag, in response to the first input, sending an image acquisition request to a server in communication with the electronic device, where the sent image acquisition request may carry identification information corresponding to the target tag. After receiving an image acquisition request carrying identification information corresponding to a target tag, the server determines that the electronic device requests to acquire a high-definition image corresponding to the target tag according to the identification information corresponding to the target tag, and can search detailed data corresponding to the target tag based on the identification information corresponding to the target tag, wherein the server can store the detailed data corresponding to a plurality of tag tags. The detailed data corresponding to the target mark tag comprises at least one high-definition image corresponding to the target mark tag. And determining a target high-definition image in the at least one high-definition image corresponding to the target mark label by the server, wherein the target high-definition image can be the high-definition image with the highest definition in the at least one high-definition image.

After the electronic device sends an image acquisition request carrying identification information corresponding to the target tag, a target high-definition image corresponding to the target tag fed back by the server is received, and a target area associated with the target tag is updated based on the acquired target high-definition image.

According to the implementation process, the detailed data corresponding to each tag is stored in the server, the storage pressure of the electronic device can be reduced, the image acquisition request carrying the identification information corresponding to the target tag is sent to the server through the first input of the user to the target tag, the target high-definition image fed back by the server based on the image acquisition request is received, the target high-definition image can be acquired based on the communication between the electronic device and the server, and the pressure of the electronic device for searching the target high-definition image is reduced.

In an optional embodiment of the present application, the updating, according to the target high-definition image, a target area associated with the target mark tag in the panoramic picture includes:

covering the target area in the panoramic picture according to the target high-definition image;

the size of the target high-definition image is the same as that of the area image corresponding to the target area, and the outline of the target high-definition image is the same as that of the area image corresponding to the target area.

After the target high-definition image is acquired, the target area associated with the target mark tag in the panoramic picture can be updated according to the target high-definition image. The image content of the target high-definition image is the same as that of the area image corresponding to the target area, the size of the target high-definition image is the same as that of the area image corresponding to the target area, and the outline of the target high-definition image is also the same as that of the area image corresponding to the target area. Since the region image is an image corresponding to the target region, the contour and size of the target region are the same as those of the region image.

When the target area is updated according to the target high-definition image, the target high-definition image can be used for covering the target area, and when the target area is covered, because the size of the target high-definition image is the same as that of an area image corresponding to the target area, and the outline of the target high-definition image is the same as that of the area image corresponding to the target area, seamless covering can be achieved, and the image updating effect is guaranteed. Referring to fig. 4, after the target high-definition image is acquired, the target area of the first picture is covered by the target high-definition image which has the same content and size and outline as the area image, so that the target area is updated.

Optionally, when the target area is updated according to the target high-definition image, the target high-definition image may also be used to replace an area image corresponding to the target area, and at this time, the area image needs to be scratched by using a scratching technology, and the blank area is filled with the target high-definition image, so that the target area is updated by using image replacement.

In addition, compared with the image replacement method, the method of updating the target area by using the image covering method is simpler, so that the method of updating the target area in the panoramic picture by using the image covering method is preferred.

According to the implementation process, after the target high-definition image is obtained, the target area in the panoramic picture is covered according to the target high-definition image, the target area can be updated in a relatively simple mode, and the updating efficiency can be improved.

In an optional embodiment of the present application, in a case where the target markup tag is at a first position distinct from the target position of the graphical user interface, after receiving the first input for the target markup tag of the plurality of markup tags, the method further comprises:

in response to the first input, presenting, on the graphical user interface, a second frame presented by the target mark-up tag at the target location;

wherein the second picture corresponds to a second roaming perspective that is distinct from the first roaming perspective.

The target mark label is a mark label in a first picture displayed by the graphical user interface, and when the target mark label is at a first position of the graphical user interface, which is different from the target position, after receiving a first input to the target mark label, the angle of the rendering camera is adjusted at a certain speed in response to the first input, so that the target mark label is located at the target position, wherein the target position is a preset position, such as the center position of the graphical user interface. And adjusting the angle of the rendering camera to enable the target mark label to be positioned at the target position, wherein the process is embodied on the graphical user interface, namely the second picture displayed at the target position by the target mark label is displayed on the graphical user interface, so that the position of the target mark label in the graphical user interface is updated, and meanwhile, the display picture in the graphical user interface can also be updated.

Adjusting the angle of the rendering camera is equivalent to adjusting the browsing angle of the user, that is, adjusting the roaming angle of the panoramic roaming. Due to the fact that the angle of the rendering camera is adjusted, the display picture corresponding to the graphical user interface is updated to a second picture from the first picture, the target mark label is shown at the target position of the graphical user interface in the second picture, the target mark label is shown at the first position of the graphical user interface in the first picture, and a second roaming visual angle corresponding to the second picture is different from a first roaming visual angle corresponding to the first picture.

The second roaming visual angle may be the same as the roaming point corresponding to the first roaming visual angle, and the specific visual angles are different; the second roaming view may also be different from the roaming point corresponding to the first roaming view, and the specific view may be the same or different. Optionally, the roaming point may be an observation point when the user browses a panoramic picture of the space in the panoramic roaming mode, at one observation point, the user may perform a view angle around at a certain angle (e.g., 360 ° or 180 °), the roaming point may be determined when acquiring a panoramic picture of the space, or may be determined in any available manner at any other available time, each roaming point may be a center position of the corresponding space, and if the area of the space is large, the roaming point may also be set according to a certain proportion, for example, the space is equally divided, and then the center position of the equally divided area is used as the roaming point, which is not limited in the present application.

By responding to the first input, the display picture of the graphical user interface is updated from the first picture to the second picture, and the target mark label is adjusted to the target position for display, the target mark label receiving the first input can be displayed at a preset position, and a position is selected in advance for the display of a target high-definition image corresponding to a subsequent target mark label on the graphical user interface.

The displaying a target picture including a first amplified image corresponding to the target high-definition image on the graphical user interface comprises:

amplifying a first intermediate picture, wherein the first intermediate picture is a picture generated by updating a target area in the second picture based on the target high-definition picture, and the first intermediate picture corresponds to the second roaming view angle;

displaying the target picture, which is displayed in a first area of the graphical user interface, of a first amplified image corresponding to the target high-definition image on the graphical user interface;

wherein the first region is associated with the target location, and the target picture is a locally enlarged picture of the first intermediate picture.

After the display screen of the graphical user interface is updated from the first screen to the second screen in response to the first input and the target mark label is adjusted to the target position for display, the target area associated with the target mark label is also located in the second screen because the target mark label is located at the target position of the graphical user interface and is located in the second screen. The embodiment of the application does not consider the situation that the target area is not located in the second picture or the partial area of the target area is located in the second picture.

When the first screen is displayed, the target mark tab is displayed at the first position of the graphical user interface, and the target area associated with the target mark tab may be at least partially located in the first screen, that is, the target area may be entirely located in the first screen, or a partial area of the target area may be located in the first screen. And when the display position of the target mark label in the graphical user interface is adjusted to enable the target mark label to be displayed at the target position, the graphical user interface displays a second picture, and all target areas associated with the target mark label are located in the second picture.

When the target region associated with the target tag label is updated by the target high-definition image, that is, the target region in the second picture is updated by the target high-definition image, the target region in the second picture may be covered by the target high-definition image, or the target region in the second picture may be replaced by the target high-definition image. The first intermediate picture may be generated by updating the target area in the second picture with the target high definition image. Since the first intermediate view is generated based on updating the target area of the second view, the first intermediate view corresponds to the second roaming perspective.

The first intermediate image comprises a target clear image, the first intermediate image is amplified, the target image which is displayed in the first area of the graphical user interface by the first amplified image corresponding to the target high-definition image is displayed on the graphical user interface, and the process can be understood as pushing the rendering camera towards the direction of the target high-definition image so as to realize the pushing of the simulation lens for amplifying the image and achieve the effect of checking the details of the target high-definition image.

The target picture of the first amplified image corresponding to the target high-definition image is a local amplified picture of the first intermediate picture, that is, after the first intermediate picture is amplified, the local picture of the first amplified image including the target high-definition image is the target picture.

The first area of the graphical user interface is associated with the target location, and the first area and the target location form a binding relationship, and the target location may be located in the first area or located outside the first area. The first area may be a central area of the graphical user interface to enable a first magnified image of the target high definition image to be displayed in a center of a screen of the electronic device, so that a user can know the first magnified image of the target high definition image by looking at the center of the screen. Of course, the first area may also be other areas of the graphical user interface, which is not further limited herein.

In the implementation process of the application, the display picture of the graphical user interface is updated from the first picture to the second picture, and the target mark label is adjusted to the target position of the graphical user interface for display, so that the target mark label receiving the first input is displayed at a preset position, and a position is selected in advance for displaying a target high-definition image corresponding to a subsequent target mark label on the graphical user interface; by amplifying the first intermediate image, the first amplified image corresponding to the target high-definition image is presented in the first area of the graphical user interface, so that the amplification of local high-definition details can be realized, the sense of reality of the local detail display process is effectively enhanced, and the browsing experience of a user is optimized.

In an optional embodiment of the present application, in a case that the target mark tab is located at a target position of the graphical user interface, the displaying, on the graphical user interface, a target screen including a first enlarged image corresponding to the target high definition image includes:

amplifying a second intermediate image, wherein the second intermediate image is generated by updating a target area in the first image based on the target high-definition image, and the second intermediate image corresponds to the first roaming visual angle;

displaying the target picture, which is displayed in a second area of the graphical user interface, of a first amplified image corresponding to the target high-definition image on the graphical user interface;

wherein the second region is associated with the target position, and the target picture is a locally enlarged picture of the second intermediate picture.

For a case where the target markup tag is at a target location of the graphical user interface, after receiving a first input to the target markup tag, a target high-definition image may be acquired in response to the first input. In this embodiment, the target mark tag is located in the first frame, and accordingly, the target area is also located in the first frame.

When the graphical user interface displays a target picture comprising a first magnified image corresponding to the target high-definition image, the target area in the first picture can be updated based on the target high-definition image to generate a second intermediate picture, and the second intermediate picture also corresponds to the first roaming view angle because the second intermediate picture is generated based on updating the content in the first picture.

The second intermediate image comprises a target high-definition image, the second intermediate image is amplified, the target image, which is displayed in the second area of the graphical user interface by the first amplified image corresponding to the target high-definition image, is displayed on the graphical user interface, and the process can be understood as pushing the rendering camera towards the direction of the target high-definition image, so that the effect of simulating lens pushing to amplify the image and checking the details of the target high-definition image is achieved.

The target picture of the first amplified image corresponding to the target high-definition image is a local amplified picture of the second intermediate picture, namely, after the second intermediate picture is amplified, the local picture of the first amplified image corresponding to the target high-definition image is the target picture.

In order to clearly show the binding relationship between the target location and the second area, the embodiment of the present application takes the example that the target location is located in the second area as an example. The second area may be a central area of the graphical user interface to display the first magnified image of the target high-definition image in the center of the screen of the electronic device, so that the user can know the first magnified image of the target high-definition image by looking at the center of the screen. Of course, the second area may also be other areas of the graphical user interface, which is not further limited herein.

According to the implementation process, the second intermediate image is amplified, the first amplified image corresponding to the target high-definition image is displayed in the second area of the graphical user interface, amplification of local high-definition details can be achieved, the sense of reality of the local detail display process is effectively enhanced, and the browsing experience of a user is optimized.

In an optional embodiment of the present application, after the displaying, by the graphical user interface, a target screen including a first magnified image corresponding to the target high definition image, the method further includes:

responding to a second input of a first amplified image corresponding to the target high-definition image, and switching to a single image display mode;

displaying a second amplified image corresponding to the target high-definition image on the graphical user interface in the single image display mode;

and the second magnification ratio corresponding to the second magnified image is greater than or equal to the first magnification ratio corresponding to the first magnified image.

After a target picture including a first magnified image corresponding to a target high-definition image is displayed on a graphical user interface, when a second input to the first magnified image corresponding to the target high-definition image is received, the panoramic roaming mode may be controlled to be switched to a single image display mode in response to the second input, and in the single image display mode, the second magnified image corresponding to the target high-definition image may be displayed through the graphical user interface.

The second magnification ratio corresponding to the second magnified image is greater than or equal to the first magnification ratio corresponding to the first magnified image, and for the case that the second magnification ratio is equal to the first magnification ratio, the magnified image with the same magnification ratio can be displayed in the panoramic roaming mode and the single image display mode, and for the case that the second magnification ratio is greater than the first magnification ratio, the magnified image with the larger magnification ratio can be displayed in the single image display mode.

Wherein the single image presentation mode is different from the panorama roaming mode, the single image presentation mode may be a mode for presenting only a single image without presenting a panorama picture to a user any more. Before switching to the single image display mode in response to the second input, the panorama roaming mode may be hidden or exited according to the second input, and the timing of hiding or exiting the panorama roaming mode is not specifically limited in this embodiment. The first linkage dynamic effect can be played before the panoramic roaming mode is hidden or quitted, or the first linkage dynamic effect can be played after the panoramic roaming mode is hidden or quitted and before the panoramic roaming mode is switched to the single image display mode, wherein the first linkage dynamic effect comprises an effect animation used for presenting a high-definition image process approaching a target from a roaming view angle where a user is currently located. By playing the first linkage dynamic effect, the display transition from the panoramic roaming mode to the single image display mode can be realized.

Because in the single image display mode, only the second enlarged image corresponding to the target high-definition image is displayed, the user can be completely immersed in the single image display mode, and the experience of focusing on observing local details is obtained. In addition, in the single image display mode, the display parameter adjustment of the second amplified image can be realized in response to the adjustment operation of the second amplified image corresponding to the target high-definition image, so that the second amplified image is displayed according to the adjustment operation; wherein the adjustment operation comprises zooming and/or dragging. In this embodiment, the single image display mode may support a user to perform an adjustment operation on the second magnified image, so that the single image display mode may support human-computer interaction, and may adjust the display state of the second magnified image according to the adjustment operation performed by the user on the second magnified image. For example, the user can observe the brand of the door lock, the password key arrangement mode and the like more clearly by magnifying the second magnified image corresponding to the door lock.

And under the single image display mode, a return panoramic control can be configured in the graphical user interface. The return panorama control can be displayed in an interactive area contained in the graphical user interface. Based on this, in the embodiment, in response to a panoramic roaming mode returning instruction initiated by the user through the panoramic control returning instruction in the single image display mode, a second linkage dynamic effect is obtained and played, where the second linkage dynamic effect includes an effect animation used for presenting a process of returning the user from a local position (a second enlarged image corresponding to the target high-definition image) to the current roaming view angle of the user; and after the second linkage dynamic effect playing is finished, returning to the panoramic roaming mode. After the panoramic roaming mode is returned, the view angle picture corresponding to the roaming view angle where the user is currently located can be displayed again in the panoramic roaming mode.

According to the implementation process, the target high-definition images are displayed in the single image display mode through switching to the single image display mode, the second amplification images corresponding to the target high-definition images are displayed through the graphical user interface in the single image display mode, the user can be immersed in the single image display mode completely, experience of observing local details is obtained, and the amplification images corresponding to the target high-definition images can be displayed in different modes.

It should be noted that the first linking effect may be pre-generated and cached in the server or the electronic device, and in this case, the pre-generated first linking effect may be directly invoked after the second input is received and before the single image display mode is switched, so that the computing resources in the electronic device may be effectively saved. Of course, the first linking effect may also be generated in real time after receiving the second input, the flexibility in this case is higher; the first linkage dynamic effect generated in the real-time generation mode can store the target high-definition image as an index for the first linkage dynamic effect, so that the stored first linkage dynamic effect can be directly called when the target high-definition image meets the situation again in the follow-up process, and the computing resource of the electronic equipment is saved.

In the first linkage dynamic effect playing process, the user can not see the visual angle picture corresponding to the current roaming visual angle of the user, and the user can be completely immersed in the first linkage dynamic effect to experience the sense of reality brought by the first linkage dynamic effect. By playing the first linkage effect, the user can obtain the experience of approaching the target high-definition image from the current roaming visual angle.

Aiming at the condition of generating a first linkage dynamic effect in advance, generating a first linkage dynamic effect according to a visual angle picture (target picture) to which a first amplified image corresponding to a target high-definition image belongs and a second amplified image corresponding to the target high-definition image; aiming at the condition of generating the first linkage dynamic effect in real time, the first linkage dynamic effect can be generated according to a visual angle picture (target picture) corresponding to the current roaming visual angle of the user and a second amplified image corresponding to the target high-definition image. Through the first linkage effect, a user can obtain the experience of watching detailed contents from a roaming visual angle close to a target high-definition image, so that the sense of reality of a local detail display process can be effectively enhanced in a panoramic roaming scene. Moreover, by adding the display function of local details, the degree of freedom and the depth of the view angle in a panoramic roaming scene can be effectively improved, so that the observation view angle of a user is not limited to the roaming view angle, but can be expanded and extended to a local enlarged view angle, and the user experience is improved.

It should be understood that both the pre-production and the real-time production schemes are based on the same perspective view and second magnified image, and that only different descriptive terms have been used in the different schemes.

In one exemplary implementation, the view may be progressively enlarged and/or blurred to produce a first transition segment; and continuing the second amplified image to the transition segment to generate a first linkage effect. When the view angle picture is amplified step by step, the second amplification scale is larger than the first amplification scale. And when the images are gradually enlarged, the first enlarged image in the visual angle image can be used as an enlargement center, so that the effects of gradually enlarging, focusing and/or fuzzy transition from the visual angle image to a local position and freezing on the second enlarged image can be generated, and the effect animation in the process of approaching the target high-definition image from the roaming visual angle corresponding to the visual angle image can be obtained.

In another exemplary implementation, a transition view facing the first magnified image may be determined from a plurality of roaming views encompassed by the panoramic roaming mode; acquiring a second transition segment generated in the process of moving from the roaming visual angle (or the roaming visual angle corresponding to the visual angle picture of the first magnified image) where the user is currently located to the transition visual angle; determining a view picture corresponding to the transition view as a transition picture; gradually enlarging the transition picture (corresponding to a scene with the second enlargement ratio larger than the first enlargement ratio) and/or blurring the transition picture to generate a third transition segment; and sequentially continuing the second transition segment, the third transition segment and the second amplified image to obtain a first linkage effect. The transition view may be a roaming view in which an angle between facing directions of the facing directions is smallest or the facing direction corresponds to the first magnified image. In addition, the second transition segment may directly use the corresponding roaming action in the panoramic roaming mode. By sequentially connecting the second transition segment, the third transition segment and the second amplified image, the effect of moving close to the target high-definition image after rotating from the current roaming visual angle to the transition visual angle can be generated, and finally the moving close is fixed on the second amplified image, so that the effect animation in the process of moving close to the target high-definition image from the roaming visual angle corresponding to the visual angle image can be obtained.

Compared with the two exemplary implementation manners, slight differences exist in the routes of the generated first linkage effect in the process of approaching the target high-definition images from the roaming visual angles corresponding to the visual angle pictures, but the user can obtain the experience of observing local details from the roaming visual angle approaching the target high-definition images corresponding to the visual angle pictures.

It should be understood that the above two implementations are only exemplary, and in this embodiment, other implementations may also be used to generate the first linkage effect, for example, a process of using other routes to present high-definition images approaching the target from the current roaming perspective, and the like. The present embodiment is not limited thereto. Accordingly, in the embodiment, the first linkage effect can be generated based on the view angle picture and the second enlarged picture, the picture which is probably observed by the user in the process of approaching the target high-definition image from the current roaming view angle can be vividly simulated through the first linkage effect, and the sense of reality of approaching the target high-definition image from the current roaming view angle and observing local details can be created for the user without increasing the roaming view angle for the target high-definition image.

The generation process of the second linkage dynamic effect can adopt a process which is the inverse of the first linkage dynamic effect. The second linkage effect can also be generated in advance or in real time. The generation process of the second linkage dynamic effect is briefly described below.

In one exemplary implementation, the second magnified image may be progressively reduced (corresponding to a scene having a second magnification that is greater than the first magnification) and/or blurred to produce a fourth transition segment; and continuing the view picture to the transition segment to generate a second linkage effect. In the process of gradually reducing the second enlarged image, the visual angle picture can be taken as a reduction target, so that the effect of gradually expanding the visual field of the second enlarged image and transiting to the visual angle picture can be generated, and finally, the second enlarged image is fixed on the visual angle picture, so that the effect animation in the process of retreating the second enlarged image to the roaming visual angle corresponding to the visual angle picture can be obtained.

In another exemplary implementation, the second magnified image may be progressively reduced (corresponding to a scene having a second magnification scale greater than the first magnification scale) and/or blurred to produce a fifth transition segment; determining a transition view angle facing the first magnified image from a plurality of roaming view angles included in the panoramic roaming mode; determining a view angle picture corresponding to the transition view angle as a transition picture; acquiring a sixth transition segment generated in the process of moving from the transition view angle to the roaming view angle where the user is currently located; and sequentially continuing the fifth transition segment, the transition picture and the sixth transition segment to obtain a second linkage dynamic effect.

The transition view may be a roaming view in which an angle between facing directions of the facing directions is smallest or the facing direction corresponds to the first magnified image. In addition, the sixth transition segment may directly use the corresponding roaming action in the panoramic roaming mode. In the process of performing the gradual reduction processing on the second enlarged image, the transition picture can be used as a reduction target, so that the effect of gradually enlarging the visual field and transitioning from the second enlarged image to the transition picture can be generated. By sequentially connecting the fifth transition segment, the transition picture and the sixth transition segment, the effect of returning from the second magnified image to the transition view angle and then returning from the transition view angle to the current roaming view angle can be generated, and finally the transition is frozen on the view angle picture, so that the effect animation in the process of returning from the second magnified image to the roaming view angle corresponding to the view angle picture can be obtained.

Compared with the two exemplary implementation manners, the routes in the roaming view angle process corresponding to the second magnified image back view angle picture in the generated second linkage effect have slight differences, but the user can obtain the experience of the roaming view angle corresponding to the second magnified image back view angle picture.

It should be understood that the above two implementations are only exemplary, and in this embodiment, other implementations may also be used to generate the second engagement effect, for example, other routes may be used to present the process of moving back from the second magnified image to the current roaming perspective. The present embodiment is not limited thereto. Accordingly, in this embodiment, the second linkage effect may be generated based on the view angle picture and the second magnified image, and the picture that may be observed by the user in the process of returning from the second magnified image to the current roaming view angle may be vividly simulated through the second linkage effect, and a sense of reality of returning from the second magnified image to the current roaming view angle may be created for the user without increasing the roaming view angle for the second magnified image.

In the overall implementation process of the information display method provided by the embodiment of the application, in the panoramic roaming mode, the first picture corresponding to the first roaming view angle in the panoramic picture is displayed on the graphical user interface, the first input of the user to the target mark label in the first picture is received, the target high-definition image corresponding to the target mark label is obtained in response to the first input, the target area associated with the target mark label is updated according to the target high-definition image, the target picture including the first amplified image corresponding to the target high-definition image is displayed on the graphical user interface, the target area associated with the target mark label can be updated to the target high-definition image with higher definition based on the first input of the user, the first amplified image corresponding to the target high-definition image is displayed, amplification of local high-definition details is achieved, the sense of reality of the local detail display process is effectively enhanced, and the browsing experience of the user is optimized.

Further, the storage pressure of the electronic equipment can be reduced by storing the detailed data corresponding to each tag in the server, and the target high-definition image fed back by the server is received by sending an image acquisition request to the server, so that the target high-definition image is acquired based on the communication between the electronic equipment and the server. The target area in the panoramic picture is covered according to the target high-definition image, the target area can be updated in a relatively simple mode, and the updating efficiency can be improved. By updating the display picture of the graphical user interface from the first picture to the second picture and adjusting the target mark label to a target position for display, the target mark label receiving the first input can be displayed at a preset position, and a position is selected in advance for displaying a target high-definition image corresponding to a subsequent target mark label on the graphical user interface; by carrying out amplification processing on the intermediate image, a first amplified image corresponding to the target high-definition image is presented on the graphical user interface, and amplification of local high-definition details can be achieved. In the single image display mode, the second amplified image corresponding to the target high-definition image is displayed through the graphical user interface, so that a user can be completely immersed in the single image display mode, the experience of focusing on observing local details is obtained, and the amplified image corresponding to the target high-definition image can be displayed in different modes.

An embodiment of the present application further provides an information display apparatus, which provides a graphical user interface through an electronic device, and as shown in fig. 5, the apparatus includes:

a first display module 501, configured to display, in a panoramic roaming mode, a first picture corresponding to a first roaming viewing angle on the graphical user interface, where the first picture is a local picture of a panoramic picture corresponding to the panoramic roaming mode, and the panoramic picture is provided with a plurality of tag labels;

a receiving module 502 for receiving a first input for a target markup tag of the plurality of markup tags;

an obtaining module 503, configured to obtain, in response to the first input, a target high-definition image corresponding to the target tag;

an updating module 504, configured to update, according to the target high-definition image, a target area associated with the target tag in the panoramic picture;

a second displaying module 505, configured to display, on the graphical user interface, a target picture that includes the first enlarged image corresponding to the target high-definition image.

Optionally, each tag of the plurality of tag tags corresponds to at least one high definition image; the acquisition module includes:

the request submodule is used for responding to the first input of the target mark label and sending an image acquisition request carrying identification information corresponding to the target mark label to a server;

the receiving submodule is used for receiving a target high-definition image corresponding to the target mark label fed back by the server;

Optionally, the update module is further configured to:

Optionally, in a case where the target mark-up tag is in a first position distinct from the target position of the graphical user interface, the apparatus further comprises:

a third displaying module, configured to, after the receiving module receives the first input on a target markup tag in the plurality of markup tags, display, in response to the first input, a second screen presented by the target markup tag at the target location on the graphical user interface;

Optionally, the second display module comprises:

the first amplification sub-module is used for amplifying a first intermediate picture, the first intermediate picture is a picture generated by updating a target area in the second picture based on the target high-definition picture, and the first intermediate picture corresponds to the second roaming view angle;

the first display sub-module is used for displaying the target picture, which is displayed in a first area of the graphical user interface, of a first amplified image corresponding to the target high-definition image on the graphical user interface;

Optionally, in a case that the target mark-up tag is at a target position of the graphical user interface, the second presentation module includes:

the second amplification sub-module is used for amplifying a second intermediate image, the second intermediate image is generated by updating a target area in the first image based on the target high-definition image, and the second intermediate image corresponds to the first roaming view angle;

the second display sub-module is used for displaying the target picture, which is displayed in a second area of the graphical user interface, of the first amplified image corresponding to the target high-definition image on the graphical user interface;

Optionally, the apparatus further comprises:

the switching module is used for responding to a second input of the first amplified image corresponding to the target high-definition image and switching to a single-image display mode after the second display module displays a target picture comprising the first amplified image corresponding to the target high-definition image on the graphical user interface;

the fourth display module is used for displaying a second amplified image corresponding to the target high-definition image on the graphical user interface in the single image display mode;

The information display device provided by the embodiment of the application displays a first picture corresponding to a first roaming visual angle in a panoramic picture on a graphical user interface in a panoramic roaming mode, receives a first input of a user to a target mark label in the first picture, acquires a target high-definition image corresponding to the target mark label in response to the first input, updates a target area associated with the target mark label according to the target high-definition image, displays the target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface, can update the target area associated with the target mark label to a target high-definition image with higher definition based on the first input of the user, and displays the first amplified image corresponding to the target high-definition image, thereby realizing amplification of local high-definition, effectively enhancing the sense of reality in a local detail display process, and optimizing the browsing experience of the user.

Further, the storage pressure of the electronic equipment can be reduced by storing the detailed data corresponding to each tag in the server, and the target high-definition image fed back by the server is received by sending an image acquisition request to the server, so that the target high-definition image is acquired based on the communication between the electronic equipment and the server. The target area in the panoramic picture is covered according to the target high-definition image, so that the target area can be updated in a relatively simple mode, and the updating efficiency can be improved. By updating the display picture of the graphical user interface from the first picture to the second picture and adjusting the target mark label to a target position for display, the target mark label receiving the first input can be displayed at a preset position, and a position is selected in advance for displaying a target high-definition image corresponding to a subsequent target mark label on the graphical user interface; by carrying out amplification processing on the intermediate image, a first amplified image corresponding to the target high-definition image is presented on the graphical user interface, and amplification of local high-definition details can be achieved. In the single image display mode, the second amplified image corresponding to the target high-definition image is displayed through the graphical user interface, so that a user can be completely immersed in the single image display mode, the experience of focusing on observing local details is obtained, and the amplified image corresponding to the target high-definition image can be displayed in different modes.

The information display device in the embodiment of the present application may be a device, and may also be a component, an integrated circuit, or a chip in a terminal. The device can be mobile electronic equipment or non-mobile electronic equipment. For the apparatus embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and reference may be made to the partial description of the method embodiment for relevant points.

On the other hand, the embodiment of the present application further provides an electronic device, which includes a memory, a processor, a bus, and a computer program stored on the memory and executable on the processor, and the processor implements the steps in the information display method when executing the program.

Fig. 6 shows a physical structure diagram of an electronic device, for example as follows.

As shown in fig. 6, the apparatus may include: a processor (processor) 610, a communication Interface 620, a memory (memory) 630 and a communication bus 640, wherein the processor 610, the communication Interface 620 and the memory 630 complete communication with each other through the communication bus 640. By providing a graphical user interface via an electronic device, the processor 610 may invoke logic instructions in the memory 630 to perform the following steps: in a panoramic roaming mode, displaying a first picture corresponding to a first roaming visual angle on a graphical user interface, wherein the first picture is a local picture of a panoramic picture corresponding to the panoramic roaming mode, and a plurality of mark labels are arranged in the panoramic picture; receiving a first input to a target markup tag of the plurality of markup tags; responding to the first input, and acquiring a target high-definition image corresponding to the target mark label; updating a target area associated with the target mark label in the panoramic picture according to the target high-definition image; and displaying a target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface. The processor 610 may also call logic instructions in the memory 630 to perform other aspects of the embodiments of the present application, which are not further described herein.

In addition, the logic instructions in the memory 630 may be implemented in software functional units and stored in a computer readable storage medium when the logic instructions are sold or used as independent products. Based on such understanding, the technical solutions of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product, which is stored in a storage medium and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk, and various media capable of storing program codes.

In another aspect, an embodiment of the present application further provides a computer-readable storage medium, on which a computer program is stored, where the computer program, when executed by a processor, implements the steps in the information display method provided in each of the foregoing embodiments.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. Based on the understanding, the above technical solutions substantially or otherwise contributing to the prior art may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the various embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present application.

Claims

1. An information display method, wherein a graphical user interface is provided by an electronic device, the method comprising:

receiving a first input to a target markup tag of the plurality of markup tags;

and displaying a target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface, wherein the first amplified image is obtained by amplifying the area of the target high-definition image in the first picture.

2. The method of claim 1, wherein each of the plurality of tag tags corresponds to at least one high definition image;

the responding to the first input, acquiring a target high-definition image corresponding to the target mark label, including:

3. The method according to claim 1, wherein the updating of the target area associated with the target mark-up tag in the panoramic picture according to the target high-definition image comprises:

4. The method of claim 1, wherein, after receiving the first input for a target markup tag of the plurality of markup tags, with the target markup tag in a first position distinct from the target position of the graphical user interface, the method further comprises:

wherein the second frame corresponds to a second roaming viewing angle that is different from the first roaming viewing angle.

5. The method according to claim 4, wherein the presenting, on the graphical user interface, the target picture including the first magnified image corresponding to the target high definition image comprises:

6. The method according to claim 1, wherein in a case that the target mark-up tag is at a target position of the graphical user interface, the presenting a target picture including a first enlarged image corresponding to the target high-definition image on the graphical user interface comprises:

amplifying a second intermediate picture, wherein the second intermediate picture is generated by updating a target area in the first picture based on the target high-definition image, and the second intermediate picture corresponds to the first roaming view angle;

7. The method according to claim 1, wherein after the graphical user interface displays the target picture comprising the first magnified image corresponding to the target high definition image, the method further comprises:

in the single image display mode, displaying a second amplified image corresponding to the target high-definition image on the graphical user interface;

8. An information display apparatus, characterized in that a graphical user interface is provided by an electronic device, the apparatus comprising:

and the second display module is used for displaying a target picture comprising a first amplified image corresponding to the target high-definition image on the graphical user interface, wherein the first amplified image is obtained by amplifying the area of the target high-definition image in the first picture.

9. An electronic device, comprising a processor, a memory, and a computer program stored on the memory and executable on the processor, the computer program, when executed by the processor, implementing the steps of the information display method according to any one of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the steps of the information display method according to any one of claims 1 to 7.