CN114255331A - Information display method, device, equipment and storage medium - Google Patents

Abstract

The application provides an information display method, an information display device, information display equipment and a storage medium, wherein the method comprises the following steps: displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic image of a target vehicle; displaying a two-dimensional vehicle model diagram of the target vehicle on a second interactive interface, wherein the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation; responding to a first interactive operation on the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state adaptive to the first display state to a fourth display state adaptive to the second display state according to the linkage relation; the first target image is a two-dimensional vehicle model map or a three-dimensional panoramic image, and the second target image is a three-dimensional panoramic image or a two-dimensional vehicle model map. According to the method and the device, the user can conveniently and rapidly synchronously control the three-dimensional panoramic image and the two-dimensional vehicle model image of the target vehicle, and the experience of the user is improved.

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

In a Virtual Reality (VR)/Augmented Reality (AR) viewing scenario, live-action vehicles may be shown. The user can browse the appearance, interior details and the like of the vehicle on line without arriving at the site. However, the experience of the user is poor in the whole browsing process.

Disclosure of Invention

The embodiment of the application provides an information display method, device, equipment and storage medium, and aims to solve the problem that in the prior art, when a vehicle is browsed in an online mode, user experience is poor.

In a first aspect, an embodiment of the present application provides an information display method, including:

displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic picture corresponding to a target vehicle;

displaying a two-dimensional vehicle model diagram corresponding to the target vehicle on a second interactive interface, wherein the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation;

responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation;

wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map.

In a second aspect, an embodiment of the present application provides an information display apparatus, including:

the first display module is used for displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic image corresponding to a target vehicle;

the second display module is used for displaying a two-dimensional vehicle model diagram corresponding to the target vehicle on a second interactive interface, and the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation;

the processing module is used for responding to first interactive operation on the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation;

wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map.

In a third aspect, an embodiment of the present application provides an electronic terminal, including a processor, a memory, and a computer program stored on the memory and executable on the processor, where the computer program, when executed by the processor, 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, the local picture of the three-dimensional panorama corresponding to the target vehicle is displayed on the first interactive interface, the two-dimensional vehicle model map which is corresponding to the target vehicle and has the linkage relation with the three-dimensional panorama is displayed on the second interactive interface, when the first interactive operation aiming at the three-dimensional panorama or the two-dimensional vehicle model map is received, the other image is controlled to perform linkage response according to the linkage relation, the three-dimensional panorama and the two-dimensional vehicle model map of the target vehicle can be conveniently and synchronously controlled by a user, and the experience of the user is improved.

Drawings

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

FIG. 2a is a schematic view of a first perspective view and a two-dimensional vehicle model map displayed on the same interactive interface according to an embodiment of the present application;

fig. 2b is a schematic diagram illustrating that a first view screen is displayed on a first interactive interface of a first electronic terminal according to an embodiment of the present application;

FIG. 2c is a schematic diagram of a two-dimensional vehicle model map displayed on a second interactive interface of a second electronic terminal according to the embodiment of the present application;

FIG. 3a is a schematic diagram of a target camera point location before being updated according to an embodiment of the present application;

FIG. 3b is a schematic diagram illustrating a target camera point location after being updated according to an embodiment of the present application;

FIG. 4a is a schematic diagram of a target camera point before a shooting angle of view is updated according to an embodiment of the present disclosure;

FIG. 4b is a schematic diagram illustrating an updated view angle of the target camera point according to an embodiment of the present disclosure;

FIG. 5 is a schematic diagram of an information display device according to an embodiment of the present disclosure;

fig. 6 shows a schematic diagram of an electronic terminal 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, 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 its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

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

The information display method in the embodiment of the application can be operated on an electronic terminal or a server. The electronic terminal may be a local electronic terminal. When the information display method is operated on the server, cloud display can be performed.

In an alternative embodiment, the cloud display refers to a cloud computing-based information display mode. In the cloud display operation mode, an operation main body of an information processing program and a presentation main body of an information picture are separated, data storage and operation corresponding to an information display method can be completed on a cloud display server, and a cloud display client is used for receiving and sending data and presenting the picture, for example, the cloud display client can be a display device with a data transmission function close to a user side, such as a mobile terminal, a television, a computer, a palm computer and the like; but the equipment for processing the information data is a cloud display server at the cloud end. When information browsing is carried out, a user operates the cloud display client to send an operation instruction to the cloud display server, the cloud display server displays related pictures according to the operation instruction, data are coded and compressed and are returned to the cloud display client through a network, and finally the cloud display client decodes the data and outputs the corresponding pictures.

In another alternative embodiment, the electronic terminal may be a local electronic terminal. The local electronic terminal stores an application program and is used for presenting an application interface. The local electronic terminal interacts with the user through a graphical user interface, i.e. downloads the installation application and runs it conventionally. The manner in which the local electronic terminal provides the graphical user interface to the user may include a variety of ways, for example, it may be rendered for display on a display screen or provided to the user by holographic projection. For example, the local electronic terminal may include a display screen for presenting a graphical user interface including an application screen and a processor for running the application program, generating the graphical user interface, and controlling the graphical user interface to be displayed on the display screen.

When the electronic terminal is a local electronic terminal, the electronic terminal may be an electronic terminal such as a desktop computer, a notebook computer, a tablet computer, a mobile terminal, and a VR device. Wherein, VR equipment can include computer, VR head mounted device and VR controlgear etc..

The electronic terminal can run application programs, such as life application programs, audio application programs, game application programs and the like. The life application programs can be further divided according to different types, such as car renting and selling application programs, house renting and selling application programs, home service application programs, entertainment application programs and the like. The embodiment of the application is exemplified by running a car renting and selling application program on a mobile terminal, and it is understood that the application is not limited thereto.

Fig. 1 is a schematic flow chart of an information display method according to an exemplary embodiment of the present application, and referring to fig. 1, the method includes:

step 101, displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic image corresponding to a target vehicle.

In this embodiment, the target vehicle is a vehicle that needs to be shown to the user, and the three-dimensional panorama of the target vehicle may be a panorama (2D image) of the target vehicle attached to a ball, or generated as a sky box, so as to improve the live view viewing effect of the user, so that corresponding pictures can be viewed at different roaming viewing angles, thereby obtaining a panoramic roaming experience. The three-dimensional panorama of the target vehicle may also be a picture corresponding to a space model generated after the space modeling of the target vehicle is performed, the space model generated through the space modeling corresponds to a virtual three-dimensional space, and in the virtual three-dimensional space, a user may continuously switch a roaming viewing angle through operations such as clicking a roaming point, adjusting the roaming viewing angle, and the like, so that experience of panoramic roaming is obtained.

The content displayed by the graphical user interface provided by the electronic terminal comprises a first interactive interface, and a first visual angle picture is displayed on the first interactive interface, namely the first interactive interface displays a local picture of a three-dimensional panoramic image corresponding to the target vehicle.

And 102, displaying a two-dimensional vehicle model diagram corresponding to the target vehicle on a second interactive interface, wherein the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation.

The content displayed by the graphical user interface provided by the electronic terminal comprises a second interactive interface, a two-dimensional vehicle model graph corresponding to the target vehicle is displayed on the second interactive interface, and the two-dimensional vehicle model graph corresponding to the target vehicle and the three-dimensional panoramic graph corresponding to the target vehicle form a linkage relation.

The linkage relation means that for the three-dimensional panoramic image and the two-dimensional vehicle model image, one display state changes, and the other display state changes accordingly.

103, in response to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation; wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map.

In this embodiment, the first interactive operation may be initiated for the three-dimensional panorama or the two-dimensional vehicle model map, and the first interactive operation may be initiated by a user or a service person, which is not limited to this. The electronic terminal can respond to the first interactive operation, control the first target image to be updated from a first display state to a second display state, and control the second target image to be updated from a third display state to a fourth display state according to the linkage relation, wherein the third display state is adaptive to the first display state, the fourth display state is adaptive to the second display state, the first display state and the third display state are initial display states, and the second display state and the fourth display state are updated display states.

And under the condition that the first target image is a two-dimensional vehicle model image and the second target image is a three-dimensional panoramic image, responding to the first interactive operation, controlling the two-dimensional vehicle model image to be updated from a first display state to a second display state, and displaying the three-dimensional panoramic image in a fourth display state on the first interactive interface based on the linkage relation. And under the condition that the first target image is a three-dimensional panoramic image and the second target image is a two-dimensional vehicle model image, responding to the first interactive operation, displaying the three-dimensional panoramic image in the second display state on the first interactive interface, and displaying the two-dimensional vehicle model image in the fourth display state on the second interactive interface based on the linkage relation.

According to the implementation process, the local picture of the three-dimensional panorama corresponding to the target vehicle is displayed on the first interactive interface, the two-dimensional vehicle model map which is corresponding to the target vehicle and has the linkage relation with the three-dimensional panorama is displayed on the second interactive interface, and when the first interactive operation aiming at the three-dimensional panorama or the two-dimensional vehicle model map is received, the other image is controlled to perform linkage response according to the linkage relation, so that the three-dimensional panorama and the two-dimensional vehicle model map of the target vehicle can be conveniently and rapidly and synchronously controlled by a user, and the experience of the user is improved.

In this embodiment of the application, the second interactive interface and the first interactive interface are the same interactive interface on a first electronic terminal, and the first viewing angle picture and the two-dimensional vehicle model map are located in different areas of the same interactive interface, or the two-dimensional vehicle model map is displayed in a stacked manner on the first viewing angle picture with a preset transparency;

or the second interactive interface and the first interactive interface are different interactive interfaces on the first electronic terminal;

or the second interactive interface is an interactive interface on a second electronic terminal, the first interactive interface is an interactive interface on a first electronic terminal, and the second electronic terminal is in communication connection with the first electronic terminal.

The first interactive interface and the second interactive interface can be displayed on the same electronic terminal, and the second interactive interface and the first interactive interface can be the same interactive interface on the first electronic terminal or different interactive interfaces on the first electronic terminal. For the case that the second interactive interface and the first interactive interface are the same interactive interface on the first electronic terminal, the first perspective picture and the two-dimensional vehicle model map may be located in different areas of the same interactive interface (e.g., the first interactive interface), for example, the first perspective picture is located in a center area of the first interactive interface, and the two-dimensional vehicle model map is located in an edge area of the first interactive interface. The center area and the edge area of the first interactive interface are relative, and the positions of the center area and the edge area are different according to different shapes of the interactive interfaces. For example, if the interactive interface is a circle, the center region of the interactive interface refers to a small circle whose center is the same as the circle and whose radius is smaller than the circle, and the edge region of the interactive interface refers to an annular region excluding the small circle region corresponding to the center region in the circle region, although the center region may be of other shapes, the edge region may be of other shapes, and this is not limited. For another example, if the interactive interface is a rectangle, the center region of the interactive interface is the center region of the rectangle, and the edge regions of the interactive interface are the regions at the four corners of the rectangle, for example, the lower left corner region, the upper left corner region, the lower right corner region, and the upper right corner region. Referring to fig. 2a, a first view picture and a two-dimensional vehicle model map are shown by taking an example that an interactive interface is rectangular and an edge area of the interactive interface is an upper right corner area of the interactive interface. The first visual angle picture and the two-dimensional vehicle model map can be displayed in a stacked mode on the same interactive interface, namely the two-dimensional vehicle model map is displayed in the first visual angle picture in a stacked mode with preset transparency, different pictures are displayed on the same interactive interface in a stacked mode, and the displayed content cannot be covered.

And aiming at the condition that the second interactive interface and the first interactive interface are different interactive interfaces on the first electronic terminal, the position relation between the first interactive interface and the second interactive interface is not limited. For example, the first interactive interface and the second interactive interface may be side-by-side, such as top-to-bottom or side-to-side; the first interactive interface and the second interactive interface can also be in a diagonal relationship, for example, the first interactive interface is positioned at the upper left or the lower right of the second interactive interface, and the like; the first interactive interface and the second interactive interface may also overlap, e.g., the first interactive interface is located on the second interactive interface, the two interactive interfaces are displayed in a stack, etc. The interface sizes of the first interactive interface and the second interactive interface are not limited, for example, the interface size of the first interactive interface is larger than the interface size of the second interactive interface, or the interface size of the first interactive interface is smaller than the interface size of the second interactive interface.

The first interactive interface and the second interactive interface can also be displayed on different electronic terminals. The first interactive interface is an interactive interface on the first electronic terminal, the second interactive interface is an interactive interface on the second electronic terminal, and the second electronic terminal is in communication connection with the first electronic terminal. As shown in fig. 2b and 2c, a first interactive interface is displayed on the first electronic terminal, and a second interactive interface is displayed on the second electronic terminal.

It should be noted that, since the two-dimensional vehicle model map cannot show the detailed information of the target vehicle, the detailed information of the target vehicle needs to be shown by the three-dimensional panorama. Thus, the interface size of the second interactive interface may be smaller than the interface size of the first interactive interface. In the case where two electronic terminals are displayed for the first interactive interface and the second interactive interface, the screen size of the second electronic terminal (for displaying the two-dimensional vehicle model map) may be smaller than the screen size of the first electronic terminal.

In an optional embodiment of the present application, a first camera point location of a first display pattern and at least one second camera point location of a second display pattern are displayed in the two-dimensional vehicle model map, and the first camera point location is a target camera point location;

and the shooting visual angle corresponding to the target camera point location is matched with the first visual angle picture, and the first visual angle picture corresponds to a first roaming visual angle of a first roaming point.

The two-dimensional vehicle model map comprises a first camera point location and at least one second camera point location, wherein the first camera point location is a target camera point location in a first display mode, a shooting visual angle corresponding to the target camera point location is matched with a first visual angle picture, the first visual angle picture corresponds to a first roaming visual angle of a first roaming point in the three-dimensional panorama, namely the shooting visual angle corresponding to the target camera point location and the first roaming visual angle are matched visual angles.

Next, a process of updating the display state in response to the first interactive operation will be described with respect to a case where the first interactive operation is the viewing angle switching operation. Wherein, when the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panoramic map; the method comprises the following steps of responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation, wherein the method comprises one of the following schemes:

responding to the visual angle switching operation of the two-dimensional vehicle model map, updating the target camera point position, and controlling the first interactive interface to display a second visual angle picture matched with the updated target camera point position according to the linkage relation, wherein the second visual angle picture is a local picture corresponding to a second roaming point in the three-dimensional panoramic map, the two-dimensional vehicle model map after updating the target camera point position corresponds to the second display state, and the second visual angle picture corresponds to the fourth display state;

responding to the visual angle switching operation of the target camera point, adjusting the shooting visual angle corresponding to the target camera point, and controlling the first interactive interface to display a third visual angle picture matched with the adjusted shooting visual angle according to the linkage relation, wherein the third visual angle picture is a local picture of a second roaming visual angle corresponding to the first roaming point in the three-dimensional panorama, the two-dimensional vehicle model picture after the shooting visual angle corresponding to the target camera point is adjusted corresponds to the second display state, and the third visual angle picture corresponds to the fourth display state.

When the first target image is a two-dimensional vehicle model map and the second target image is a three-dimensional panorama, the method may correspond to one of the following two schemes when controlling the first target image to be updated from the first display state to the second display state and controlling the second target image to be updated from the third display state to the fourth display state according to the linkage relationship.

Scheme one is first introduced below:

and in response to the visual angle switching operation on the two-dimensional vehicle model map, updating the target camera point position from the first camera point position to one of the at least one second camera point position, namely, in response to the visual angle switching operation, screening one camera point position from the at least one second camera point position, and determining the camera point position as the target camera point position. For the first camera point location, it is no longer the target camera point location. And under the condition of updating the target camera point location, controlling the first interactive interface to display a second visual angle picture matched with the updated target camera point location according to the linkage relation so as to realize responding to visual angle switching operation of the two-dimensional vehicle model map, controlling the target camera point location to be updated and driving the first interactive interface to perform linkage response. And aiming at the second visual angle picture, the second visual angle picture is a local picture corresponding to a second roaming point in the three-dimensional panorama, specifically is a visual angle picture corresponding to a default roaming visual angle of the second roaming point, and the default roaming visual angle corresponding to the second roaming point is matched with the updated default shooting visual angle of the target camera point. The second roaming point is a roaming point which is different from the first roaming point in the three-dimensional panorama, and the roaming point in the three-dimensional panorama and a camera point in the two-dimensional vehicle model map can form a mapping relation.

Updating the two-dimensional vehicle model map before the target camera point location to correspond to a first display state, and updating the two-dimensional vehicle model map after the target camera point location to correspond to a second display state; the first perspective picture corresponds to a third display state of the three-dimensional panorama, and the second perspective picture corresponds to a fourth display state of the three-dimensional panorama.

Wherein the updating the target camera point location in response to the view switching operation on the two-dimensional vehicle model map comprises: in response to a first selection operation in the at least one second camera point location, updating the target camera point location from the first camera point location to the selected second camera point location; updating the first camera point location to the second display style, and updating the selected second camera point location to the first display style.

When the target camera point location is updated in response to the view switching operation, specifically, a first selection operation in at least one second camera point location is received, and the selected second camera point location is determined as the updated target camera point location in response to the first selection operation, where the view switching operation at this time is the first selection operation. Because the selected second camera point location is used as the updated target camera point location, the first camera point location is no longer the target camera point location. After the target camera point location is updated, the first camera point location is changed into a second display pattern, and the screened second camera point location is changed into the first display pattern.

For example, referring to fig. 3a, a first camera point location (a camera point location on the right side) in the two-dimensional vehicle model map is in a first display mode, that is, a circle point identifier is presented at the first camera point location and forms a sector area, and a plurality of second camera point locations are in a second display mode, that is, a circle point identifier is presented at the second camera point location. And under the condition that a first selection operation among the plurality of second camera points is received, determining the selected second camera point as a target camera point, controlling the selected second camera point to be switched into a first display mode, and changing the first camera point into a second display mode, wherein as shown in fig. 3b, the target camera point is updated to be the upper second camera point.

In the implementation process, the target camera point location is updated to drive the first interactive interface to realize linkage response, and the first view angle picture which displays the first roaming view angle corresponding to the first roaming point in the three-dimensional panorama is switched to the second view angle picture which displays the second roaming point in the three-dimensional panorama, so that the roaming view angle is controlled to be switched by updating the target camera point location.

Scheme two is introduced below:

and responding to the visual angle switching operation of the target camera point position, and adjusting the shooting visual angle corresponding to the target camera point position. In this scheme, the target camera point is not updated, but the shooting angle of view corresponding to the target camera point changes. Wherein the adjusting the shooting angle of view corresponding to the target camera point location in response to the angle of view switching operation on the target camera point location comprises: and responding to the rotation operation of the target camera point position, and adjusting the shooting visual angle corresponding to the target camera point position.

When receiving a rotation operation of a target camera point location by a user, responding to the rotation operation, and switching a shooting visual angle corresponding to the target camera point location from a first shooting visual angle to a second shooting visual angle, wherein the visual angle switching operation is the rotation operation of the target camera point location. For example, referring to fig. 4a, a first camera point location (a camera point location on the left side, and the first camera point location being a target camera point location) in the two-dimensional vehicle model map is a first display style, that is, the first camera point location presents a dot mark and forms a sector area, the sector area faces the target vehicle in the map, and a plurality of second camera point locations are a second display style, that is, the second camera point location presents a dot mark. When the rotation operation of the first camera point location is received, the sector area is controlled to rotate, as shown in fig. 4b, so as to adjust the shooting angle corresponding to the first camera point location.

When the shooting visual angle corresponding to the target camera point location is adjusted, the first interactive interface is controlled to display a third visual angle picture matched with the adjusted shooting visual angle according to the linkage relation, so that the purpose that the shooting visual angle of the target camera point location is controlled to be updated in response to visual angle switching operation of the two-dimensional vehicle model map is achieved, and the first interactive interface is driven to perform linkage response is achieved. The third view angle picture is a local picture of a second roaming view angle corresponding to the first roaming point in the three-dimensional panorama, and the second roaming view angle and the first roaming view angle are different roaming view angles corresponding to the first roaming point.

Updating the two-dimensional vehicle model map before the shooting angle of view of the target camera point to correspond to a first display state, and updating the two-dimensional vehicle model map after the shooting angle of view of the target camera point to correspond to a second display state; the first perspective picture corresponds to a third display state of the three-dimensional panorama, and the third perspective picture corresponds to a fourth display state of the three-dimensional panorama.

In the implementation process, the first interactive interface is driven to realize linkage response by updating the shooting visual angle of the target camera point, and the first visual angle picture which displays the first roaming visual angle corresponding to the first roaming point in the three-dimensional panorama is switched to the third visual angle picture which displays the second roaming visual angle corresponding to the first roaming point in the three-dimensional panorama, so that the roaming visual angle at the same roaming point is controlled to be switched by updating the shooting visual angle of the target camera point.

Next, the process of updating the display state is described with respect to the case where the first interactive operation is the viewing angle switching operation. Wherein the first view screen displays at least one third roaming point, and when the first target image is the three-dimensional panoramic image and the second target image is the two-dimensional vehicle model image; the method comprises the following steps of responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation, wherein the method comprises one of the following schemes:

responding to the visual angle switching operation of the three-dimensional panoramic image, controlling the first interactive interface to display a fourth visual angle picture corresponding to a third target roaming point in the three-dimensional panoramic image, and updating the target camera point position according to the linkage relation, wherein the updated target camera point position is matched with the fourth visual angle picture, the fourth visual angle picture corresponds to the second display state, and the two-dimensional vehicle model map after the target camera point position is updated corresponds to the fourth display state;

and responding to the visual angle switching operation of the first roaming point, controlling the first interactive interface to display a fifth visual angle picture of a third roaming visual angle corresponding to the first roaming point in the three-dimensional panoramic image, and adjusting a shooting visual angle corresponding to the target camera point according to the linkage relation, wherein the adjusted shooting visual angle is adapted to the fifth visual angle picture, the fifth visual angle picture corresponds to the second display state, and the two-dimensional vehicle model image after the shooting visual angle corresponding to the target camera point is adjusted corresponds to the fourth display state.

When the first target image is a three-dimensional panoramic image and the second target image is a two-dimensional vehicle model image, the first target image is controlled to be updated from the first display state to the second display state, and the second target image is controlled to be updated from the third display state to the fourth display state according to the linkage relationship, the method can correspond to one of the following two schemes.

Scheme one is first introduced below:

in response to the view switching operation on the three-dimensional panorama, controlling the first interactive interface to display a fourth view picture corresponding to the third target roaming point in the three-dimensional panorama, where the fourth view picture is a view picture corresponding to a default roaming view of the third target roaming point, and the third target roaming point in this embodiment and the second roaming point in the previous embodiment (the embodiment in which the first target image is the two-dimensional vehicle model map) may be the same roaming point or different roaming points.

Wherein the controlling the first interactive interface to display a fourth view picture corresponding to a third target roaming point in the three-dimensional panorama in response to the view switching operation on the three-dimensional panorama comprises: and responding to a second selection operation in the at least one third roaming point, and controlling the first interactive interface to display a fourth visual angle picture corresponding to the selected third target roaming point.

When the first interactive interface is controlled to display a fourth visual angle picture in response to the visual angle switching operation, a second selection operation in at least one third roaming point displayed in the first visual angle picture can be received, a third roaming point is selected in response to the second selection operation, the selected third roaming point is determined as a third target roaming point, the fourth visual angle picture corresponding to the selected third target roaming point is displayed on the first interactive interface, and the display updating of the first interactive interface is achieved. The first view picture can display a plurality of roaming points, each roaming point can correspond to a view picture different from the first view picture, so that the first view picture can be switched to other view pictures, and correspondingly, the other view pictures can display the roaming points so as to continue switching the view pictures.

And under the condition that the first interactive interface is controlled to display the fourth visual angle picture, updating the target camera point location according to the linkage relation, so that the updated target camera point location is adaptive to the fourth visual angle picture, the purpose of responding to visual angle switching operation of the three-dimensional panoramic picture is achieved, the first interactive interface is controlled to update the display picture, and the target camera point location is driven to be updated based on the linkage response.

For the fourth view angle picture, the fourth view angle picture is a local picture corresponding to the third target roaming point in the three-dimensional panorama, specifically, a view angle picture corresponding to the default roaming view angle of the third target roaming point, and the default roaming view angle corresponding to the third target roaming point is matched with the default shooting view angle of the updated target camera point location.

Updating the two-dimensional vehicle model map before the target camera point location to correspond to a third display state, and updating the two-dimensional vehicle model map after the target camera point location to correspond to a fourth display state; the first perspective picture corresponds to a first display state of the three-dimensional panorama, and the fourth perspective picture corresponds to a second display state of the three-dimensional panorama. The updated target camera point location is determined among the at least one second camera point location, and for the first camera point location, the first camera point location is no longer taken as the target camera point location, and after the target camera point location is updated, the first camera point location is changed into the second display style, and the determined second camera point location is changed into the first display style.

In the implementation process, the first interactive interface is updated in response to the view switching operation, and the matched target camera point location is determined in the at least one second camera point location based on the linkage response, so that the target camera point location is updated through the switching of the roaming point.

Scheme two is introduced below:

and responding to the visual angle switching operation of the first roaming point, and controlling the first interactive interface to display a fifth visual angle picture of a third roaming visual angle corresponding to the first roaming point in the three-dimensional panorama. In the scheme, the roaming point is not changed, and the roaming view angle corresponding to the roaming point is updated.

Wherein, in response to the view switching operation on the first roaming point, controlling the first interactive interface to display a fifth view picture of a third roaming view corresponding to the first roaming point in the three-dimensional panorama, including: and responding to the operation of adjusting the roaming visual angle of the first roaming point, and controlling the first interactive interface to display a fifth visual angle picture corresponding to the third roaming visual angle.

When the view switching operation executed on the first roaming point is received, the view switching operation is responded, the current roaming view is controlled to be switched from the first roaming view corresponding to the first roaming point to a third roaming view corresponding to the first roaming point, and therefore the first interactive interface is controlled to display a fifth view picture corresponding to the third roaming view. The fifth view angle picture is a partial picture of a third roaming view angle corresponding to the first roaming point in the three-dimensional panorama, the third roaming view angle and the first roaming view angle are different view angles corresponding to the first roaming point, and the third roaming view angle and the second roaming view angle in the above embodiment (the embodiment in which the first target image is the two-dimensional vehicle model map) may be the same view angle or different view angles.

And under the condition that the first interactive interface is controlled to display the fifth visual angle picture, adjusting the shooting visual angle corresponding to the target camera point location according to the linkage relation, so that the adjusted shooting visual angle is matched with the fifth visual angle picture, the first interactive interface is controlled to display and update in response to visual angle switching operation of the first roaming point, and the shooting visual angle of the target camera point location is driven to update based on linkage response.

Updating the two-dimensional vehicle model map before the shooting angle of view of the target camera point to correspond to a third display state, and updating the two-dimensional vehicle model map after the shooting angle of view of the target camera point to correspond to a fourth display state; the first perspective picture corresponds to a first display state of the three-dimensional panorama, and the fifth perspective picture corresponds to a second display state of the three-dimensional panorama.

In the implementation process, the first interactive interface is updated by responding to the visual angle switching operation, and the shooting visual angle of the target camera point is adjusted based on the linkage response, so that the shooting visual angle of the target camera point is updated by switching the roaming visual angles.

The following describes a case where the first interactive operation is a local clicking operation. Under the condition that the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panoramic map; the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

in response to a local clicking operation on a first local area of the two-dimensional vehicle model map, acquiring a first local enlarged view corresponding to the two-dimensional vehicle model map and a second local enlarged view corresponding to the three-dimensional panoramic map;

displaying the first partially enlarged view at the second interactive interface and the second partially enlarged view at the first interactive interface;

wherein the first partially enlarged view corresponds to the second display state and the second partially enlarged view corresponds to the fourth display state.

And under the condition that a local clicking operation on a first local area of the two-dimensional vehicle model map is received, responding to the local clicking operation, acquiring a first local enlarged view corresponding to the two-dimensional vehicle model map, and acquiring a second local enlarged view corresponding to the three-dimensional panorama based on the linkage relation. At this time, the first interactive operation is a local clicking operation on the first local area. The first local enlarged view is an enlarged view corresponding to a first local area of the two-dimensional vehicle model map, the second local enlarged view is an enlarged view corresponding to a first target local area matched with the first local area in the three-dimensional panorama, the first target local area may be an area in a first visual angle picture or may not be an area in the first visual angle picture, the first local enlarged view and the second local enlarged view are preset enlarged views, for example, the first local enlarged view is determined after the first local area is enlarged according to a first preset proportion, the second local enlarged view is determined after the first target local area is enlarged according to a second preset proportion, and the first preset proportion and the second preset proportion may be the same or different. The preset magnified view can be stored in the electronic terminal, or in other devices communicating with the electronic terminal.

And under the condition that the first partial enlarged view and the second partial enlarged view are acquired, displaying the first partial enlarged view on the second interactive interface and displaying the second partial enlarged view on the first interactive interface. The two-dimensional vehicle model map before the local magnified display is not performed (before the local clicking operation is not performed) corresponds to a first display state, and the first local magnified view displayed by the second interactive interface corresponds to a second display state of the two-dimensional vehicle model map after the local magnified display is performed; before the local enlarged display is not carried out, the first visual angle picture corresponds to the third display state of the three-dimensional panoramic image, and after the local enlarged display is carried out, the second local enlarged view displayed by the first interactive interface corresponds to the fourth display state of the three-dimensional panoramic image.

In the implementation process, the first local enlarged view is displayed on the second interactive interface and the second local enlarged view is displayed on the first interactive interface in response to the local clicking operation, so that the first interactive interface and the second interactive interface can be updated based on the local clicking operation, and the corresponding local enlarged views are respectively displayed on the first interactive interface and the second interactive interface, so that a user can conveniently know the detail information in the three-dimensional panorama and the two-dimensional vehicle model map through the first interactive interface and the second interactive interface while linkage response is realized.

Correspondingly, for the case that the first interactive operation is a local clicking operation, when the first target image is the three-dimensional panoramic image and the second target image is the two-dimensional vehicle model image, the controlling the first target image to be updated from the first display state to the second display state in response to the first interactive operation on the first target image, and controlling the second target image to be updated from the third display state to the fourth display state according to the linkage relationship includes:

responding to local clicking operation on a second local area of the first visual angle picture, and acquiring a third local enlarged view corresponding to the first visual angle picture and a fourth local enlarged view corresponding to the two-dimensional vehicle model map;

displaying the third partial magnified view at the first interactive interface and the fourth partial magnified view at the second interactive interface;

wherein the third partially enlarged view corresponds to the second display state and the fourth partially enlarged view corresponds to the fourth display state.

And under the condition that local clicking operation on a second local area of the first visual angle picture is received, responding to the local clicking operation, acquiring a third local magnified view corresponding to the first visual angle picture, and acquiring a fourth local magnified view corresponding to the two-dimensional vehicle model picture based on the linkage relation. At this time, the first interactive operation is a local clicking operation on the second local area. The third local magnified view is a magnified view corresponding to a second local area of the first perspective picture, the fourth local magnified view is a magnified view corresponding to a second target local area matched with the second local area in the two-dimensional vehicle model picture, and the second target local area is a local area in an area corresponding to a target camera point location. The third partial enlarged view and the fourth partial enlarged view are preset enlarged views and can be stored in the electronic terminal or other equipment for communicating with the electronic terminal.

And under the condition that the third partial enlarged view and the fourth partial enlarged view are obtained, displaying the third partial enlarged view on the first interactive interface and displaying the fourth partial enlarged view on the second interactive interface. The two-dimensional vehicle model map before the local magnified display is not performed (before the local clicking operation is not performed) corresponds to a third display state, and a fourth local magnified view displayed by the second interactive interface corresponds to a fourth display state of the two-dimensional vehicle model map after the local magnified display is performed; before the local enlarged display is not carried out, the first visual angle picture corresponds to the first display state of the three-dimensional panoramic image, and after the local enlarged display is carried out, the third local enlarged view displayed by the first interactive interface corresponds to the second display state of the three-dimensional panoramic image.

In the implementation process, the fourth local enlarged view is displayed on the second interactive interface and the third local enlarged view is displayed on the first interactive interface in response to the local clicking operation, so that the first interactive interface and the second interactive interface can be updated based on the local clicking operation to respectively display the corresponding local enlarged views on the first interactive interface and the second interactive interface, and a user can conveniently know the detail information in the three-dimensional panorama and the two-dimensional vehicle model map through the first interactive interface and the second interactive interface while realizing the linkage response.

The following description is directed to a case where the first interaction operation is a zooming operation, where the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama; the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

determining a first reference scaling according to the scaling operation of the two-dimensional vehicle model map;

based on the first reference scaling, carrying out first scaling processing on the two-dimensional vehicle model map, and carrying out second scaling processing on the three-dimensional panoramic map according to the linkage relation;

and the view obtained by the first zooming process corresponds to the second display state, and the view obtained by the second zooming process corresponds to the fourth display state.

And for the case that the first interactive operation is a scaling operation, when the first target image is a two-dimensional vehicle model map, receiving the scaling operation executed on the two-dimensional vehicle model map, and determining a first reference scaling according to the scaling operation on the two-dimensional vehicle model map. The user can trigger the zooming operation through the double-finger sliding operation, and based on the operation, a first reference zooming proportion can be determined according to a first zooming track of the zooming operation; and performing first zooming processing on the two-dimensional vehicle model map based on the first reference zooming proportion, and performing second zooming processing on the current view of the three-dimensional panoramic map synchronously according to the linkage relation. Or, a zooming control can be arranged on the second interactive interface, and zooming operation is realized based on the zooming control. In this embodiment, a first reference scaling may be determined by triggering the scaling control, a first scaling process may be performed on the two-dimensional vehicle model map based on the first reference scaling, and a second scaling process may be performed on the current view of the three-dimensional panorama synchronously according to the linkage relationship. And the view obtained by the first zooming process represents a second display state, and the view obtained by the second zooming process represents a fourth display state.

The actual scaling of the first scaling process and the second scaling process may be the same or different. Alternatively, the actual scaling of the first scaling process and the second scaling process may be determined according to the first reference scaling and the interface size, considering that the interface sizes of the first interactive interface and the second interactive interface may be different. For example, for a second interactive interface with a smaller interface size, the actual magnification ratio may be smaller than the first reference magnification ratio, and for a first interactive interface with a larger interface size, the actual magnification ratio may be greater than or equal to the first reference magnification ratio.

Further, in a case that the actual scaling of the first scaling process is different from that of the second scaling process, the view obtained by the first scaling process may be a global view or a local view of the two-dimensional vehicle model map, and the view obtained by the second scaling process may be a local enlarged view (such as an enlarged view of the first perspective screen) or a global view of the three-dimensional panorama. For the situation that the view obtained by the first scaling processing is a global view of the two-dimensional vehicle model map, and the view obtained by the second scaling processing is a local enlarged view of the three-dimensional panorama, a view area corresponding to a vehicle local area displayed by the local enlarged view of the three-dimensional panorama can be marked in the global view of the two-dimensional vehicle model map, so that the position of the local area displayed by the three-dimensional panorama can be conveniently checked according to the global view, a user can obtain a current view angle of the three-dimensional panorama, and the spatial position of the local area in the whole vehicle is clarified.

In the implementation process, the first reference scaling is determined in response to the scaling operation of the two-dimensional vehicle model map, the two-dimensional vehicle model map is scaled based on the first reference scaling, and the three-dimensional panorama is correspondingly scaled based on the linkage relationship, so that the second interactive interface and the first interactive interface are updated, and the linkage scaling is realized.

Correspondingly, for the case that the first interaction operation is a zooming operation, in the case that the first target image is the three-dimensional panoramic image and the second target image is the two-dimensional vehicle model image; the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

determining a second reference scaling according to the scaling operation of the three-dimensional panoramic image;

performing third scaling processing on the three-dimensional panoramic image based on the second reference scaling, and performing fourth scaling processing on the two-dimensional vehicle model image according to the linkage relation;

wherein the view obtained by the third scaling corresponds to the second display state, and the view obtained by the fourth scaling corresponds to the fourth display state.

For the case where the first interactive operation is a zoom operation, when the first target image is a three-dimensional panorama and the second target image is a two-dimensional vehicle model map, a zoom operation performed on the three-dimensional panorama (specifically, the first perspective screen) is received, and a second reference zoom ratio is determined. The user can trigger the zooming operation through the double-finger sliding operation, or a zooming control can be arranged on the first interactive interface, and the zooming operation is realized based on the zooming control.

A second reference scaling may be determined based on the performed scaling operations, a third scaling process may be performed on the three-dimensional panorama image according to the second reference scaling, and a fourth scaling process may be performed on the two-dimensional vehicle model image in synchronization according to the linkage relationship. The view obtained by the third scaling represents the second display state, and the view obtained by the fourth scaling represents the fourth display state.

The actual scaling of the third scaling process and the fourth scaling process may be the same or different. And after the third scaling processing is carried out on the three-dimensional panoramic image, a local enlarged view or a global view can be obtained, and after the fourth scaling processing is carried out on the two-dimensional vehicle model image, a local enlarged view or a global view can be obtained. Considering that the interface sizes of the first interactive interface and the second interactive interface may be different, the actual scaling ratios of the third scaling process and the fourth scaling process may be determined according to the second reference scaling ratio and the interface size.

In the implementation process, the second reference scaling is determined in response to the scaling operation of the three-dimensional panoramic image, the three-dimensional panoramic image is scaled based on the second reference scaling, and the two-dimensional vehicle model image is correspondingly scaled based on the linkage relationship so as to update the first interactive interface and the second interactive interface, thereby realizing the linkage scaling.

In the above description of the information display method provided in the embodiment of the present application, by displaying the local picture of the three-dimensional panorama corresponding to the target vehicle on the first interactive interface, displaying the two-dimensional vehicle model map corresponding to the target vehicle and having a linkage relationship with the three-dimensional panorama on the second interactive interface, and when receiving the first interactive operation for the three-dimensional panorama or the two-dimensional vehicle model map, controlling another image to perform linkage response according to the linkage relationship, a user can conveniently and synchronously control the three-dimensional panorama and the two-dimensional vehicle model map of the target vehicle, and the experience of the user is improved.

Further, the first interactive interface is driven to realize linkage response by updating the target camera point position or the shooting visual angle of the target camera point position, and the switching of the roaming visual angle in the three-dimensional panoramic image is controlled by updating the target camera point position or the shooting visual angle of the target camera point position; by updating the first interactive interface and based on linkage response, the target camera point location is updated or the shooting angle of view of the target camera point location is adjusted, so that the shooting angle of view is updated through switching of roaming angles of view.

The first interactive interface and the second interactive interface are updated in response to the local clicking operation, so that corresponding local enlarged views are respectively displayed on the first interactive interface and the second interactive interface, and a user can conveniently know detailed information in the three-dimensional panorama and the two-dimensional vehicle model map through the first interactive interface and the second interactive interface while linkage response is realized.

And determining a reference scaling ratio by responding to the scaling operation, and performing corresponding scaling processing on the two-dimensional vehicle model image and the three-dimensional panoramic image on the basis of the reference scaling ratio and the linkage relation so as to update the second interactive interface and the first interactive interface and realize linkage scaling processing.

It should be noted that, a third interactive interface may also be provided in the embodiments of the present application, where the third interactive interface displays a vehicle model corresponding to a target vehicle, the vehicle model is in a linkage relationship with the two-dimensional vehicle model map and the three-dimensional panoramic map, and when a display state of the two-dimensional vehicle model map is updated, the display states of the vehicle model and the three-dimensional panoramic map are updated synchronously; correspondingly, when the display state of the vehicle model is updated, the display states of the two-dimensional vehicle model graph and the three-dimensional panoramic graph are updated synchronously; and when the display state of the three-dimensional panoramic image is updated, the display states of the two-dimensional vehicle model image and the vehicle model are updated synchronously.

The third interactive interface, the second interactive interface and the first interactive interface may be the same interactive interface or different interactive interfaces of the same electronic terminal, or interactive interfaces on two electronic terminals, or interactive interfaces on three electronic terminals, and at this time, communication connection is formed between the two electronic terminals or the three electronic terminals.

For the case where the first interactive operation is a viewing angle switching operation, the viewing angle switching operation may act on a two-dimensional vehicle model map, a three-dimensional panorama map, or a vehicle model. When the interaction is realized on the two-dimensional vehicle model map, the three-dimensional panoramic map is specifically changed to a visual angle picture displayed on the first interaction interface (to display visual angle pictures corresponding to different roaming points), and when the interaction is realized on the two-dimensional vehicle model map, the target camera point position is specifically updated. In this embodiment, the implementation manner of initiating the rotation operation is not limited, for example, the rotation operation on the vehicle model may be initiated through a single-finger drag operation, or a rotation control is included on an interactive interface corresponding to the vehicle model, and the rotation operation on the vehicle model is initiated by triggering the rotation control. After the rotation operation is initiated for the vehicle model, the corresponding rotation operation can be performed on the current view of the vehicle model according to the rotation track of the rotation operation, and the three-dimensional panoramic image and the two-dimensional vehicle model image are controlled to synchronously update the display state according to the linkage relation. The relative rotation orientation information can be displayed in real time during the rotation operation of the current view of the vehicle model. For example, the angle of rotation or the direction of rotation may be displayed by a number or an icon.

A visual angle switching control associated with the vehicle model can be displayed on the interactive interface corresponding to the vehicle model; the view switching control is associated with a fixed view of the vehicle model, for example, the fixed view of the vehicle model may be a roof view, a front view, a rear view, or an oblique side view. The implementation form of the view switching control can be, but is not limited to: knobs, icon buttons, numeric buttons, or the like. The user can quickly check the key angle of the appearance or the interior of the target vehicle through the visual angle switching control, and quickly acquire the key information. Correspondingly, when the visual angle switching operation acts on the vehicle model, the visual angle switching operation can be executed through the visual angle switching control, under the condition that the visual angle switching control is triggered, a first target visual angle corresponding to the visual angle switching operation is obtained, the first target visual angle is one of the fixed visual angles of the vehicle model, the current view of the vehicle model is switched into the view of the vehicle model under the first target visual angle, and the three-dimensional panoramic image and the two-dimensional vehicle model image are controlled to synchronously update the display state according to the linkage relation.

Besides, the explanation content can be associated with the fixed visual angle of the vehicle model, and the explanation content can be explained by Artificial Intelligence (AI), broker voice, real image or simulated image, etc. The explanation content includes information of the vehicle model at a fixed viewing angle, for example, information that the vehicle model needs to be shown at the fixed viewing angle or angle information. For example, the explanation content corresponding to the front view angle of the vehicle model includes information such as a vehicle light, a vehicle windshield, or a vehicle windshield, and the explanation content corresponding to the roof view angle of the vehicle model includes: skylight, roof rack, etc. Under the condition that the visual angle switching control is triggered, the explanation content adaptive to the first target visual angle can be acquired, the explanation content is broadcasted, and text information corresponding to the explanation content is displayed, wherein key information in the text information can be highlighted, for example, highlighted. The key information may be a problem that the user focuses on in the explanation content, for example, vehicle paint repair information or vehicle part update information, so that the user can quickly view related information.

In this embodiment, in addition to acquiring the view corresponding to the fixed view angle of the vehicle model by triggering the view angle switching control, the corresponding relationship between the keywords and the fixed view angle of the vehicle model may be preset, and the fixed view angle of the vehicle model corresponding to the target keyword is displayed under the condition that the target keyword is identified, that is, different fixed view angles of the target vehicle may be displayed in cooperation with different keywords in the explanation content, so that the user may automatically follow the explanation content of the target vehicle to know the target vehicle without manual adjustment. Specifically, in the process of explaining a target vehicle, voice explanation content aiming at the target vehicle is acquired in real time; performing semantic recognition on the voice explanation content, and if a target keyword is recognized, determining a second target view angle corresponding to the target keyword; and switching the current view of the vehicle model into the view of the vehicle model under the second target view angle, and controlling the three-dimensional panoramic view and the two-dimensional vehicle model view to synchronously update the display state according to the linkage relation. In addition, in the embodiment, the explanation content adapted to the second target view angle may be acquired, and the explanation content is used for explaining the vehicle model at the second target view angle. In addition, key information in the narrative content can also be highlighted.

For the case that the first interaction operation is a view angle switching operation, when the view angle switching operation acts on the vehicle model, the view angle switching operation may also be an update operation of a browsing view angle of a current view of the vehicle model, and at this time, in response to the operation on the vehicle model, the three-dimensional panorama and the two-dimensional vehicle model map may be controlled to be linked synchronously, when the three-dimensional panorama realizes linkage, specifically, a view angle picture displayed by the first interaction interface is changed (a picture displaying another roaming view angle of the same roaming point), and when the two-dimensional vehicle model map realizes linkage, specifically, a shooting view angle corresponding to a target camera point location is adjusted.

And when the view angle switching operation acts on the three-dimensional panorama, controlling the vehicle model and the two-dimensional vehicle model map to synchronously link according to the linkage relation, at the moment, controlling the vehicle model to rotate and the two-dimensional vehicle model map to update the target camera point position according to the update of the roaming point, and also controlling the browse view angle of the current view of the vehicle model to update and controlling the shooting view angle corresponding to the target camera point position to update under the conditions that the roaming point is not changed and the roaming view angle is updated. Correspondingly, when the view switching operation acts on the two-dimensional vehicle model map, the vehicle model and the three-dimensional panoramic map can be controlled to synchronously link according to the linkage relation, at the moment, the vehicle model can be controlled to rotate and the first interactive interface can be controlled to display a picture corresponding to another roaming point of the three-dimensional panoramic map according to the updating of the target camera point position, and the browsing view of the current view of the vehicle model can be controlled to update and the first interactive interface can be controlled to display pictures corresponding to different roaming views of the same roaming point of the three-dimensional panoramic map under the conditions that the target camera point position is unchanged and the shooting view of the target camera point position is updated. For the case where the first interactive operation is a local clicking operation, the local clicking operation may act on a two-dimensional vehicle model map, a three-dimensional panoramic view, or a vehicle model. When acting on the two-dimensional vehicle model map, local enlarged views corresponding to the two-dimensional vehicle model map, the three-dimensional panorama and the vehicle model respectively can be obtained according to the operation on the two-dimensional vehicle model map, and are displayed on a corresponding interactive interface. When the method is applied to a three-dimensional panorama or a vehicle model, a local enlarged view corresponding to each of a two-dimensional vehicle model map, a three-dimensional panorama, and a vehicle model may be acquired and displayed.

For the case where the first interaction operation is a zoom operation, the zoom operation may act on a two-dimensional vehicle model map, a three-dimensional panorama, or a vehicle model. When acting on the two-dimensional vehicle model map, the reference scaling may be determined according to an operation on the two-dimensional vehicle model map, and the two-dimensional vehicle model map, the three-dimensional panorama, and the vehicle model may be respectively subjected to corresponding scaling processing based on the reference scaling. When the scaling factor is applied to the three-dimensional panorama or the vehicle model, a reference scaling factor may be determined, and the scaling process may be performed on each of the two-dimensional vehicle model map, the three-dimensional panorama, and the vehicle model based on the reference scaling factor.

According to the implementation process, the linkage of the two-dimensional vehicle model map, the three-dimensional panoramic map and the vehicle model can be realized, a user can conveniently and rapidly control the three-dimensional panoramic map, the two-dimensional vehicle model map and the vehicle model of the target vehicle synchronously, and the experience of the user is improved.

On the other hand, the two-dimensional vehicle model map in the embodiment of the present application may be rotated when the target camera point location is updated, specifically, when an operation of updating the target camera point location acting on the two-dimensional vehicle model map is received, the target camera point location is updated and the two-dimensional vehicle model map is synchronously rotated, where the two-dimensional vehicle model map may be a top view corresponding to the target vehicle. And when receiving the operation of updating the roaming point acting on the three-dimensional panoramic image, updating the target camera point position and synchronously rotating the two-dimensional vehicle model image. In the case where the vehicle model exists, it is also possible to update the target camera point position and synchronously rotate the two-dimensional vehicle model map in accordance with the rotating operation acting on the vehicle model.

The information display device provided by the embodiment of the present application is described below for the overall description of the information display method provided by the embodiment of the present application.

An embodiment of the present application further provides an information display device, as shown in fig. 5, the device includes:

a first display module 501, configured to display a first view picture on a first interactive interface, where the first view picture is a local picture of a three-dimensional panorama corresponding to a target vehicle;

a second display module 502, configured to display, on a second interactive interface, a two-dimensional vehicle model map corresponding to the target vehicle, where the two-dimensional vehicle model map and the three-dimensional panoramic image form a linkage relationship;

the processing module 503 is configured to, in response to a first interactive operation on a first target image, control the first target image to be updated from a first display state to a second display state, and control the second target image to be updated from a third display state to a fourth display state according to the linkage relationship;

wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map.

Optionally, a first camera point location of a first display style and at least one second camera point location of a second display style are displayed in the two-dimensional vehicle model map, and the first camera point location is a target camera point location;

and the shooting visual angle corresponding to the target camera point location is matched with the first visual angle picture, and the first visual angle picture corresponds to a first roaming visual angle of a first roaming point.

Optionally, the first interactive operation is a view switching operation, and in a case that the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama;

the processing module comprises one of the following sub-modules:

the first processing submodule is used for responding to visual angle switching operation of the two-dimensional vehicle model map, updating the target camera point location, and controlling the first interactive interface to display a second visual angle picture matched with the updated target camera point location according to the linkage relation, wherein the second visual angle picture is a local picture corresponding to a second roaming point in the three-dimensional panoramic map, the two-dimensional vehicle model map after the target camera point location is updated corresponds to the second display state, and the second visual angle picture corresponds to the fourth display state;

and the second processing submodule is used for responding to the visual angle switching operation of the target camera point, adjusting the shooting visual angle corresponding to the target camera point, and controlling the first interactive interface to display a third visual angle picture matched with the adjusted shooting visual angle according to the linkage relation, wherein the third visual angle picture is a local picture of a second roaming visual angle corresponding to the first roaming point in the three-dimensional panoramic image, the two-dimensional vehicle model image after the shooting visual angle corresponding to the target camera point is adjusted corresponds to the second display state, and the third visual angle picture corresponds to the fourth display state.

Optionally, the first processing sub-module includes:

a first updating unit, configured to update the target camera point location from the first camera point location to the selected second camera point location in response to a first selection operation in the at least one second camera point location;

a second updating unit, configured to update the first camera point location to the second display style, and update the selected second camera point location to the first display style.

Optionally, the second processing sub-module is further configured to:

and responding to the rotation operation of the target camera point position, and adjusting the shooting visual angle corresponding to the target camera point position.

Optionally, the first interactive operation is a view switching operation, the first view screen displays at least one third roaming point, and when the first target image is the three-dimensional panorama and the second target image is the two-dimensional vehicle model map, the first interactive operation is a view switching operation; the processing module comprises one of the following sub-modules:

a third processing sub-module, configured to control, in response to a view switching operation on the three-dimensional panorama, the first interaction interface to display a fourth view picture corresponding to a third target roaming point in the three-dimensional panorama, and update the target camera point location according to the linkage relationship, where the updated target camera point location is adapted to the fourth view picture, the fourth view picture corresponds to the second display state, and the two-dimensional vehicle model map after updating the target camera point location corresponds to the fourth display state;

and the fourth processing submodule is used for responding to the visual angle switching operation of the first roaming point, controlling the first interactive interface to display a fifth visual angle picture of a third roaming visual angle corresponding to the first roaming point in the three-dimensional panoramic image, and adjusting the shooting visual angle corresponding to the target camera point according to the linkage relation, wherein the adjusted shooting visual angle is matched with the fifth visual angle picture, the fifth visual angle picture corresponds to the second display state, and the two-dimensional vehicle model image after the shooting visual angle corresponding to the target camera point is adjusted corresponds to the fourth display state.

Optionally, the third processing sub-module is further configured to:

and responding to a second selection operation in the at least one third roaming point, and controlling the first interactive interface to display a fourth visual angle picture corresponding to the selected third target roaming point.

Optionally, the fourth processing submodule is further configured to:

and responding to the operation of adjusting the roaming visual angle of the first roaming point, and controlling the first interactive interface to display a fifth visual angle picture corresponding to the third roaming visual angle.

Optionally, the first interactive operation is a local clicking operation, and in a case that the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama; the processing module comprises:

a first obtaining sub-module, configured to, in response to a local clicking operation on a first local area of the two-dimensional vehicle model map, obtain a first locally enlarged view corresponding to the two-dimensional vehicle model map and a second locally enlarged view corresponding to the three-dimensional panorama map;

the first display sub-module is used for displaying the first partial enlarged view on the second interactive interface and displaying the second partial enlarged view on the first interactive interface;

wherein the first partially enlarged view corresponds to the second display state and the second partially enlarged view corresponds to the fourth display state.

Optionally, the first interactive operation is a local clicking operation, and in a case that the first target image is the three-dimensional panorama and the second target image is the two-dimensional vehicle model map; the processing module comprises:

the second obtaining submodule is used for responding to local clicking operation on a second local area of the first visual angle picture, and obtaining a third local enlarged view corresponding to the first visual angle picture and a fourth local enlarged view corresponding to the two-dimensional vehicle model picture;

the second display sub-module is used for displaying the third partial enlarged view on the first interactive interface and displaying the fourth partial enlarged view on the second interactive interface;

wherein the third partially enlarged view corresponds to the second display state and the fourth partially enlarged view corresponds to the fourth display state.

Optionally, the first interactive operation is a zoom operation, in a case that the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama; the processing module comprises:

a first determining submodule, configured to determine a first reference scaling ratio according to a scaling operation on the two-dimensional vehicle model map;

the first scaling submodule is used for carrying out first scaling processing on the two-dimensional vehicle model map based on the first reference scaling and carrying out second scaling processing on the three-dimensional panoramic map according to the linkage relation;

and the view obtained by the first zooming process corresponds to the second display state, and the view obtained by the second zooming process corresponds to the fourth display state.

Optionally, the first interactive operation is a zoom operation, in a case that the first target image is the three-dimensional panorama and the second target image is the two-dimensional vehicle model map; the processing module comprises:

the second determining submodule is used for determining a second reference scaling according to the scaling operation of the three-dimensional panoramic image;

the second scaling submodule is used for carrying out third scaling processing on the three-dimensional panoramic image based on the second reference scaling and carrying out fourth scaling processing on the two-dimensional vehicle model image according to the linkage relation;

wherein the view obtained by the third scaling corresponds to the second display state, and the view obtained by the fourth scaling corresponds to the fourth display state.

Optionally, the second interactive interface and the first interactive interface are the same interactive interface on a first electronic terminal, the first view angle picture and the two-dimensional vehicle model map are located in different areas of the same interactive interface, or the two-dimensional vehicle model map is displayed in a stacked manner on the first view angle picture with a preset transparency;

or

The second interactive interface and the first interactive interface are different interactive interfaces on the first electronic terminal;

or

The second interactive interface is an interactive interface on a second electronic terminal, the first interactive interface is an interactive interface on a first electronic terminal, and the second electronic terminal is in communication connection with the first electronic terminal.

According to the information display device provided by the embodiment of the application, the local picture of the three-dimensional panorama corresponding to the target vehicle is displayed on the first interactive interface, the two-dimensional vehicle model map which is corresponding to the target vehicle and has the linkage relation with the three-dimensional panorama is displayed on the second interactive interface, and when the first interactive operation aiming at the three-dimensional panorama or the two-dimensional vehicle model map is received, the other image is controlled to perform linkage response according to the linkage relation, so that the three-dimensional panorama and the two-dimensional vehicle model map of the target vehicle can be conveniently and synchronously controlled by a user, and the experience of the user is improved.

Further, the first interactive interface is driven to realize linkage response by updating the target camera point position or the shooting visual angle of the target camera point position, and the switching of the roaming visual angle in the three-dimensional panoramic image is controlled by updating the target camera point position or the shooting visual angle of the target camera point position; by updating the first interactive interface and based on linkage response, the target camera point location is updated or the shooting angle of view of the target camera point location is adjusted, so that the shooting angle of view is updated through switching of roaming angles of view.

The first interactive interface and the second interactive interface are updated in response to the local clicking operation, so that corresponding local enlarged views are respectively displayed on the first interactive interface and the second interactive interface, and a user can conveniently know detailed information in the three-dimensional panorama and the two-dimensional vehicle model map through the first interactive interface and the second interactive interface while linkage response is realized.

And determining a reference scaling ratio by responding to the scaling operation, and performing corresponding scaling processing on the two-dimensional vehicle model image and the three-dimensional panoramic image on the basis of the reference scaling ratio and the linkage relation so as to update the second interactive interface and the first interactive interface and realize linkage scaling processing.

For the apparatus embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and reference may be made to some descriptions of the method embodiment for relevant points.

On the other hand, the embodiment of the present application further provides an electronic terminal, 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 schematic physical structure diagram of an electronic terminal, for example as follows. As shown in fig. 6, the apparatus may include: a processor (processor)610, a communication Interface (Communications Interface)620, a memory (memory)630 and a communication bus 640, wherein the processor 610, the communication Interface 620 and the memory 630 communicate with each other via the communication bus 640. By providing a graphical user interface via the electronic terminal, the processor 610 may invoke the logic instructions in the memory 630 to perform the following steps: displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic picture corresponding to a target vehicle; displaying a two-dimensional vehicle model diagram corresponding to the target vehicle on a second interactive interface, wherein the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation; responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation; wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map. The processor 610 may also call logic instructions in the memory 630 to perform other steps in 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 solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including 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 method according to 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 other various media capable of storing program codes.

In still 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 above 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 can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the 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 in the embodiments of the present application.

Claims (16)

1. An information display method, comprising:

displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic picture corresponding to a target vehicle;

displaying a two-dimensional vehicle model diagram corresponding to the target vehicle on a second interactive interface, wherein the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation;

responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation;

wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map.

2. The information display method according to claim 1, wherein a first camera point location of a first display style and at least one second camera point location of a second display style are displayed in the two-dimensional vehicle model map, the first camera point location being a target camera point location;

and the shooting visual angle corresponding to the target camera point location is matched with the first visual angle picture, and the first visual angle picture corresponds to a first roaming visual angle of a first roaming point.

3. The information display method according to claim 2, wherein the first interactive operation is a view switching operation in a case where the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama;

the method comprises the following steps of responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation, wherein the method comprises one of the following schemes:

responding to the visual angle switching operation of the two-dimensional vehicle model map, updating the target camera point position, and controlling the first interactive interface to display a second visual angle picture matched with the updated target camera point position according to the linkage relation, wherein the second visual angle picture is a local picture corresponding to a second roaming point in the three-dimensional panoramic map, the two-dimensional vehicle model map after updating the target camera point position corresponds to the second display state, and the second visual angle picture corresponds to the fourth display state;

responding to the visual angle switching operation of the target camera point, adjusting the shooting visual angle corresponding to the target camera point, and controlling the first interactive interface to display a third visual angle picture matched with the adjusted shooting visual angle according to the linkage relation, wherein the third visual angle picture is a local picture of a second roaming visual angle corresponding to the first roaming point in the three-dimensional panorama, the two-dimensional vehicle model picture after the shooting visual angle corresponding to the target camera point is adjusted corresponds to the second display state, and the third visual angle picture corresponds to the fourth display state.

4. The information display method according to claim 3, wherein the updating the target camera point location in response to the view switching operation on the two-dimensional vehicle model map includes:

in response to a first selection operation in the at least one second camera point location, updating the target camera point location from the first camera point location to the selected second camera point location;

updating the first camera point location to the second display style, and updating the selected second camera point location to the first display style.

5. The information display method according to claim 3, wherein the adjusting the shooting angle of view corresponding to the target camera point location in response to the angle of view switching operation on the target camera point location comprises:

and responding to the rotation operation of the target camera point position, and adjusting the shooting visual angle corresponding to the target camera point position.

6. The information display method according to claim 2, wherein the first interactive operation is a view switching operation, the first view screen displays at least one third roaming point, and when the first target image is the three-dimensional panorama and the second target image is the two-dimensional vehicle model map;

the method comprises the following steps of responding to a first interactive operation on a first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling a second target image to be updated from a third display state to a fourth display state according to the linkage relation, wherein the method comprises one of the following schemes:

responding to the visual angle switching operation of the three-dimensional panoramic image, controlling the first interactive interface to display a fourth visual angle picture corresponding to a third target roaming point in the three-dimensional panoramic image, and updating the target camera point position according to the linkage relation, wherein the updated target camera point position is matched with the fourth visual angle picture, the fourth visual angle picture corresponds to the second display state, and the two-dimensional vehicle model map after the target camera point position is updated corresponds to the fourth display state;

and responding to the visual angle switching operation of the first roaming point, controlling the first interactive interface to display a fifth visual angle picture of a third roaming visual angle corresponding to the first roaming point in the three-dimensional panoramic image, and adjusting a shooting visual angle corresponding to the target camera point according to the linkage relation, wherein the adjusted shooting visual angle is adapted to the fifth visual angle picture, the fifth visual angle picture corresponds to the second display state, and the two-dimensional vehicle model image after the shooting visual angle corresponding to the target camera point is adjusted corresponds to the fourth display state.

7. The information display method according to claim 6, wherein the controlling the first interactive interface to display a fourth view screen corresponding to a third target roaming point in the three-dimensional panorama in response to a view switching operation on the three-dimensional panorama comprises:

and responding to a second selection operation in the at least one third roaming point, and controlling the first interactive interface to display a fourth visual angle picture corresponding to the selected third target roaming point.

8. The information display method according to claim 6, wherein the controlling the first interactive interface to display a fifth perspective screen of a third roaming perspective corresponding to the first roaming point in the three-dimensional panorama in response to the perspective switching operation on the first roaming point comprises:

and responding to the operation of adjusting the roaming visual angle of the first roaming point, and controlling the first interactive interface to display a fifth visual angle picture corresponding to the third roaming visual angle.

9. The information display method according to claim 1, wherein the first interactive operation is a local clicking operation in a case where the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama;

the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

in response to a local clicking operation on a first local area of the two-dimensional vehicle model map, acquiring a first local enlarged view corresponding to the two-dimensional vehicle model map and a second local enlarged view corresponding to the three-dimensional panoramic map;

displaying the first partially enlarged view at the second interactive interface and the second partially enlarged view at the first interactive interface;

wherein the first partially enlarged view corresponds to the second display state and the second partially enlarged view corresponds to the fourth display state.

10. The information display method according to claim 1, wherein the first interactive operation is a local clicking operation in a case where the first target image is the three-dimensional panorama and the second target image is the two-dimensional vehicle model map;

the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

responding to local clicking operation on a second local area of the first visual angle picture, and acquiring a third local enlarged view corresponding to the first visual angle picture and a fourth local enlarged view corresponding to the two-dimensional vehicle model map;

displaying the third partial magnified view at the first interactive interface and the fourth partial magnified view at the second interactive interface;

wherein the third partially enlarged view corresponds to the second display state and the fourth partially enlarged view corresponds to the fourth display state.

11. The information display method according to claim 1, wherein the first interactive operation is a zoom operation in a case where the first target image is the two-dimensional vehicle model map and the second target image is the three-dimensional panorama;

the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

determining a first reference scaling according to the scaling operation of the two-dimensional vehicle model map;

based on the first reference scaling, carrying out first scaling processing on the two-dimensional vehicle model map, and carrying out second scaling processing on the three-dimensional panoramic map according to the linkage relation;

and the view obtained by the first zooming process corresponds to the second display state, and the view obtained by the second zooming process corresponds to the fourth display state.

12. The information display method according to claim 1, wherein the first interactive operation is a zoom operation in a case where the first target image is the three-dimensional panorama and the second target image is the two-dimensional vehicle model map;

the responding to the first interactive operation of the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation, includes:

determining a second reference scaling according to the scaling operation of the three-dimensional panoramic image;

performing third scaling processing on the three-dimensional panoramic image based on the second reference scaling, and performing fourth scaling processing on the two-dimensional vehicle model image according to the linkage relation;

wherein the view obtained by the third scaling corresponds to the second display state, and the view obtained by the fourth scaling corresponds to the fourth display state.

13. The information display method according to claim 1, wherein the second interactive interface and the first interactive interface are the same interactive interface on a first electronic terminal, the first perspective view and the two-dimensional vehicle model map are located in different areas of the same interactive interface, or the two-dimensional vehicle model map is displayed in a stacked manner on the first perspective view with a preset transparency;

or

The second interactive interface and the first interactive interface are different interactive interfaces on the first electronic terminal;

or

The second interactive interface is an interactive interface on a second electronic terminal, the first interactive interface is an interactive interface on a first electronic terminal, and the second electronic terminal is in communication connection with the first electronic terminal.

14. An information display device characterized by comprising:

the first display module is used for displaying a first visual angle picture on a first interactive interface, wherein the first visual angle picture is a local picture of a three-dimensional panoramic image corresponding to a target vehicle;

the second display module is used for displaying a two-dimensional vehicle model diagram corresponding to the target vehicle on a second interactive interface, and the two-dimensional vehicle model diagram and the three-dimensional panoramic image form a linkage relation;

the processing module is used for responding to first interactive operation on the first target image, controlling the first target image to be updated from a first display state to a second display state, and controlling the second target image to be updated from a third display state to a fourth display state according to the linkage relation;

wherein the third display state is adapted to the first display state and the fourth display state is adapted to the second display state; the first target image is the two-dimensional vehicle model map, the second target image is the three-dimensional panorama, or the first target image is the three-dimensional panorama, and the second target image is the two-dimensional vehicle model map.

15. An electronic terminal, characterized in that it comprises a processor, a memory and a computer program stored on said memory and executable on said processor, said computer program, when executed by said processor, implementing the steps of the information display method according to any one of claims 1 to 13.

16. 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 13.

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