阅读说明：本技术 车源信息的显示方法、装置、电子设备及可读介质 (Display method and device of vehicle source information, electronic equipment and readable medium ) 是由 文雅 于 2021-07-27 设计创作，主要内容包括：本发明实施例提供了一种车源信息的显示方法、装置、电子设备以及可读介质,在车源信息的展示过程中,终端可以响应于检测针对展示区域的视角选择指令,确定与视角选择指令对应的目标观察视角,该目标观察视角可以包括用于观察目标车源的外部三维模型的车辆外部观察视角,以及用于观察目标车源的内饰空间的车辆内部观察视角,终端可以根据对应的目标观察视角,将各个展示区域调整为观察视线一致的观察视角,使各个展示区域内所展示的目标车源的虚拟对象同屏同视角展示,使得用户可以直观、快速地对不同的车源信息进行比对,且不需要退出当前浏览的车源信息,有效提高了操作便利性以及获取信息效率。(The embodiment of the invention provides a display method, a device, electronic equipment and a readable medium of vehicle source information, in the display process of the vehicle source information, a terminal can respond to a visual angle selection instruction for detecting a display area and determine a target observation visual angle corresponding to the visual angle selection instruction, the target observation visual angle can comprise a vehicle external observation visual angle for observing an external three-dimensional model of a target vehicle source and a vehicle internal observation visual angle for observing an interior decoration space of the target vehicle source, the terminal can adjust each display area to an observation visual angle with a consistent observation visual line according to the corresponding target observation visual angle, so that virtual objects of the target vehicle source displayed in each display area can be displayed on the same screen at the same visual angle, a user can visually and quickly compare different vehicle source information without exiting the currently browsed vehicle source information, the operation convenience and the information obtaining efficiency are effectively improved.)

1. The display method of the vehicle source information is characterized in that a graphical user interface is provided through an electronic terminal, the content displayed by the graphical user interface comprises N display areas, wherein N is an integer greater than or equal to 2, each display area corresponds to a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and the virtual object of each target vehicle source comprises an external three-dimensional model and an interior space of the target vehicle source; wherein each display area is used for displaying an external three-dimensional model and/or an interior space of a corresponding target vehicle source, the method comprises the following steps:

in response to detecting a perspective selection instruction for the presentation area, determining a target viewing perspective corresponding to the perspective selection instruction, the target viewing perspective including at least a vehicle exterior viewing perspective for viewing an exterior three-dimensional model of the target vehicle source and a vehicle interior viewing perspective for viewing an interior space of the target vehicle source;

if the target observation visual angle is the vehicle external observation visual angle, adjusting each display area to be an initial collaborative external observation visual angle with consistent observation visual line, and displaying the external three-dimensional model of the target vehicle source displayed in each display area at the same screen and the same visual angle;

and if the target observation visual angle is the vehicle interior observation visual angle, adjusting each display area to be the initial collaborative interior observation visual angle with the consistent observation visual line, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

2. The method of claim 1, further comprising:

and if the target observation visual angle is the vehicle external observation visual angle, responding to a first visual angle switching instruction detected for any display area, acquiring a target external observation visual angle corresponding to the first visual angle switching instruction, adjusting each display area to a target collaborative external observation visual angle consistent with the observation visual line of the target external observation visual angle, and displaying the external three-dimensional model of the target vehicle source displayed in each display area on the same screen at the same visual angle.

3. The method of claim 1, further comprising:

and if the target observation visual angle is the vehicle internal observation visual angle, responding to a second visual angle switching instruction detected aiming at any display area, acquiring the target internal observation visual angle corresponding to the second visual angle switching instruction, adjusting each display area to be the target collaborative internal observation visual angle consistent with the observation visual line of the target internal observation visual angle, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

4. The method of claim 1, wherein prior to detecting a view selection instruction for the presentation area, determining a target viewing view corresponding to the view selection instruction, the method further comprises:

and responding to the detected vehicle source adding instruction aiming at the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source.

5. The method according to claim 4, wherein the obtaining N target vehicle sources corresponding to the vehicle source adding instruction in response to detecting the vehicle source adding instruction for the display area, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source comprises:

providing a vehicle source data list, wherein the vehicle source data list comprises vehicle information of M vehicle sources, each vehicle source is configured with a vehicle identifier, and M is an integer greater than N;

in response to the detection of the selection operation of adding any N vehicle sources from the vehicle source data list to the display area, determining vehicle identifications of N target vehicle sources corresponding to the selection operation, and calling virtual objects corresponding to the target vehicle sources according to the vehicle identifications of the target vehicle sources;

and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source in the N display areas.

6. The method of claim 1, wherein prior to detecting a view selection instruction for the presentation area, determining a target viewing view corresponding to the view selection instruction, the method further comprises:

responding to the detected addition of a reference vehicle source in the target display areas in the N display areas, acquiring a reference vehicle identifier corresponding to the reference vehicle source, and calling a reference virtual object corresponding to the reference vehicle source according to the vehicle identifier of the reference vehicle source;

displaying a reference virtual object corresponding to the reference vehicle source in the target display area;

acquiring a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source according to the reference vehicle identifier;

and calling a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier, and displaying the reference virtual object corresponding to the reference vehicle source in other display areas of the N display areas.

7. The method of claim 6, wherein the obtaining a reference vehicle source corresponding to the reference vehicle source according to the reference vehicle identifier and a reference vehicle identifier of the reference vehicle source comprises:

adopting the reference vehicle identification to obtain the vehicle information of the reference vehicle source,

acquiring a reference vehicle source corresponding to the reference vehicle source by using the vehicle information;

acquiring a reference vehicle identifier of the reference vehicle source;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

8. The method of claim 1, wherein the content displayed by the graphical user interface includes vehicle alignment controls for controlling each display area to display detection data of a corresponding target vehicle source, the method further comprising:

and in response to the detection of the triggering operation aiming at the vehicle comparison control, acquiring detection data of the target vehicle source displayed in each display area, and displaying the detection data at a first target position in the display area corresponding to each target vehicle source.

9. The method of claim 8, wherein the vehicle comparison control comprises a vehicle paint comparison control for controlling each display area to display vehicle paint data of a corresponding target vehicle source, and the method further comprises:

in response to the detection of the trigger operation aiming at the vehicle paint comparison control, vehicle paint data of the target vehicle source displayed in each display area are obtained, wherein the vehicle paint data comprise paint surface information and a vehicle paint thickness value;

displaying the paint information and/or the vehicle paint thickness value at a second target position in a display area corresponding to each target vehicle source;

wherein the second target position is used to identify at least one of a hood position, a side door position, a window frame position, and a rear cover position of the external three-dimensional model of the target vehicle source.

10. The method of claim 8, wherein the vehicle alignment controls comprise a gear alignment control for controlling each display area to display gear detection data of a corresponding target vehicle source, the method further comprising:

in response to the detection of the triggering operation aiming at the gear comparison control, gear detection data of the target vehicle source displayed in each display area are obtained, wherein the gear detection data at least comprise the gear shifting smoothness degree;

displaying the gear shifting smoothness degree at a third target position in a display area corresponding to each target vehicle source;

wherein the third target location is at least for identifying a gear controller location in an interior space of the target vehicle source.

11. The method of claim 8, wherein the vehicle alignment control comprises a sunroof alignment control for controlling each display area to display sunroof detection data of a corresponding target vehicle source, the method further comprising:

responding to the detected triggering operation aiming at the skylight comparison control, and acquiring skylight detection data of the target vehicle source displayed in each display area, wherein the skylight detection data at least comprises water leakage detection information;

displaying the water leakage detection information at a fourth target position in a display area corresponding to each target vehicle source;

wherein the fourth target location is at least for identifying a skylight location in an interior space of the target vehicle source; the water leakage detection information at least comprises one of water leakage detection times, water leakage detection time and water leakage detection results.

12. The method of claim 8, wherein the vehicle alignment control comprises a component alignment control for controlling each display area to display engine detection data for a corresponding target vehicle source, the method further comprising:

responding to the detected trigger operation aiming at the component comparison control, and acquiring engine detection data of the target vehicle source displayed in each display area, wherein the engine detection data at least comprises leakage detection information;

displaying the leakage detection information at a fifth target position in a corresponding display area of each target vehicle source;

wherein the fifth target location is used at least to identify an engine location in the external three-dimensional model of the target vehicle source; the leakage detection information at least comprises one of leakage detection time, leakage detection personnel and a leakage detection result.

13. The method according to claim 3, wherein the obtaining of the target internal observation angle corresponding to the second angle switching instruction in response to detecting the second angle switching instruction for any one of the display areas, and adjusting each display area to a target coordinated internal observation angle consistent with the observation line of sight of the target internal observation angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same angle, comprises:

in response to detecting a second view switching instruction for any of the presentation areas, determining roaming and/or panning view change information corresponding to the second view switching instruction;

acquiring a target internal observation visual angle matched with the visual angle change information;

and adjusting each display area to be a target collaborative internal observation visual angle which is consistent with the observation visual line of the target internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

14. The method of claim 13, wherein the view angle change information comprises gaze direction change information, and wherein determining, in response to detecting a second view angle switching instruction for any of the presentation areas, view angle change information for a roam and/or pan corresponding to the second view angle switching instruction comprises:

in response to a second sliding operation for any one of the display areas, acquiring saccade gaze direction change information corresponding to the second sliding operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

15. The method of claim 13, wherein the interior space of the target vehicle source includes at least a roaming point, wherein the perspective change information includes point location change information, and wherein determining, in response to detecting a second perspective switching command for any of the display areas, perspective change information for roaming and/or panning corresponding to the second perspective switching command comprises:

responding to the selection operation of the roaming point in any interior space, determining a target roaming point corresponding to the selection operation, and acquiring point location change information corresponding to the target roaming point;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring a target internal observation visual angle matched with the point position change information.

16. The method of claim 13, wherein the perspective change information includes gaze direction change information, wherein the content displayed by the graphical user interface further includes a second perspective switching control for the interior space, and wherein determining, in response to detecting a second perspective switching instruction for any of the display areas, perspective change information for panning and/or panning corresponding to the second perspective switching instruction comprises:

in response to a selection operation for the second view switching control, obtaining saccade gaze direction change information corresponding to the selection operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

17. The method of claim 1, further comprising:

acquiring vehicle information of each target vehicle source, and displaying the vehicle information corresponding to the target vehicle source in each display area;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

18. The display device of the vehicle source information is characterized in that a graphical user interface is provided through an electronic terminal, the content displayed by the graphical user interface comprises N display areas, wherein N is an integer greater than or equal to 2, each display area corresponds to a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and the virtual object of each target vehicle source comprises an external three-dimensional model and an interior space of the target vehicle source; wherein each display area is used for displaying an external three-dimensional model and/or an interior space of a corresponding target vehicle source, the device comprises:

a view selection module, configured to determine, in response to detecting a view selection instruction for the display area, a target viewing view corresponding to the view selection instruction, where the target viewing view at least includes a vehicle exterior viewing view for viewing an exterior three-dimensional model of the target vehicle source and a vehicle interior viewing view for viewing an interior space of the target vehicle source;

the first display module is used for adjusting each display area to be an initial collaborative external observation visual angle with a consistent observation visual line if the target observation visual angle is an external observation visual angle of the vehicle, so that the external three-dimensional model of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle;

and the second display module is used for adjusting each display area to be an initial collaborative internal observation visual angle with a consistent observation visual line if the target observation visual angle is a vehicle internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

19. An electronic device, comprising a processor, a communication interface, a memory and a communication bus, wherein the processor, the communication interface and the memory communicate with each other via the communication bus;

the memory is used for storing a computer program;

the processor, when executing a program stored on the memory, implementing the method of any of claims 1-17.

20. One or more computer-readable media having instructions stored thereon that, when executed by one or more processors, cause the processors to perform the method of any of claims 1-17.

Technical Field

The present invention relates to the field of image processing technologies, and in particular, to a method and an apparatus for displaying vehicle source information, an electronic device, and a computer readable medium.

Background

With the development of network technology and the change of user requirements, online car watching is more and more favored by users. In the process of online watching the vehicle, a user hopes to see the comparison condition among different vehicles, so that the user is helped to effectively check the comparison result among different vehicles, such as the comparison condition between a new vehicle and a second-hand vehicle of the same type, the comparison condition among different vehicles of the same price and the like. However, in the related art, a user often only can select a corresponding vehicle source post from a vehicle source data list, and then browse vehicle source information corresponding to the vehicle source post, the process only can browse one vehicle source, if comparison is needed, the currently browsed vehicle source needs to be quitted, another house source post is selected, and the operation is repeated in this way, so that the operation convenience in the vehicle source comparison process is poor, the user cannot intuitively and effectively acquire difference information between different vehicles, and the browsing experience of the user is greatly reduced.

Disclosure of Invention

The embodiment of the invention provides a display method and device of vehicle source information, electronic equipment and a computer readable storage medium, and aims to solve or partially solve the problems of poor operation convenience and non-intuitive information acquisition in a vehicle source browsing process in the related art.

The embodiment of the invention discloses a display method of vehicle source information, which provides a graphical user interface through an electronic terminal, wherein the content displayed by the graphical user interface comprises N display areas, N is an integer greater than or equal to 2, each display area corresponds to a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and the virtual object of each target vehicle source comprises an external three-dimensional model and an interior space of the target vehicle source; wherein each display area is used for displaying an external three-dimensional model and/or an interior space of a corresponding target vehicle source, the method comprises the following steps:

in response to detecting a perspective selection instruction for the presentation area, determining a target viewing perspective corresponding to the perspective selection instruction, the target viewing perspective including at least a vehicle exterior viewing perspective for viewing an exterior three-dimensional model of the target vehicle source and a vehicle interior viewing perspective for viewing an interior space of the target vehicle source;

if the target observation visual angle is the vehicle external observation visual angle, adjusting each display area to be an initial collaborative external observation visual angle with consistent observation visual line, and displaying the external three-dimensional model of the target vehicle source displayed in each display area at the same screen and the same visual angle;

and if the target observation visual angle is the vehicle interior observation visual angle, adjusting each display area to be the initial collaborative interior observation visual angle with the consistent observation visual line, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

Optionally, the method further comprises:

and if the target observation visual angle is the vehicle external observation visual angle, responding to a first visual angle switching instruction detected for any display area, acquiring a target external observation visual angle corresponding to the first visual angle switching instruction, adjusting each display area to a target collaborative external observation visual angle consistent with the observation visual line of the target external observation visual angle, and displaying the external three-dimensional model of the target vehicle source displayed in each display area on the same screen at the same visual angle.

Optionally, the method further comprises:

and if the target observation visual angle is the vehicle internal observation visual angle, responding to a second visual angle switching instruction detected aiming at any display area, acquiring the target internal observation visual angle corresponding to the second visual angle switching instruction, adjusting each display area to be the target collaborative internal observation visual angle consistent with the observation visual line of the target internal observation visual angle, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

Optionally, before the determining, in response to detecting a view selection instruction for the presentation area, a target viewing view corresponding to the view selection instruction, the method further includes:

and responding to the detected vehicle source adding instruction aiming at the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source.

Optionally, in response to detecting the vehicle source adding instruction for the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source, includes:

providing a vehicle source data list, wherein the vehicle source data list comprises vehicle information of M vehicle sources, each vehicle source is configured with a vehicle identifier, and M is an integer greater than N;

in response to the detection of the selection operation of adding any N vehicle sources from the vehicle source data list to the display area, determining vehicle identifications of N target vehicle sources corresponding to the selection operation, and calling virtual objects corresponding to the target vehicle sources according to the vehicle identifications of the target vehicle sources;

and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source in the N display areas.

Optionally, before the determining, in response to detecting a view selection instruction for the presentation area, a target viewing view corresponding to the view selection instruction, the method further includes:

responding to the detected addition of a reference vehicle source in the target display areas in the N display areas, acquiring a reference vehicle identifier corresponding to the reference vehicle source, and calling a reference virtual object corresponding to the reference vehicle source according to the vehicle identifier of the reference vehicle source;

displaying a reference virtual object corresponding to the reference vehicle source in the target display area;

acquiring a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source according to the reference vehicle identifier;

and calling a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier, and displaying the reference virtual object corresponding to the reference vehicle source in other display areas of the N display areas.

Optionally, the obtaining, according to the reference vehicle identifier, a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source includes:

adopting the reference vehicle identification to obtain the vehicle information of the reference vehicle source,

acquiring a reference vehicle source corresponding to the reference vehicle source by using the vehicle information;

acquiring a reference vehicle identifier of the reference vehicle source;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

Optionally, the content displayed by the graphical user interface includes a vehicle comparison control, and the vehicle comparison control is used to control each display area to display the detection data of the corresponding target vehicle source, and the method further includes:

and in response to the detection of the triggering operation aiming at the vehicle comparison control, acquiring detection data of the target vehicle source displayed in each display area, and displaying the detection data at a first target position in the display area corresponding to each target vehicle source.

Optionally, the vehicle comparison control includes a vehicle paint comparison control, and the vehicle paint comparison control is configured to control each display area to display vehicle paint data of a corresponding target vehicle source, and the method further includes:

in response to the detection of the trigger operation aiming at the vehicle paint comparison control, vehicle paint data of the target vehicle source displayed in each display area are obtained, wherein the vehicle paint data comprise paint surface information and a vehicle paint thickness value;

displaying the paint information and/or the vehicle paint thickness value at a second target position in a display area corresponding to each target vehicle source;

wherein the second target position is used to identify at least one of a hood position, a side door position, a window frame position, and a rear cover position of the external three-dimensional model of the target vehicle source.

Optionally, the vehicle comparison control includes a gear comparison control, and the gear comparison control is configured to control each display area to display gear detection data of a corresponding target vehicle source, where the method further includes:

in response to the detection of the triggering operation aiming at the gear comparison control, gear detection data of the target vehicle source displayed in each display area are obtained, wherein the gear detection data at least comprise the gear shifting smoothness degree;

displaying the gear shifting smoothness degree at a third target position in a display area corresponding to each target vehicle source;

wherein the third target location is at least for identifying a gear controller location in an interior space of the target vehicle source.

Optionally, the vehicle comparison control includes a sunroof comparison control, and the sunroof comparison control is configured to control each display area to display sunroof detection data of a corresponding target vehicle source, and the method further includes:

responding to the detected triggering operation aiming at the skylight comparison control, and acquiring skylight detection data of the target vehicle source displayed in each display area, wherein the skylight detection data at least comprises water leakage detection information;

displaying the water leakage detection information at a fourth target position in a display area corresponding to each target vehicle source;

wherein the fourth target location is at least for identifying a skylight location in an interior space of the target vehicle source; the water leakage detection information at least comprises one of water leakage detection times, water leakage detection time and water leakage detection results.

Optionally, the vehicle comparison control includes a component comparison control, and the component comparison control is configured to control each display area to display engine detection data of a corresponding target vehicle source, and the method further includes:

responding to the detected trigger operation aiming at the component comparison control, and acquiring engine detection data of the target vehicle source displayed in each display area, wherein the engine detection data at least comprises leakage detection information;

displaying the leakage detection information at a fifth target position in a corresponding display area of each target vehicle source;

wherein the fifth target location is used at least to identify an engine location in the external three-dimensional model of the target vehicle source; the leakage detection information at least comprises one of leakage detection time, leakage detection personnel and a leakage detection result.

Optionally, the obtaining, in response to detecting a second view switching instruction for any one of the display areas, a target internal observation view corresponding to the second view switching instruction, and adjusting each display area to a target collaborative internal observation view consistent with an observation line of the target internal observation view, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same view, includes:

in response to detecting a second view switching instruction for any of the presentation areas, determining roaming and/or panning view change information corresponding to the second view switching instruction;

acquiring a target internal observation visual angle matched with the visual angle change information;

and adjusting each display area to be a target collaborative internal observation visual angle which is consistent with the observation visual line of the target internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

Optionally, the viewing angle change information includes gaze direction change information, and the determining, in response to detecting a second viewing angle switching instruction for any one of the presentation areas, roaming and/or panning viewing angle change information corresponding to the second viewing angle switching instruction includes:

in response to a second sliding operation for any one of the display areas, acquiring saccade gaze direction change information corresponding to the second sliding operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

Optionally, the determining, in response to detecting a second view switching instruction for any one of the display areas, view change information of roaming and/or panning corresponding to the second view switching instruction includes:

responding to the selection operation of the roaming point in any interior space, determining a target roaming point corresponding to the selection operation, and acquiring point location change information corresponding to the target roaming point;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring a target internal observation visual angle matched with the point position change information.

Optionally, the view angle change information includes gaze direction change information, the content displayed by the graphical user interface further includes a second view angle switching control for the interior space, and the determining, in response to detecting a second view angle switching instruction for any of the display areas, view angle change information for roaming and/or panning corresponding to the second view angle switching instruction includes:

in response to a selection operation for the second view switching control, obtaining saccade gaze direction change information corresponding to the selection operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

Optionally, the method further comprises:

acquiring vehicle information of each target vehicle source, and displaying the vehicle information corresponding to the target vehicle source in each display area;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

The embodiment of the invention also provides a display device of the vehicle source information, which provides a graphical user interface through an electronic terminal, wherein the content displayed by the graphical user interface comprises N display areas, N is an integer greater than or equal to 2, each display area corresponds to a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and the virtual object of each target vehicle source comprises an external three-dimensional model and an interior space of the target vehicle source; wherein each display area is used for displaying an external three-dimensional model and/or an interior space of a corresponding target vehicle source, the device comprises:

a view selection module, configured to determine, in response to detecting a view selection instruction for the display area, a target viewing view corresponding to the view selection instruction, where the target viewing view at least includes a vehicle exterior viewing view for viewing an exterior three-dimensional model of the target vehicle source and a vehicle interior viewing view for viewing an interior space of the target vehicle source;

the first display module is used for adjusting each display area to be an initial collaborative external observation visual angle with a consistent observation visual line if the target observation visual angle is an external observation visual angle of the vehicle, so that the external three-dimensional model of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle;

and the second display module is used for adjusting each display area to be an initial collaborative internal observation visual angle with a consistent observation visual line if the target observation visual angle is a vehicle internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

Optionally, the method further comprises:

and the first visual angle switching module is used for responding to a first visual angle switching instruction detected for any display area if the target observation visual angle is the vehicle external observation visual angle, acquiring a target external observation visual angle corresponding to the first visual angle switching instruction, adjusting each display area to a target collaborative external observation visual angle consistent with the observation visual line of the target external observation visual angle, and displaying the external three-dimensional model of the target vehicle source displayed in each display area at the same screen and at the same visual angle.

Optionally, the method further comprises:

and the second visual angle switching module is used for responding to a second visual angle switching instruction detected aiming at any display area if the target observation visual angle is the vehicle internal observation visual angle, acquiring a target internal observation visual angle corresponding to the second visual angle switching instruction, adjusting each display area to a target collaborative internal observation visual angle consistent with the observation visual line of the target internal observation visual angle, and displaying the interior space of the target vehicle source displayed in each display area in the same screen and at the same visual angle.

Optionally, the apparatus further comprises:

and the target vehicle source determining module is used for responding to the detected vehicle source adding instruction aiming at the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source.

Optionally, the target vehicle source determining module includes:

the data list providing submodule is used for providing a vehicle source data list, and the vehicle source data list comprises vehicle information of M vehicle sources, wherein each vehicle source is configured with a vehicle identifier, and M is an integer larger than N;

the virtual object determining submodule is used for determining vehicle identifications of N target vehicle sources corresponding to the selection operation in response to the detection of the selection operation of adding any N vehicle sources from the vehicle source data list to the display area, and calling virtual objects corresponding to the target vehicle sources according to the vehicle identifications of the target vehicle sources;

and the virtual object display submodule is used for displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source in the N display areas.

Optionally, the apparatus further comprises:

the reference vehicle source determining module is used for responding to the fact that a reference vehicle source is added to the target display areas in the N display areas, acquiring a reference vehicle identifier corresponding to the reference vehicle source, and calling a reference virtual object corresponding to the reference vehicle source according to the vehicle identifier of the reference vehicle source;

the reference virtual object display module is used for displaying a reference virtual object corresponding to the reference vehicle source in the target display area;

the reference vehicle source determining module is used for acquiring a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source according to the reference vehicle identifier;

and the reference virtual object display module is used for calling a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier and displaying the reference virtual object corresponding to the reference vehicle source in other display areas of the N display areas.

Optionally, the reference vehicle source determination module includes:

the vehicle information acquisition submodule is used for acquiring the vehicle information of the reference vehicle source by adopting the reference vehicle identifier,

the reference vehicle source obtaining submodule is used for obtaining a reference vehicle source corresponding to the reference vehicle source by adopting the vehicle information;

the vehicle identification obtaining submodule is used for obtaining a reference vehicle identification of the reference vehicle source;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

Optionally, the content displayed by the graphical user interface includes a vehicle comparison control, and the vehicle comparison control is used to control each display area to display the detection data of the corresponding target vehicle source, and the apparatus further includes:

and the detection data display module is used for responding to the trigger operation aiming at the vehicle comparison control, acquiring the detection data of the target vehicle source displayed in each display area, and displaying the detection data at the first target position in the display area corresponding to each target vehicle source.

Optionally, the vehicle comparison control includes a vehicle paint comparison control, the vehicle paint comparison control is used for controlling each display area to display vehicle paint data of a corresponding target vehicle source, and the apparatus further includes:

the vehicle paint data acquisition module is used for responding to the trigger operation of the vehicle paint comparison control, and acquiring vehicle paint data of the target vehicle source displayed in each display area, wherein the vehicle paint data comprise paint surface information and a vehicle paint thickness value;

the vehicle paint data display module is used for displaying the paint information and/or the vehicle paint thickness value at a second target position in a display area corresponding to each target vehicle source;

wherein the second target position is used to identify at least one of a hood position, a side door position, a window frame position, and a rear cover position of the external three-dimensional model of the target vehicle source.

Optionally, the vehicle comparison control includes a gear comparison control, the gear comparison control is used to control each display area to display gear detection data of a corresponding target vehicle source, and the apparatus further includes:

the gear detection data acquisition module is used for responding to the detection of the trigger operation aiming at the gear comparison control, and acquiring the gear detection data of the target vehicle source displayed in each display area, wherein the gear detection data at least comprises the gear shifting smoothness degree;

the gear detection data display module is used for displaying the gear shifting smoothness degree at a third target position in a display area corresponding to each target vehicle source;

wherein the third target location is at least for identifying a gear controller location in an interior space of the target vehicle source.

Optionally, the vehicle comparison control includes a sunroof comparison control, and the sunroof comparison control is configured to control each display area to display sunroof detection data of a corresponding target vehicle source, and the apparatus further includes:

the skylight detection data acquisition module is used for responding to the detection of the triggering operation aiming at the skylight comparison control, and acquiring skylight detection data of the target vehicle source displayed in each display area, wherein the skylight detection data at least comprises water leakage detection information;

the skylight detection data display module is used for displaying the water leakage detection information at a fourth target position in a display area corresponding to each target vehicle source;

wherein the fourth target location is at least for identifying a skylight location in an interior space of the target vehicle source; the water leakage detection information at least comprises one of water leakage detection times, water leakage detection time and water leakage detection results.

Optionally, the vehicle comparison control includes a component comparison control, the component comparison control is configured to control each display area to display engine detection data of a corresponding target vehicle source, and the apparatus further includes:

the engine detection data acquisition module is used for responding to the trigger operation of the component comparison control, and acquiring engine detection data of the target vehicle source displayed in each display area, wherein the engine detection data at least comprises leakage detection information;

the engine detection data display module is used for displaying the leakage detection information at a fifth target position in a corresponding display area of each target vehicle source;

wherein the fifth target location is used at least to identify an engine location in the external three-dimensional model of the target vehicle source; the leakage detection information at least comprises one of leakage detection time, leakage detection personnel and a leakage detection result.

Optionally, the second view switching module includes:

a view change information determining sub-module, configured to determine, in response to detecting a second view switching instruction for any one of the display areas, view change information of roaming and/or panning corresponding to the second view switching instruction;

the internal observation visual angle acquisition sub-module is used for acquiring a target internal observation visual angle matched with the visual angle change information;

and the visual angle switching submodule is used for adjusting each display area to be a target collaborative internal observation visual angle which is consistent with the observation visual line of the target internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

Optionally, the viewing angle change information includes gaze direction change information, and the viewing angle change information determination submodule is specifically configured to:

in response to a second sliding operation for any one of the display areas, acquiring saccade gaze direction change information corresponding to the second sliding operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

Optionally, the interior space of the target vehicle source at least includes a roaming point, the view angle change information includes point position change information, and the view angle change information determination submodule is specifically configured to:

responding to the selection operation of the roaming point in any interior space, determining a target roaming point corresponding to the selection operation, and acquiring point location change information corresponding to the target roaming point;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring a target internal observation visual angle matched with the point position change information.

Optionally, the viewing angle change information includes gaze direction change information, the content displayed by the graphical user interface further includes a second viewing angle switching control for the interior space, and the viewing angle change information determination submodule is specifically configured to:

in response to a selection operation for the second view switching control, obtaining saccade gaze direction change information corresponding to the selection operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

Optionally, the method further comprises:

the vehicle information display module is used for acquiring the vehicle information of each target vehicle source and displaying the vehicle information corresponding to the target vehicle source in each display area;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

The embodiment of the invention also discloses electronic equipment which comprises a processor, a communication interface, a memory and a communication bus, wherein the processor, the communication interface and the memory finish mutual communication through the communication bus;

the memory is used for storing a computer program;

the processor is configured to implement the method according to the embodiment of the present invention when executing the program stored in the memory.

Also disclosed are one or more computer-readable media having instructions stored thereon, which, when executed by one or more processors, cause the processors to perform a method according to an embodiment of the invention.

The embodiment of the invention has the following advantages:

in the embodiment of the present invention, at least two display areas may be displayed through a graphical user interface of an electronic terminal, where each display area may include a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and each virtual object may include an external three-dimensional model and an interior space, where the display area may be used to display the external three-dimensional model and/or the interior space of the corresponding target vehicle source, and during the display process, the terminal may determine, in response to detecting a view angle selection instruction for the display area, a target viewing angle corresponding to the view angle selection instruction, where the target viewing angle may include a vehicle external viewing angle for viewing the external three-dimensional model of the target vehicle source and a vehicle interior viewing angle for viewing the interior space of the target vehicle source, and the terminal may adjust each display area to a viewing angle consistent with the view-line viewing according to the corresponding target viewing angle, the virtual objects of the target vehicle sources displayed in each display area are displayed in the same screen and the same view angle, so that a user can visually and quickly compare different vehicle source information without quitting the currently browsed vehicle source information, and the operation convenience and the information acquisition efficiency are effectively improved.

Drawings

Fig. 1 is a flowchart illustrating steps of a display method for vehicle source information according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an application interface provided in an embodiment of the invention;

FIG. 3 is a schematic diagram of an application interface provided in an embodiment of the present invention;

FIG. 4 is a schematic illustration of an application interface provided in an embodiment of the invention;

FIG. 5 is a schematic illustration of an application interface provided in an embodiment of the invention;

fig. 6 is a block diagram of a display device for vehicle source information provided in an embodiment of the present invention;

fig. 7 is a block diagram of an electronic device provided in an embodiment of the invention;

fig. 8 is a schematic diagram of a computer-readable medium provided in an embodiment of the invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

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

In an optional embodiment, the cloud presentation refers to an information presentation manner based on cloud computing. In the cloud display operation mode, an operation main body of an information processing program and a display main body of a vehicle source information picture are separated, data storage and operation corresponding to a display method of vehicle source information can be completed on a cloud display server, and a cloud display client is used for receiving and sending data and displaying 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 electronic terminal 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 is used for interacting with a user through a graphical user interface, that is, an installation application is downloaded and run through the electronic device 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 of the terminal 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 display of the graphical user interface 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 (Virtual Reality) device. The VR device can comprise a computer, VR head-mounted equipment, VR control equipment and the like, and a user can roam in a specified area through a vehicle source picture displayed by a display device of the VR head-mounted equipment, so that the user can actually roam in a virtual space, and meanwhile can interact with a virtual vehicle source through the VR control equipment.

The 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 present application takes the example of running the car rental and sale application on the mobile terminal as an example, and it is understood that the present invention is not limited thereto.

As an example, in the process of a user looking at a house online, different car sources often need to be compared to find a car source meeting the needs of the user, for example, a comparison situation between a new car and a second-hand car of the same model, a comparison situation between different cars of the same price, a comparison situation between vehicles of different brands, and the like. In the process, the related information of one vehicle source can be provided for the user, when the user needs to compare with another vehicle source, the user needs to quit browsing of the current vehicle source and open the related information of the other vehicle source.

In view of this, one of the core invention points of the embodiments of the present invention is to display N display areas, where N may be an integer greater than or equal to 2, each display area corresponds to a target car source, each target car source is configured with a corresponding virtual object, the virtual object of each target car source includes an external three-dimensional model of the target car source and an interior space, and the display area may be used to display the external three-dimensional model and/or the interior space of the corresponding target car source. In the comparison process of the vehicle source information, the terminal can respond to the detected view angle selection instruction aiming at the display area and determine a target observation view angle corresponding to the view angle selection instruction, wherein the target observation view angle at least comprises a vehicle external observation view angle used for observing an external three-dimensional model of the target vehicle source and a vehicle internal observation view angle used for observing an interior space of the target vehicle source, and if the target observation view angle is the vehicle external observation view angle, the terminal can adjust each display area to be an initial collaborative external observation view angle with consistent observation view lines, so that the external three-dimensional model of the target vehicle source displayed in each display area is displayed at the same screen and the same view angle; if the target observation visual angle is the vehicle internal observation visual angle, the terminal can adjust each display area to the initial collaborative internal observation visual angle with the consistent observation visual line, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle, and after the user selects the corresponding observation visual angle, the terminal can adjust the observation visual angle of each display area, so that the virtual object of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle, and further, the user can visually and rapidly compare different vehicle source information without exiting the currently browsed vehicle source information, thereby effectively improving the operation convenience and the information acquisition efficiency.

For the convenience of those skilled in the art to understand the technical solutions according to the embodiments of the present invention, some terms related to the embodiments of the present invention are explained and explained below:

each display area can correspond to a target vehicle source, in the display or comparison process of the vehicle source information, an external three-dimensional model and/or an interior space corresponding to the target vehicle source can be displayed in the display area, and meanwhile, the display area supports user operation so as to adjust a corresponding observation visual angle. The display area displayed by the terminal through the graphical user interface can comprise at least two display areas, so that a user can compare vehicle source information through virtual objects corresponding to vehicle sources displayed in different display areas.

The target vehicle source can be a vehicle, and in the display process of the vehicle, the related information of the vehicle can be displayed through the external three-dimensional model and/or the interior space.

The external three-dimensional model may be appearance information of the vehicle, for example, the external three-dimensional model of the relevant vehicle may be generated by image acquisition, recognition, synthesis, and the like; the interior space may be a vehicle interior space of the vehicle, which may also be related to the interior space of the vehicle through image acquisition, recognition, synthesis, and the like, and for the interior space, it may be displayed in a three-dimensional image model, such as a VR (Virtual Reality) image, a panoramic image, and an AR (Augmented Reality) image, and the like, which are not limited by the present invention.

And the observation visual angle can be a browsing visual angle for a user to observe the target vehicle source, and can be adjusted by inputting corresponding operation in the terminal. Wherein the viewing perspective of the display area may include a vehicle exterior viewing perspective for viewing the exterior three-dimensional model of the target vehicle source and a vehicle interior viewing perspective for viewing the interior space of the target vehicle source.

Specifically, referring to fig. 1, a flowchart of steps of a display method of vehicle source information provided in an embodiment of the present invention is shown, where a content displayed on the graphical user interface includes N display areas, where N is an integer greater than or equal to 2, each display area corresponds to a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and a virtual object of each target vehicle source includes an external three-dimensional model and an interior space of the target vehicle source; each display area is used for displaying an external three-dimensional model and/or an interior space of a corresponding target vehicle source, and the method specifically comprises the following steps:

step 101, responding to a detected view angle selection instruction aiming at the display area, determining a target observation view angle corresponding to the view angle selection instruction, wherein the target observation view angle at least comprises a vehicle external observation view angle used for observing an external three-dimensional model of the target vehicle source and a vehicle internal observation view angle used for observing an interior space of the target vehicle source;

in the embodiment of the invention, the external three-dimensional models and/or the interior spaces corresponding to the same target vehicle source can be displayed in different display areas, and the external three-dimensional models and/or the interior spaces corresponding to different target vehicle sources can also be displayed, so that a user can select the corresponding vehicle source according to the self requirement and compare the vehicle source information through the display areas.

Alternatively, the vehicle source may be a vehicle issued by an individual owner or broker in the vehicle renting and selling application; the external three-dimensional model of the target vehicle source may include information such as body color, vehicle appearance, degree of body wear, etc. of the vehicle source; the interior space of the target vehicle source can display information including ornaments, display devices (instrument screens, central control screens and the like), a steering wheel and other operating equipment in the vehicle; in addition, the vehicle detail information of the corresponding target vehicle source can be displayed in the display area, and the vehicle detail information can comprise the price, the table display history, the price, the card playing time and the like of the corresponding vehicle, so that a user can display the corresponding vehicle source through different display areas, compare different vehicle sources and further acquire the vehicle source meeting the requirements of the user.

For the vehicle source information of the target vehicle source, the vehicle source information may be information generated by acquiring data of the target vehicle in advance, and may include information displayed in a two-dimensional image mode, a three-dimensional image mode, an AR image mode, and the like, for example, the terminal may acquire the appearance of the target vehicle at different angles and then synthesize a corresponding three-dimensional model, or generate a corresponding augmented model by using an augmented reality technology, and the like, so that a user may browse the vehicle source information displayed in different image modes in a display area and compare the information to obtain a vehicle source meeting the self requirement.

In a specific implementation, before comparing the vehicle source information through different display areas, a target vehicle source that a user wants to compare may be determined, for example, the user may select different target vehicle sources to compare the vehicle source information, or the user may select one reference vehicle source, and the terminal recommends a reference vehicle source to compare the vehicle source information, which is not limited in the present invention.

In an optional embodiment, the terminal may, in response to detecting the vehicle source adding instruction for the display area, acquire N target vehicle sources corresponding to the vehicle source adding instruction, and display a virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source.

In a specific implementation, the terminal may provide, in the graphical user interface, a vehicle source data list, where the vehicle source data list may include vehicle source information of M-vehicle sources, and each vehicle source is configured with a corresponding vehicle identifier, where M is an integer greater than N, and then the terminal may determine, in response to detecting a selection operation of adding any N vehicle sources from the vehicle source data list to the display area, vehicle identifiers of N target vehicle sources corresponding to the selection operation, call virtual objects corresponding to respective target vehicle sources according to the vehicle identifiers of the target vehicle sources, and then display the virtual objects corresponding to the target vehicle sources in the display area corresponding to each target vehicle source in the N display areas.

In another optional embodiment, the user may select one reference vehicle source in addition to different target vehicle sources for vehicle source information comparison, and the terminal determines the reference vehicle source according to the reference vehicle source, so that the user may compare the calibration vehicle source with the reference vehicle source. Specifically, the terminal may, in response to detecting that a reference vehicle source is added to the target display area in the N display areas, acquire a reference vehicle identifier corresponding to the reference vehicle source, call a reference virtual object corresponding to the reference vehicle source according to the vehicle identifier of the reference vehicle source, then display the reference virtual object corresponding to the reference vehicle source in the target display area, and may further acquire a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source according to the reference vehicle identifier, then call a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier, and display a reference virtual object corresponding to the reference vehicle source in the other display areas of the N display areas.

The reference vehicle source can be a standard vehicle source selected by a user and used for vehicle source information comparison, and under the condition that the reference vehicle source is kept unchanged, a reference vehicle source of the reference vehicle source can be automatically recommended and determined according to the selection of the user or a terminal, and an external three-dimensional model and/or an interior space corresponding to the reference vehicle source and the reference vehicle source are displayed in a display area, so that the comparison of the vehicle source information of the standard vehicle source and the vehicle source information of the reference vehicle source is realized. Moreover, after each vehicle source is uploaded to a corresponding platform (such as a vehicle renting and selling platform), the platform can allocate a unique vehicle identifier for each vehicle source, so as to identify the unique vehicle source, and the platform can be used for calling virtual objects such as an external three-dimensional model and an interior space of the vehicle source, and also can be used for acquiring vehicle information of the vehicle source and the like.

Optionally, the vehicle information may include one or more of a vehicle brand, a vehicle model, a price zone, a time to market, and a vehicle color. In one example, for the determination of the reference vehicle source, the terminal may acquire vehicle information of the reference vehicle source by using a reference vehicle identifier, then acquire the reference vehicle source corresponding to the reference vehicle source by using the vehicle information, acquire the reference vehicle identifier of the reference vehicle source, then call a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier, and display the reference virtual object corresponding to the reference vehicle source in the other display areas of the N display areas.

In a specific implementation, the terminal may display a corresponding application interface through the graphical user interface, and the application interface may provide a screening control (a search control and a parameter control), so that the user may set a corresponding search condition by inputting and/or selecting the corresponding parameter control in the search control, and the terminal responds to obtain corresponding vehicle source data according to the search condition and then displays a vehicle source data list in the application interface. The vehicle source data list may include a plurality of vehicle source posts, each vehicle source post corresponds to a vehicle source, and the user may select one of the vehicle source posts to browse so as to obtain vehicle source information corresponding to the relevant vehicle source.

In the process of browsing the vehicle source posts, when a user wants to compare the vehicle source information, the vehicle source posts corresponding to the vehicle sources needing to be compared can be added into the database to be compared, and then at least two vehicle source posts are selected from the database to be compared for comparison; and at least two vehicle source posts can be directly selected in the vehicle source data list for comparison, the terminal can determine a corresponding target vehicle source according to the selection operation of the user, add the target vehicle source in the display area, and display a virtual object corresponding to the target vehicle source in the display area, so that the user can compare the vehicle source information. For example, the appearance of different vehicles, or the interior trim of different vehicles, or detailed information of different vehicles, etc.

In addition, the user may select a target vehicle source corresponding to one of the vehicle source posts in the vehicle source list data as a reference vehicle source, and then the terminal may select a reference vehicle source for the reference vehicle source according to the vehicle information of the reference vehicle source, for example, assuming that the reference vehicle source is red audi a6 with a price of 35 ten thousand that is listed in 04 years, the terminal may select a vehicle source with an audi brand as the reference vehicle source, including audi A3, a4, Q7, and the like as the reference vehicle source; the vehicle source of Audi A6 with different price and different colors can be selected as the reference vehicle source; other brands of car sources with the same price as the Audi A6 can be selected as reference car sources; other brands of vehicle sources with red colors can be selected as the reference vehicle source; the vehicle source which is listed in 04 years can be selected as a reference vehicle source, and the like, so that a user selects a reference vehicle source which is required to be compared, then the terminal recommends the reference vehicle source according to the vehicle source information of the reference vehicle source, the vehicle source related to the selected reference vehicle source can be effectively recommended for the user, the pertinence of vehicle source information comparison is improved, the effectiveness of vehicle source information comparison of the user is improved, and the vehicle searching experience of the user is guaranteed.

Optionally, in the process of determining the reference vehicle source, the terminal may further provide vehicle source information controls corresponding to different vehicle source information, so that after the user selects the reference vehicle source, the user may select which type of reference vehicle source is desired according to the vehicle source information controls, for example, the user may select one or more of a vehicle brand, a vehicle model, a price interval, a time to market, and a vehicle color, and then the terminal obtains the corresponding reference vehicle source according to the selection of the user and displays the reference vehicle source in the display area, so as to implement comparison of the vehicle source information.

In an example, referring to fig. 2, which shows a schematic diagram of an application interface provided in an embodiment of the present invention, content displayed through a graphical user interface of an electronic terminal includes the application interface 20, where the application interface 20 includes a search control 210, a parameter control 220, and a number of car source posts 230, a user may input corresponding information in the search control 210 and/or select a corresponding parameter control 220, and the terminal may determine a search condition in response to an operation of the user and display the corresponding car source posts 230 in the application interface 20, so that the user may browse or select a target car source post to obtain more car source information. When a user wants to compare different vehicle source information, at least two vehicle source posts can be selected in the application interface 20, the terminal can determine a target vehicle source according to the vehicle source posts selected by the user, and then display a virtual object corresponding to each target vehicle source in a display area, so that the user can compare the vehicle source information, for example, referring to fig. 3, which shows a schematic diagram of the application interface provided in the embodiment of the present invention, the content displayed through the graphical user interface of the electronic terminal includes the application interface, the application interface 301 includes two display areas displayed horizontally from left to right, the application interface 302 includes two display areas displayed vertically from top to bottom, virtual objects corresponding to different target vehicle sources can be displayed in each display area, and an external three-dimensional model and/or an interior space of the target vehicle source can be displayed in the same screen and same view angle in different display areas, the user can compare different vehicles in the same visual angle of the same screen, and the difference between different vehicles can be checked. Optionally, 3 or 4 display areas may be displayed, so that the user can compare at least two car sources according to the need of the user, which is not limited in the present invention.

Referring to fig. 4, which shows a schematic diagram of an application interface provided in an embodiment of the present invention, content displayed through a graphical user interface of an electronic terminal includes the application interface 40, at least two display areas 410 (only 2 are shown in the drawing) may be included in the application interface 40, and an external three-dimensional model 4101 and/or an interior space 4102 may be displayed in a manner of being in the same screen and in the same viewing angle in each display area 410. The interior space 4102 may include an interior space of the vehicle and a 3D perspective view of the vehicle, for example, the external three-dimensional model and the interior space may be independently displayed in the display area (the display of the external three-dimensional model and the interior space may be switched by switching the viewing angle), the external three-dimensional model and the 3D perspective view, and the interior space and the 3D perspective view may be synchronously displayed, that is, the 3D perspective view may reside in the display area, so that the user may compare the source information from different angles through different display modes, thereby improving the comprehensiveness of information comparison.

For the display area, the user may determine the target observation angle first, and the terminal may determine the target observation angle corresponding to the angle selection instruction in response to detecting the angle selection instruction for the display area, where the observation angle may include a vehicle external observation angle for observing the external three-dimensional model of the target vehicle source and a vehicle internal observation angle for observing the interior space of the target vehicle source, so as to display the target vehicle source in each display area according to the corresponding observation angle.

Optionally, the view angle selection instruction may include a touch instruction of the view angle control, and a double-click touch instruction, a long-press touch instruction, a gravity-press touch instruction, and the like for the display area. After the target vehicle source is determined, the terminal may display the virtual object of the target vehicle source in the display area at a default viewing angle, or may provide a corresponding interactive mode for the user to select an initial viewing angle, and then display the target vehicle source in the display area. The viewing angle selecting instruction may be an observing viewing angle selecting instruction before the displaying of the displaying area, or an observing viewing angle selecting instruction input by a user in the displaying process of the displaying area, which is not limited in the present invention.

In an example, referring to fig. 5, which illustrates a schematic diagram of an application interface provided in an embodiment of the present invention, at least two display areas 510 and a view control 520 may be included in the application interface 50, and before displaying a virtual object corresponding to a target vehicle source, a user may select a corresponding viewing view through the view control 520. The view control 520 may include an external viewing angle 5201 and an internal viewing angle 5202, and when the user touches the external viewing angle 5201, the terminal may determine that the target viewing angle corresponding to the view selection instruction is a vehicle external viewing angle for viewing the external three-dimensional model of the target vehicle source; when the user touches the internal observation visual angle 5202, the terminal can determine that the target observation visual angle corresponding to the visual angle selection instruction is the vehicle internal observation visual angle for observing the interior space of the target vehicle source, so as to adjust each display area to the cooperative observation visual angle with the same observation visual line according to the corresponding target observation visual angle, and enable the virtual object of the target vehicle source displayed in each display area to be displayed on the same screen at the same visual angle, so that the user can visually and rapidly compare different vehicle source information without exiting the currently browsed vehicle source information, thereby effectively improving the operation convenience and the information acquisition efficiency.

Step 102, if the target observation visual angle is a vehicle external observation visual angle, adjusting each display area to an initial collaborative external observation visual angle with a consistent observation visual line, and displaying the external three-dimensional model of the target vehicle source displayed in each display area on the same screen at the same visual angle;

when the observation visual angle selected by the user is the vehicle external observation visual angle, the terminal can adjust each display area to the initial collaborative external observation visual angle with the same observation visual angle, so that when the user compares the external three-dimensional models corresponding to different target vehicle sources, the external three-dimensional models of the target vehicle sources displayed by each display area are displayed at the same screen and the same visual angle, the user can compare different decoration effects of the same position of the appearances of different vehicle sources, and the convenience of the user for comparing the vehicle sources is improved.

In addition, if the target observation visual angle is an external vehicle observation visual angle, the user can also switch the visual angle of any display area, and it can be understood that the visual angle switching refers to switching the observation angle at the same observation visual angle, namely, the visual angle of the external three-dimensional model of the vehicle. Specifically, the terminal can respond to a first visual angle switching instruction detected for any display area, a target external observation visual angle corresponding to the first visual angle switching instruction is acquired, each display area is adjusted to be a target collaborative external observation visual angle consistent with the observation visual line of the target external observation visual angle, and external three-dimensional models of target vehicle sources displayed in each display area are displayed on the same screen at the same visual angle, so that under the external observation visual angle of a vehicle, a user can adjust the observation angle, the external three-dimensional models corresponding to different vehicle sources are compared from different angles (including different angles such as the right front of the vehicle, the vehicle door side and the trunk side), comparison of different vehicle appearances is achieved, the user can select the favorite vehicle appearance according to the comparison result, and vehicle searching experience of the user is guaranteed.

In an example, the terminal may, in response to detecting a first sliding operation for any one of the display areas, acquire a target external observation angle corresponding to the first sliding operation, adjust each display area to a collaborative external observation angle consistent with an observation line of the target external observation angle, and display the external three-dimensional model of the target vehicle source displayed in each display area on the same screen at the same angle of view. Specifically, the terminal can acquire a starting touch point and an ending touch point of the sliding operation of the user, acquire coordinate information of the starting touch point and the ending touch point, calculate a sliding distance and a sliding direction corresponding to the current sliding operation according to the coordinate information, acquire angle information corresponding to the sliding distance, such as leftward rotation by 5 degrees and the like, and leftward rotation by 5 degrees of each display area, so that an external three-dimensional model of a target vehicle source displayed in each display area can still be displayed at the same viewing angle on the same screen along with the sliding operation of the user, the user can visually and rapidly compare different vehicle source information without quitting the currently browsed vehicle source information, and the operation convenience and the information acquisition efficiency are effectively improved.

In another example, the content displayed on the graphical user interface of the terminal further includes at least two view switching controls, and the terminal can respond to the selection operation for the view switching controls, acquire the target external observation view corresponding to the selection operation, and adjust each display area to the coordinated external observation view consistent with the observation line of the target external observation view, so that the external three-dimensional models of the target vehicle sources displayed in each display area are displayed on the same screen at the same view. Optionally, different view switching controls may correspond to different view switching directions, and each time the view switching control is touched, the terminal may adjust the external three-dimensional model corresponding to the target car source in each display area to rotate by a certain angle according to a certain direction, for example, the terminal may display a clockwise switching control and an anticlockwise switching control in the graphical user interface, and when the user touches the clockwise switching control, the terminal may control the external three-dimensional model corresponding to the target car source in each display area to rotate clockwise by 5 degrees; when a user touches the anticlockwise switching control, the terminal can control the external three-dimensional model corresponding to the target vehicle source in each display area to rotate anticlockwise by 5 degrees and the like, so that the external three-dimensional model of the target vehicle source displayed in each display area can still be displayed at the same viewing angle on the same screen along with the touch of the user on the viewing angle switching control, the user can visually and quickly compare different vehicle source information, the currently browsed vehicle source information does not need to be quitted, and the operation convenience and the information obtaining efficiency are effectively improved.

It should be noted that the view switching control may include, in addition to the clockwise switching control and the counterclockwise switching control, a view switching control for switching other angles, such as an up-down view switching control, and the like, which is not limited in this disclosure.

Step 103, if the target observation visual angle is a vehicle interior observation visual angle, adjusting each display area to an initial collaborative interior observation visual angle with a consistent observation visual line, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

When the observation visual angle selected by the user is the vehicle internal observation visual angle, the terminal can adjust each display area to the initial collaborative internal observation visual angle with the same observation visual angle, so that when the user compares the interior spaces corresponding to different target vehicle sources, the interior spaces of the target vehicle sources displayed by each display area are displayed on the same screen and at the same visual angle, the user can compare different decoration effects, functions and the like of the vehicle spaces of different vehicle sources, and the convenience of the user in comparing the vehicle sources is improved.

In addition, if the target observation angle is a vehicle interior observation angle, and the target observation angle is a vehicle interior observation angle, the user can also switch the angle of view of any display area, and it can be understood that the angle of view switching refers to switching the angle of view at the same observation angle, that is, the angle of view of observing the interior space of the vehicle. Specifically, the terminal can respond to a second visual angle switching instruction detected for any display area, acquire a target internal observation visual angle corresponding to the second visual angle switching instruction, adjust each display area to a target collaborative internal observation visual angle consistent with the observation visual line of the target internal observation visual angle, and enable the interior space of the target vehicle source displayed in each display area to be displayed in the same screen and at the same visual angle.

In an alternative embodiment, in response to detecting a second view switching instruction for any display area, the terminal may determine view change information of roaming and/or panning corresponding to the second view switching instruction, then acquire a target internal viewing angle matching the view change information, and then adjust each display area to a target collaborative internal viewing angle consistent with a viewing line of the target internal viewing angle, so that the interior space of the target vehicle source displayed in each display area is displayed at the same view angle on the same screen.

In a specific implementation, the view direction change information may include gaze direction change information and point location change information of a roaming point in the interior space, and for the gaze direction change information, the terminal may respond to a second sliding operation for any display area to acquire gaze direction change information of a glance corresponding to the second sliding operation, and then acquire a target interior observation view angle matched with the gaze direction change information, or, the terminal may respond to a selection operation for a second view angle switching control to acquire gaze direction change information of a glance corresponding to the selection operation to acquire a target interior observation view angle matched with the gaze direction change information; for the point location change information of the roaming point, the terminal may respond to the selection operation for the roaming point in any one of the interior spaces, determine a target roaming point corresponding to the selection operation, acquire the point location change information corresponding to the target roaming point, and then acquire a target interior observation angle matched with the point location change information.

Different roaming points can be set for the interior space of the vehicle, for example, corresponding roaming points are set at a driving position, a passenger seat, a rear seat and the like, so that a user can sense the interior space of the vehicle from different roaming points in the process of roaming in the interior space of the vehicle, the interior condition of the vehicle can be obtained from different angles, and the comprehensiveness of the user in obtaining vehicle information is improved. Specifically, the view angle change information may be change information of a viewpoint position of the user, for example, when the user scans at one roaming point in the interior space, the direction of the line of sight may be switched (for example, by sliding a screen, or operating an event, etc.), so as to implement scanning at different angles for the vehicle source information; when a user moves from one roaming point to another roaming point, the visual angle is inevitably changed, and the visual direction can be further converted after the user moves to a new roaming point, so that the visual angle is newly changed.

Therefore, when the user switches the visual angle at the same roaming point, the terminal can realize the visual angle switching by acquiring the visual line direction change information; when a user moves from one roaming point to another roaming point, the terminal can acquire the display visual angle change information by acquiring the roaming point change information; when the user moves from one roaming point to another roaming point and further changes the direction of the line of sight, the view angle change information and the like can be acquired through the roaming point change information and the line of sight change information.

Optionally, the interior space of the target vehicle source may be a virtual three-dimensional space, and the user may perform "roaming" in the virtual three-dimensional space and control the observation angle of "roaming" by inputting a corresponding operation, for example, for the touch terminal, the observation angle may be adjusted by inputting a sliding operation in the graphical user interface, or the observation angle may be adjusted by selecting a corresponding observation node in the graphical user interface, and the like; for the PC terminal, the observation visual angle can be adjusted by inputting corresponding operation events, including click events, click events + dragging events and the like; for VR equipment, along with the glance of the observation sight of a user, a terminal can acquire display visual angle change information corresponding to the glance process of the user; for the AR device, if the AR device is a touch terminal, the viewing angle may be adjusted by inputting a sliding operation in the graphical user interface, or the viewing angle may be adjusted by selecting a corresponding viewing node in the graphical user interface, or the like, and if the AR device is combined with the virtual reality device, the viewing angle may be adjusted according to a corresponding gesture operation of the user, or the like, which is not limited in the present invention.

After the visual angle change information of the user is acquired, the cooperative vehicle interior observation visual angle of the interior space corresponding to the target vehicle source displayed in each display area can be adjusted in real time according to the visual angle change information, so that the interior space corresponding to the target vehicle source displayed in different display areas can be changed in real time along with the operation of the user, the interior space can be maintained at the same observation visual angle of the same screen, the user can visually and quickly compare different vehicle source information without quitting the currently browsed vehicle source information, and the operation convenience and the information acquisition efficiency are effectively improved.

In addition, the external three-dimensional model and/or the interior space corresponding to the target vehicle source can be displayed in each display area by the same observation sight line, and meanwhile, the vehicle information of the corresponding target vehicle source can be displayed in each display area. Specifically, the terminal may obtain vehicle information of each target vehicle source, and display the vehicle information corresponding to the target vehicle source in the corresponding display area, for example, assuming that the target vehicle source corresponding to the first display area is bmw, and the target vehicle source corresponding to the second display area is audi, the terminal may obtain a vehicle brand, a vehicle model, a price interval, time to market, a vehicle color, a vehicle brand, a vehicle model, a price interval, time to market, and a vehicle color corresponding to audi, respectively, and then may display the price interval, the time to market, and the like while displaying an external three-dimensional model and/or an interior space corresponding to bmw in the first display area, and the second display area synchronously displays the vehicle information corresponding to audi, which is not described herein again, so that a user may compare the vehicle information with different vehicles, and the efficiency of information comparison is improved.

It should be noted that, in addition to comparing the appearance, the interior space and the related information of different vehicles in different display areas, a user may also compare the detection conditions of the vehicles, for example, comparing the detection conditions of the paint of the vehicle, the gear of the vehicle, the window of the vehicle, the engine, and the like.

In a specific implementation, the terminal may display a corresponding vehicle comparison control in the graphical user interface, where the vehicle comparison control may be used to control each display area to display detection data of a corresponding target vehicle source, and when the user selects the vehicle comparison control, the terminal may respond to detection of a trigger operation for the vehicle comparison control, acquire the detection data of the target vehicle source displayed in each display area, and display the detection data at a first target position in the display area corresponding to each target vehicle source. In this process, the user may display all the detection data corresponding to the target vehicle source in each display area in a "one-click" manner, for example, may display all the detection data of the vehicle in a floating window manner, or may display the detection data at a corresponding position of the external three-dimensional model or the interior space according to a specific object of the detection data, and the like, which is not limited in the present invention.

The detection data may be detection data of a corresponding vehicle, which is uploaded synchronously by a broker or an individual when uploading a vehicle source post, and the detection data may be data obtained after a professional detector detects the vehicle. In addition, the vehicle comparison control can be further subdivided into different sub-controls, for example, the vehicle comparison control, the gear comparison control, the skylight comparison control, the component comparison control and the like can be included, and when a user selects different vehicle comparison controls, the terminal can synchronously display the detection data corresponding to the corresponding target vehicle source in each display area.

And for the vehicle paint comparison control, the terminal can be used for controlling each display area to display the vehicle paint data of the corresponding target vehicle source, and then the terminal can respond to the detection of the trigger operation for the vehicle paint comparison control to obtain the vehicle paint data of the target vehicle source displayed by each display area, wherein the vehicle paint data comprises paint surface information and a vehicle paint thickness value, and the paint surface information and/or the vehicle paint thickness value are displayed at a second target position in the display area corresponding to each target vehicle source.

In the specific implementation, a detector can detect the vehicle paint of the vehicle to obtain the paint information and the vehicle paint thickness values of different parts of the vehicle appearance, the paint information can be used for representing whether scratch occurs on the corresponding parts of the vehicle or not, and the vehicle paint thickness values can be used for representing whether paint repair conditions occur on the corresponding parts of the vehicle or not, whether the paint is uniform or not, and the like. Specifically, after obtaining the vehicle paint data corresponding to each target vehicle source, the terminal may directly display the paint information and/or the vehicle paint thickness value at a second target position of the external three-dimensional model corresponding to the target vehicle source, where the second target position may include one of a hood position, a side door position, a window frame position, and a rear cover position for identifying the external three-dimensional model of the target vehicle source; in addition, a target position can be defined in the display area, a corresponding floating window is displayed in the target position, and paint information and/or paint thickness values corresponding to the target vehicle source are displayed in the floating window, so that a user can compare the paint data of different vehicles through different display areas, the paint information of the corresponding vehicle can be known, different vehicles can be visually compared, and vehicle display with real feeling can be provided for the user.

For the gear comparison control, the gear comparison control can be used for controlling each display area to display the corresponding gear detection data of the target vehicle source, the terminal can respond to the detection of the trigger operation for the gear comparison control, acquire the gear detection data of the target vehicle source displayed by each display area, the gear detection data at least comprises the gear shifting smoothness degree, and then the gear shifting smoothness degree is displayed at a third target position in the display area corresponding to each target vehicle source.

In concrete realization, the detection personnel can detect the gear shifting smoothness degree of the vehicle to obtain the gear shifting smoothness degree of the vehicle gear, and the gear shifting smoothness degree can be used for representing the gear shifting comfort level of a vehicle gear controller. Specifically, after acquiring the gear smoothness degree corresponding to each target vehicle source, the terminal may directly display the gear smoothness degree at a third target position of the interior space corresponding to the target vehicle source, where the third target position is used to identify the position of the gear controller in the interior space of the target vehicle source; in addition, a target position can be defined in the display area, the corresponding floating window is displayed in the target position, the gear smoothness degree corresponding to the target vehicle source is displayed in the floating window, and therefore a user can compare the gear smoothness degrees of different vehicles through different display areas, so that gear detection data of the corresponding vehicles can be known, different vehicles can be compared visually, and vehicle display with real feeling is provided for the user.

And for the skylight comparison control, the skylight comparison control is used for controlling each display area to display skylight detection data of the corresponding target vehicle source, the terminal can respond to the detection of the triggering operation aiming at the skylight comparison control to obtain skylight detection data of the target vehicle source displayed in each display area, the skylight detection data at least comprises water leakage detection information, and then the water leakage detection information is displayed at a fourth target position in the display area corresponding to each target vehicle source.

In the specific implementation, a detector can detect the skylight water leakage condition of the vehicle to obtain water leakage detection information such as the water leakage detection times, the water leakage detection time and the water leakage detection result of the vehicle skylight, the water leakage detection times can be used for representing the skylight water leakage detection times of the vehicle, the water leakage detection time can be used for representing when the skylight water leakage detection is carried out on the vehicle, and the water leakage detection result can be used for representing whether the skylight water leakage occurs or not. Specifically, after acquiring skylight detection data corresponding to each target vehicle source, the terminal may directly display paint information and/or a paint thickness value at a fourth target position of the interior space corresponding to the target vehicle source, where the fourth target position is used to identify a skylight position in the interior space of the target vehicle source; in addition, a target position can be defined in the display area, a corresponding floating window is displayed in the target position, water leakage detection information such as the number of water leakage detection times, the water leakage detection time and the water leakage detection result corresponding to the target vehicle source is displayed in the floating window, and therefore a user can compare skylight detection data of different vehicles through different display areas, so that the water leakage situation of the windows of the corresponding vehicles can be known, different vehicles can be compared visually, and vehicle display with real feeling can be provided for the user.

And for the component comparison control, the terminal can be used for controlling each display area to display the corresponding engine detection data of the target vehicle source, and then the terminal can respond to the trigger operation of the component comparison control to obtain the engine detection data of the target vehicle source displayed in each display area, wherein the engine detection data at least comprises leakage detection information, and then the leakage detection information is displayed at a fifth target position in the corresponding display area of each target vehicle source.

In concrete implementation, the detection personnel can detect the engine of vehicle, obtain leakage detection information such as the leakage detection time, leakage detection personnel and the leakage detection result of vehicle engine, and the leakage detection time can be used for the sign to carry out engine leakage detection for the vehicle when, and the leakage detection personnel can be used for the sign engine detection that which detection personnel go on, and the leakage detection result can be used for the sign engine whether seepage. Specifically, after the terminal acquires the engine detection data corresponding to each target vehicle source, leakage detection time, leakage detection personnel and a leakage detection result can be directly displayed at a fifth target position of the interior space corresponding to the target vehicle source, and at this time, the fifth target position is at least used for identifying the engine position in the external three-dimensional model of the target vehicle source; in addition, a target position can be defined in the display area, the corresponding floating window is displayed in the target position, and the leakage detection time, the leakage detection personnel and the leakage detection result corresponding to the target vehicle source are displayed in the floating window, so that a user can compare the engine detection data of different vehicles through different display areas, the engine leakage condition of the corresponding vehicle can be known, different vehicles can be compared visually, and vehicle display with real feeling is provided for the user.

It should be noted that the embodiment of the present invention includes but is not limited to the above examples, and it is understood that, under the guidance of the idea of the embodiment of the present invention, a person skilled in the art may also set the method according to actual needs, and the present invention is not limited to this.

In the embodiment of the present invention, at least two display areas may be displayed through a graphical user interface of an electronic terminal, where each display area may include a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and each virtual object may include an external three-dimensional model and an interior space, where the display area may be used to display the external three-dimensional model and/or the interior space of the corresponding target vehicle source, and during the display process, the terminal may determine, in response to detecting a view angle selection instruction for the display area, a target viewing angle corresponding to the view angle selection instruction, where the target viewing angle may include a vehicle external viewing angle for viewing the external three-dimensional model of the target vehicle source and a vehicle interior viewing angle for viewing the interior space of the target vehicle source, and the terminal may adjust each display area to a viewing angle consistent with the view-line viewing according to the corresponding target viewing angle, the virtual objects of the target vehicle sources displayed in each display area are displayed in the same screen and the same view angle, so that a user can visually and quickly compare different vehicle source information without quitting the currently browsed vehicle source information, and the operation convenience and the information acquisition efficiency are effectively improved.

It should be noted that, for simplicity of description, the method embodiments are described as a series of acts or combination of acts, but those skilled in the art will recognize that the present invention is not limited by the illustrated order of acts, as some steps may occur in other orders or concurrently in accordance with the embodiments of the present invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

Referring to fig. 6, which is a block diagram illustrating a structure of a display apparatus for vehicle source information provided in an embodiment of the present invention, a graphical user interface is provided through an electronic terminal, where content displayed by the graphical user interface includes N display areas, where N is an integer greater than or equal to 2, each display area corresponds to a target vehicle source, each target vehicle source is configured with a corresponding virtual object, and a virtual object of each target vehicle source includes an external three-dimensional model and an interior space of the target vehicle source; each display area is used for displaying an external three-dimensional model and/or an interior space of a corresponding target vehicle source, and specifically comprises the following modules:

a view selecting module 601, configured to determine, in response to detecting a view selecting instruction for the display area, a target viewing view corresponding to the view selecting instruction, where the target viewing view at least includes a vehicle external viewing view for viewing an external three-dimensional model of the target vehicle source and a vehicle internal viewing view for viewing an interior space of the target vehicle source;

a first display module 602, configured to, if the target observation angle is an external vehicle observation angle, adjust each display area to an initial collaborative external observation angle with a consistent observation line of sight, so that an external three-dimensional model of a target vehicle source displayed in each display area is displayed on the same screen at the same angle of sight;

a second display module 603, configured to, if the target observation angle is an internal observation angle of a vehicle, adjust each display area to an initial collaborative internal observation angle with a consistent observation line of sight, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same angle of sight.

In an alternative embodiment, further comprising:

and the first visual angle switching module is used for responding to a first visual angle switching instruction detected for any display area if the target observation visual angle is the vehicle external observation visual angle, acquiring a target external observation visual angle corresponding to the first visual angle switching instruction, adjusting each display area to a target collaborative external observation visual angle consistent with the observation visual line of the target external observation visual angle, and displaying the external three-dimensional model of the target vehicle source displayed in each display area at the same screen and at the same visual angle.

In an alternative embodiment, further comprising:

and the second visual angle switching module is used for responding to a second visual angle switching instruction detected aiming at any display area if the target observation visual angle is the vehicle internal observation visual angle, acquiring a target internal observation visual angle corresponding to the second visual angle switching instruction, adjusting each display area to a target collaborative internal observation visual angle consistent with the observation visual line of the target internal observation visual angle, and displaying the interior space of the target vehicle source displayed in each display area in the same screen and at the same visual angle.

In an alternative embodiment, the apparatus further comprises:

and the target vehicle source determining module is used for responding to the detected vehicle source adding instruction aiming at the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source.

In an alternative embodiment, the target vehicle source determination module includes:

the data list providing submodule is used for providing a vehicle source data list, and the vehicle source data list comprises vehicle information of M vehicle sources, wherein each vehicle source is configured with a vehicle identifier, and M is an integer larger than N;

the virtual object determining submodule is used for determining vehicle identifications of N target vehicle sources corresponding to the selection operation in response to the detection of the selection operation of adding any N vehicle sources from the vehicle source data list to the display area, and calling virtual objects corresponding to the target vehicle sources according to the vehicle identifications of the target vehicle sources;

and the virtual object display submodule is used for displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source in the N display areas.

In an alternative embodiment, the apparatus further comprises:

the reference vehicle source determining module is used for responding to the fact that a reference vehicle source is added to the target display areas in the N display areas, acquiring a reference vehicle identifier corresponding to the reference vehicle source, and calling a reference virtual object corresponding to the reference vehicle source according to the vehicle identifier of the reference vehicle source;

the reference virtual object display module is used for displaying a reference virtual object corresponding to the reference vehicle source in the target display area;

the reference vehicle source determining module is used for acquiring a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source according to the reference vehicle identifier;

and the reference virtual object display module is used for calling a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier and displaying the reference virtual object corresponding to the reference vehicle source in other display areas of the N display areas.

In an alternative embodiment, the reference vehicle source determination module includes:

the vehicle information acquisition submodule is used for acquiring the vehicle information of the reference vehicle source by adopting the reference vehicle identifier,

the reference vehicle source obtaining submodule is used for obtaining a reference vehicle source corresponding to the reference vehicle source by adopting the vehicle information;

the vehicle identification obtaining submodule is used for obtaining a reference vehicle identification of the reference vehicle source;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

In an optional embodiment, the content displayed by the gui includes a vehicle alignment control for controlling each display area to display detection data of a corresponding target vehicle source, and the apparatus further includes:

and the detection data display module is used for responding to the trigger operation aiming at the vehicle comparison control, acquiring the detection data of the target vehicle source displayed in each display area, and displaying the detection data at the first target position in the display area corresponding to each target vehicle source.

In an optional embodiment, the vehicle comparison control includes a vehicle paint comparison control, and the vehicle paint comparison control is configured to control each display area to display vehicle paint data of a corresponding target vehicle source, where the apparatus further includes:

the vehicle paint data acquisition module is used for responding to the trigger operation of the vehicle paint comparison control, and acquiring vehicle paint data of the target vehicle source displayed in each display area, wherein the vehicle paint data comprise paint surface information and a vehicle paint thickness value;

the vehicle paint data display module is used for displaying the paint information and/or the vehicle paint thickness value at a second target position in a display area corresponding to each target vehicle source;

wherein the second target position is used to identify at least one of a hood position, a side door position, a window frame position, and a rear cover position of the external three-dimensional model of the target vehicle source.

In an optional embodiment, the vehicle comparison control includes a gear comparison control, and the gear comparison control is configured to control each display area to display gear detection data of a corresponding target vehicle source, where the apparatus further includes:

the gear detection data acquisition module is used for responding to the detection of the trigger operation aiming at the gear comparison control, and acquiring the gear detection data of the target vehicle source displayed in each display area, wherein the gear detection data at least comprises the gear shifting smoothness degree;

the gear detection data display module is used for displaying the gear shifting smoothness degree at a third target position in a display area corresponding to each target vehicle source;

wherein the third target location is at least for identifying a gear controller location in an interior space of the target vehicle source.

In an optional embodiment, the vehicle comparison control includes a sunroof comparison control, and the sunroof comparison control is configured to control each display area to display sunroof detection data of a corresponding target vehicle source, and the apparatus further includes:

the skylight detection data acquisition module is used for responding to the detection of the triggering operation aiming at the skylight comparison control, and acquiring skylight detection data of the target vehicle source displayed in each display area, wherein the skylight detection data at least comprises water leakage detection information;

the skylight detection data display module is used for displaying the water leakage detection information at a fourth target position in a display area corresponding to each target vehicle source;

wherein the fourth target location is at least for identifying a skylight location in an interior space of the target vehicle source; the water leakage detection information at least comprises one of water leakage detection times, water leakage detection time and water leakage detection results.

In an optional embodiment, the vehicle comparison control includes a component comparison control, and the component comparison control is configured to control each display area to display engine detection data of a corresponding target vehicle source, where the apparatus further includes:

the engine detection data acquisition module is used for responding to the trigger operation of the component comparison control, and acquiring engine detection data of the target vehicle source displayed in each display area, wherein the engine detection data at least comprises leakage detection information;

the engine detection data display module is used for displaying the leakage detection information at a fifth target position in a corresponding display area of each target vehicle source;

wherein the fifth target location is used at least to identify an engine location in the external three-dimensional model of the target vehicle source; the leakage detection information at least comprises one of leakage detection time, leakage detection personnel and a leakage detection result.

In an optional embodiment, the second view switching module comprises:

a view change information determining sub-module, configured to determine, in response to detecting a second view switching instruction for any one of the display areas, view change information of roaming and/or panning corresponding to the second view switching instruction;

the internal observation visual angle acquisition sub-module is used for acquiring a target internal observation visual angle matched with the visual angle change information;

and the visual angle switching submodule is used for adjusting each display area to be a target collaborative internal observation visual angle which is consistent with the observation visual line of the target internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

In an optional embodiment, the viewing angle change information includes gaze direction change information, and the viewing angle change information determination submodule is specifically configured to:

in response to a second sliding operation for any one of the display areas, acquiring saccade gaze direction change information corresponding to the second sliding operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

In an optional embodiment, the interior space of the target vehicle source at least includes a roaming point, the view angle change information includes point position change information, and the view angle change information determination submodule is specifically configured to:

responding to the selection operation of the roaming point in any interior space, determining a target roaming point corresponding to the selection operation, and acquiring point location change information corresponding to the target roaming point;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring a target internal observation visual angle matched with the point position change information.

In an optional embodiment, the viewing angle change information includes gaze direction change information, the content displayed by the graphical user interface further includes a second viewing angle switching control for the interior space, and the viewing angle change information determination sub-module is specifically configured to:

in response to a selection operation for the second view switching control, obtaining saccade gaze direction change information corresponding to the selection operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

In an alternative embodiment, further comprising:

the vehicle information display module is used for acquiring the vehicle information of each target vehicle source and displaying the vehicle information corresponding to the target vehicle source in each display area;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

For the device embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, refer to the partial description of the method embodiment.

In addition, an electronic device is further provided in an embodiment of the present invention, as shown in fig. 7, and includes a processor 701, a communication interface 702, a memory 703 and a communication bus 704, where the processor 701, the communication interface 702, and the memory 703 complete mutual communication through the communication bus 704,

a memory 703 for storing a computer program;

the processor 701 is configured to implement the following steps when executing the program stored in the memory 703:

in response to detecting a perspective selection instruction for the presentation area, determining a target viewing perspective corresponding to the perspective selection instruction, the target viewing perspective including at least a vehicle exterior viewing perspective for viewing an exterior three-dimensional model of the target vehicle source and a vehicle interior viewing perspective for viewing an interior space of the target vehicle source;

if the target observation visual angle is the vehicle external observation visual angle, adjusting each display area to be an initial collaborative external observation visual angle with consistent observation visual line, and displaying the external three-dimensional model of the target vehicle source displayed in each display area at the same screen and the same visual angle;

and if the target observation visual angle is the vehicle interior observation visual angle, adjusting each display area to be the initial collaborative interior observation visual angle with the consistent observation visual line, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

In an alternative embodiment, further comprising:

and if the target observation visual angle is the vehicle external observation visual angle, responding to a first visual angle switching instruction detected for any display area, acquiring a target external observation visual angle corresponding to the first visual angle switching instruction, adjusting each display area to a target collaborative external observation visual angle consistent with the observation visual line of the target external observation visual angle, and displaying the external three-dimensional model of the target vehicle source displayed in each display area on the same screen at the same visual angle.

In an alternative embodiment, further comprising:

and if the target observation visual angle is the vehicle internal observation visual angle, responding to a second visual angle switching instruction detected aiming at any display area, acquiring the target internal observation visual angle corresponding to the second visual angle switching instruction, adjusting each display area to be the target collaborative internal observation visual angle consistent with the observation visual line of the target internal observation visual angle, and displaying the interior space of the target vehicle source displayed in each display area on the same screen at the same visual angle.

In an optional embodiment, before the determining a target viewing perspective corresponding to the perspective selection instruction in response to detecting the perspective selection instruction for the presentation area, the method further comprises:

and responding to the detected vehicle source adding instruction aiming at the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source.

In an optional embodiment, in response to detecting a vehicle source adding instruction for the display area, acquiring N target vehicle sources corresponding to the vehicle source adding instruction, and displaying a virtual object corresponding to a target vehicle source in a display area corresponding to each target vehicle source, includes:

providing a vehicle source data list, wherein the vehicle source data list comprises vehicle information of M vehicle sources, each vehicle source is configured with a vehicle identifier, and M is an integer greater than N;

in response to the detection of the selection operation of adding any N vehicle sources from the vehicle source data list to the display area, determining vehicle identifications of N target vehicle sources corresponding to the selection operation, and calling virtual objects corresponding to the target vehicle sources according to the vehicle identifications of the target vehicle sources;

and displaying the virtual object corresponding to the target vehicle source in the display area corresponding to each target vehicle source in the N display areas.

In an optional embodiment, before the determining a target viewing perspective corresponding to the perspective selection instruction in response to detecting the perspective selection instruction for the presentation area, the method further comprises:

responding to the detected addition of a reference vehicle source in the target display areas in the N display areas, acquiring a reference vehicle identifier corresponding to the reference vehicle source, and calling a reference virtual object corresponding to the reference vehicle source according to the vehicle identifier of the reference vehicle source;

displaying a reference virtual object corresponding to the reference vehicle source in the target display area;

acquiring a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source according to the reference vehicle identifier;

and calling a reference virtual object corresponding to the reference vehicle source according to the reference vehicle identifier, and displaying the reference virtual object corresponding to the reference vehicle source in other display areas of the N display areas.

In an optional embodiment, the obtaining, according to the reference vehicle identifier, a reference vehicle source corresponding to the reference vehicle source and a reference vehicle identifier of the reference vehicle source includes:

adopting the reference vehicle identification to obtain the vehicle information of the reference vehicle source,

acquiring a reference vehicle source corresponding to the reference vehicle source by using the vehicle information;

acquiring a reference vehicle identifier of the reference vehicle source;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

In an optional embodiment, the content displayed by the graphical user interface includes a vehicle alignment control, and the vehicle alignment control is configured to control each display area to display detection data of a corresponding target vehicle source, and the method further includes:

and in response to the detection of the triggering operation aiming at the vehicle comparison control, acquiring detection data of the target vehicle source displayed in each display area, and displaying the detection data at a first target position in the display area corresponding to each target vehicle source.

In an optional embodiment, the vehicle comparison control includes a vehicle paint comparison control, and the vehicle paint comparison control is configured to control each display area to display vehicle paint data of a corresponding target vehicle source, and the method further includes:

in response to the detection of the trigger operation aiming at the vehicle paint comparison control, vehicle paint data of the target vehicle source displayed in each display area are obtained, wherein the vehicle paint data comprise paint surface information and a vehicle paint thickness value;

displaying the paint information and/or the vehicle paint thickness value at a second target position in a display area corresponding to each target vehicle source;

wherein the second target position is used to identify at least one of a hood position, a side door position, a window frame position, and a rear cover position of the external three-dimensional model of the target vehicle source.

In an optional embodiment, the vehicle comparison control includes a gear comparison control, and the gear comparison control is configured to control each display area to display gear detection data of a corresponding target vehicle source, and the method further includes:

in response to the detection of the triggering operation aiming at the gear comparison control, gear detection data of the target vehicle source displayed in each display area are obtained, wherein the gear detection data at least comprise the gear shifting smoothness degree;

displaying the gear shifting smoothness degree at a third target position in a display area corresponding to each target vehicle source;

wherein the third target location is at least for identifying a gear controller location in an interior space of the target vehicle source.

In an optional embodiment, the vehicle comparison control includes a sunroof comparison control, and the sunroof comparison control is configured to control each display area to display sunroof detection data of a corresponding target vehicle source, and the method further includes:

responding to the detected triggering operation aiming at the skylight comparison control, and acquiring skylight detection data of the target vehicle source displayed in each display area, wherein the skylight detection data at least comprises water leakage detection information;

displaying the water leakage detection information at a fourth target position in a display area corresponding to each target vehicle source;

wherein the fourth target location is at least for identifying a skylight location in an interior space of the target vehicle source; the water leakage detection information at least comprises one of water leakage detection times, water leakage detection time and water leakage detection results.

In an optional embodiment, the vehicle alignment control includes a component alignment control for controlling each display area to display engine detection data of a corresponding target vehicle source, and the method further includes:

responding to the detected trigger operation aiming at the component comparison control, and acquiring engine detection data of the target vehicle source displayed in each display area, wherein the engine detection data at least comprises leakage detection information;

displaying the leakage detection information at a fifth target position in a corresponding display area of each target vehicle source;

wherein the fifth target location is used at least to identify an engine location in the external three-dimensional model of the target vehicle source; the leakage detection information at least comprises one of leakage detection time, leakage detection personnel and a leakage detection result.

In an optional embodiment, the acquiring, in response to detecting a second view switching instruction for any one of the display areas, a target internal viewing angle corresponding to the second view switching instruction, and adjusting each display area to a target collaborative internal viewing angle consistent with a viewing line of the target internal viewing angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same view, includes:

in response to detecting a second view switching instruction for any of the presentation areas, determining roaming and/or panning view change information corresponding to the second view switching instruction;

acquiring a target internal observation visual angle matched with the visual angle change information;

and adjusting each display area to be a target collaborative internal observation visual angle which is consistent with the observation visual line of the target internal observation visual angle, so that the interior space of the target vehicle source displayed in each display area is displayed on the same screen at the same visual angle.

In an optional embodiment, the viewing angle variation information comprises gaze direction variation information, and the determining of the roaming and/or panning viewing angle variation information corresponding to a second viewing angle switching instruction in response to detecting the second viewing angle switching instruction for any of the presentation areas comprises:

in response to a second sliding operation for any one of the display areas, acquiring saccade gaze direction change information corresponding to the second sliding operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

In an alternative embodiment, the determining of the perspective change information of the roaming and/or panning corresponding to the second perspective switching instruction in response to detecting the second perspective switching instruction for any of the display areas comprises:

responding to the selection operation of the roaming point in any interior space, determining a target roaming point corresponding to the selection operation, and acquiring point location change information corresponding to the target roaming point;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring a target internal observation visual angle matched with the point position change information.

In an alternative embodiment, the view angle change information includes gaze direction change information, the content displayed by the graphical user interface further includes a second view angle switching control for the interior space, and the determining, in response to detecting a second view angle switching instruction for any of the presentation areas, view angle change information for panning and/or panning corresponding to the second view angle switching instruction includes:

in response to a selection operation for the second view switching control, obtaining saccade gaze direction change information corresponding to the selection operation;

wherein, the obtaining of the target internal observation visual angle matched with the visual angle change information comprises:

and acquiring the internal observation visual angle of the target matched with the sight direction change information.

In an alternative embodiment, further comprising:

acquiring vehicle information of each target vehicle source, and displaying the vehicle information corresponding to the target vehicle source in each display area;

wherein the vehicle information comprises one or more of vehicle brand, vehicle model, price interval, time to market, and vehicle color.

The communication bus mentioned in the above terminal may be a Peripheral Component Interconnect (PCI) bus, an Extended Industry Standard Architecture (EISA) bus, or the like. The communication bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown, but this does not mean that there is only one bus or one type of bus.

The communication interface is used for communication between the terminal and other equipment.

The Memory may include a Random Access Memory (RAM) or a non-volatile Memory (non-volatile Memory), such as at least one disk Memory. Optionally, the memory may also be at least one memory device located remotely from the processor.

The Processor may be a general-purpose Processor, and includes a Central Processing Unit (CPU), a Network Processor (NP), and the like; the Integrated Circuit may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, a discrete Gate or transistor logic device, or a discrete hardware component.

As shown in fig. 8, in another embodiment provided by the present invention, a computer-readable storage medium 801 is further provided, which stores instructions that, when executed on a computer, cause the computer to execute the display method of vehicle source information described in the above embodiment.

In another embodiment of the present invention, a computer program product containing instructions is further provided, which when run on a computer causes the computer to execute the display method of vehicle source information described in the above embodiments.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the invention to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in a computer readable storage medium or transmitted from one computer readable storage medium to another, for example, from one website site, computer, server, or data center to another website site, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

All the embodiments in the present specification are described in a related manner, and the same and similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for the system embodiment, since it is substantially similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.