CN115131981A

CN115131981A - Display control method, vehicle, and storage medium

Info

Publication number: CN115131981A
Application number: CN202210692545.8A
Authority: CN
Inventors: 戴观祺; 江嘉良; 饶恒; 闫祯杰
Original assignee: Guangzhou Xiaopeng Motors Technology Co Ltd
Current assignee: Guangzhou Xiaopeng Motors Technology Co Ltd
Priority date: 2022-06-17
Filing date: 2022-06-17
Publication date: 2022-09-30
Anticipated expiration: 2042-06-17
Also published as: CN115131981B

Abstract

The application discloses a display control method of charging pile information, which comprises the following steps: after a vehicle drives into a parking lot, controlling a vehicle-mounted system to display a desktop comprising a parking lot map and environment simulation display contents; and controlling the vehicle-mounted system to display the charging position information in the parking lot in a three-dimensional model in a desktop according to the charging reservation state of the vehicle. According to the display control method, after a vehicle drives into a parking lot, a desktop display of the vehicle-mounted system is switched from a navigation map to a parking map, the parking map desktop comprises a parking lot map and environment simulation display contents, charging position information in the parking lot is displayed on the desktop or the parking map according to a charging reservation state of the vehicle, and the related information of a charging position can be directly acquired on the desktop of the vehicle-mounted system without complex operations such as getting-off and observation of a user, so that subsequent charging operation is performed, the mode of acquiring the charging position information is convenient and fast, the vehicle flow is more visual and intelligent, and user experience is improved.

Description

Display control method, vehicle, and storage medium

Technical Field

The present application relates to the field of transportation, and in particular, to a display control method, a vehicle, and a computer-readable storage medium.

Background

In the related art, specific information of the charging potential cannot be displayed on a navigation map of a vehicle. When the user drives into the parking area, still need rely on user's observation to go to look for the electric potential of charging, after finding the electric potential of charging, still need further go to confirm whether to fill electric pile available on the electric potential of charging, the operation that the user acquireed the electric potential information in parking area or charging station is comparatively loaded down with trivial details, and intelligent relatively poor, user experience is not good.

Disclosure of Invention

In view of the above, the present application provides a vehicle display control method, including:

after a vehicle drives into a parking lot, controlling a vehicle-mounted system to display a desktop comprising a parking lot map and environment simulation display contents;

and controlling the vehicle-mounted system to display the charging position information in the parking lot in a three-dimensional model in the desktop according to the charging reservation state of the vehicle.

Therefore, after a vehicle drives into the parking lot, the desktop display of the vehicle-mounted system is switched from the navigation map to the parking map, the parking map desktop comprises the parking lot map and environment simulation display contents, the charging position information in the parking lot is displayed on the desktop or the parking map according to the charging reservation state of the vehicle, and the related information of the charging position can be directly acquired on the desktop of the vehicle-mounted system without complex operations such as getting-off and observation of a user, so that subsequent charging operation is performed, the charging position information is acquired conveniently and quickly, the vehicle flow is more visual and intelligent, and the user experience is improved.

The controlling the vehicle-mounted system to display the charging position information in the parking lot in a three-dimensional model in the desktop according to the charging reservation state of the vehicle includes:

displaying a three-dimensional model of a reserved target charging potential in a first preset state in the desktop under the condition that the vehicle reserves the charging potential, wherein the three-dimensional model of the target charging potential comprises a three-dimensional model of a target charging pile and/or a three-dimensional model of a ground lock in the target charging potential;

displaying state information of the target charging pile on the three-dimensional model of the target charging pile in a penetrating manner, wherein the state information of the target charging pile comprises type information and available state information of the target charging pile; and/or

And transmitting and displaying state information of the ground lock on the three-dimensional model of the ground lock, wherein the state of the ground lock comprises an ascending state and a descending state.

Therefore, under the condition that the vehicle has reserved the charging potential, the target charging potential three-dimensional model in the map is highlighted in a first preset state on the desktop, the target charging potential three-dimensional model comprises the target charging pile three-dimensional model and a possible ground lock three-dimensional model, and the current respective state information of the charging potential facility can be revealed by the target charging pile three-dimensional model and the ground lock three-dimensional model, or when the states of the target charging pile and the ground lock are different, the models displayed on the desktop are different, and a user can conveniently and directly confirm the target charging potential on the desktop.

The displaying of the state information of the ground lock on the three-dimensional model of the ground lock comprises:

and under the condition that the ground lock exists in the target charging position and is in a rising state, responding to the fact that the vehicle enters a preset range of the target parking space or the interaction of a user and the three-dimensional model of the ground lock, and switching the display state of the three-dimensional model of the ground lock from the rising state to the falling state.

Therefore, the ground lock information on the charging position is displayed on the desktop, the ground lock can change the state according to the driving state or the interaction of the user, and correspondingly, the change of the ground lock state is also displayed on the desktop. The user can directly know the ground lock state on the desktop, and can directly interact with the three-dimensional model of the ground lock to control the ground lock, so that subsequent charging operation is performed.

displaying a three-dimensional model of a charging potential in the parking lot in a second predetermined state in the desktop in the case that the vehicle does not reserve the charging potential, wherein the three-dimensional model of the charging potential comprises a charging pile three-dimensional model and/or a ground lock three-dimensional model in the charging potential;

displaying available state information of the charging pile on the charging pile three-dimensional model; and/or

In this way, in the case where the vehicle does not reserve the charge level, the vehicle searches for an available charge level while traveling in the parking lot. The three-dimensional model of the charging position is displayed in a second preset state different from the first preset state under the condition of the reserved charging position on the desktop, the available state of the charging pile is displayed on the three-dimensional model of the charging position in a penetrating way, other more detailed information of the charging pile does not need to be provided, and a user can conveniently and quickly know the available charging position in the parking lot. For the charging position with the ground lock, the ground lock information is displayed on the desktop, and the user can descend the ground lock to select the charging position after having a definite target.

The method further comprises the following steps:

and responding to the operation of checking the charging pile state information, and displaying the type information, the available state information and/or the cost information of the charging pile.

So, the detailed information of electric pile is looked over in the further operation of user's accessible to the selection of filling the electric potential is carried out.

The method further comprises the following steps:

under the condition that the charging site is available and the charging site has a ground lock, responding to the interaction with the three-dimensional model of the ground lock, and switching the display state of the three-dimensional model of the ground lock from an ascending state to a descending state;

displaying a three-dimensional model of a charging site in the parking lot in a third predetermined state in the desktop;

and displaying the state information of the charging pile in the three-dimensional model of the charging pile, wherein the state information of the charging pile comprises the type information, the available state information and the use state information of the charging pile.

Therefore, when the charging position is available and has the ground lock, the user wants to select the charging position to charge, the charging position can interact with the three-dimensional model of the ground lock, after the ground lock descends, the charging position is locked, the selected charging position is displayed in a third state which is distinguished from a second preset state in a desktop, the three-dimensional model of the charging pile is further displayed, state information of the charging pile is displayed on the three-dimensional model of the charging pile, the user can know detailed information of the charging pile, and the user can conveniently perform secondary confirmation.

The method further comprises the following steps:

displaying, in response to interaction with a parking space in the three-dimensional model of charging locations, a three-dimensional model of charging locations in the parking lot in a third predetermined state in the desktop if the charging locations are available and the charging locations are not ground-locked;

and displaying the state information of the charging pile in the charging pile model, wherein the state information of the charging pile comprises the type information, the available state information and the use state information of the charging pile.

So, to the position of charging of no ground lock, the user can directly interact with the parking stall and select the position of charging, and after selecting the position of charging, the position of charging will be locked, will show the selected position of charging with the third state that distinguishes second predetermined state in the desktop to further show and fill the electric pile model, see through the status information that shows to fill electric pile on filling the electric pile model, convenience of customers knows the detailed information who fills electric pile, also convenience of customers carries out the secondary and confirms.

The method further comprises the following steps:

and under the condition that the vehicle does not reserve the charging potential, displaying a charging site three-dimensional model of the occupied charging potential in the parking lot in a fourth preset state on the desktop, wherein the charging site three-dimensional model of the occupied charging potential does not comprise a charging pile three-dimensional model.

Therefore, under the condition that the vehicle does not reserve the charging position, the occupied charging position model can be directly displayed in the desktop in a fourth preset state, the user is prompted that the charging position is occupied, parking charging cannot be carried out, and the user can conveniently and quickly select other suitable charging positions.

A vehicle is provided comprising a memory and a processor, the memory having stored therein a computer program which, when executed by the processor, carries out the method.

The present application also provides a non-transitory computer-readable storage medium, which when executed by one or more processors, performs any of the methods described above.

According to the method and the system, after a vehicle enters a parking lot, a navigation map is switched to a parking map in a desktop display mode of the vehicle-mounted system, the parking map desktop comprises the parking lot map and environment simulation display contents, the charging position information in the parking lot is displayed on the desktop or the parking map according to the charging reservation state of the vehicle, complex operations such as getting-off and observation of a user are not needed, the related information of a charging position can be directly acquired on the desktop of the vehicle-mounted system, and therefore subsequent charging operation is conducted, the mode of acquiring the charging position information is convenient and fast, the vehicle flow is more visual and intelligent, and user experience is improved.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic flow chart of a display control method of the present application;

FIG. 2 is a schematic flow chart of a display control method of the present application;

FIG. 3 is a state diagram of a display control method of the present application;

FIG. 4 is a state diagram of a display control method of the present application;

FIG. 5 is a flow chart diagram of a display control method of the present application;

FIG. 6 is a state diagram of a display control method of the present application;

FIG. 7 is a flow chart diagram of a display control method of the present application;

FIG. 8 is a state diagram of a display control method of the present application;

FIGS. 9a-9c are schematic diagrams of states of the display control method of the present application;

FIG. 10 is a schematic flow chart diagram of a display control method of the present application;

fig. 11 is a state diagram of a display control method of the present application;

fig. 12 is a flowchart illustrating a display control method according to the present application;

fig. 13 is a state diagram of the display control method of the present application.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the embodiments of the present application, and are not to be construed as limiting the embodiments of the present application.

Referring to fig. 1, the vehicle display control method of the present application includes the following steps:

01: after a vehicle drives into a parking lot, controlling a vehicle-mounted system to display a desktop comprising a parking lot map and environment simulation display contents;

02: and controlling the vehicle-mounted system to display the charging position information in the parking lot in a three-dimensional model in a desktop according to the charging reservation state of the vehicle.

The application also provides a vehicle, which comprises a memory and a processor, wherein the memory is stored with a computer program, and the processor is used for controlling the vehicle-mounted system to display a desktop comprising a parking lot map and environment simulation display contents after the vehicle enters the parking lot, and controlling the vehicle-mounted system to display charging position information in the parking lot in a three-dimensional model on the desktop according to the charging reservation state of the vehicle.

Along with new energy automobile's development, the vehicle passenger cabin is more and more intelligent, and driving map can provide required road conditions information for the vehicle is driven on the road, however to relative confined environment such as parking area, charging station, because the network environment is not good, driving map often can't provide effectual information data in time, even if the network environment is unobstructed, also can't provide high accuracy data pertinence. The user often can't obtain good experience using the driving map in the parking area, and the action such as driving in the parking area, seeking the parking stall, seeking the electric potential of charging etc. needs to rely on the driver to observe the back voluntarily, has certain driving safety hidden danger. After finding the electric potential that charges, still need driver or passenger to get off and look over the state of filling electric pile. The operation that the user acquireed the position information that charges in parking area or charging station is comparatively loaded down with trivial details, and is intelligent relatively poor, and user experience is not good.

In the application, after a vehicle is input into the parking lot, the desktop for controlling the vehicle-mounted system to display the parking lot and the environment simulation display content is controlled. The parking lot map is acquired by a vehicle sensor in advance and labeled by human assistance, contains information of all floors and ramps of the parking lot, lane lines, columns, parking spaces, ground indication arrows, speed bumps, elevator openings and the like, and is a high-precision map capable of improving automatic parking or memorizing parking capacity. The environment simulation display content is used for simulating environment information around the vehicle at the current position, and the environment simulation display content specifically includes contents of simulating and displaying parking spaces of a parking lot, the vehicle and the current position thereof, and the current and surrounding roads of the position of the vehicle in the current parking lot. It should be noted that the parking lot in the present application should be understood broadly to include a parking lot in which some parking spaces are provided with charging piles or a charging station specifically used for charging vehicles. In the driving process, when a vehicle drives into the parking lot, the desktop display of the vehicle-mounted system can be automatically switched from a driving map to a desktop comprising a parking lot map and environment simulation display contents.

Furthermore, according to the charging state reserved by the vehicle, the charging level information is presented in the form of a three-dimensional model in the current desktop for the user, so that the charging level information is combined with the driving information, and the user is helped to quickly and conveniently find the target charging level according to the charging level information displayed in the desktop. The user can more completely and smoothly switch and transition between driving and charging, the overall use experience of the vehicle is improved, and the vehicle flow is more visual and intelligent. The position of charging in this application includes the parking stall and fills electric pile corresponding to the parking stall. It should be understood that, the charging position information is presented in the form of a three-dimensional model, so that the information is visualized, and a user can conveniently and quickly obtain related information.

In the actual driving process, when the user has reserved the charging potential and the vehicle enters the parking lot, the vehicle-mounted system can push the relevant information of the target charging potential for the user to remind the user of the reserved charging potential at present, and the vehicle is controlled to automatically drive to the reserved charging parking space under the condition that the vehicle supports the automatic driving function and the user starts the relevant parking function, so that the user can conveniently perform subsequent charging operation. For a vehicle without automatic driving capability, the vehicle-mounted system can provide a navigation route from the current position of the vehicle to the target charging level for a user, guide the user to quickly find the target charging level, and the user does not need to find the charging level by himself or herself, so that the overall experience flow is improved particularly for an unfamiliar parking lot.

To sum up, in the vehicle display control method and the vehicle of the application, after the vehicle drives into the parking lot, the desktop display of the vehicle-mounted system is switched from the navigation map to the parking map, the parking map desktop includes the parking lot map and the environment simulation display content, the charging location information in the parking lot is displayed on the desktop or the parking map according to the charging reservation state of the vehicle, and the related information of the charging location can be directly acquired on the desktop of the vehicle-mounted system without complex operations such as getting-off and observation of a user, so that subsequent charging operation is performed, the mode of acquiring the charging location information is convenient and fast, the vehicle flow is more visual and intelligent, and the user experience is improved.

Referring to fig. 2, step 02 includes:

020: under the condition that the vehicle has reserved the charging potential, displaying a three-dimensional model of the reserved target charging potential in a first preset state in a desktop, wherein the three-dimensional model of the target charging potential comprises a three-dimensional model of the target charging pile and/or a three-dimensional model of a ground lock in the target charging potential;

021: displaying state information of the target charging pile on the three-dimensional model of the target charging pile, wherein the state information of the target charging pile comprises type information and available state information of the target charging pile; and/or

022: and displaying the state information of the ground lock on the three-dimensional model of the ground lock, wherein the state of the ground lock comprises an ascending state and a descending state.

The processor is used for displaying a three-dimensional model of the reserved target charging potential in a first preset state in a desktop under the condition that the vehicle has reserved the charging potential, and is used for displaying state information of the target charging pile on the three-dimensional model of the target charging pile in a penetrating way and displaying state information of the ground lock on the three-dimensional model of the ground lock in a penetrating way.

It will be appreciated that the charge level information of interest may be different for users of different reserved charge states. Particularly, for the user who has reserved the charging potential, the information of other charging potentials does not need to be paid attention to any more, so that the reserved target charging potential only needs to be displayed on the desktop, and meanwhile, the specific information of the charging pile can be directly displayed, so that the user can conveniently check the reserved target charging potential with the reservation information, and the target charging potential can be quickly confirmed. For the user who does not reserve the charging potential, the charging potential needs to be searched in the driving process, and the specific information of the charging pile may not be concerned currently, so that the basic information of each charging potential in the parking lot needs to be displayed on a desktop, or the available charging potential is displayed on the desktop, and after the user determines the target charging potential, the related information can be further displayed.

Referring to fig. 3 and 4, in the case where the vehicle has reserved the charging potential, the reserved target charging potential model is displayed in a first predetermined state in the desktop, which is a three-dimensional model as described above, and can interact with the user. The first predetermined state may be a highlighted state, highlighting the target charging potential from other parking spaces in the map. The charging station comprises a charging pile and a parking space, and the parking space possibly comprises a ground lock. For the parking space with the ground lock, the target charging position three-dimensional model comprises a charging pile three-dimensional model and a ground lock three-dimensional model. And for the parking space without the ground lock, the target charging position three-dimensional model only comprises the charging pile three-dimensional model and does not comprise the three-dimensional model of the ground lock.

And displaying specific state information of the charging pile on the three-dimensional model of the target charging pile, wherein the specific state information can comprise type information and available state information of the target charging pile. That is to say, the charging piles in different states can be presented in three-dimensional models in different styles in the desktop, so that the user can quickly confirm the state of the target charging pile.

The type information refers to information such as the model and the attribution of the target charging pile. For example, a first party charging pile is included, namely a vehicle manufacturer provides a special charging pile for a vehicle, and the first party charging pile comprises a fast charging pile, a slow charging pile and the like. The charging piles of different types are presented in different visual styles, so that a user can recognize the types of the charging piles from the appearance of the three-dimensional model of the charging piles. Except that first party fills electric pile, still include the third party and fill electric pile, fill electric pile to the third party, vehicle service provider probably can't accurately know its charging power, consequently, can adopt general style model to show with third party fills electric pile. Of course, if the specific power of the third-party charging pile can be obtained, the charging piles in different power intervals can be displayed in different models in different modes in a distinguishing mode.

Available state information is information indicating whether the target charging pile can be normally used, namely, the target charging pile which can be normally used and the target charging pile which has a fault are visually distinguished in the charging pile model. For example, to the electric pile that fills that has the trouble, can put grey demonstration with filling electric pile three-dimensional model, to the electric pile that fills that can normally work, can add the color display with filling electric pile model.

The user can understand that the user has already finished the screening of filling electric pile at the reservation stage, reveals relevant information on the desktop and can help the user carry out the secondary of target charge position conveniently and fast and confirm. Therefore, whether the charging pile is abnormal after reservation or not is confirmed, and whether the target charging pile prompted in the desktop is consistent with the charging pile information reserved by the user or not is confirmed.

Under the condition that the ground lock is installed on the parking space, the actual state of the ground lock is displayed in the desktop in a corresponding model state, so that a user can know the state of the parking space conveniently, and the driving and charging process is determined.

Referring to FIG. 5, step 022 includes the steps of:

0220: and under the condition that the ground lock exists in the target charging potential and the ground lock is in the ascending state, responding to the preset range of the vehicle entering the target parking space or the interaction between the user and the three-dimensional model of the ground lock, and switching the display state of the three-dimensional model of the ground lock from the ascending state to the descending state.

The processor is used for responding to the preset range of the vehicle entering the target parking space or the interaction between the user and the three-dimensional model of the ground lock under the condition that the ground lock exists in the target charging potential and the ground lock is in the ascending state, and the display state of the three-dimensional model of the ground lock is switched from the ascending state to the descending state.

Referring to fig. 6, for the charging location installed with the ground lock, the desktop will show the three-dimensional model of the ground lock, and when the parking space is not occupied, the three-dimensional model of the ground lock is in a rising state for prompting the user that the user is not available for parking. The three-dimensional model can be used for interaction of a user, and the user can click the ground lock three-dimensional model to control the ground lock to descend. In addition, the charging station may be equipped with an associated sensor for detecting the approach of the scheduled vehicle, and the ground lock may be automatically lowered when the scheduled vehicle enters a predetermined range of the target charging station, or the effective detection range of the sensor. For the ground lock which cannot automatically descend, the user can manually control the descending of the ground lock by interacting with the ground lock model as described above, and the dynamic process of descending of the ground lock model can be presented in the desktop, or the descending state of the three-dimensional model of the ground lock can be synchronously presented in the desktop after the descending of the ground lock is completed.

Therefore, the ground lock information on the charging position is displayed on the desktop, the ground lock can change the state according to the driving state or the interaction of a user, and correspondingly, the change of the ground lock state is also displayed on the desktop. The user can directly know the ground lock state on the desktop, and can directly interact with the three-dimensional model of the ground lock to control the ground lock, so that subsequent charging operation is performed.

Referring to fig. 7, step 02 includes:

023: displaying a three-dimensional model of a charging position in the parking lot in a second preset state in the desktop under the condition that the vehicle does not reserve the charging position, wherein the three-dimensional model of the charging position comprises a charging pile three-dimensional model and/or a ground lock three-dimensional model in the charging position;

024: displaying available state information of the charging pile on the charging pile three-dimensional model; and/or

025: and displaying the state information of the ground lock on the three-dimensional model of the ground lock, wherein the state of the ground lock comprises an ascending state and a descending state.

The processor is used for displaying a three-dimensional model of the charging potential in the parking lot in a second preset state on the desktop under the condition that the vehicle does not reserve the charging potential, and is used for displaying available state information of the charging pile on the charging pile three-dimensional model in a penetrating way, and is used for displaying state information of the ground lock on the ground lock three-dimensional model in a penetrating way, wherein the state of the ground lock comprises a rising state and a falling state.

Referring to fig. 8 and 9a to 9c, for a user who does not reserve a charging point, the charging point needs to be found during driving in a field, and the user may not be concerned with specific information of the charging post, but needs to obtain where the charging point is available as soon as possible. A three-dimensional model of the total charging potential in the parking lot is displayed in the desktop in a second predetermined state that is distinguished from the first predetermined state. For the parking space with the ground lock, the charging position three-dimensional model comprises a charging pile three-dimensional model and a ground lock three-dimensional model. And for the parking space without the ground lock, the charging position model only comprises the charging pile three-dimensional model and does not comprise the ground lock three-dimensional model.

And displaying all available charging level three-dimensional models in the parking lot in a second preset state on the desktop, wherein the charging pile three-dimensional models are simplified models which are different from detailed charging pile state information models which are disclosed under the condition of reserved charging levels. The simplified model displays basic information or available state information of the charging pile without displaying the state information of the charging pile, and is only used for marking the charging pile as an available charging position. From the simplified model, a user cannot acquire information such as the type of the charging pile, and the complexity of elements in the parking map interface can be effectively reduced by adopting the simplified model.

Available state information is the information whether can normally use of charging pile, that is to say, to charging pile that can normally use and the charging pile that has the trouble, visual differentiation in charging pile model. For example, to the electric pile that fills that has the trouble, can put grey demonstration with filling electric pile three-dimensional model, to the electric pile that fills that can normally work, can add the color display with filling electric pile three-dimensional model.

In the driving process, a user can quickly preview the available charging potential in the parking lot on a desktop, and the model of the charging pile with the fault is displayed in a gray mode, so that the user is guided not to park and charge.

Under the condition that the ground lock is installed on the parking space, the ground lock is presented in a corresponding model state in the desktop according to the actual state of the ground lock, so that convenience is brought to a user or the state of the parking space, and the driving and charging process is determined.

In this way, in the case where the vehicle does not reserve a charging potential, the vehicle searches for an available charging potential while traveling in the parking lot. The three-dimensional model of the charging position is displayed in a second preset state different from the first preset state under the condition of the reserved charging position on the desktop, the available state of the charging pile is displayed on the three-dimensional model of the charging position in a penetrating way, other more detailed information of the charging pile does not need to be provided, and a user can conveniently and quickly know the available charging position in the parking lot. For the charging position with the ground lock, the ground lock information is displayed on the desktop, and the user can descend the ground lock to select the charging position after having a definite target.

The display control method further includes the steps of:

026: and responding to the operation of checking the charging pile state information, and displaying the type information, the available state information and/or the cost information of the charging pile.

The processor is used for responding to the operation of checking the charging pile state information and displaying the type information, the available state information and/or the cost information of the charging pile.

The simplified model of the charging pile also supports user interaction. For example, the charging pile three-dimensional model can be used as an entrance for checking charging detailed information, a user clicks the charging pile three-dimensional model, and the desktop can be used for displaying detailed state information of the current charging pile through a popup window. The related state information can be displayed in a popup window in a mode of combining graphics with texts or texts. The status information includes type information of the charging stake, available status information, and cost information. The charging pile type information and the available state information may refer to the foregoing explanation for related contents, which is not described herein again. The charge information is the price information of charging of the current charging pile, and the charging pile type information is combined to help a user to better select a charging position.

Referring to fig. 10, the display control method further includes the steps of:

027: under the condition that the charging position is available and the ground lock exists in the charging position, responding to the interaction with the three-dimensional model of the ground lock, and switching the display state of the three-dimensional model of the ground lock from an ascending state to a descending state;

028: displaying the three-dimensional model of the charging position in the parking lot in a third preset state on the desktop;

029: and displaying the state information of the charging pile in a three-dimensional model of the charging pile, wherein the state information of the charging pile comprises the type information, the available state information and the use state information of the charging pile.

The processor is used for responding to interaction with the three-dimensional model of the ground lock under the condition that the charging position is available and the ground lock exists in the charging position, the display state of the three-dimensional model of the ground lock is switched from the ascending state to the descending state, the three-dimensional model of the charging position in the parking lot is displayed in a third preset state on the desktop, and the state information of the charging pile is displayed in the three-dimensional model of the charging pile.

Referring to fig. 11, for the charging location with the ground lock installed, the desktop will show the ground lock model, and when the parking location is not occupied, the three-dimensional ground lock model is in a rising state for prompting the user to drive the vehicle carefully. The three-dimensional model can be used for interaction of a user, and the user can click the ground lock three-dimensional model in the desktop to control the ground lock to descend. In the case where the charge level is not reserved, the user does not have a clear charge level selection and a clear charging intention, and therefore, the user only has to lower the ground lock manually, but does not have to lower the ground lock automatically to unlock the charge level when the vehicle approaches. And displaying the descending dynamic process of the ground lock three-dimensional model in the desktop, or directly displaying the descending state of the ground lock three-dimensional model in the desktop after the ground lock is descended.

After a certain charging potential is selected, the ground lock of the charging potential can be interacted, so that the ground lock is lowered. After the ground lock descends, the user is confirmed to have a clear charging intention, and the parking space is locked. The charge bit model will be displayed in the desktop in a third predetermined state that is distinct from the second predetermined state. The third preset state can be similar to the first preset state, the charging station model is highlighted, and detailed state information of the charging pile, including type information and available state information of the charging pile, is displayed on the charging pile model in a penetrating mode.

In addition, when charging is not reserved, there is a possibility that the parking space is not occupied in the charging location, but the charging pile is used by a vehicle in an adjacent charging location. Therefore, in order to facilitate the user to select the charging position, the use state information, namely whether the charging pile is being used or not, can be further displayed on the three-dimensional model of the charging post. The displaying of the detailed information on the three-dimensional model of the charging pile is also beneficial to the secondary confirmation of whether the detailed information of the current charging position is consistent with the charging position information checked in the previous selection process by the user.

Referring to fig. 12, the display control method further includes the steps of:

030: displaying the three-dimensional model of the charging station in the parking lot in a third predetermined state in the desktop in response to interaction with the parking space in the three-dimensional model of the charging station, if the charging station is available and the ground lock does not exist in the charging station;

031: and displaying the state information of the charging pile in a penetrating way of the charging pile model, wherein the state information of the charging pile comprises the type information, the available state information and the use state information of the charging pile.

The processor is used for responding to interaction with a parking space in the charging position three-dimensional model when the charging position is available and the ground lock does not exist in the charging position, displaying the charging position three-dimensional model in the parking lot in a third preset state in the desktop, and displaying state information of the charging pile in the charging pile model.

Referring to fig. 13, for the charging location without the ground lock, the charging location three-dimensional model only includes the charging pile three-dimensional model and the ground lock-free three-dimensional model, and the display of the charging pile three-dimensional model and the display of the information are similar to the charging location with the ground lock, which is not described herein again. The parking space without the ground lock three-dimensional model can be used for interaction of a user, and the user can click the parking space in the map to select the charging position and lock the charging position.

After the user selects the parking space, the user is confirmed to have a clear charging intention, and the parking space is locked. The charge bit model will be displayed in a third predetermined state in the map distinct from the second predetermined state. The third preset state can be similar to the first preset state, the charging potential three-dimensional model is highlighted, and detailed state information of the charging pile, including type information and available state information of the charging pile, is displayed on the charging pile three-dimensional model in a penetrating mode.

In addition, in the case of an unreserved charge, there is a possibility that the parking space is not occupied in the charge level, but the charge pile is used by a vehicle of an adjacent charge level. Therefore, in order to facilitate the user to select the charging position, the use state information, namely whether the charging pile is being used or not, can be further displayed on the three-dimensional model of the charging post. The display of the detailed information on the three-dimensional model of the charging pile is also helpful for a user to secondarily confirm whether the detailed information of the current charging position is consistent with the charging position information checked in the previous selection.

The display control method further includes:

032: and under the condition that the vehicle does not reserve the charging potential, displaying the three-dimensional model of the occupied charging potential in the parking lot in a fourth preset state on the desktop, wherein the three-dimensional model of the occupied charging potential does not comprise the charging pile three-dimensional model.

The processor is used for displaying a charging position three-dimensional model of an occupied charging position in the parking lot in a fourth preset state on the desktop under the condition that the vehicle does not reserve the charging position.

Referring to fig. 8 again, in the case that the vehicle does not reserve the charging potential, the charging potential three-dimensional model for the occupied charging potential in the map is displayed in a fourth predetermined state. And in a fourth preset state, the charging position three-dimensional model does not comprise the charging pile three-dimensional model, the vehicle three-dimensional model on the parking position can be displayed, and the charging position three-dimensional model is basically not different from the vehicle three-dimensional model on the ordinary parking position from the user perspective. For a user looking for a charging location, there is no choice to park the vehicle in the parking space.

Therefore, under the condition that the vehicle does not reserve the charging position, the occupied charging position three-dimensional model can be directly displayed in the desktop in a fourth preset state, the user is prompted that the charging position is occupied, parking charging cannot be carried out, and the user can conveniently and quickly select other suitable charging positions.

The present application also provides a computer-readable storage medium. One or more non-transitory computer-readable storage media storing a computer program that, when executed by one or more processors, performs the method of any of the embodiments described above. It will be understood by those skilled in the art that all or part of the processes in the method for implementing the above embodiments may be implemented by a computer program instructing relevant software. The program may be stored in a non-volatile computer readable storage medium, which when executed, may include the flows of embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), or the like.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example" or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Moreover, various embodiments or examples and features of various embodiments or examples described in this specification can be combined and combined by one skilled in the art without being mutually inconsistent. Meanwhile, the description referring to the terms "first", "second", and the like is intended to distinguish the same kind or similar operations, and "first" and "second" have a logical context in some embodiments, and do not necessarily have a logical context in some embodiments, and need to be determined according to actual embodiments, and should not be determined only by a literal meaning.

Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and the scope of the preferred embodiments of the present application includes other implementations in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present application.

Although embodiments of the present application have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present application and that variations, modifications, substitutions and alterations in the above embodiments may be made by those of ordinary skill in the art within the scope of the present application.

Claims

1. A vehicle display control method characterized by comprising:

2. The method according to claim 1, wherein the controlling the on-vehicle system to display the charging location information in the parking lot in a three-dimensional model in the desktop according to the charging reservation state of the vehicle includes:

3. The method of claim 2, wherein the displaying the state information of the ground lock through the three-dimensional model of the ground lock comprises:

and under the condition that a ground lock exists in the target charging potential and the ground lock is in a rising state, responding to the fact that the vehicle enters a preset range of the target parking space or the interaction of a user and the three-dimensional model of the ground lock, and switching the display state of the three-dimensional model of the ground lock from the rising state to the falling state.

4. The method according to claim 1, wherein the controlling the on-vehicle system to display the charging level information in the parking lot in a three-dimensional model in the desktop according to the charging reservation state of the vehicle includes:

displaying a three-dimensional model of a charging potential in the parking lot in a second predetermined state in the desktop in the case that the vehicle does not reserve the charging potential, the three-dimensional model of the charging potential comprising a charging pile three-dimensional model and/or a ground lock three-dimensional model in the charging potential;

5. The method of claim 4, further comprising:

6. The method of claim 5, further comprising:

7. The method of claim 5, further comprising:

8. The method of claim 1, further comprising:

9. A vehicle, characterized in that the vehicle comprises a memory and a processor, in which memory a computer program is stored which, when being executed by the processor, carries out the method of any one of claims 1-8.

10. A non-transitory computer-readable storage medium of a computer program, wherein the computer program, when executed by one or more processors, implements the method of any one of claims 1-8.