CN117141388A - Method, device and system for changing vehicle style - Google Patents

Abstract

The application provides a method, a device and a system for changing the style of a vehicle according to user requirements and use scenes, which are used in the field of intelligent automobiles/Internet of vehicles to improve the experience of users in driving automobiles. The method comprises the steps of obtaining context information; determining a target scene according to the context information, wherein the target scene is a scene divided for a vehicle driving environment; determining a vehicle style according to the target scene and a preset strategy, or directly designating the vehicle style by a vehicle user, wherein the vehicle style comprises any one or more of the following three items: the image, sound and vibration displayed on the vehicle are displayed, and the preset strategy is the corresponding relation between the target scene and the vehicle style; and presenting the vehicle style.

Description

Method, device and system for changing vehicle style

The present application is a divisional application, the application number of the original application is 201911097832.9, the original application date is 11/08/2019, and the whole content of the original application is incorporated by reference.

Technical Field

The embodiment of the application relates to the field of intelligent automobiles, in particular to a method for changing the style of a vehicle for improving the driving experience of a user.

Background

Along with the improvement of the whole economic level of society and the rapid development of automobile technology, in the automobile consumption field, people change from traditional consumption meeting the use of automobile functions to novel consumption pursuing automobile life experience, and an automobile is not only used as a travel and travel riding tool in daily life, but also used as an important carrier for life experience enjoyment and emotion communication expression. The 'consumption upgrading' in the automobile field is quite in the future, a plurality of automobile brand manufacturers reconstruct brand value concepts in a dispute way, products incline to a younger and customized direction, and due to the change of consumption characteristics, automobile personalized customization and whole automobile refitting businesses start to be exploded in recent years. However, automobiles are still expensive consumer products, and the customization and modification costs are not enough, so that the automobile buyers have difficulty in randomly/frequently changing the style of the automobile, the style of the automobile is often shaped after one purchase or modification, different style requirements in different occasions cannot be met, and the problem of inconsistent matching of the user's preference and the style of the automobile is solved.

In order to solve the problem, the prior art provides a display method of an automobile instrument panel, namely, a central control host computer is in data interaction communication with the automobile instrument panel, the central control host computer is utilized to carry out custom setting of display style/mode corresponding parameters on the automobile instrument panel, the display style which accords with the use habit of a driver and is convenient for the driver to use is selected, and the time for the driver to use a new instrument panel interface under the condition of replacing the automobile or driving another automobile is reduced.

However, the prior art has the following disadvantages: 1) The instrument panel can be displayed in a personalized way, and only a small part of the instrument panel can be seen by a driver, so that the individuality of the vehicle owner cannot be fully revealed. 2) The driver is required to manually select the style desired by the driver, and the corresponding automobile style cannot be automatically adapted according to different occasions where the user is located.

Disclosure of Invention

The embodiment of the invention provides a method, a device and a system for changing the style of an automobile according to the use requirement of a user, which are applied to the field of intelligent automobiles and solve the problems that only a very small part is supported for personalized display and the corresponding automobile style cannot be automatically adapted according to different occasions where the user is located.

In a first aspect, an embodiment of the present invention provides a method for changing a style of a vehicle according to a user's usage requirement. The method comprises the following steps: acquiring context information; determining a target scene according to the context information, wherein the target scene is a scene divided for a vehicle driving environment; determining a vehicle style according to the target scene and a preset strategy, or directly designating the vehicle style by a vehicle user, wherein the vehicle style comprises any one or more of the following three items: the image, sound and vibration displayed on the vehicle are displayed, and the preset strategy is the corresponding relation between the target scene and the vehicle style; and presenting the vehicle style.

By the method, the effect that one vehicle simulates various vehicle types and various scenes can be achieved through display and control of the vehicle, and user experience can be improved.

In one possible implementation, the context information may be derived from user operation information of the human-machine interface HMI (Human Machine Interface), where the user interaction information of the human-machine interface HMI refers to interaction information sent by a user of the vehicle acquired through a touch display screen, and/or a sound acquisition device, and/or a joystick identification device, and/or various switch keys.

In this implementation, the user may use a finger/stylus to operate on the touch panel as text input, may also input context information to the interactive interface of the terminal device or vehicle in a voice manner, such as "i want to go to a meeting with the client", "i want to go to the sea", and may also manually select a destination via the interactive interface of the terminal device or vehicle, the selection may be a drop-down menu composed of multiple options.

In one possible implementation manner, the context information may be information of a user driving environment acquired by the environment sensing module, where the information of the user driving environment acquired by the environment sensing module refers to information of sounds, roads, road side devices, pedestrians, other vehicles, weather, light, temperature and the like, which are acquired by a sensor and the like, outside the vehicle.

In one possible implementation, the context information may be information from external systems including information exchanged with the wireless base station and the application server via a cellular network communication protocol such as 4G/5G, including geographic location of the current vehicle, traffic and navigation information, weather information; or acquiring destination information of the current vehicle through a vehicle-mounted navigation system; or information acquired from a third party APP, wherein the information acquired from the third party APP comprises destination information acquired from a map APP on user terminal equipment; or occasion information corresponding to the current schedule of the user, which is acquired from the schedule APP/social media on the user terminal equipment; or status descriptive information published from social media on the user terminal device. The invention is not limited by how to obtain information from the third party APP.

In such an implementation, the context information may also be shot content at some time in the movie, such as a tractor, in the case of in-car viewing video that may occur in the future.

The user terminal device and the vehicle can communicate through a short-range wireless communication technology.

With reference to the first aspect or any implementation manner of the foregoing first aspect, in some implementation manners, the target scene may be determined according to a preset correspondence between the context information and the target scene. The corresponding relation between the context information and the target scene can be preset when leaving the factory, or can be customized by a third party and then downloaded to the vehicle. Taking the destination as "seaside" and "park" as an example, the corresponding target scenario may be "friends gatherings/parents to go out. As another example, the destination is "desert", and the corresponding target scenario may be "off-road", as shown in table 1.

Determination of vehicle style in one possible implementation, the target scene may be compared to a preset strategy to determine a vehicle style including any one or more of the following three: an image, sound, vibration displayed on the vehicle, wherein the image displayed on the vehicle includes an image displayed on a vehicle exterior trim display module, or a vehicle light display outside and inside the vehicle; the sound comprises engine sound played by a vehicle loudspeaker system, or sound outside a vehicle collected by a sound collecting device arranged on the vehicle body, or destination related sound (such as sea wave sound); the vibrations include the motion states of four coordinate dimensions, front, rear, up and down, produced by the vehicle seat. The preset strategy is the corresponding relation between the target scene and the vehicle style, as shown in table 2. The corresponding relation between the target scene and the preset strategy is stored in a storage module, and the storage module can be a vehicle-mounted storage module, or a terminal equipment storage module, or a storage module of an application center. The vehicle style can be preset when the vehicle leaves the factory, or can be customized by a third party and then downloaded to the vehicle.

The determination of the vehicle style, in a possible implementation manner, can also be directly specified by a user, and comprises the steps of inputting the vehicle style into a terminal device or a vehicle-mounted interaction system of the vehicle in a voice and text input mode, such as 'a tank style is given to me', 'the tank style is desired to be set', 'the tank style', 'the changing style', and the like; or the style is manually selected through a setting interface of the terminal equipment or the vehicle-mounted interaction system of the vehicle, and the mode of selection can be a drop-down menu composed of a plurality of options.

And generating a control signal according to the vehicle style, wherein the control signal is used for driving an execution module to present the vehicle style, and the execution module comprises a vehicle seat control module and/or a vehicle appearance trim display module. In one possible implementation manner, the vehicle style presented by the execution module may be a motion state of four coordinate dimensions generated by the vehicle seat control module, and simulate the user's feeling under various driving scenarios; or the vehicle appearance trim display module is used for displaying the appearance of the vehicle, the trim and lighting through a control circuit for controlling the vehicle; or the vehicle speaker system plays engine sound, collects sound outside the vehicle through a sound collecting device arranged on the vehicle body and destination related sound (such as sea wave sound) so as to generate vivid visual and audible effects in various driving scenes.

In a second aspect, an embodiment of the present invention provides an apparatus for changing a style of a vehicle according to a user's use requirement, the apparatus being located in a vehicle control system, the apparatus comprising:

a processing module for reading the software program stored in the storage module and executing:

acquiring context information; determining a target scene according to the context information, wherein the target scene is a scene divided for a vehicle driving environment; determining a vehicle style according to the target scene and a preset strategy, wherein the vehicle style comprises any one or more of the following three items: the image, sound and vibration displayed on the vehicle are displayed, and the preset strategy is the corresponding relation between the target scene and the vehicle style; generating a control signal according to the vehicle style; the execution module is indicated to present the vehicle style according to the control signal;

the storage module is used for storing a software program, operation data, a relation table of context information and a target scene, a preset strategy and vehicle style library information;

the information sending module is used for obtaining the information of the context information and sending the information to the processing module;

the execution module is used for executing the control signal; the execution module comprises a vehicle seat control module and/or a vehicle appearance trim display module.

In combination with the second aspect, the form of the memory module may be fixed or pluggable, and may be a high-speed random access memory, or a nonvolatile memory such as a magnetic disk memory device or a flash memory device. The storage module may be a vehicle-mounted storage module, or a terminal device storage module, or a storage module of an application center.

With reference to the second aspect, the processing module and the storage module may be components of an in-vehicle computer device.

With reference to the second aspect, in one possible implementation manner, the information sending module of the device may be an environment sensing module, where the environment sensing module is configured to sense vehicle driving environment information, and the vehicle driving environment information includes information of sounds, roads, roadside devices, pedestrians, other vehicles, weather, light, temperature, and the like, which are acquired through a sensor and the like, outside the vehicle.

With reference to the second aspect, in one possible implementation manner, the information sending module of the device may also be a human-machine interface HMI module, where the human-machine interface HMI module is configured to sense operation information sent by a user, where the operation information sent by the user includes control information or interaction information sent by a user of the vehicle and acquired by a touch display screen, and/or a sound acquisition device, and/or a joystick identification device, and/or various switch keys.

In this implementation, the user may use a finger/stylus to operate on the touch panel as text input, may also input context information to the interactive interface of the terminal device or vehicle through voice, such as "i want to go to a meeting with the client", "i want to go to the sea", and may also manually select a destination through the interactive interface of the terminal device or vehicle, where the manner of selection may be a drop-down menu composed of multiple options.

With reference to the second aspect, in one possible implementation manner, the information sending module of the device sends external information to the processing module of the vehicle-mounted computer device through the vehicle-mounted wireless communication module; the external system information includes information exchanged with the wireless base station and the application server through a cellular network communication protocol such as 4G/5G, including geographical location of the current vehicle, traffic and navigation information, weather information; or acquiring destination information of the current vehicle through a vehicle-mounted navigation system; or information acquired from a third party APP, wherein the information acquired from the third party APP comprises destination information acquired from a map APP on user terminal equipment; or occasion information corresponding to the current schedule of the user, which is acquired from the schedule APP/social media on the user terminal equipment; or status descriptive information published from social media on the user terminal device. The invention is not limited by how to obtain information from the third party APP.

With reference to the second aspect, in one possible implementation manner, the execution module presents a vehicle style, which may be a motion state of four coordinate dimensions generated by the vehicle seat control module, and simulates the feeling of the user in various driving scenarios.

With reference to the second aspect and any of the foregoing second aspect implementations, in some implementations, the vehicle seat control module simulates a motion state of a vehicle user seat in four coordinate dimensions, including

The whole seat is controlled to move back and forth along the advancing direction of the vehicle, so that the acceleration and braking feeling of a user can be simulated;

the whole seat is controlled to move left and right along the direction which is horizontally perpendicular to the vehicle travelling direction, so that the centrifugal feeling of a user when the user turns the vehicle can be simulated;

the whole seat is controlled to move along the direction vertical to the travelling direction of the vehicle, so that the feeling of gravity change of a user when travelling to a bumpy road surface can be simulated;

the control of the movement of the entire seat in the direction of left and right rotation with the sitting position of the vehicle user as the center can simulate the feeling that the body of the user is forced to twist at the moment of starting the turning of the vehicle.

With reference to the second aspect and any implementation manner of the second aspect, in some implementation manners, the vehicle seat control module may also be an in-vehicle speaker system, and use an acoustic effect to simulate some special driving physical experiences, such as playing the sound that the vehicle tire rolls crushed stone to simulate the better effect of bumping the road surface.

With reference to the second aspect and any implementation manner of the second aspect, in some implementation manners, the vehicle seat control module may also be an in-vehicle analog operation lever, where a position or angle sensor may be built in the analog operation lever to simulate a real vehicle operation signal, and the real vehicle operation signal is obtained by the environment sensing module and then sent to a processing module of the in-vehicle computer device to be processed and converted into a driving control signal.

With reference to the second aspect and any implementation manner of the second aspect, in some implementation manners, the vehicle seat control module may be implemented by using a simple gear, rack and rail driving device, or may be implemented by using a conversion device of other electric energy and mechanical energy such as pneumatic, hydraulic, electromagnetic, or the like, or implemented by using a three-degree-of-freedom platform, and the invention is not limited.

With reference to the second aspect, in one possible implementation manner, the execution module presents a vehicle style, and may also be a vehicle appearance, an interior display, a light illumination, and an acoustic effect formed by a control circuit controlling a vehicle by the vehicle appearance interior display module, so as to generate realistic visual and acoustic effects in various driving scenes.

With reference to the second aspect, in one possible implementation manner, the presentation of the vehicle style by the execution module may also be a combined experience generated by the vehicle seat control module in combination with the vehicle appearance trim display module.

With reference to the second aspect and any implementation manner of the second aspect, in some implementation manners, the exterior trim display module of the vehicle may be a lighting system outside or inside the vehicle, for example, a vehicle lamp using an LED (light emitting diode) as a light source, that is, an LED vehicle lamp, where the LED vehicle lamp includes a light array formed by a plurality of light emitting diodes, and the control signal generated by the processing module controls on/off, light emitting color, light intensity, light emitting sequence, and light emitting time interval of each light emitting diode to achieve different display effects.

With reference to the second aspect and any implementation manner of the second aspect, in some implementation manners, the exterior trim display module of the vehicle may also perform image display through a flexible display screen of a lamp shade surface of a vehicle, a flexible display screen coated on an outer surface (such as a vehicle body, a vehicle door) of a vehicle body, an inner surface (such as a sun visor, a sunroof), a head-up display (HUD) mounted on a windshield, and a display on a roof/rear window/door of a vehicle interior.

With reference to the second aspect and any implementation manner of the second aspect, in some implementation manners, the exterior trim display module of the vehicle may further be a projection device mounted on the vehicle body, and projects the pattern onto a road surface around the vehicle body.

In a third aspect, an embodiment of the present invention provides an in-vehicle control system, where the in-vehicle control system includes any one of the devices in the second aspect.

In a fourth aspect, an embodiment of the present invention provides a computer device, where the computer device includes a processor and a memory, where the memory is configured to store a software program, operation data, a table of context information and target scenario relationships, a preset policy, and vehicle style library information, and the processor is configured to read the software program stored in the memory and perform the method for changing a vehicle style according to any one of the foregoing first aspects.

In a fifth aspect, an embodiment of the invention provides a (non-volatile) storage medium comprising a computer program for implementing the method of changing the style of a vehicle of any one of the preceding aspects when run on one or more processors.

In a sixth aspect, an embodiment of the invention provides a computer program (product) comprising a computer program for implementing the method of changing a style of a vehicle of any one of the preceding aspects when run on one or more processors.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a vehicle control system for changing a style of a vehicle according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an information sending module of a device for changing a style of a vehicle according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a vehicle-mounted computer device for a device for changing a style of a vehicle according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an execution module of a device for changing a style of a vehicle according to an embodiment of the present invention;

FIG. 5 is a schematic view of a seat control module of a vehicle style altering device according to an embodiment of the present invention;

FIG. 6 is a flow chart of a method for changing a style of a vehicle according to an embodiment of the present invention;

FIG. 7 is a schematic view of a marine image of a vehicle style provided by an embodiment of the present invention;

FIG. 8 is a schematic illustration of an initial vehicle style provided by an embodiment of the present invention;

Fig. 9 is a schematic view of a marine image displayed on a window glass according to an embodiment of the present invention;

FIG. 10 is a schematic view of a marine image displayed on the exterior surface of a vehicle body according to an embodiment of the present invention;

FIG. 11 is a schematic diagram of an initial style of looking out from the inside of a vehicle according to an embodiment of the present invention;

fig. 12 is a schematic view of a marine image displayed when the vehicle interior is seen from the outside, provided by the embodiment of the invention;

FIG. 13 is a schematic view of a marine image displayed on the interior surface of a vehicle body according to an embodiment of the present invention;

FIG. 14 is a schematic diagram illustrating a change from an initial style to an off-road style for a vehicle lamp according to an embodiment of the present invention;

fig. 15 is a schematic diagram showing a change from a simple style to a soft style of the vehicle lamp according to the embodiment of the invention;

fig. 16 is a schematic view of an LED array arrangement of a vehicle lamp according to an embodiment of the present invention;

fig. 17 is a schematic diagram of an initial style vehicle lamp (corresponding to the left diagram in fig. 14) provided by an embodiment of the present invention;

fig. 18 is a schematic diagram of an off-road vehicle lamp (corresponding to the right diagram in fig. 14) according to an embodiment of the present invention;

fig. 19 is a schematic diagram of a vehicle lamp in a compact style (corresponding to the left diagram in fig. 15) provided by the embodiment of the invention;

fig. 20 is a schematic diagram of a soft-style vehicle lamp (corresponding to the right diagram in fig. 15) according to an embodiment of the present invention;

fig. 21 is a schematic diagram of a tractor style vehicle lamp according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application.

In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more. The term "and/or" or the character "/" in the present application is merely an association relation describing the association object, and indicates that three relations may exist, for example, a and/or, or a/B may indicate: a exists alone, A and B exist together, and B exists alone.

Referring to fig. 1, a schematic diagram of an apparatus for changing a style of a vehicle according to an embodiment of the application is shown. The device for changing the style of the vehicle comprises an information sending module 100, an on-board computer device 110 and an executing module 120.

As shown in fig. 2, the information transmitting module 100 is used for transmitting context information. The information sending module comprises a human-machine interface HMI module 101, an environment awareness module 102, an external system 103.

The HMI module 101 is configured to sense operation information sent by a user, where the operation information sent by the user includes control information or interaction information sent by a user of the vehicle and acquired through a touch display screen, and/or a sound acquisition device, and/or a joystick identification device, and/or various switch keys.

Specifically, the user may use a finger/stylus to operate on a touch panel such as text input, or may input context information, such as "i want to go to and customer meeting", "i want to go to sea", to the interactive interface of the terminal device or vehicle by voice.

The environment sensing module 102 is configured to sense vehicle driving environment information, where the vehicle driving environment information includes information such as sounds, roads, road side devices, pedestrians, other vehicles, weather, light, and temperature, which are acquired from sensors and the like.

The external system 103 sends external system information to a processing module of the vehicle-mounted computer equipment through the vehicle-mounted wireless communication module; the external system information includes information exchanged with the wireless base station and the application server through a cellular network communication protocol such as 4G/5G, including geographical location of the current vehicle, traffic and navigation information, weather information; or acquiring destination information of the current vehicle through a vehicle-mounted navigation system; or information acquired from a third party APP, wherein the information acquired from the third party APP comprises destination information acquired from a map APP on user terminal equipment; or occasion information corresponding to the current schedule of the user, which is acquired from the schedule APP/social media on the user terminal equipment; or status descriptive information published from social media on the user terminal device. The invention is not limited by how to obtain information from the third party APP.

Specifically, the user may acquire the destination information of the vehicle from the vehicle navigation system or from the map APP on the user terminal device, for example, the destination is "destination a", and determine that the destination type of "destination a" is "seaside". Determining the destination type may be done by semantic analysis of the destination or from a map APP, which requires the map APP to function as a destination tag and provide capabilities and interfaces to the user. The manner in which the destination type is determined is not limiting of the present invention.

Specifically, the occasion information corresponding to the current schedule of the user can also be obtained from the schedule APP/social media on the user terminal equipment, such as obtaining the 'destination A travel' information from the schedule on the mobile phone; or acquiring the information of the 'departure destination A la' currently released by the user from state descriptive information released on social media on the user terminal equipment, such as WeChat, microblog and the like, and then determining the destination type. The manner in which the destination type is determined is not limiting of the present invention.

As shown in fig. 3, the in-vehicle computer device 110 includes a processing module 111, a storage module 112, and an in-vehicle wireless communication module 113.

The processing module 111 is configured to read a software program stored in the storage module and execute: acquiring context information; determining a target scene according to the context information, wherein the target scene is a scene divided for a vehicle driving environment; determining a vehicle style according to the target scene and a preset strategy, wherein the vehicle style comprises any one or more of the following three items: the image, sound and vibration displayed on the vehicle are displayed, and the preset strategy is the corresponding relation between the target scene and the vehicle style; generating a control signal according to the vehicle style; and indicating the execution module to present the vehicle style according to the control signal.

The storage module 112 is used for storing software programs, operation data, a relation table of context information and target scenes, preset strategies and vehicle style library information.

The vehicle-mounted wireless communication module 113 is used for communicating with an external system to acquire external system information.

Specifically, when the user acquires the context information of "seaside", the processing module 111 determines that the target scene is "leisure trip" according to the context information stored on the storage module 112 and the target scene relationship (see table 1); determining the vehicle style as "off-road" according to a preset strategy (see table 2), and determining the image, sound, vibration combinations displayed by the vehicle according to table 3 as:

a) Appearance internal decoration display module

Vehicle window/windshield display, vehicle body outer surface, inner surface: displaying a destination-related pattern according to the destination;

LED car lamp: rough lines;

b) Seat control module

Drag operating state: at the moment of ascending a slope, 504 quickly lifts the seat and then slowly resets; during the ascending process, 502 drags a distance to the advancing direction;

speaker system: and playing the sound effect of the engine, playing the external environment sound and playing the destination related sound.

The processing module 111 will generate control signals and instruct the execution module based on the vehicle style.

Table 1: context information and target scene relation example table

Table 2: example table of relationship (i.e., preset strategy) between target scene and vehicle style

Target scene	Vehicle style
		Daily work/work meeting/business activities	City commute
Exercise body-building	Sports car/racing car
		Friends party, parents and children go out	Motor home
Leisure travel	Cross-country
		In-car entertainment	Style or third party customized style corresponding to entertainment theme

Table 3: vehicle style example table

As shown in fig. 4, the execution module 120 is configured to execute the control signal to present the vehicle style. The execution module 120 includes a seat control module 121, an appearance trim display module 122.

As shown in fig. 5, a schematic diagram of a seat control module 121 of a device for changing a style of a vehicle according to an embodiment of the invention is shown. Specifically, the seat control module 121 may include a controller 501, where the controller 501 drives the actuators 502, 503, 504, 505 to generate motion states with four coordinate dimensions, simulating the perception of a vehicle user in various driving scenarios. The motion states generated by the seat control module 121 include:

a) Dragging device 502, which controls the whole seat 506-507 to move back and forth along the advancing direction of the vehicle, so as to simulate the feeling of acceleration and braking of a user;

b) Dragging device 503, which controls the whole seat to move left and right along the direction which is horizontal and vertical to the vehicle running direction, and can simulate the centrifugal feeling of the user when executing the vehicle turning;

c) Dragging device 504, which controls the whole seat to move along the direction vertical to the vehicle travelling direction, and can simulate the feeling of gravity change of the user travelling to the bumpy road surface;

d) The drag device 505 controls the entire seat to move in a direction of rotating left and right around the position where the vehicle user sits, and can simulate the feeling that the body of the user is forced to twist at the moment when the vehicle is started to turn.

The operating parameters of the traction device under various driving conditions are shown in table 4.

Table 4: exemplary table of operating parameters of dragging device under various driving states

Sequence number	Driving state	Physical sensation	Operating parameters of dragging device
				1	Straight start and acceleration	Instant back-pushing sense	502 short-time acceleration dragging seat in travelling direction
2	Straight running speed reducing and braking	Body is inclined forward instantaneously	502 drag seat with short-time acceleration and opposite travelling directions
				3	Vehicle start left turn	Compression of right body	505 rotate counterclockwise for a short time by a certain angle and then resume
4	Vehicle left turn in progress	Body tilting right	503 drag a distance to the left
				5	Vehicle start right turn	Left bodyCompression of body	505 rotates clockwise a certain angle for a short time and then resumes
6	In the right turn execution of the vehicle	Body tilting left	503 drag a distance to the right
				7	Instant of ascending slope	The body is instantaneously heavy	504 quickly raise the seat and then slowly reset
8	During the ascending of the slope	Body recline	502 drag a distance in the direction of travel
				8	Instant downhill	The body becomes light instantaneously	504 quickly lowering the seat and then slowly resetting
9	During downhill slope	Anteversion of body	502 drag a distance in the opposite direction of travel
				10	Bumpy road surface	Strong up-and-down vibration	504 quick rise and fall seat

Specifically, the seat controller 501 may drive the dragging devices 502, 503, 504, 505 in a four-degree-of-freedom driving manner, may be implemented by a simple gear, rack, and rail driving device, may be implemented by a conversion device of other electric energy and mechanical energy such as pneumatic, hydraulic, electromagnetic, etc., or may be implemented by a three-degree-of-freedom platform, which is not limited by the present invention.

Alternatively, the seat control module 121 may be an in-vehicle speaker system 508 that simulates a particular driving physical sensation in a sound effect manner, such as a better bump effect in combination with playing the crushed stone sound of a vehicle tire.

Optionally, the vehicle seat control module 121 may also be an in-vehicle simulation operation lever 510, where the in-vehicle simulation operation lever 510 may have a position or angle sensor built therein to simulate a real vehicle operation signal, and the real vehicle operation signal is collected by the environment sensing module 102 and then sent to the processing module 111 of the on-vehicle computer device 110 to be converted into a driving control signal.

The appearance trim display module 122 generates realistic visual and audible effects in various driving scenarios by controlling the appearance of the vehicle, the display of the trim, the lighting of the lights, and the sound effects formed by the control circuit of the vehicle. Specifically, the vehicle appearance interior display module 122 may be a lighting system outside or inside the vehicle, for example, a lamp using an LED (light emitting diode) as a light source, that is, an LED lamp, where the LED lamp includes a lamp array formed by a plurality of light emitting diodes, and the control signals generated by the processing module 111 control the on/off, the light emitting color, the light intensity, the light emitting sequence, and the light emitting time interval of each light emitting diode to achieve different display effects.

Alternatively, the vehicle exterior trim display module 122 may also display images via a flexible display screen on the surface of the lamp housing, a flexible display screen coated on the outer surface (e.g., body, door) and inner surface (e.g., sun visor, sunroof) of the vehicle body, a head-up display (HUD) mounted on the windshield, and a display on the roof/rear window/door of the vehicle interior.

Alternatively, the vehicle exterior trim display module 122 may also be a projection device mounted on the vehicle body to project a pattern onto the road surface surrounding the vehicle body.

Specifically, in connection with the foregoing description, if the context information (such as the destination) is "seaside", the destination-related pattern is a marine pattern, as shown in fig. 7. The vehicle appearance and interior display style are as follows:

the image of fig. 7 is displayed on the window glass, the effect is shown in fig. 9, and the effect is shown in fig. 12 when the vehicle is seen from inside to outside;

the image of FIG. 7 is displayed on the outer surface of the vehicle body, and the effect is shown in FIG. 10;

the image of fig. 7 is displayed on the inner surface of the vehicle body, and the effect is shown in fig. 13.

Comparing fig. 9, 10 and 8, the difference in appearance of the interior trim before and after changing the style of the vehicle can be observed by comparing fig. 11 and 12.

The LED lamp displays rough lines as shown in fig. 18.

FIG. 16 is a schematic diagram showing an arrangement of LED arrays, wherein the LED array is changed by controlling the light emitting color, the light intensity and the light emitting sequence of each LED to achieve various display effects; taking fig. 18 as an example, one circle in the figure represents one LED lamp, black represents an LED lamp that is lighted, white represents an LED lamp that is not lighted, and different lamp lighting combinations form different lamp shapes. Fig. 17 is a schematic diagram of an initial style vehicle lamp according to an embodiment of the present invention.

Fig. 19 is a schematic diagram of a vehicle lamp with a compact style according to an embodiment of the present invention.

Fig. 20 is a schematic diagram of a soft-style vehicle lamp according to an embodiment of the present invention.

If the vehicle style changes from the initial style to the off-road style, the display change of the LED car light is shown in FIG. 14; when the vehicle style is changed from the simple style to the soft style, the display of the LED lamp is changed as shown in fig. 15.

In this embodiment, the actions performed by the seat control module include: according to the running state of the vehicle, when the seat control module vehicle ascends, the vehicle ascends instantly: 504 quickly lifts the seat and then slowly resets; during the uphill process 502 is dragged a distance in the direction of travel to create an off-road feel for outdoor travel.

The speaker system plays the sound of sea waves.

The embodiment of the invention discloses various modules of a device for changing the style of a vehicle and how the various modules cooperate to achieve the device purpose, and a method for changing the style of the vehicle is described in detail below.

Referring to fig. 6, a flowchart of a method for changing a style of a vehicle according to an embodiment of the present invention, that is, a specific method executed by a vehicle-mounted computer device, includes the following steps:

step S601, obtaining context information, including:

a) User interaction information is collected through a human-machine interface HMI: the user interaction information of the human-machine interface HMI refers to control information or interaction information sent by a user of the vehicle and acquired through a touch display screen, and/or a sound acquisition device, and/or a joystick identification device, and/or various switch keys. That is, the user may use a finger/stylus to operate on the touch panel as text input, may also input context information to the interactive interface of the terminal device or the vehicle through voice, such as "i want to go to and customer meet", "i want to go to the sea", and may also manually select a destination through the interactive interface of the terminal device or the vehicle, where the selection may be in the form of a drop-down menu composed of multiple options.

b) Sensing context information by the sensor: the context information may be information of a driving environment of the user acquired by the environment sensing module, and the information of the driving environment of the user refers to information of sounds outside the vehicle, roads, road side equipment, pedestrians, other vehicles, weather, light, temperature, and the like acquired by a sensor and the like.

c) Acquiring information through an external system: such information includes the current vehicle's geographic location, traffic and navigation information, and weather information; or acquiring destination information of the current vehicle through a vehicle-mounted navigation system; or information acquired from a third party APP, wherein the information acquired from the third party APP comprises destination information acquired from a map APP on user terminal equipment; or occasion information corresponding to the current schedule of the user, which is acquired from the schedule APP/social media on the user terminal equipment; or status descriptive information published from social media on the user terminal device; or shot content at a certain time in the movie, such as a tractor.

Step S602, determining a target scene according to the context information.

Specifically, the user inputs "I want to go to the sea" to the vehicle-mounted interactive system of the vehicle through text or voice, and determines that the target scene is "leisure travel" according to the preset context information and target scene relation example table (see table 1).

Step S603, determining a vehicle style according to the target scene or designating the vehicle style by the vehicle user, and generating a control signal according to the vehicle style.

The vehicle style includes any one or more of the following three: an image, sound, vibration displayed on the vehicle including an image displayed on a vehicle exterior trim display module, or a vehicle light display outside, inside the vehicle; the sound comprises engine sound played by a vehicle loudspeaker system, or sound outside a vehicle collected by a sound collecting device arranged on the vehicle body, or destination related sound (such as sea wave sound); the vibrations include the motion states of four coordinate dimensions, front, rear, up and down, produced by the vehicle seat.

The preset strategy is the corresponding relation between the target scene and the vehicle style, as shown in table 2. Comparing the target scene determined in the step S602 with a preset strategy to determine the style of the vehicle; or the user directly designates the style of the vehicle, including inputting to the terminal equipment or the vehicle-mounted interactive system of the vehicle in a voice and text input mode; or the style is manually selected through a setting interface of the terminal equipment or the vehicle-mounted interaction system of the vehicle, and the mode of selection can be a drop-down menu composed of a plurality of options.

Specifically, according to a preset strategy (see table 2), the vehicle style is "off road" when the target scene is "casual travel".

Step S604, generating a control signal according to the vehicle style. Specifically, when the vehicle style is "off-road", it is determined that the image, sound, vibration combination displayed by the corresponding vehicle is, according to table 3:

a) Appearance internal decoration display module

Vehicle window/windshield display, vehicle body outer surface, inner surface: displaying a destination-related pattern according to the destination;

LED car lamp: rough lines;

b) Seat control module

Drag operating state: at the moment of ascending a slope, 504 quickly lifts the seat and then slowly resets; during the ascending process, 502 drags a distance to the advancing direction;

speaker system: and playing the sound effect of the engine, playing the external environment sound and playing the destination related sound.

Specifically, in connection with the foregoing description, if the context information (such as the destination) is "seaside", the destination-related pattern is a marine pattern, as shown in fig. 7. The vehicle appearance and interior display style are as follows:

the image of fig. 7 is displayed on the window glass, the effect is shown in fig. 9, and the effect is shown in fig. 12 when the vehicle is seen from inside to outside;

The image of FIG. 7 is displayed on the outer surface of the vehicle body, and the effect is shown in FIG. 10;

the image of fig. 7 is displayed on the inner surface of the vehicle body, and the effect is shown in fig. 13.

Comparing fig. 9, 10 and 8, the difference in appearance of the interior trim before and after changing the style of the vehicle can be observed by comparing fig. 11 and 12.

The LED lamp displays rough lines as shown in fig. 18.

FIG. 16 is a schematic diagram showing an arrangement of LED arrays, wherein the LED array is changed by controlling the light emitting color, the light intensity and the light emitting sequence of each LED to achieve various display effects; taking fig. 18 as an example, one circle in the figure represents one LED lamp, black represents an LED lamp that is lighted, white represents an LED lamp that is not lighted, and different lamp lighting combinations form different lamp shapes. Fig. 17 is a schematic diagram of an initial style vehicle lamp according to an embodiment of the present invention.

Fig. 19 is a schematic diagram of a vehicle lamp with a compact style according to an embodiment of the present invention.

Fig. 20 is a schematic diagram of a soft-style vehicle lamp according to an embodiment of the present invention.

If the vehicle style changes from the initial style to the off-road style, the display change of the LED car light is shown in FIG. 14; when the vehicle style is changed from the simple style to the soft style, the display of the LED lamp is changed as shown in fig. 15.

In this embodiment, the actions performed by the seat control module include: according to the running state of the vehicle, when the seat control module vehicle ascends, the vehicle ascends instantly: 504 quickly lifts the seat and then slowly resets; during the uphill process 502 is dragged a distance in the direction of travel to create an off-road feel for outdoor travel.

The speaker system plays the sound of sea waves.

With the perfection of intelligent driving technology, human drivers will become secondary roles, and on long trips, vehicle users watch movies in the vehicle to become future possible driving scenes. In another embodiment of the present invention, a method for changing a style of a vehicle in a scene of an in-car ornamental movie is provided, and specific steps refer to fig. 6.

In step S601, context information is acquired.

Specifically, the context information obtained by the processing module in the vehicle-mounted computer equipment is that a film is being played in the vehicle, and the context information also comprises the content of the film. The content of the film may be obtained by providing, by the film producer, the scene contained in the film and the corresponding point in time, such as 58 minutes 3 seconds to 59 minutes 6 seconds of the film with a lens of a tractor; or the tractor with the target object in the film is analyzed by the vehicle-mounted computer equipment through an image analysis algorithm; other acquisition modes are also possible, and the invention is not limited.

Step S602, determining a target scene according to the context information.

Specifically, according to a preset context information and target scene relation example table (see table 1), the target scene is determined to be in-vehicle entertainment.

Step S603, determining a vehicle style according to the target scene or designating the vehicle style by the vehicle user, and generating a control signal according to the vehicle style.

According to table 2, the vehicle style corresponding to the scene is determined as engineering vehicle/tractor. According to table 3, the image, sound, vibration combinations displayed by the corresponding vehicle are determined as:

a) Appearance/interior display module

LED car lamp: square shape

b) Seat control module

Drag operating state:

504 quick rise and fall seat

Speaker system: playing sound effect of tractor booming

Specifically, an LED lamp is shown in fig. 21, which is a schematic diagram of a tractor-style lamp according to an embodiment of the present invention. The drag device of the seat control module 121 controls the movement of the entire seat in the vertical direction to the traveling direction of the vehicle, simulating the feeling of gravity change traveling to a bumpy road surface.

The loudspeaker system plays the sound effect of the rolling of the tractor at the same time, and can play the sound of the crushed stone rolled by the vehicle tire to simulate the better effect of bumping the road surface.

The foregoing is merely some embodiments of the present invention, and the scope of the present invention is not limited thereto.

Claims (21)

1. A method of changing a style of a vehicle, comprising:

acquiring context information;

obtaining a target scene of the vehicle according to the context information, wherein the target scene is a scene divided by a vehicle driving environment;

determining a vehicle style according to the target scene and a preset strategy, or directly designating the vehicle style by a vehicle user, wherein the preset strategy is a corresponding relation between the target scene and the vehicle style, and the vehicle style comprises any one or more of the following three items: images, sounds, vibrations displayed on the vehicle;

presenting the vehicle style;

the obtaining the context information includes: collecting user interaction information through a human-machine interface HMI; or sensing the context information by a sensor; or obtaining information through an external system;

the information acquired by the external system includes: information exchanged with the wireless base station and the application server through a cellular network communication protocol, the information including a geographical location of a current vehicle, or traffic and navigation information, or weather information; or acquiring destination information of the current vehicle through a vehicle-mounted navigation system; or information obtained from a third party APP;

The images displayed on the vehicle comprise images displayed on an appearance trim display module of the vehicle, or vehicle lamp displays outside and inside the vehicle, and the sound comprises engine sound played by a speaker system of the vehicle, or sound outside the vehicle collected by a sound collecting device arranged on the vehicle body, or destination related sound;

the vibrations include at least one of a front, rear, left, right, up, and down coordinate dimensional motion state generated by the vehicle seat;

in the case of a motion state including front and rear coordinate dimensions, the vibration includes: controlling the whole seat to move back and forth along the advancing direction of the vehicle, and simulating the acceleration or braking feeling of a user;

in the case of a motion state including left and right coordinate dimensions, the vibration includes: controlling the whole seat to move left and right along the direction which is horizontally perpendicular to the vehicle travelling direction, and simulating the centrifugal feeling of a user when the user turns the vehicle; or controlling the whole seat to move in a left-right rotating direction by taking the sitting position of a vehicle user as the center, and simulating the feeling that the body of the user is forced to twist at the moment of starting the vehicle to turn;

in the case of a motion state including upper and lower coordinate dimensions, the vibration includes: the whole seat is controlled to move along the vertical direction perpendicular to the travelling direction of the vehicle, and the feeling of gravity change of a user travelling to a bumpy road surface is simulated.

2. The method of claim 1, wherein the presenting the vehicle style comprises:

and generating a control signal according to the vehicle style, wherein the control signal is used for driving an execution module to present the vehicle style.

3. The method according to claim 1, wherein the correspondence between the target scenario and the preset policy is stored in a storage module, where the storage module may be a vehicle-mounted storage module, or a terminal device storage module, or a storage module of an application center.

4. The method of claim 1, wherein the directly specifying the vehicle style by the vehicle user comprises:

inputting to terminal equipment or a vehicle-mounted interactive system of a vehicle in a voice and text input mode; or alternatively

The style is manually selected through a setting interface of the terminal device or a vehicle-mounted interactive system of the vehicle, and the mode of selection can be a drop-down menu composed of a plurality of options.

5. The method of claim 1, wherein the vehicle style is either factory preset at the factory of the vehicle or downloaded to the vehicle from a third party by the vehicle user.

6. The method of claim 1, wherein the execution module comprises a vehicle seat control module, and/or a vehicle appearance trim display module; the control signal may be a signal for controlling a vehicle seat or a signal for controlling the appearance of a vehicle and the display of an interior.

7. The method according to claim 1, wherein the user interaction information collected by the human-machine interface HMI is interaction information sent by a vehicle user and collected by a touch display screen, and/or a sound collection device, and/or a joystick identification device, and/or various switch keys.

8. A method according to claim 3, wherein the sensor-perceived contextual information refers to sounds outside the vehicle, roads, roadside equipment, pedestrians, other vehicles, weather, light, temperature information perceived by the sensor.

9. The method of claim 1, wherein the information obtained by the third party APP comprises:

destination information acquired from a map APP on a terminal device; or alternatively

Occasion information corresponding to the current schedule of the user is acquired from the schedule APP/social media on the terminal equipment; or alternatively

Status descriptive information published from social media on the terminal device.

10. An apparatus for changing a style of a vehicle, comprising:

the information sending module is used for obtaining the information of the context information and sending the information to the processing module;

The storage module is used for storing a software program, operation data, a relation table of context information and a target scene, a preset strategy and vehicle style library information;

a processing module for reading the software program stored in the storage module and executing:

acquiring context information; determining a target scene according to the context information, wherein the target scene is a scene divided for a vehicle driving environment; determining a vehicle style according to the target scene and a preset strategy, or directly designating the vehicle style by a vehicle user, wherein the vehicle style comprises any one or more of the following three items: the image, sound and vibration displayed on the vehicle are displayed, and the preset strategy is the corresponding relation between the target scene and the vehicle style; generating a control signal according to the vehicle style; the execution module is indicated to present the vehicle style according to the control signal;

the execution module is used for executing the control signal;

the obtaining the context information includes: collecting user interaction information through a human-machine interface HMI; or sensing the context information through an environment sensing module; or obtaining information through an external system;

the system also comprises a vehicle-mounted wireless communication module, wherein the vehicle-mounted wireless communication module can be used for communicating with an external system to acquire external system information, and the external system information comprises: information exchanged with the wireless base station and the application server via a cellular network communication protocol, the information including a current geographic location of the vehicle, or traffic and navigation information, or weather information; or acquiring destination information of the current vehicle through a vehicle-mounted navigation system; or information obtained from a third party APP;

The images displayed on the vehicle comprise images displayed on an appearance trim display module of the vehicle, or vehicle lamp displays outside and inside the vehicle, and the sound comprises engine sound played by a speaker system of the vehicle, or sound outside the vehicle collected by a sound collecting device arranged on the vehicle body, or destination related sound;

the vibrations include at least one of a front, rear, left, right, up, and down coordinate dimensional motion state generated by the vehicle seat;

in the case of a motion state including front and rear coordinate dimensions, the vibration includes: controlling the whole seat to move back and forth along the advancing direction of the vehicle, and simulating the acceleration or braking feeling of a user;

in the case of a motion state including left and right coordinate dimensions, the vibration includes: controlling the whole seat to move left and right along the direction which is horizontally perpendicular to the vehicle travelling direction, and simulating the centrifugal feeling of a user when the user turns the vehicle; or controlling the whole seat to move in a left-right rotating direction by taking the sitting position of a vehicle user as the center, and simulating the feeling that the body of the user is forced to twist at the moment of starting the vehicle to turn;

in the case of a motion state including upper and lower coordinate dimensions, the vibration includes: the whole seat is controlled to move along the vertical direction perpendicular to the travelling direction of the vehicle, and the feeling of gravity change of a user travelling to a bumpy road surface is simulated.

11. The apparatus of claim 10, wherein the information transmitting module further comprises an environment sensing module for sensing vehicle driving environment information including off-board sounds, roads, roadside equipment, pedestrians, other vehicles, weather, lights, temperature information acquired by the sensors.

12. The device according to claim 10, wherein the information transmitting module further comprises a human-machine interface HMI module for sensing operation information sent by a user, the operation information sent by the user including interaction information sent by a user of the vehicle acquired through a touch display screen, and/or a sound acquisition device, and/or a joystick identification device, and/or various switch keys.

13. The apparatus of claim 10, wherein the information obtained by the third party APP comprises:

destination information acquired from a map APP on a user terminal device; or alternatively

Occasion information corresponding to the current schedule of the user is acquired from the schedule APP/social media on the user terminal equipment; or alternatively

Status descriptive information published from social media on the user terminal device.

14. The apparatus of claim 10, wherein the memory module is in a form of fixed or pluggable unit, which may be a high-speed random access memory or a nonvolatile memory such as a magnetic disk memory device or a flash memory device.

15. The apparatus of claim 10, wherein the direct specification of the vehicle style by the vehicle user comprises:

inputting to terminal equipment or a vehicle-mounted interactive system of a vehicle in a voice and text input mode; or alternatively

The style is manually selected through a setting interface of the terminal device or a vehicle-mounted interactive system of the vehicle, and the mode of selection can be a drop-down menu composed of a plurality of options.

16. The apparatus of claim 10, wherein the vehicle style is either factory preset at the factory of the vehicle or downloaded to the vehicle from a third party by the vehicle user.

17. The apparatus of claim 10, wherein the execution module comprises a vehicle seat control module, and/or a vehicle appearance trim display module; the control signal may be a signal for controlling a vehicle seat or a signal for controlling the appearance of a vehicle, the display of an interior, the control signal being executed in order to present a vehicle style.

18. A vehicle control system comprising the apparatus of any one of claims 10-17.

19. A computer device, characterized in that it comprises a processor for storing software programs, operating data, preset strategies, vehicle style library information, and a memory for reading the software programs stored in the memory and for executing the method of any of the claims 1-9.

20. A storage medium comprising a computer program for implementing the method of any one of claims 1-9 when run on one or more processors.

21. A computer program product comprising a computer program for implementing the method of any one of claims 1-9 when run on one or more processors.