CN108304244A - The method and device of onboard system showing interface - Google Patents
The method and device of onboard system showing interface Download PDFInfo
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- CN108304244A CN108304244A CN201810157539.6A CN201810157539A CN108304244A CN 108304244 A CN108304244 A CN 108304244A CN 201810157539 A CN201810157539 A CN 201810157539A CN 108304244 A CN108304244 A CN 108304244A
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Abstract
Embodiment of the disclosure discloses a kind of method and device of onboard system showing interface, is related to vehicle technology field, can solve the problems, such as that the prior art vivid, intuitive can not show that state of motion of vehicle specifically changes.The method of embodiment of the disclosure includes mainly:When vehicle is in normal condition, interface element is shown at the origin at onboard system interface;During the relatively described normal condition of the vehicle is moved, size and Orientation based on kinematic parameter, dispaly state of the interface element on the onboard system interface is adjusted, so that the kinematic parameter is bigger, the interface element is remoter apart from the origin in said direction.Embodiment of the disclosure, which is primarily adapted for use in, to be shown based on human-computer interaction interface in the scene of state of motion of vehicle.
Description
Technical field
Embodiment of the disclosure is related to vehicle technology field, a kind of method more particularly to onboard system showing interface and
Device.
Background technology
With the development of society, personal automobile is more and more universal, the function of onboard system is also more and more.People not only may be used
It, can be with intelligent navigation, playing pictures etc. to be listened to the radio programme, be listened to music by onboard system so that the running mistake of people
Journey becomes increasingly to enjoy.
It can be by cutting on the HMI (Human Machine Interface, human-computer interaction interface) of existing onboard system
Fixed mode mode is changed to show the operating status of vehicle.Specifically, picture 1 indicates that normally travel state, the expression of picture 2 turn
Curved state, passenger can determine the current operating status of vehicle according to picture shown in HMI.However, this fixed mode
The mode of switching only relates to several distinctive motion states pre-set, for the specific variation passenger of certain motion state
It can not perceive.
Invention content
In a first aspect, embodiment of the disclosure provides a kind of method of onboard system showing interface, the method includes:
When vehicle is in normal condition, interface element is shown at the origin at onboard system interface;
During the relatively described normal condition of the vehicle is moved, the size and Orientation based on kinematic parameter,
Dispaly state of the interface element on the onboard system interface is adjusted, so that the kinematic parameter is bigger, the boundary
Surface element is remoter apart from the origin in said direction.
Second aspect, embodiment of the disclosure provide a kind of device of onboard system showing interface, and described device includes:
Display unit, for when vehicle is in normal condition, interface element to be shown at the origin at onboard system interface;
Adjustment unit, for during the relatively described normal condition of the vehicle is moved, being based on kinematic parameter
Size and Orientation, adjust dispaly state of the interface element on the onboard system interface so that the movement join
Number is bigger, and the interface element is remoter apart from the origin in said direction.
The third aspect, embodiment of the disclosure provide a kind of storage medium, and the storage medium includes the program of storage,
Wherein, equipment where the storage medium being controlled when described program is run executes the onboard system interface exhibition described in first aspect
The method shown.
Fourth aspect, embodiment of the disclosure provide a kind of mobile unit, and the mobile unit includes storage medium;And
One or more processor, the storage medium are coupled with the processor, and the processor is configured as depositing described in execution
The program instruction stored in storage media;The onboard system showing interface described in first aspect is executed when described program instruction operation
Method.
5th aspect, embodiment of the disclosure provide a kind of vehicle, and the vehicle includes vehicle-mounted described in fourth aspect
Equipment.
Above description is only the general introduction of embodiment of the disclosure technical solution, in order to better understand the reality of the disclosure
Apply the technological means of example, and can be implemented in accordance with the contents of the specification, and in order to allow the above-mentioned of embodiment of the disclosure and
Other objects, features and advantages can be clearer and more comprehensible, below the special specific implementation mode for lifting embodiment of the disclosure.
Description of the drawings
By reading the detailed description of hereafter preferred embodiment, various other advantages and benefit are common for this field
Technical staff will become clear.Attached drawing only for the purpose of illustrating preferred embodiments, and is not considered as to the disclosure
Embodiment limitation.And throughout the drawings, the same reference numbers will be used to refer to the same parts.In the accompanying drawings:
Fig. 1 shows a kind of method flow diagram for onboard system showing interface that embodiment of the disclosure provides;
Fig. 2 shows a kind of method exemplary plots for onboard system showing interface that embodiment of the disclosure provides;
Fig. 3 shows the method exemplary plot for another onboard system showing interface that embodiment of the disclosure provides;
Fig. 4 shows the method exemplary plot for another onboard system showing interface that embodiment of the disclosure provides;
Fig. 5 shows the method exemplary plot for another onboard system showing interface that embodiment of the disclosure provides;
Fig. 6 shows a kind of composition frame chart of the device for onboard system showing interface that embodiment of the disclosure provides;
Fig. 7 shows the composition frame chart of the device for another onboard system showing interface that embodiment of the disclosure provides.
Specific implementation mode
The exemplary embodiment of the disclosure is more fully described below with reference to accompanying drawings.Although showing the disclosure in attached drawing
Exemplary embodiment, it being understood, however, that may be realized in various forms the disclosure without should be by embodiments set forth here
It is limited.On the contrary, these embodiments are provided to facilitate a more thoroughly understanding of the present invention, and can be by the scope of the present disclosure
Completely it is communicated to those skilled in the art.
In a first aspect, embodiment of the disclosure provides a kind of method of onboard system showing interface, as shown in Figure 1, institute
Stating method includes mainly:
101, when vehicle is in normal condition, interface element is shown at the origin at onboard system interface.
Since the different motion state of vehicle is often embodied in different dimensions, (such as vehicle is rough on road surface
On road when driving, it often pitches, i.e., the jounce condition of vehicle embodies in the vertical dimension, and for another example, vehicle is to the left
When either turning round to the right the centripetal force of vehicle can it is horizontal to the left or it is horizontal to the right, i.e. the centripetal force of vehicle is embodied in horizontal dimension
On degree), it is possible to the different motion state of vehicle is shown with multiple dimensions.For the ease of the intuitive, image subsequently to user
Ground shows motion conditions of the vehicle on different dimensions, can be shown with the normal condition of vehicle is as a reference point.
That is, it is possible to which an origin is arranged on onboard system interface, when vehicle is in normal condition, boundary is shown at the origin
Surface element.
Wherein, when dimension difference set by the embodiment of the disclosure, referenced normal condition may be different.Work as institute
When the dimension of setting includes vertical dimensions, referenced normal condition includes horizontality, i.e., entire vehicle is all in horizontal road
On;When set dimension does not include vertical dimensions, referenced normal condition can not be horizontality, i.e. vehicle can be with
It is not located in horizontal road, such as can be located on inclined route.It is referenced when set dimension includes horizontal dimensions
Normal condition includes non-turn state (including stationary state and straight-going state);When set dimension includes depth dimension,
Referenced normal condition includes stationary state.It follows that when being provided with multiple dimensions, referenced normal condition is each
The comprehensive state of the corresponding normal condition of a dimension.For example, when set dimension includes vertical dimensions, horizontal dimensions and depth
When dimension, referenced normal condition is horizontal stationary state.
Illustratively, when vehicle is in horizontal stationary state, if being shown in a manner of three-dimensional on onboard system interface
Interface element, then the dispaly state of interface element can be as shown in Figure 2.Wherein, there are 3 interface elements on onboard system interface,
Each interface element is 0 in the coordinate of each dimension (including horizontal dimensions, vertical dimensions, depth dimension).Wherein, work as interface
For element when the coordinate in depth dimension is 0, the angle between interface element and depth dimension is 90 degree.
You need to add is that in order to more intuitively, truly show the motion conditions of vehicle to user, by kinematic parameter
Straight line belonging to direction is as corresponding dimension in onboard system interface.For example, due to jounce condition direction include vertically to
Above and vertically downward, it is possible to set dimension of the jounce condition on onboard system interface to vertical dimensions;Due to centripetal
The direction of power include it is horizontal to the left with it is horizontal to the right, it is possible to set dimension of the centripetal force on onboard system interface to water
Flat dimension;Due to the direction of movement velocity include depth forward with depth backward, it is possible to by movement velocity in onboard system
Dimension on interface is set as depth dimension.
102, during the relatively described normal condition of the vehicle is moved, the size based on kinematic parameter and side
To, dispaly state of the interface element on the onboard system interface is adjusted, so that the kinematic parameter is bigger, it is described
Interface element is remoter apart from the origin in said direction.
After the vehicle normal condition setting in motion relatively, each inductor in mobile unit can detect vehicle
Various kinematic parameter (motion states referred in above-mentioned steps 101, including any one of following or several combinations:Jolt shape
State, centripetal force and movement velocity), interface element is then adjusted at onboard system interface according to the size and Orientation of kinematic parameter
On dispaly state.
Specifically, when being in normal condition due to vehicle, interface element is in the origin at onboard system interface, so vehicle
Once relative datum state motion, origin will be left in some dimension.In order to reflect vehicle in the kinematic parameter
On movement degree, can distance of the interface element apart from origin in corresponding dimension be set according to the size of kinematic parameter,
Can be when kinematic parameter be bigger, interface element is remoter apart from origin in corresponding dimension.In addition, being carried in above-mentioned steps 101
And the dimension in onboard system interface can be the straight line belonging to the direction of kinematic parameter, adjust Interface Element in this case
When the dispaly state of element, it is required that when kinematic parameter is bigger, interface element is remoter apart from origin on the direction of kinematic parameter,
So that the motion conditions of vehicle and the motion conditions of interface element are consistent.For example, vehicle jolts vertically upward, then run
Degree of winnowing with a dustpan is bigger, and interface element is remoter apart from origin on vertically upward.
In addition, in order to which in onboard system interface, to the kinematic parameter of passenger's dynamic reflection vehicle, vehicle can be detected in real time
Kinematic parameter, the kinematic parameter of vehicle can also be periodically detected, but the period should be less than preset time threshold (i.e.
Detection time interval had better not be too big), to while saving resource, realize the effect of dynamic reflection vehicle movement parameter
Fruit.
You need to add is that multiple interface elements can be set on onboard system interface, and multiple interface element point
It is not shown in different display levels.In this case, in order to enable onboard system interface can more realistically show vehicle
Motion conditions, the kinematic parameter of same size can be directed to, the higher interface element of display level is in the direction of kinematic parameter
On it is closer apart from origin.That is, for the same size of some kinematic parameter, the adjustment of the interface element closer from passenger
Degree is smaller.
For example, there are 3 interface elements on onboard system interface, Interface Element is followed successively by from the interface element of passenger from the near to the distant
Element 1, interface element 2 and interface element 3.When the size for the centripetal force for detecting vehicle is X, direction be it is horizontal to the left when, can be with
Size and Orientation based on centripetal force, dispaly state of the adjustment interface element on onboard system interface, so that centripetal force is got over
Greatly, interface element is remoter apart from origin in horizontal left direction.Wherein, these three interface elements are in horizontal left direction
Moved relative to origin, but these three interface elements need mobile degree different, mobile degree from small to large according to
Secondary is interface element 1, interface element 2 and interface element 3.
Embodiment of the disclosure provides a kind of method of new onboard system showing interface, and this method can be worked as at vehicle
When normal condition, interface element is shown at the origin at onboard system interface, and is carried out with respect to the normal condition in the vehicle
During movement, the interface element can be adjusted on the onboard system interface based on the size and Orientation of kinematic parameter
Dispaly state, so that kinematic parameter is bigger, interface element distance origin on the direction of kinematic parameter is remoter, to real
Now the quantization of kinematic parameter variation is shown so that passenger can more be perceive intuitively that the motion conditions of vehicle.
In some embodiments, it is referred in above-described embodiment, the kinematic parameter of vehicle includes following any one or several
Combination:Jounce condition, centripetal force and movement velocity, and kinematic parameter is often the mistake moved in some dimension in three dimensions
Journey.Below according to the actual motion direction of each kinematic parameter, using the affiliated dimension of jounce condition as vertical dimensions, belonging to centripetal force
Dimension is horizontal dimensions, for the affiliated dimension of movement velocity is depth dimension, is directed to the vehicle-mounted interface exhibition of these three states respectively
Show that situation is illustrated:
(1) when the kinematic parameter of vehicle includes jounce condition, above-mentioned steps 102 can be specifically refined as:
During the relatively described normal condition of the vehicle is moved, based on the degree of jolting and direction of jolting, adjust
Dispaly state of the whole interface element on the onboard system interface, so that degree of jolting is bigger, the interface element
Origin described in distance is remoter on the direction of jolting.Wherein, jounce condition can be detected by gyroscope.
Illustratively, if vehicle is in horizontal stationary state (i.e. normal condition), the Interface Element on onboard system interface
As shown in Figure 2 (wherein, A, B, C are interface elements), then vehicle is during the motion due to pavement roughness for the dispaly state of element
Vehicle is caused to pitch, when vehicle jolts vertically downward, interface element moves vertically downward, specific as shown in Figure 3.And
The degree that vehicle jolts vertically downward is bigger, then the displacement that interface element moves vertically downward is bigger, i.e., interface element is hanging down
Directly in downward direction on it is remoter apart from origin.
(2) when the kinematic parameter of vehicle includes centripetal force, above-mentioned steps 102 can be specifically refined as:
During the relatively described normal condition of the vehicle is moved, the size and Orientation based on centripetal force is adjusted
Dispaly state of the whole interface element on the onboard system interface, so that centripetal force is bigger, the interface element exists
Origin described in distance is remoter on the direction of the centripetal force.Wherein, centripetal force can be detected by gravity sensor.
Illustratively, if vehicle is in horizontal stationary state, the dispaly state of the interface element on onboard system interface
As shown in Fig. 2, when then vehicle turns round to the left during the motion, interface element level is moved to the left, specific as shown in Figure 4.And
And vehicle level is turned left curved more anxious (i.e. horizontal centripetal force to the left is bigger), then the displacement that interface element level is moved to the left is just
Bigger, i.e., interface element is remoter apart from origin in horizontal left direction.
(3) when the kinematic parameter of vehicle includes movement velocity, above-mentioned steps 102 can be specifically refined as:
During the relatively described normal condition of the vehicle is moved, the size and Orientation based on movement velocity,
Dispaly state of the interface element on the onboard system interface is adjusted, so that movement velocity is bigger, the Interface Element
Element is smaller relative to the angle in the direction of the movement velocity.
Illustratively, if vehicle is in horizontal stationary state, the dispaly state of the interface element on onboard system interface
(wherein interface element is 90 degree relative to the angle of depth dimension) as shown in Figure 2, then vehicle start after depth travels forward, boundary
Surface element is remoter apart from origin in depth dimension, and the effect of presentation is that interface element becomes smaller relative to the angle of depth dimension
(angle i.e. relative to the direction of movement velocity becomes smaller), it is specific as shown in Figure 5.And Velicle motion velocity is bigger, then interface
Element becomes smaller relative to the angle of depth dimension, i.e., sight angle more tends to be horizontal for passenger.
It should be noted that left side three-dimensional coordinate figure is only used for facilitating the change for understanding right side interface element in Fig. 2 to Fig. 5
Change, may not be displayed on onboard system interface.
Second aspect, according to above method embodiment, another embodiment of the disclosure additionally provides a kind of onboard system
The device of showing interface, as shown in fig. 6, described device includes:Display unit 21 and adjustment unit 22.Wherein,
Display unit 21, for when vehicle is in normal condition, Interface Element to be shown at the origin at onboard system interface
Element;
Adjustment unit 22, for during the relatively described normal condition of the vehicle is moved, being joined based on movement
Several size and Orientations adjusts dispaly state of the interface element on the onboard system interface, so that the movement
Parameter is bigger, and the interface element is remoter apart from the origin in said direction.
In some embodiments, as shown in fig. 7, the adjustment unit 22 includes combination that is any one of following or appointing several:
The first adjustment module 221, second adjustment module 222 and third adjust module 223;
The first adjustment module 221, for during the relatively described normal condition of the vehicle is moved, base
In the degree of jolting and direction of jolting, dispaly state of the interface element on the onboard system interface is adjusted, so that top
Degree of winnowing with a dustpan is bigger, and interface element origin described in distance on the direction of jolting is remoter;
The second adjustment module 222, for during the relatively described normal condition of the vehicle is moved, base
In the size and Orientation of centripetal force, dispaly state of the interface element on the onboard system interface is adjusted, so as to
Mental and physical efforts are bigger, and interface element origin described in distance on the direction of the centripetal force is remoter.
The third adjusts module 223, for during the relatively described normal condition of the vehicle is moved, base
In the size and Orientation of movement velocity, dispaly state of the interface element on the onboard system interface is adjusted, so that
Movement velocity is bigger, and interface element origin described in distance on the direction of the movement velocity is remoter.
In some embodiments, when the interface element is multiple, for the kinematic parameter of same size, level is shown
Higher interface element origin described in distance on the direction of the kinematic parameter is closer.
Embodiment of the disclosure provides a kind of device of new onboard system showing interface, which can work as at vehicle
When normal condition, interface element is shown at the origin at onboard system interface, and is carried out with respect to the normal condition in the vehicle
During movement, the interface element can be adjusted on the onboard system interface based on the size and Orientation of kinematic parameter
Dispaly state, so that kinematic parameter is bigger, interface element distance origin on the direction of kinematic parameter is remoter, to real
Now the quantization of kinematic parameter variation is shown so that passenger can more be perceive intuitively that the motion conditions of vehicle.
The onboard system showing interface device that the embodiment of second aspect provides, can be executing the implementation of first aspect
The onboard system method for showing interface that example is provided, the relevant meaning being used for and specific embodiment may refer to first
Associated description in the embodiment of aspect, is no longer described in detail herein.
The third aspect, according to above-described embodiment, another embodiment of the disclosure additionally provides a kind of storage medium, described
Storage medium includes the program of storage, wherein equipment where controlling the storage medium when described program is run executes as above
The method of the onboard system showing interface.
Embodiment of the disclosure provides a kind of storage medium, and the program stored in the storage medium can be in when vehicle
When normal condition, interface element is shown at the origin at onboard system interface, and is transported with respect to the normal condition in the vehicle
In dynamic process, it is aobvious on the onboard system interface can to adjust the interface element based on the size and Orientation of kinematic parameter
Show state, so that kinematic parameter is bigger, interface element distance origin on the direction of kinematic parameter is remoter, to realize
Quantization displaying to kinematic parameter variation so that passenger can more be perceive intuitively that the motion conditions of vehicle.
Fourth aspect, according to above-described embodiment, another embodiment of the disclosure additionally provides a kind of mobile unit, described
Mobile unit includes storage medium;And one or more processor, the storage medium are coupled with the processor, the place
Reason device is configured as executing the program instruction stored in the storage medium;It is executed when described program instruction operation as described above
The method of onboard system showing interface.
Embodiment of the disclosure provides a kind of new mobile unit, which can be in normal condition when vehicle
When, interface element is shown at the origin at onboard system interface, and in the vehicle with respect to the process that the normal condition is moved
In, dispaly state of the interface element on the onboard system interface can be adjusted based on the size and Orientation of kinematic parameter, with
So that kinematic parameter is bigger, interface element distance origin on the direction of kinematic parameter is remoter, joins to movement to realize
The quantization displaying of number variation so that passenger can more be perceive intuitively that the motion conditions of vehicle.
5th aspect, according to above-described embodiment, another embodiment of the disclosure additionally provides a kind of vehicle, the vehicle
Including the mobile unit described in fourth aspect.
In the above-described embodiments, it all emphasizes particularly on different fields to the description of each embodiment, there is no the portion being described in detail in some embodiment
Point, it may refer to the associated description of other embodiment.
It is understood that the correlated characteristic in the above method and device can be referred to mutually.In addition, in above-described embodiment
" first ", " second " etc. be and not represent the quality of each embodiment for distinguishing each embodiment.
It is apparent to those skilled in the art that for convenience and simplicity of description, the system of foregoing description,
The specific work process of device and unit, can refer to corresponding processes in the foregoing method embodiment, and details are not described herein.
Algorithm and display be not inherently related to any certain computer, virtual system or miscellaneous equipment provided herein.
Various general-purpose systems can also be used together with teaching based on this.As described above, it constructs required by this kind of system
Structure be obvious.In addition, embodiment of the disclosure is not also directed to any certain programmed language.It should be understood that can be with
The content of embodiment of the disclosure described here is realized using various programming languages, and is retouched above to what language-specific was done
State is to disclose the preferred forms of embodiment of the disclosure.
In the instructions provided here, numerous specific details are set forth.It is to be appreciated, however, that the implementation of the disclosure
Example can be put into practice without these specific details.In some instances, well known method, structure is not been shown in detail
And technology, so as not to obscure the understanding of this description.
Similarly, it should be understood that in order to simplify the disclosure and help to understand one or more of each inventive aspect,
Above in the description of the exemplary embodiment of embodiment of the disclosure, each feature of embodiment of the disclosure is sometimes by together
It is grouped into single embodiment, figure or descriptions thereof.However, it is as follows that the method for the disclosure should not be construed to reflection
It is intended to:The i.e. required embodiment of the disclosure protected requires more more than the feature being expressly recited in each claim
Feature.More precisely, as reflected in the following claims, inventive aspect is single less than disclosed above
All features of embodiment.Therefore, it then follows thus claims of specific implementation mode are expressly incorporated in the specific embodiment party
Formula, wherein separate embodiments of each claim as embodiment of the disclosure itself.
Those skilled in the art, which are appreciated that, to carry out adaptively the module in the equipment in embodiment
Change and they are arranged in the one or more equipment different from the embodiment.It can be the module or list in embodiment
Member or component be combined into a module or unit or component, and can be divided into addition multiple submodule or subelement or
Sub-component.Other than such feature and/or at least some of process or unit exclude each other, it may be used any
Combination is disclosed to all features disclosed in this specification (including adjoint claim, abstract and attached drawing) and so to appoint
Where all processes or unit of method or equipment are combined.Unless expressly stated otherwise, this specification (including adjoint power
Profit requires, abstract and attached drawing) disclosed in each feature can be by providing the alternative features of identical, equivalent or similar purpose come generation
It replaces.
In addition, it will be appreciated by those of skill in the art that although some embodiments described herein include other embodiments
In included certain features rather than other feature, but the combination of the feature of different embodiments means to be in the disclosure
Within the scope of embodiment and form different embodiments.For example, in the following claims, the reality of required protection
Apply the one of arbitrary of example mode can use in any combination.
The all parts embodiment of embodiment of the disclosure can with hardware realization, or with one or more processing
The software module run on device is realized, or is realized with combination thereof.It will be understood by those of skill in the art that can be in reality
It tramples and middle realizes onboard system interface according to an embodiment of the present disclosure using microprocessor or digital signal processor (DSP)
The some or all functions of some or all components in the method and device of displaying.Embodiment of the disclosure can also be real
It is now for executing some or all equipment or program of device of method as described herein (for example, computer journey
Sequence and computer program product).It is such to realize that the program of embodiment of the disclosure may be stored on the computer-readable medium,
Or it can be with the form of one or more signal.Such signal can be downloaded from internet website and be obtained, or
It provides on carrier signal, or provides in any other forms.
It should be noted that the present invention will be described rather than limits the invention for above-described embodiment, and ability
Field technique personnel can design alternative embodiment without departing from the scope of the appended claims.In the claims,
Any reference mark between bracket should not be configured to limitations on claims.Word "comprising" does not exclude the presence of not
Element or step listed in the claims.Word "a" or "an" before element does not exclude the presence of multiple such
Element.Embodiment of the disclosure can be by means of including the hardware of several different elements and by means of properly programmed calculating
Machine is realized.In the unit claims listing several devices, several in these devices can be by same
Hardware branch embodies.The use of word first, second, and third does not indicate that any sequence.It can be by these word solutions
It is interpreted as title.
Claims (10)
1. a kind of method of onboard system showing interface, which is characterized in that the method includes:
When vehicle is in normal condition, interface element is shown at the origin at onboard system interface;
During the relatively described normal condition of the vehicle is moved, the size and Orientation based on kinematic parameter, adjustment
Dispaly state of the interface element on the onboard system interface, so that the kinematic parameter is bigger, the Interface Element
Element is remoter apart from the origin in said direction.
2. according to the method described in claim 1, it is characterized in that, when the kinematic parameter includes jounce condition, described
During the relatively described normal condition of vehicle is moved, the size and Orientation based on kinematic parameter adjusts the Interface Element
Dispaly state of the element on the onboard system interface, so that the kinematic parameter is bigger, the interface element is in the side
It is remoter apart from the origin upwards, including:
During the relatively described normal condition of the vehicle is moved, based on the degree of jolting and direction of jolting, institute is adjusted
Dispaly state of the interface element on the onboard system interface is stated, so that degree of jolting is bigger, the interface element is in institute
It is remoter to state origin described in distance on direction of jolting.
3. according to the method described in claim 1, it is characterized in that, when the kinematic parameter includes centripetal force, in the vehicle
During the relatively described normal condition is moved, the size and Orientation based on kinematic parameter adjusts the interface element
Dispaly state on the onboard system interface, so that the kinematic parameter is bigger, the interface element is in the direction
On it is remoter apart from the origin, including:
During the relatively described normal condition of the vehicle is moved, the size and Orientation based on centripetal force adjusts institute
Dispaly state of the interface element on the onboard system interface is stated, so that centripetal force is bigger, the interface element is described
Origin described in distance is remoter on the direction of centripetal force.
4. according to the method described in claim 1, it is characterized in that, when the kinematic parameter includes movement velocity, described
During the relatively described normal condition of vehicle is moved, the size and Orientation based on kinematic parameter adjusts the Interface Element
Dispaly state of the element on the onboard system interface, so that the kinematic parameter is bigger, the interface element is in the side
It is remoter apart from the origin upwards, including:
During the relatively described normal condition of the vehicle is moved, the size and Orientation based on movement velocity, adjustment
Dispaly state of the interface element on the onboard system interface, so that movement velocity is bigger, the interface element phase
It is smaller for the angle in the direction of the movement velocity.
5. method according to claim 1 to 4, which is characterized in that when the interface element is multiple, needle
To the kinematic parameter of same size, the higher interface element of display level origin described in distance on the direction of the kinematic parameter
It is closer.
6. a kind of device of onboard system showing interface, which is characterized in that described device includes:
Display unit, for when vehicle is in normal condition, interface element to be shown at the origin at onboard system interface;
Adjustment unit, for during the relatively described normal condition of the vehicle is moved, based on the big of kinematic parameter
Small and direction adjusts dispaly state of the interface element on the onboard system interface, so that the kinematic parameter is got over
Greatly, the interface element is remoter apart from the origin in said direction.
7. device according to claim 6, which is characterized in that the adjustment unit includes any one of following or appoints several
Combination:The first adjustment module, second adjustment module and third adjust module;
The first adjustment module, for during the relatively described normal condition of the vehicle is moved, based on jolting
Degree and direction of jolting, adjust dispaly state of the interface element on the onboard system interface, so that degree of jolting
Bigger, interface element origin described in distance on the direction of jolting is remoter;
The second adjustment module, for during the relatively described normal condition of the vehicle is moved, being based on centripetal
The size and Orientation of power adjusts dispaly state of the interface element on the onboard system interface, so that centripetal force is got over
Greatly, interface element origin described in distance on the direction of the centripetal force is remoter.
The third adjusts module, for during the relatively described normal condition of the vehicle is moved, being based on movement
The size and Orientation of speed adjusts dispaly state of the interface element on the onboard system interface, so that movement speed
Degree is bigger, and interface element origin described in distance on the direction of the movement velocity is remoter.
8. a kind of storage medium, which is characterized in that the storage medium includes the program of storage, wherein run in described program
When control the storage medium where equipment perform claim require the side of the onboard system showing interface described in any one of 1-5
Method.
9. a kind of mobile unit, which is characterized in that the mobile unit includes storage medium;And one or more processor,
The storage medium is coupled with the processor, and the processor, which is configured as executing the program stored in the storage medium, to be referred to
It enables;The method that perform claim requires the onboard system showing interface described in any one of 1-5 when described program instruction operation.
10. a kind of vehicle, which is characterized in that the vehicle includes mobile unit as claimed in claim 9.
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