CN103853471A - User touch behavior based map display method - Google Patents

Abstract

The invention discloses a user touch behavior based map display method applicable to an electronic device comprising a touch module and a user operation interface. The method includes the following steps that when a user touches the touch module, the touch module generates a touch signal; the user operation interface is changed into and set as a map adjustment mode according to the touch signal and generates a picture group comprising a datum point and an annular image on a map picture, wherein the annular image defines an annular area, an end area and an operating area; when the user operates the touch module on the basis of the datum point and the annular image, the touch module generates a corresponding operating signal according to user operation behavior; the user operation interface adjusts the map image according to the operating signal.

Description

Based on the map-indication method of user's touch-control behavior

[technical field]

The invention relates to a kind of map-indication method, refer to especially a kind of map-indication method based on the behavior of user's touch-control.

[background technology]

In recent years, increasing electronic product possesses map display function.The wherein main flow take guider as market again, and be one of indispensable electronic product of people's whilst on tour.

Based on the consideration of cost, what most guiders adopted at present is still traditional resistance touch screen that price is comparatively cheap, it is characterized in that only supporting single-point touch.And compared to multi-point touch, the shortcoming of single-point touch is, for user, more not intuition of the behavior of single-point touch.

Under the mechanism of this external single-point touch, if user's wish is adjusted map, for example, zoom in or out the behavior such as map, rotation map, existing mode is that the image (Icon) being presented at regularly on Touch Screen through touch-control completes.The image that for example sees through touch-control "+" carrys out enlarged map, or rotates map through the relevant image rotating of touch-control.The object of aforesaid way is to be convenient to user's operation, therefore makes also Touch Screen except showing map picture, also must show the image of other corresponding difference in functionality of all kinds, causes the shown picture of Touch Screen more complicated.

[summary of the invention]

The object of the present invention is to provide a kind of map-indication method based on the behavior of user's touch-control, its picture that can make Touch Screen present is comparatively succinct.

For reaching above-mentioned purpose, the invention provides a kind of map-indication method based on the behavior of user's touch-control, be applicable to a guider that comprises a touch-control module and a user interface, this user interface is in order to produce a map picture, and the map display mode that comprises an acquiescence and a map adjustment modes, map-indication method that should be based on the behavior of user's touch-control comprise following steps: (A), when user's touch-control is during in this touch-control module, this touch-control module is according to user's touch-control behavior generation one touch-control signal; (B) this user interface is this map adjustment modes according to this touch-control signal from this map display mode change setting, and on this map picture, produce an image sets, wherein this image sets comprises a reference point and centered by this reference point and the ring-type image that forms, this ring-type image defines an annular section, and is positioned at the end region between this ring-type image and this reference point, and an operating area that differs from this annular section and this end region; (C) when user is during based on this reference point and this this touch-control module of ring-type image manipulation, this touch-control module can produce according to user's operation behavior the operation signal of a correspondence; And (D) this user interface is adjusted this map picture according to this operation signal.

[accompanying drawing explanation]

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Fig. 1 is a system diagram, and the guider that is applicable to the map-indication method that the present invention is based on the behavior of user's touch-control is described.

Fig. 2 is a process flow diagram, and the preferred embodiment of the map-indication method that the present invention is based on the behavior of user's touch-control is described.

Fig. 3 is a schematic diagram, and the map picture of this preferred embodiment is described.

Fig. 4 is a schematic diagram, and operating area, annular section and the end region of this preferred embodiment is described.

Fig. 5 is a schematic diagram, and map picture and the image sets of this preferred embodiment is described.

Fig. 6 is a schematic diagram, and anchor point and the image sets of this preferred embodiment is described.

Fig. 7 is a schematic diagram, illustrates that this preferred embodiment dwindles the state of map picture.

Fig. 8 is a schematic diagram, and the state of this preferred embodiment enlarged map picture is described.

Fig. 9 is a schematic diagram, and the process of this preferred embodiment rotation map picture is described.

Figure 10 is a schematic diagram, and the result of this preferred embodiment rotation map picture is described.

Figure 11 is a schematic diagram, illustrates that this preferred embodiment changes the process at the map picture elevation angle.

Figure 12 is a schematic diagram, illustrates that this preferred embodiment changes the result at the map picture elevation angle.

[embodiment]

About addressing other technologies content, feature and effect before the present invention, in the following detailed description coordinating with reference to one of a graphic preferred embodiment, can clearly present.

Consult Fig. 1, Fig. 2 and Fig. 3, the preferred embodiment that the present invention is based on the map-indication method of user's touch-control behavior is applicable to a guider, this guider comprises the database 11, the user interface 12 loading in this body 1 that in a body 1,, are built in this body 1, and a touch control unit 13 that is electrically connected on this body 1.This user interface 12 sees through software mode and implements, and it implements aspect is the computer program of the corresponding program of interior storage.When the processor (not shown) of this guider loads and carries out after this program, can complete the function of this user interface 12.This touch control unit 13 is a resistance touch screen, and comprises a display module 131, and a touch-control module 132.

This database 11 comprises a most electronic map data.The general common figure of these electronic map datas provides content, comprises sight spot information, highway information etc.

This user interface 12 comprises wherein at least one map picture 3 of these electronic map datas in order to produce one, and the map display mode that comprises an acquiescence, and a map adjustment modes.That is the pattern that this user interface 12 is given tacit consent to is this map display mode.Under this map display mode, this user interface 12 only merely produces this map picture 3 (seeing Fig. 3).

The display module 131 of this touch control unit 13 is in order to show this map picture 3.Touch-control module 132 use of this touch control unit 13 are for user's touch-control, and according to user's touch-control behavior generation one touch-control signal.In this preferred embodiment, user's touch-control behavior comprises following several aspect: any point on this touch-control module of single-point touch continues for some time (example, continue three seconds of touch-control), or, a bit (example, repeatedly touch-control three times) etc. of certain on this touch-control module of single-point touch in multiple times.

It is worth mentioning that to only have and complete after the touch-control behavior of above-mentioned arbitrary aspect as user, this user interface 12 can be just this map adjustment modes by the map display mode change setting of giving tacit consent to.

Below coordinate an exemplary applications, under this map adjustment modes, this database 11, this user interface 12, this display module 131, and this touch-control module 132 interaction to each other illustrates further.

Consult Fig. 3, first, when user is by after the start of this guider, this user interface 12 can be set as this map display mode of acquiescence, and produces this map picture 3 and show for this display module 131.

As shown in step S21, when this touch-control module 132 of user's touch-control and while completing the touch-control behavior of an above-mentioned wherein aspect, for example, on this touch-control module 132 of touch-control, certain a bit continued for three seconds, and this touch-control module 132 can produce these touch-control signals.Otherwise, if user there is no any point on this touch-control module of single-point touch constantly, or during without same point on this touch-control module of touch-control repeatedly, this touch-control module 132 just can not produce this touch-control signal, this user interface 12 is still this map display mode.

As shown in step S22, this user interface 12 is this map adjustment modes according to this touch-control signal from this map display mode change setting, and on this map picture 3, produces an image sets 4 (seeing Fig. 4).This image sets 4 comprises a reference point 41, and one centered by this reference point 41 and form a ring-type image 42.This ring-type image 42 defines an annular section 5, an end region 7 being positioned between this ring-type image 42 and this reference point 41, and an operating area 6 that differs from this annular section 5 and end region 7.Wherein this ring-type image 42 also indicates respectively E (east), S (south), W (west), N (north) according to orientation.Again, this reference point 41 be user in step S21 touch-control the point on this touch-control module 132.

That is to say, when this touch-control module 132 produces after this touch-control signal, this user interface 12 can change setting be this map adjustment modes, adjusts map picture 3 with the demand based on user.Again, this user interface 12 is to see through to produce this image sets 4, and then picture separates above-mentioned this different annular section 5, this operating area 6 and this end region 7.

In addition, as shown in Figure 5, only under this map adjustment modes, this display module 131 just can show this map picture 3 and this image sets 4 simultaneously, so that user can watch the map picture 3 in adjustment while adjusting map picture 3 in time.

It is worth mentioning that, along with user carries out single-point touch in above-mentioned three kinds of different regions, the adjustment that this user interface 12 also can carry out this map picture 3 in various degree.

If step S23 is to as shown in step S25, in the time that user operates this touch-control module 132 based on this image sets 4, this touch-control module 132 can produce corresponding operation signal according to user's operation behavior.That is when this user interface 12 produces after this image sets 4, if user then operates this touch-control module 132 again, this touch-control module 132 can produce different operation signals according to the different operation behavior of user.Below will introduce further.

Operate in this operating area:

Amplify, dwindle map:

Consult Fig. 6, when user is during in this operating area 6 this touch-control module 132 of single-point touch, can make this user interface 12 produce a corresponding anchor point 43.Wherein, user is this anchor point 43 in the position of 6 touch-controls of this operating area.If when user also moves with the track of these reference point 41 the two reference lines 44 that form along this anchor point 43, this touch-control module 132 produces this operation signal.This user interface 12 amplifies this map picture 3 according to this operation signal or dwindles.

That is in the time that user moves along the track of this reference line 44, this user interface 12 also produces a corresponding transfer point 45 (seeing Fig. 7) in this operating area 6.The two forms a consult straight line 46 this transfer point 45 and this reference point 41.And this user interface 12 is sizes of adjusting this map picture 3 according to the two relative length of this reference line 44 and this consult straight line 46.

For instance, consult Fig. 7, when user moves toward the direction of contiguous this reference point 41 along this reference line 44, while making the length of this consult straight line 46 be less than this reference line 44, this user interface 12 dwindles this map picture 3, the size decreases that, originally did in these map picture 3 lanes, Li street.Consult Fig. 8, when user is along this reference line 44 toward moving away from the direction of this reference point 41, while making the length of this consult straight line 46 be greater than this reference line 44, this user interface 12 amplifies this map picture 3, the size that, originally did in these map picture 3 lanes, Li street becomes large.

Rotation map:

Consult Fig. 9, when user is during in this operating area 6 this touch-control module 132 of single-point touch, can make this user interface 12 produce this corresponding anchor point 43.If user is also take this reference point 41 as the center of circle, while movement for the track of the circle that radius was formed with the distance between this reference point 41 and this anchor point 43, this touch-control module 132 produces this operation signal.This user interface 12 rotates this map picture 3 according to this operation signal.

That is this reference point 41 and this anchor point 43 can form this reference line 44 between the two.In the time that user moves along this circular track, this user interface 12 also produces this transfer point 45.The two forms this consult straight line 46 this transfer point 45 and this reference point 41.According to this reference line 44 and this consult straight line 46, the angle between the two rotates this map picture 3 to this user interface 12.

For instance, consult Figure 10, in the time that user spends along this circular track toward counterclockwise direction move angle 45, can make this consult straight line 46 and this reference line 44 form the angle of one 45 degree, this user interface 12 also can be spent this map picture 3 with counterclockwise direction rotation 45, the direction that, originally did in these map picture 3 lanes, Li street is also and then rotated counterclockwise 45 degree.

Certainly,, in the time that user spends along this circular track toward clockwise direction move angle 45, this user interface 12 also can be spent this map picture 3 with clockwise direction rotation 45.In addition the orientation that, this ring-type image 42 indicates also can and then rotate to correct position.

Operate in this annular section:

Change the map elevation angle:

Consult Figure 11, when user is based on this image sets 4 during in this annular section 5 this touch-control module of operation, this touch-control module 132 can produce corresponding operation signal according to user's operation behavior.

That is, when user is in this this touch-control module 132 of annular section 5 single-point touch or this touch-control module 132 of two point touch-control, and towards moving away from the direction of this reference point 41 or when moving near the direction of this reference point 41, this touch-control module 132 produces these operation signals.This user interface 12 changes the elevation angle of this map picture 3 according to this operation signal.

For instance, consult Figure 12, when this touch-control module 132 of user's single-point touch, and while moving towards the direction of closing on this reference point 41, this user interface 12 can reduce the elevation angle of this map picture 3,, supposes that the former angle of overlooking with 90 degree before this of this user interface 12 presents this map picture 3 that is, after the behavior of user's complete operation, this user interface 12 can change with the rake angle of 45 degree and presents this map picture 3.Certainly, when this touch-control module 132 of user's single-point touch, and when moving away from the direction of this reference point 41, this user interface 12 can increase the elevation angle of these map pictures 3.Again, if user refers to that with two touch-controls are in this annular section 5, and its pair be while referring to move towards the direction of closing on this reference point 41 simultaneously, and this user interface 12 also can reduce the elevation angle of this map picture 3; If user refers to that with two touch-controls are in this annular section 5, and its pair refers to that simultaneously when moving away from the direction of this reference point 41, this user interface 12 also can increase the elevation angle of this map picture 3.

In addition this user interface 12 also can change according to this operation signal the shape of this ring-type image 42,, along with reduce at the elevation angle of this map picture 3, this user interface 12 can change the shape of this ring-type image 42 into flat ellipse by positive circle, to meet the visual consistance of user.

Operate in this end region:

When user is during in this end region 7 this touch-control module 132 of single-point touch, this user interface 12 can be by current map adjustment modes, and change setting is the map display mode of acquiescence, that is, this display module 131 only can show this map picture 3, and can not show this image sets 4.Therefore user also only can check this map picture 3, and cannot adjust this map picture 3 this moment.

In sum, under this map adjustment modes, based on user, in the various operation behaviors of different operating areas and annular section, this user interface can be respectively to amplify, to dwindle, to rotate, and change the modes such as the elevation angle and adjust this map picture; And under map display mode, this display module only shows this map picture, and can not show this image sets, the picture that therefore presented is comparatively succinct, therefore really can reach the present invention's object.

The above, it is only the present invention's preferred embodiment, when not limiting with this scope of the invention process, the simple equivalence of generally being done according to the claims in the present invention and invention description content changes and modifies, and is all still covered by the present invention within the scope of the patent.

Claims (10)

1. the map-indication method based on the behavior of user's touch-control, be applicable to a guider that comprises a touch-control module and a user interface, this user interface is in order to produce a map picture, and the map display mode that comprises an acquiescence and a map adjustment modes, should comprise following steps by the map-indication method based on the behavior of user's touch-control:

(A) when user's touch-control is during in this touch-control module, this touch-control module is according to user's touch-control behavior generation one touch-control signal;

(B) this user interface is this map adjustment modes according to this touch-control signal from this map display mode change setting, and on this map picture, produce an image sets, wherein this image sets comprises a reference point and centered by this reference point and the ring-type image that forms, this ring-type image defines an annular section, and is positioned at the end region between this ring-type image and this reference point, and an operating area that differs from this annular section and this end region;

(C) when user is during based on this reference point and this this touch-control module of ring-type image manipulation, this touch-control module can produce according to user's operation behavior the operation signal of a correspondence; And

(D) this user interface is adjusted this map picture according to this operation signal.

2. the map-indication method based on the behavior of user's touch-control according to claim 1, wherein in step (C) when user is in the time that this operating area operates this touch-control module, this touch-control module can produce this operation signal.

3. the map-indication method based on the behavior of user's touch-control according to claim 2, wherein when user makes this user interface produce a corresponding anchor point in this this touch-control module of operating area single-point touch, and while moving along the track of this anchor point and the two reference line forming of this reference point, this touch-control module produces this operation signal, and this user interface amplifies this map picture according to this operation signal or dwindles.

4. the map-indication method based on the behavior of user's touch-control according to claim 3, wherein in the time that user moves along the track of this reference line, this user interface also produces a corresponding transfer point, the two forms a consult straight line this transfer point and this reference point, in the time that the length of this consult straight line is greater than this reference line, this user interface amplifies this map picture, and in the time that the length of this consult straight line is less than this reference line, this user interface dwindles this map picture.

5. the map-indication method based on the behavior of user's touch-control according to claim 2, wherein when user makes this user interface produce a corresponding anchor point in this this touch-control module of operating area single-point touch, and take this reference point as the center of circle, while movement for the track of the circle that radius was formed with the distance between this reference point and this anchor point, this touch-control module produces this operation signal, and this user interface rotates this map picture according to this operation signal.

6. the map-indication method based on the behavior of user's touch-control according to claim 5, wherein this reference point and this anchor point form a reference line between the two, in the time that user moves along this circular track, this user interface also produces a transfer point, the two forms a consult straight line this transfer point and this reference point, and according to this reference line and this consult straight line, the angle between the two rotates this map picture to this user interface.

7. the map-indication method based on the behavior of user's touch-control according to claim 1, wherein in step (C) when user is in the time that this annular section operates this touch-control module, this touch-control module can produce this operation signal.

8. the map-indication method based on the behavior of user's touch-control according to claim 7, wherein when user is in this this touch-control module of annular section single-point touch or this touch-control module of two point touch-control, and towards moving away from the direction of this reference point or when moving near the direction of this reference point, this touch-control module produces this operation signal, and this user interface changes the elevation angle of this map picture according to this operation signal.

9. the map-indication method based on the behavior of user's touch-control according to claim 8, wherein when this touch-control module of user's single-point touch or this touch-control module of two point touch-control, and when moving away from the direction of this reference point, this user interface increases the elevation angle of this map picture, while movement when this touch-control module of user's single-point touch and towards the direction of close this reference point, this user interface reduces the elevation angle of this map picture, and wherein this user interface also changes the shape of this ring-type image according to this operation signal.

10. the map-indication method based on the behavior of user's touch-control according to claim 1, also comprises a step (E) after step (D):

(E) when user is in the time that this end region operates this touch-control module, this touch-control module can produce this operation signal, and this user interface is this map display mode according to this touch-control signal from this map adjustment modes change setting.

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