EP2943869A1

EP2943869A1 - Method for moving image contents displayed on a display device of a vehicle, operator control and display device for a vehicle and computer program product

Info

Publication number: EP2943869A1
Application number: EP13818191.2A
Authority: EP
Inventors: Christian Schmitt
Original assignee: Daimler AG
Current assignee: Mercedes Benz Group AG
Priority date: 2013-01-09
Filing date: 2013-12-21
Publication date: 2015-11-18
Also published as: CN104903837A; WO2014108166A1; US20150345982A1; DE102013000272A1

Abstract

The present invention provides a method for moving image contents (1) which are displayed on a display device of a vehicle. The image contents (1) are shifted by means of a user input on a touch-sensitive surface (T) which differs from the display device, wherein the user input for shifting the image contents (1) comprises touching the touch-sensitive surface (T) with a finger at a first location (A), moving the finger over the touch-sensitive surface (T) from the first location to a second location and holding the finger at the second location during the shifting of the image contents (1). A direction in which the image contents (1) are shifted is not predefined by an absolute position of the second location (B,C,D,E,F,G,H,I) on the touch-sensitive surface (T) but rather by a position of the second location (B,C,D,E,F,G,H,I) relative to the first touch location (A). A distance from the second location (B,C,D,E,F,G,H,I) from the first location determines the speed with which the image contents (1) are shifted. Furthermore, a corresponding operator control and display device for a vehicle and a corresponding computer program product are disclosed.

Description

Daimler AG

A method for moving an image content displayed on a display device of a vehicle, a control and display device for a vehicle, and

A computer program product

The present invention relates to a method for moving one on one

Display device of a vehicle displayed image content according to the preamble of claim 1, a control and display device for a vehicle and a

A computer program product.

From the prior art it is known to display image content, for example maps, on a screen in a vehicle. The image contents can be moved to display an area outside the displayed map section on the screen. Mobile navigation devices usually have one

touch-sensitive screen (touch screen) on which means

Swipe moves that are performed by a user's finger, the map can be moved. However, in-vehicle navigation devices display the maps on a screen of the vehicle, which is often not

Touchscreen is designed to achieve the longest possible function of the screen. The control of displaying the image contents may then be carried out via different controls, for example a central control, which may include, for example, a rotary / push button or a touch-sensitive surface, i. a touchpad that is separate from the screen.

From DE 10 2009 048 622 A1 a touch-based operating system for a display device in a vehicle is known. Moving one on one

Screen of the vehicle displayed map can be realized by various methods. For example, moving the map may be performed by a user's finger touching a touch-sensitive surface at a first location and then the user moving the finger to an edge of the touch-sensitive surface. If the user's finger remains at the edge of the touch-sensitive surface for a predetermined period of time, For example, the map is shifted in a direction dictated by a position of the finger on the edge of the touch-sensitive surface. Moving the map is stopped when the user's finger is removed from the map

touch-sensitive surface is taken.

It is the object of the present invention, a method, an operator and

To provide a display device and a computer program product for an application in a vehicle, which allow a free, flexible and continuous shifting of an image content displayed on a display device of a vehicle.

This object is achieved with respect to the method with the features specified in claim 1, in terms of the operating and display device with the features specified in claim 10 and with respect to the computer program product with the measures specified in claim 11.

Further advantageous embodiments of the present invention are the subject of the dependent claims.

According to one method, a touch-based control system for a

Display device used in a vehicle with a different from the display device touch-sensitive surface. Image contents that are displayed on the display device of the vehicle, by means of a

User input moved to the touch-sensitive interface. The

User input to move the image content indicates touching the

touch-sensitive surface with an object or finger at a first location from which the finger is moved across the touch-sensitive surface to a second location where the finger is held during translation of the image content. In this case, the direction in which the image content is shifted is not determined by an absolute position of the second location on the touch-sensitive surface, but by the relative position of the second location relative to the first contact location. The speed at which the image content is shifted is determined by the distance of the second digit from the first digit. Thus, the user can the image content infinitely in any direction and with any

Move speeds freely. Thus, a small distance between start and end point can be triggered a slow move, if the image content is not is far to move, and a large distance, a fast move to be triggered when the image content is far to move.

On the image content displayed on the display device, a crosshair and an arrow display are superimposed on the image content during user input, the arrow representing the movement of the finger over the image

touch-sensitive surface from the first location to the second location follows. The arrow direction of the arrow image with respect to a center of the crosshair indicates the direction in which the image content is shifted, and the distance of the arrow image with the crosshair indicates the speed with which the image content is shifted. Through the arrow display displayed during the movement of the finger, the user receives a feedback with which he can orient himself on the touch-sensitive surface in order to achieve the desired direction and speed of the movement with the placement of the finger at the second place where he remains to be able to set exactly.

The shifting of the image content is advantageously started only when the finger is held at the second position for a predetermined period of time. This allows the user to precisely select the direction and speed conveyed to him via the arrow display before moving the image content.

Movement of the image content after removal of the finger from the second location on the touch-sensitive surface is preferably not abruptly terminated but rather smoothly slowed down by the speed of movement. Especially at higher speeds, the user can take his finger off the

touch-sensitive surface before the desired image detail can be seen on the display device, so that by slowing down the movement of the movement, it either obtains the desired image content or can orient itself, how far and whether it has moved the image content in the correct direction. ^' Depending on whether he has already received the desired image content on the display or not, he can then initiate another user input in the same or different direction. The speed with which the shifting is carried out can be done after

Orientation can be reset accordingly: slow scrolling for a nearby picture content and faster scrolling for a more distant picture content. To prevent inadvertent shifting of the image content, for example, when the finger shaky or shaky on the rest of the vehicle

rests on the touch-sensitive surface, a minimum distance can be set by which the second location must be spaced from the first location in order to trigger the display of the arrow or the shifting of the image content.

The speed at which the image content is shifted may increase linearly or nonlinearly as the second digit increases from the first position.

The method may be provided as a picture content of a map of a

Move navigation system. However, the method can also for

Moving other image content displayed on the display device can be used.

The method described for moving the image content by a

Touchpad operation eliminates the conflict of the user from his expectations, resulting from the usual operation of a touch screen and the actual structure of the control element: In contrast to the touch screen when using a remote from a display screen touchpad as a control element, a conflict between the operating modes "movement of the cursor (Crosshair) "or

"Movement of the picture content (map)". Furthermore, a conflict with conventional methods, for example scrolling by means of a central operating element, is avoided.

The present invention will now be further described by way of example with reference to the accompanying drawings in which like or similar items or parts throughout the several views are identified with the same reference numerals.

In the drawing shows:

Fig. 1 exemplary end touch points on a touchpad with an indexed

A shift speed that depends on a distance of a respective end touch location to a start touch location; FIG. 2 shows further exemplary end touch locations on the touchpad at the indexed translation speed, which is from a distance of a respective end touch location to another start touch location; FIG.

Fig. 3 map views a) to c) with a crosshair and an arrow view in selecting the direction of displacement and displacement speed (a) and b)) and when moving the map view (c)).

In a touch-based operating system, with a touch-sensitive surface as a control, for example, a touchpad, moving an image content such as a map on a vehicle screen is performed such that, depending on a first touch of a finger on the touch-sensitive surface, as long as the finger on the

touch-sensitive surface is moved, each additional point of contact of the finger on the touch-sensitive surface as an arrow on the

Vehicle screen of the vehicle is displayed, which indicates a shift direction and shift speed for moving the image content. Furthermore, a crosshair is superimposed on the image content on the vehicle screen. A position of the arrow with respect to a center of the reticle indicates the direction of displacement, and a distance of the arrow from the reticle indicates the displacement speed.

FIGS. 1 and 2 each show a touchpad T as touch-sensitive

Surface with which the shifting of an image content, for example a map 1 (see FIGS. 3 a to c) can be controlled.

A circle A in FIGS. 1 and 2 symbolizes the first point of contact, from which the finger is moved via the touchpad T in order to set the desired displacement direction and speed. A dotted circle Z _mjn , which is not visible on a real touchpad T, illustrates a minimum distance that the finger must move from the first touch point A to trigger a shifting of the image content. Dashed circle lines around point A can not be seen on a real touchpad T; they serve here only the clarification of the

Shifting speed in pixels per second (px / s) as a function of the distance to the first contact point A. In the examples shown in FIGS. 1 and 2, the speed increases in part linearly (here up to a radius corresponding to points E to 200 px / s) and partly non-linear with the distance to the first contact point A to. Depending on the size of the touchpad and the resolution of the screen, the values of the shift speeds and their increase depending on the distance of a second touch location from the first touch point may differ from the illustrated examples.

Circles B, C, D, E, F in Fig. 1 and G, H, I in Fig. 2 are any points where the finger touches the touch pad T after the first touch point A. The respective positions of the points B, C, D, E, F and G, H, I with respect to the first point of contact A respectively determine the direction of shifting and shifting speed of the picture content on the display device when the finger remains at the corresponding point. The displacement direction does not depend on a predetermined contact point on an edge of the touchpad, but can be chosen freely from any starting position. Thus, in Fig. 1, the starting point A is located in the lower left quarter of

Touchpads T, in Fig. 2 in the upper right quarter.

The touch points B, C, D shown in Fig. 1, when used as end points for shifting the image content, i. second shift points are selected, a shift speed of 50 px / s before, but each in different

Directions. If the point of contact B is selected as the end point, the image content should be shifted to the northeast with the said shifting speed; this corresponds to a shift of 50 px / s to the north and 50 px / s to the east or in the corresponding Cartesian x, y coordinate system of the screen. The

Touch point C as the end point causes the image content to shift south and the touch point D as the end point causes the west shift to be 50 px each.

With point E as the end touch point, the image content is shifted to the southwest at a speed of 200 px / s, more specifically 150 px / s to the south and 125 px / s to the west. If point F is selected as the end touch point, the image content is shifted eastwards at 280 px / s and 180 px / s, which corresponds to a northeast shift of 450 px s. The division of the

Shifting speed in a certain direction in the associated

Shift vectors in the x, y coordinate system is known to those skilled in graphics and animation programming. Depending on the location of the starting point A on the touchpad T different maximum speeds can be achieved. Thus, on the example shown in FIG. 2, the starting point A in the upper right quarter of the touchpad is a

Move speed southwest from 800 px / s (with endpoint I) (corresponding to 620 px / s to the south and 195 px / s to the west). If in other directions larger displacement speeds are achieved, the

Start touch point are selected accordingly, for example, at the bottom of the touchpad for a fast shift of the image content to the north. Points G and H, as endpoints, translate southeastward at approximately 175 px / s (125 px / s south and 115 px / s east), and southwest-westerly at 300 px / s (95 px / s south and 225 px / s west).

Fig. 3 illustrates in a) and b) by way of example a display of a map 1 as image content on a vehicle screen during the selection of the shift direction and the shift speed. After the user touches the touchpad at a first point of contact, cross hair 2 and arrow 3 appear when it has moved the finger away from the first touch location by at least the minimum distance on the touchpad. Arrow 3 in Fig. 3a) facing north and only slightly spaced from the crosshairs corresponds to a second point of contact just above the starting point of contact and would result in a low speed map northward displacement as the end point. This is in

This example is not desired so that the user continues to move his finger on the touchpad until he has placed the arrow mark 3 as shown in Fig. 3b). The arrow 3 points to the northeast, the direction in which the user

Map 1 would like to move. In comparison to FIG. 3 a, the greater distance between the arrow representation 3 and the crosshair 2 determines the displacement speed into which the map is shifted to the northeast in accordance with the arrow illustration 3. If the finger lingers on the selected point of contact, the shift of map 1 starts in the selected direction and at the selected speed. Fig. 3c) shows the map representation after begun shift of the map in the northeast.

As long as your finger stays on the touchpad at the end of the touchpad, it stops

Shift the image content. When the finger of the touch-sensitive Surface, the movement of the image content on the vehicle display slows down evenly.

The embodiment described above can be realized as a computer program product, such as a storage medium, which is designed in cooperation with a computer or a plurality of computers, that is to say computer systems, or other computing units, a method according to the preceding one

Execute embodiment. The computer program product may be configured to execute the method only after performing a predetermined routine, such as a setup routine.

Although the present invention has been described above with reference to an embodiment, it should be understood that various embodiments and changes can be made without departing from the scope of the present invention as defined in the appended claims.

With regard to further features and advantages of the present invention, reference is expressly made to the disclosure of the drawing.

Claims

Daimler AG claims

A method of moving an image content (1) displayed on a display device of a vehicle, comprising:

Shifting the image content (1) in response to touching a different one from a display surface of the display device

touch-sensitive surface (T) having an object at a first location (A) and moving the object across the touch-sensitive surface (T) from the first location (A) to a second location (B, C, D, E, F, G, HI),

Determining a direction of shifting the image content (1) based on a relative position of the second location (B, C, D, E, F, G, H, I) with respect to the first location (A), and

Determining a speed of the shift based on a distance from the second location (B, C, D, E, F, G, H, I) to the first location (A).

2. The method according to claim 1, characterized by:

Displays a crosshair (2) and an arrow (3) superimposed on the image content (1), and

Moving the arrow display (3) in response to moving the object across the touch-sensitive surface (T), wherein an arrow direction of the arrow (3) with respect to a center of the crosshair (2) indicates the direction of scrolling the image content (1) and a distance of the arrow representation (3) to the center of the reticle (2) indicates the speed of shifting the image content (1).

A method according to claim 1 or 2, characterized by starting the shifting of the image content (1) after a predetermined period of time during which the object reaches the touch-sensitive surface (T) at the second location (B, C, D, E, F, G , H, I).

4. The method according to any one of claims 1 to 3, characterized by terminating the shifting of the image content (1) in response to terminating the

Contacting the touch-sensitive surface (T) at the second location (B, C, D, E, F, G, H, I) by the object.

5. The method according to claim 4,

characterized in that

stopping the moving of the image content (1) by smooth

Slowing down the speed of moving the image content (1) is performed.

6. The method according to any one of claims 1 to 5, characterized by starting the shifting of the image content (1) after a distance from the second location (B, C, D, E, F, G, H, I) to the first location (A) a predetermined one

Minimum distance (Z _min ) has reached non-zero.

7. The method according to any one of claims 1 to 6,

characterized in that

the speed of moving the image content (1) increases linearly or nonlinearly with an increasing distance from the second location (B, C, D, E, F, G, H, I) to the first location (A).

8. The method according to any one of claims 1 to 7,

characterized in that

the image content (1) is a map (1) of a vehicle navigation system.

9. The method according to any one of claims 1 to 8,

characterized in that

the object is a finger.

10. A control and display device for a vehicle, comprising:

a display surface having a display surface; and

a touch-sensitive surface different from the display surface of the display device, wherein the display device and the touch-sensitive surface

Have facilities that are designed to carry out a method according to any one of claims 1 to 9.

11. Computer program product for moving one on one

Display device of a vehicle displayed image content (1), which is designed to work in conjunction with a computer or a

Computer system directly or, after performing a predetermined routine, indirectly perform a method according to one of claims 1 to 9.