EP4035146A1 - Control of the image reproduction of a display apparatus - Google Patents

Abstract

The present invention relates to a method, a computer program with instructions and an apparatus for controlling the image reproduction of a display apparatus. The invention additionally relates to a display apparatus in which a method according to the invention is performed. In a first step (S1), the display apparatus is switched from a first mode of operation, with radiation in a wide visual range, to a second mode of operation, with radiation in a limited visual range. Moreover, parameters are captured (S2) that influence a contrast of the image reproduction that is perceptible by a viewer situated outside the limited visual range. A contrast for the image reproduction is adapted (S3) on the basis of the captured parameters. The image reproduction of the display apparatus can optionally be interrupted (S4) if an inadmissible head position of the viewer is detected.

Description

description

Control of the image reproduction of a display device

The present invention relates to a method, a computer program with instructions and a device for controlling the image reproduction of a display device. The invention also relates to a display device in which a method according to the invention is implemented.

The number and area of display devices in motor vehicles are constantly increasing. Display devices can be found on the market, for example, as a combination instrument for the driver, as a central display and also as a passenger display. Increasingly, several displays are being combined under a common surface, the so-called cover glass. Combination instruments essentially show vehicle-specific data, such as speed, status information or navigation instructions. Central displays essentially show navigation maps, entertainment information and climate control settings. Passenger displays increasingly enable the passenger to use extensive entertainment packages, such as viewing videos or films.

While the driver is doing his or her actual job, driving the vehicle, the front passenger has the opportunity to watch an entertainment program on the front passenger display. For safety reasons, it must be ensured that the driver cannot be distracted at any time by the entertainment program, such as a video film. Ideally, it should even be ensured that the driver cannot see any content on the front passenger display.

This can be implemented, for example, by means of a so-called privacy filter, also known as a privacy film, blind film or privacy filter. Such privacy filters are already being used on smartphones, notebooks or ATM screens. Have these static solutions however, the disadvantage is that the driver cannot look at the display at any time and thus, even if necessary, the front passenger display cannot be used to display information intended for the driver. Therefore, a front passenger display equipped with a privacy filter cannot, for example, be integrated into a greeting scenario of the motor vehicle in which all displays of a display console are switched on to greet the driver.

In an alternative approach, the privacy function is therefore implemented in a switchable manner. This can be done by a switchable backlight, for example by having two backlights under the display. The first backlight is used when the privacy function is active and a restricted field of vision must be guaranteed, while the second backlight is used when the privacy function is not active and a large field of vision is to be achieved. Switching takes place by switching the corresponding light elements on and off, for example LEDs (LED:

Light emitting diode; LED), the respective backlight. The second backlight is arranged above the first backlight and its light guide is designed to be transparent, so that it is transparent to the light emitted by the first backlight. The task of the first backlight is to emit light that is as focused as possible for the passenger. The second backlight has the task of emitting light that can be seen by the driver and front passenger alike. For example, a light guide of the second backlight has special microstructures for coupling out light.

Against this background, WO 2018/187019 A1 describes a display with background lighting that has two viewing zones and two operating modes. A first area of the backlight emits directed light in the direction of a first viewing zone. In a first operating mode, a second area of the backlight emits light with a wide angular range in the direction of the first and a second observer zone. The display has a second background lighting which, in a second operating mode, emits light with a wide angular range both in the direction of the first and the second viewing zone.

Furthermore, WO 2019/034557 A1 describes a screen that can be operated in at least two operating modes for a free viewing mode and for a restricted viewing mode on at least one sub-area of its screen area, with the remaining screen area outside the sub-area permanently having a free viewing mode. The screen comprises an areally extended first backlight, which emits light in an unrestricted angular range and which is essentially not arranged below the said partial area. The screen also comprises at least one second backlight, which extends over an area, which emits light in a restricted angular range and which is arranged essentially below the said partial area.

US 2018/0082068 A1 describes a method for dynamic application of a privacy filter on an electronic display. The method first determines that the data to be displayed on the electronic display is private. In addition, a location context is determined for the electronic display. Furthermore, limits of an area of the electronic display in which the private data are to be displayed are determined. Finally, a privacy filter is generated based on the data, the location context and the boundaries. This is configured in such a way that it restricts the viewing angle of the area of the electronic display in which the private data is to be displayed.

An analysis of prototypes with the structure described has shown that the luminance for the driver's position when the privacy function is activated, as desired, decreases very sharply, eg to <1% at 45 ° compared to a perpendicular viewing angle. This is already a good result, but it has been found that despite the low luminance of the front passenger display at When the privacy function is activated, image content can still be seen by the driver. This is not desirable from a safety point of view.

It is an object of the present invention to provide solutions for improved control of the image reproduction of a display device with a switchable privacy screen.

This object is achieved by a method for controlling the image reproduction of a display device having the features of claim 1, by a computer program with instructions having the features of claim 9, by a device for controlling the image reproduction of a display device having the features of claim 10 and by a display device solved with the features of claim 11. Preferred embodiments of the invention are the subject matter of the dependent claims.

According to a first aspect of the invention, a method for controlling the image reproduction of a display device comprises the steps:

Switching of the display device from a first operating mode with radiation in a large viewing area into a second operating mode with radiation in a restricted viewing area;

Acquisition of parameters which have an influence on a contrast of the image reproduction that can be perceived by a viewer outside the restricted field of vision; and

- Adjustment of a contrast for the image reproduction on the basis of the recorded parameters.

According to a further aspect of the invention, a computer program comprises instructions which, when executed by a computer, cause the computer to carry out the following steps for controlling the image reproduction of a display device:

Switching of the display device from a first operating mode with radiation in a large viewing area into a second operating mode with radiation in a restricted viewing area; Acquisition of parameters which have an influence on a contrast of the image reproduction that can be perceived by a viewer outside the restricted field of vision; and

- Adjustment of a contrast for the image reproduction on the basis of the recorded parameters.

The term computer is to be understood broadly. In particular, it also includes graphics chips, embedded systems and other processor-based data processing devices.

The computer program can, for example, be provided for electronic retrieval or can be stored on a computer-readable storage medium.

According to a further aspect of the invention, a device for controlling the image reproduction of a display device has:

a switching unit for switching the display device from a first operating mode with radiation in a large viewing area into a second operating mode with radiation in a restricted viewing area;

an evaluation unit for detecting parameters that influence a contrast of the image reproduction that can be perceived by a viewer outside the restricted field of vision; and

- A control unit for adjusting a contrast for the image reproduction on the basis of the recorded parameters.

The above-described concept based on the background lighting means that the visible luminance of the front passenger display is greatly reduced for the driver when the privacy function is activated, but there is another parameter that is important for legibility, the contrast. Due to the contrast, the front passenger display can still be read by the driver in many cases. In the solution according to the invention, an optimization or a situation-dependent contrast setting or contrast reduction is used in order to further reduce the perceptibility of the image content for the driver. The contrast for the image reproduction is preferably adapted in such a way that the displayed image content cannot be recognized by the viewer, ie the contrast perceived by the driver is close to 1. The contrast is adjusted in such a way that there is also sufficient contrast for the front passenger.

In principle, a reduction in the contrast in the driver's viewing angle can also be achieved by using a lower-quality display technology, e.g. a liquid crystal display with twisted nematic technology (TN LCD: Twisted nematic liquid crystal display), in which the pixels are designed as so-called nematic rotating cells. The solution according to the invention has the advantage over this approach that the optical quality of the image reproduction is not reduced and, in particular, good performance is achieved even when the privacy function is not activated.

The parameters of a model or a transformation for the adaptation of the image reproduction are preferably determined individually on the basis of a number of factors. In the case of a passenger display in a motor vehicle, for example, the following factors can be taken into account: position of the display, tilt angle or installation angle of the display, viewing angle of the driver, intrinsic display contrast of the display, luminance of the display, dimming range or luminance range of the display. The number and position of the sensors for recording the relevant parameters can also be taken into account. The parameters of the model or the transformation can at the same time be optimized to the effect that a homogeneous appearance for the driver and front passenger is guaranteed, even with varying seating positions.

According to one aspect of the invention, when the contrast is adjusted, a luminance of a background lighting is modified globally or locally, or gray levels or colors of the image content to be displayed are changed. By lightening the background in relation to the information presented the desired effect can be achieved in a particularly simple manner. The adjustment of the luminance of the background lighting can either take place globally, ie for the entire display area, or locally in relation to neighboring areas. In particular, the

Gamma voltage settings can be changed depending on the situation. As an alternative to the gamma voltage, the image content can also be changed directly, i.e. each pixel is mathematically calculated by a transformation depending on the situation. The transformation can take place, for example, by using an offset and a factor.

According to one aspect of the invention, the recorded parameters relate to ambient conditions of the display device, settings of the display device, a head position of the viewer or image content to be displayed. The parameters relating to the ambient conditions of the display device can include at least one ambient brightness. The parameters for the settings of the display device can include at least a brightness of a backlight. The parameters for the image content to be displayed can include at least a brightness or color of the image content or movement information for the image content. The perceived contrast is essentially a function of the characteristics of the display used, the brightness of the background lighting, the incident light or the ambient light as well as the image content, i.e. the fact whether it is light or dark image content.

The ambient brightness can be determined directly on the display or using brightness sensors in the vehicle. A brightness value set for the display can be calculated directly in a microcontroller of a control device for the display from the brightness sensors or received via an external source.

Knowing the head position of the driver or viewer can be advantageous if the control algorithm is optimized directly for the head position, since the The driver's viewing angle on the display also has an influence on the perceived luminance and contrast.

According to one aspect of the invention, the contrast is adapted differently for moving image content and still image content. Different characteristics are preferably defined for different applications. Since the human eye is trained to recognize movements, it can be advantageous to reduce the contrast for moving content, such as dynamic videos, more than for static content, such as static menus.

According to one aspect of the invention, the contrast is adapted by a driver of the display device, by a graphics chip or by a graphics controller. The graphics chip can be implemented, for example, as an ASIC (ASIC: application-specific integrated circuit; application-specific integrated circuit) or as an FPGA (FPGA: field programmable gate array; gate arrangement that can be programmed in the field). Both the above-mentioned adaptation of the gamma voltage and the adaptation of the image content can be carried out by various components of a display device, e.g. by a display driver, a graphics controller or a graphics chip. Which approach is implemented in a display device is at the discretion of the person skilled in the art. The image content can also be adapted by optimizing the coloring as a function of environmental parameters.

According to one aspect of the invention, the image reproduction of the display device is interrupted if an impermissible head position of the viewer is determined. The evaluation of the driver's head position can be used as an additional safety criterion in that it is recognized whether the driver is moving out of the normal head position or the head position taken into account by the system in order to look at the front passenger display. In this special case, the front passenger display can then be switched off, for example, so that any misuse is recognized and dealt with in any case. A method according to the invention or a device according to the invention is preferably used in a display device. For example, such a display device can be used in a motor vehicle, in particular as a passenger display, but also in other vehicle displays. Of course, applications in other areas are also possible, e.g. in consumer electronics, in aviation, in trains, in medical technology, etc. One possible application relates to sales outlets, for example, where the PIN is entered on a screen when the privacy function is activated takes place while the previous purchase or consultation process is in unprotected mode so that several people can follow it.

Further features of the present invention will become apparent from the following description and the appended claims in conjunction with the figures.

Figure overview

1 shows schematically a method for controlling the image reproduction of a display device;

2 shows schematically a first embodiment of a device for controlling the image reproduction of a display device;

3 shows schematically a second embodiment of a device for controlling the image reproduction of a display device;

4 shows schematically a display device according to the invention with the privacy function not activated;

5 shows schematically a display device according to the invention with the privacy function activated; 6 shows a block diagram of an embodiment in which the contrast is adjusted via a display driver;

7 shows a block diagram of an embodiment in which the adjustment of the contrast takes place via a graphics AS IS;

8 shows a block diagram of an embodiment in which the adjustment of the contrast takes place via a graphics controller;

9 shows a first implementation of a gamma voltage dependent on the operating mode or situation-dependent;

10 shows a second implementation of a gamma voltage which is dependent on the operating mode or is dependent on the situation; and

11 shows measured values for the contrast as a function of the horizontal viewing angle.

Figure description

For a better understanding of the principles of the present invention, embodiments of the invention are explained in more detail below with reference to the figures. The same reference symbols are used in the figures for elements that are the same or have the same effect and are not necessarily described again for each figure. It goes without saying that the invention is not limited to the illustrated embodiments and that the features described can also be combined or modified without departing from the scope of protection of the invention as defined in the appended claims.

1 schematically shows a method for controlling the image reproduction of a display device. In a first step S1, the display device is switched from a first operating mode with radiation into a large viewing area switched to a second operating mode with radiation in a restricted field of vision. In addition, parameters are recorded S2 that have an influence on a contrast of the image reproduction that is perceptible to a viewer outside the restricted field of vision. The parameters can, for example, relate to ambient conditions of the display device, such as ambient brightness, settings of the display device, such as a brightness of a backlight, a head position of the viewer, or image content to be displayed, such as a brightness or color of the image content or movement information for the image content. On the basis of the recorded parameters, a contrast for the image reproduction is adjusted S3. The contrast is preferably adjusted S3 in this case so that the displayed image content cannot be recognized by the viewer. For this purpose, for example, a luminance of a background can be modified or image content to be displayed can be changed. It can be provided that the contrast for moving image content and still image content is adapted differently S3. Optionally, the image reproduction of the display device can be interrupted S4 if an inadmissible head position of the viewer is determined.

FIG. 2 shows a simplified schematic illustration of a first embodiment of a device 20 for controlling the image reproduction of a display device. The device 20 has an input 21 via which sensor data can be received. A switchover unit 22 is set up to switch the display device from a first operating mode with radiation in a large viewing area into a second operating mode with radiation in a restricted viewing area. An evaluation unit 23 detects parameters P which influence a contrast of the image reproduction that can be perceived by a viewer outside the restricted field of vision. The parameters P can relate, for example, to ambient conditions of the display device, such as ambient brightness, settings of the display device, such as a brightness of a backlight, a head position of the viewer or image content to be displayed, such as a brightness or color of the image content or movement information for the image content. The evaluation unit 23 can in particular, evaluate the received sensor data. On the basis of the recorded parameters P, a control unit 24 adjusts a contrast for the image reproduction. The contrast is preferably adjusted in such a way that the displayed image content cannot be recognized by the viewer. For this purpose, for example, a luminance of a background can be modified or image content to be displayed can be changed. It can be provided that the contrast for moving image content and still image content is adapted differently. The data generated by the control unit 24 can be made available for further use via an output 27 of the device 20. The image reproduction of the display device can optionally be interrupted by the device 20 if an inadmissible head position of the viewer is determined.

The switchover unit 22, the evaluation unit 23 and the control unit 24 can be controlled by a control unit 25. If necessary, settings of the switchover unit 22, the evaluation unit 23, the control unit 24 or the control unit 25 can be changed via a user interface 28. The data obtained in device 20 can, if required, be stored in a memory 26 of device 20, for example for later evaluation or for use by the components of device 20. Switchover unit 22, evaluation unit 23, control unit 24 and the control unit 25 can be implemented as dedicated hardware, for example as integrated circuits. Of course, they can also be partially or fully combined or implemented as software that runs on a suitable processor, for example on a GPU or a CPU. The input 21 and the output 27 can be implemented as separate interfaces or as a combined bidirectional interface.

3 shows a simplified schematic illustration of a second embodiment of a device 30 for controlling the image reproduction of a display device. The device 30 has a processor 32 and a memory 31. For example, the device 30 is a computer or a graphics chip. In the memory 31 instructions are stored that the When executed by processor 32, cause device 30 to execute the steps according to one of the methods described. The instructions stored in the memory 31 thus embody a program which can be executed by the processor 32 and which implements the method according to the invention. The device 30 has an input 33 for receiving information, in particular information on a locally detected ambient brightness. Data generated by the processor 32 are provided via an output 34. In addition, they can be stored in memory 31. The input 33 and the output 34 can be combined to form a bidirectional interface.

Processor 32 may include one or more processing units, such as microprocessors, digital signal processors, or combinations thereof.

The memories 26, 31 of the described devices can have both volatile and non-volatile storage areas and include a wide variety of storage devices and storage media, for example hard disks, optical storage media or semiconductor memories.

4 shows a display device 1 according to the invention with the privacy function not activated. A display panel 10, a first background lighting 11 and a second background lighting 12 can be seen. A plurality of foils 13 are arranged between the first background lighting 11 and the second background lighting 12. The display panel 10 is, for example, a liquid crystal element. The large angular range 2 in which the second background lighting 12 emits light can also be seen. The direction of the arrows indicates the direction of the emitted light, the length of its respective intensity. The reference symbols are also used in the following text for the same elements or elements with the same function. Identical elements or elements with the same effect are only described again there insofar as it appears necessary for clarity. 5 shows a display device 1 according to the invention with the privacy function activated. In this case, the first backlight 11 is active instead of the second backlight 12. This emits light in a very narrow angular range 3, which almost exclusively has one direction.

FIG. 6 shows a block diagram of an embodiment in which the contrast is adapted via a display driver 42. As an example, a sensor 45 for the ambient light, a source 46 for the brightness value of the display 10, e.g. a sensor or an input value provided by the display, and a sensor 47 for the head position of the driver are provided. Their measured values or sensor values SW are fed to a microcontroller 40. This controls a driver 41 for the LED backlight 11, 12 at an output. A specification for the contrast adjustment K is output to the display driver 42 via a further output. This receives data D to be displayed from a graphics chip 43, e.g. a timing controller, which receives unprocessed image information from a graphics controller 44 and processes it for the display driver 42. The graphics chip 43 can be implemented as an ASIC or FPGA, for example.

FIG. 7 shows a block diagram of an embodiment in which the contrast is adjusted via the graphics chip 43 instead of via the display driver 42 as described in FIG. 6.

FIG. 8 shows a block diagram of an embodiment in which the adjustment of the contrast takes place via the graphics controller 44 instead of via the display driver 42 as described in FIG. 6.

9 shows a first implementation of a gamma voltage which is dependent on the operating mode or is dependent on the situation. The horizontal axis shows gray levels in relative units, the vertical axis the luminance in relative units. The gamma voltage settings are selected to be identical for the first backlight and the second backlight. It can be seen that the curves for the two backlights coincide. FIG. 10 shows a second implementation of a gamma voltage that is dependent on the operating mode or situation-dependent. The horizontal axis shows gray levels in relative units, the vertical axis the luminance in relative units. The gamma voltage settings are selected differently here for the first backlight and the second backlight. It can be seen that the curve for the first background lighting is far below that for the second background lighting, particularly in the case of high values of the gray levels.

11 shows measured values for the contrast in relative units with the privacy function activated, plotted over the horizontal viewing angle in degrees towards the driver's side. The upper measured values show the contrast between black and white, the middle measured values the contrast between gray level 16 and white and the lower measured values the contrast between gray level 24 and white. The desired low contrast can be seen, especially at angles greater than approximately 40 °.

Claims

Claims

1. A method for controlling an image reproduction of a display device (1), comprising the steps:

- Switching (S1) the display device (1) from a first operating mode with radiation in a large viewing area into a second operating mode with radiation in a restricted viewing area;

- Detection (S2) of parameters (P) which have an influence on a contrast of the image reproduction that is perceptible by a viewer outside the restricted field of view; and

- Adaptation (S3) of a contrast for the image reproduction on the basis of the recorded parameters (P).

2. The method according to claim 1, wherein the contrast for the image display is adapted (S3) so that the displayed image content cannot be recognized by the viewer.

3. The method according to claim 1 or 2, wherein when adjusting (S3) the contrast, a luminance of a backlight is modified globally or locally or gray levels or colors of the image content to be displayed are changed.

4. The method according to any one of the preceding claims, wherein the detected parameters (P) relate to ambient conditions of the display device (1), settings of the display device (1), a head position of the viewer or image content to be displayed.

5. The method according to claim 4, wherein the parameters (P) for the ambient conditions of the display device (1) include at least one ambient brightness, the parameters (P) for the settings of the display device (1) include at least a brightness of a backlight or the parameters (P ) to the The image content to be displayed include at least a brightness or color of the image content or movement information for the image content.

6. The method according to claim 5, wherein the contrast for moving image content and still image content is adjusted differently (S3).

7. The method according to any one of the preceding claims, wherein the adjustment (S3) of the contrast is carried out by a driver (41, 42) of the display device (1), by a graphics chip (43) or by a graphics controller (44).

8. The method according to any one of the preceding claims, wherein the image reproduction of the display device (1) is interrupted if an inadmissible head position of the viewer is determined.

9. Computer program with instructions which, when executed by a computer, cause the computer to carry out the steps of a method according to one of claims 1 to 8 for controlling the image reproduction of a display device.

10. Device (20) for controlling the image reproduction of a display device (1), with:

- A switching unit (22) for switching (S1) the display device (1) from a first operating mode with radiation in a large viewing area into a second operating mode with radiation in a restricted viewing area;

- An evaluation unit (23) for detecting (S2) parameters (P) which influence a contrast of the image reproduction that can be perceived by a viewer outside the restricted field of vision; and

- A control unit (24) for adjusting (S3) a contrast for the image reproduction on the basis of the detected parameters (P).

11. Display device (1), wherein the display device (1) has a device according to claim 10 or is set up to carry out a method according to one of claims 1 to 8 for controlling an image reproduction of the display device (1).