METHOD FOR CONTENT-BASED ADJUSTMENT OF THE VISIBILITY OF CONTENT ON A DISPLAY UNIT

Abstract

A method is provided for content-based adjustment of visibility of content on a display unit. The method includes subdividing content to be displayed on a display unit into a number of regions; evaluating the content in at least one region with respect to its distraction effect; adjusting the display view in the at least one region on the basis of the evaluation carried out. Furthermore, a display unit configured according to the method is provided.

Claims

1. A method for content-based adjustment of a visibility of content on a display unit, comprising: subdividing content to be displayed on a display unit into a number of regions; evaluating the content in at least one region with respect to its distraction effect; adjusting the display view in the at least one region on the basis of the evaluation carried out.

2. The method of claim 1, wherein subdividing the content to be displayed on the display unit into a number of regions comprises subdividing into contextually and/or graphically contiguous regions.

3. The method of claim 1, wherein subdivision the content to be displayed on the display unit into a number of regions comprise subdividing into regions having static content and regions having moving content.

4. The method of claim 3, wherein a region of moving content is deemed as requiring adjustment with respect to its display.

5. The method of claim 1, wherein adjusting the display view in the at least one region is carried out based on a size of the region.

6. The method of claim 1, wherein adjusting the display view in the at least one region comprises reducing a brightness of the region.

7. The method of claim 1, wherein the adjustment of the display view in the at least one region comprises reducing a contrast of the region.

8. The method of claim 1, wherein adjusting the display view in the at least one region is carried out based on a position of the region on the display unit.

9. A display unit for presenting content in a vehicle, comprising a control device for controlling the display, the control device comprising a function module configured to carry out the method of claim 1 for content-based adjustment of a visibility of content on a display unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 is a flow chart illustrating steps of a method in one embodiment of the invention.

[0014] FIG. 2 schematically illustrates a display device according to an embodiment of the invention.

DETAILED DESCRIPTION

[0015] It will be appreciated by those skilled in the art that the block diagrams presented herein represent conceptual views of illustrative circuitry, hardware and software embodying the principles of the disclosure. Similarly, any functions or methods implied by these block diagrams may be represented in computer readable media and so executed by a computer or processor, whether or not such computer or processor is explicitly shown.

[0016] A method for content-based adjustment of a visibility of content on a display unit is illustrated in FIG. 1 and comprises a first step 10 of subdividing content to be displayed on the display unit into regions. Regions formed in the subdividing step can be of different sizes. Each region can have a homogeneous type of content, such as text, static images, moving images, buttons, etc.

[0017] The method of FIG. 1 includes a further step 20 of evaluating the content in the subdivided region with respect to its distraction effect. The evaluation can be based on the potential distraction effect, which is determined or calculated by means of predetermined rules that can be stored in a memory of the display. For example, the distraction effect of a region can be determined based on at least one parameter or any desired combination of parameters. The parameters can comprise: a brightness contrast, a variety of colors, a size, a type of acoustic background, and/or a type of content shown (static image or moving images, e.g. a movie). For example, evaluating each of the image regions can include associating each image region with a distraction index depending on the content presented therein. The distraction index can be done in accordance with legal requirements.

[0018] The method of FIG. 1 proceeds with a step 30 of adjusting the display view in at least one of the regions based on the results of the evaluating step 20. In particular, regions with a high (potential) distraction effect can be adjusted in terms of their view. For example, such regions can have a distraction index that is above a predetermined distraction threshold. The adjusting of the display view in the corresponding region may include an adjusting that reduces the lateral visibility of the region for the driver of a vehicle. The corresponding image processing operation can be applied selectively in at least one relevant region.

[0019] Application of the method on a display arranged on the front passenger side in a vehicle improves the privacy function vis-à-vis the driver and at the same time improves the image impression for the front passenger.

[0020] In some embodiments, the step 10 of subdividing the content to be displayed on the display unit into a number of regions may comprise subdividing into contextually and/or graphically contiguous regions. Contextually and/or graphically contiguous regions can correspond to functionally or visually contiguous regions, e.g. adjacent control elements (e.g. buttons, knobs, sliders), contiguous texts, video renderings, etc.

[0021] The step 10 of subdividing the content to be displayed on the display unit into a number of regions can comprise subdividing into regions having static content and regions having moving content.

[0022] Some embodiments the evaluating step 20 may include evaluating regions with moving content as needing adjustment in the adjusting step 30 with respect to the displayed view. For example, video renderings can be considered particularly distracting. Thus, regions with video content can be adjusted in the adjusting step 30 in terms of their view in the context of the method described herein.

[0023] According to further embodiments of the method, the adjusting in step 30 of the display view in at least one region can be carried out on the basis of a size of the region. This approach is based on the assumption that, especially in a moving form, larger contiguous content can attract human attention more than small contiguous content.

[0024] According to further embodiments, the adjusting in step 30 of the display view in the at least one region can comprise the reduction of the brightness of the region. In this embodiment, for example, local dimming can be applied globally in the area of the relevant region by a corresponding brightness-reducing actuation of lighting elements (e.g. LEDs) or groups thereof. In other words, local dimming in the sense of this description means the reduction of the brightness in the entire relevant region and relates to both black values and all other color values. Local dimming can be achieved by applying a corresponding matrix to the actuation field of the display, so that a separate illumination can be carried out in two dimensions, in particular in case of FALD displays (displays with Full Array Local Dimming). However, the still quite common edge lighting (displays with edge LED) can be used in displays for regulating the brightness of the individual regions. Subpixel-based local dimming can be used and is available in modern OLED or micro-LED screens.

[0025] Local dimming enables a surface and content-related illumination to be realized by applying an evaluation to the brightness that is natively present according to the image information, i.e. by reducing it within the respective region. Thus, the driver in a vehicle can see image content that is non-critical with respect to a potential distraction, while distracting content is poorly visible to or even remains hidden from the driver. By contrast to the typical local dimming, which is applied globally to displays, this measure is used locally in the course of the method described here and also globally within the at least one relevant region, even if the region contains non-black surfaces that do not experience local dimming on conventional telescreens with local dimming. On the other hand, the trigger for applying the local dimming is a content classified as distracting in one region and not the aim of achieving a black as color-fast as possible (i.e. no light).

[0026] In the context of the method described herein, only distracting image content on the display unit is deliberately adjusted in step 30 with respect to its presentation, i.e. reduced in terms of brightness. Thus, the passenger can view non-distracting content (e.g. icons on the side or additional information not covered by the NHTSA guideline) in the full picture quality of the display. At the same time, the driver can continue to see portions of the display without sacrificing visibility, even though they would be “locked” in case of a conventional and non-selective privacy function, i.e. pertaining overall for the entire display, and thus would be hardly visible or not visible. In addition, the advantage is that, for example, a lighter region showing content that is not classified as distracting can blend with a darker region containing content that is classified as distracting, so that the distracting content is (even) more difficult to see.

[0027] According to further embodiments, adjusting in step 30 of the display view in the at least one region can comprise reducing the contrast of the region. This measure can be taken in addition to or as an alternative to previous measures. The reduction in contrast can be achieved in a region with distracting content by lighting the dark regions more strongly therein. Because the indicated contrast is related to visibility and typically decreases with reduced contrast, an undesirable distraction of the driver can be reduced further. Of course, as already noted, a local dimming can additionally be used, in which a brightness reduction is applied globally within the relevant region.

[0028] According to further embodiments of the method, the adjusting in step 30 of the display view in the at least one region can be carried out on the basis of a position of the region on the display unit. For example, the closer the relevant region is to the driver of the vehicle, i.e. generally speaking the closer the relevant region is to the left edge (in case of right hand traffic) of the display, the more strongly the display can be adjusted.

[0029] The method described here can be used for advertisements that do not support a privacy functionality. Again, in this case, the driver's view of the image content can be more or less impaired by the adjustment of the display view in the relevant regions. However, in such a case, the passenger would be affected to the same extent.

[0030] The invention also relates to a display unit identified generally by the numeral 40 in FIG. 2 for presenting content in a vehicle. The elements shown in FIG. 2 and described elsewhere in this disclosure may be implemented in various forms of hardware, software or combinations thereof. Preferably, these elements are implemented in a combination of hardware and software on one or more appropriately programmed general-purpose devices that may include a processor, memory and input/output interfaces. The term “including” as used herein and implied by FIG. 2 is defined to mean directly connected to or indirectly connected through one or more intermediate components. Such intermediate components may include both hardware and software-based components. The display unit 40 is equipped with a control device 42 for controlling a display 44. The control device 42 includes a memory 46 that stores parameters that can comprise a brightness contrast, a variety of colors, a size, a type of acoustic background, and/or a type of content shown (static image or moving images, e.g. a movie). For example, evaluating each of the image regions can include associating each image region with a distraction index stored in the memory depending on the content presented therein. The display unit 40 comprises a function module configured to carry out the method described herein.