DE102009058886A1 - Display method for motor vehicle, involves representing information content e.g. movable image, on display surface i.e. LCD, of motor vehicle, and uniformly and segmentally illuminating display surface using respective backlights - Google Patents

Abstract

The method involves representing an information content e.g. movable image, on a display surface i.e. LCD, of a motor vehicle. The display surface is uniformly illuminated and segmentally illuminated using respective backlights (3). Intensities of the respective backlights are separately controlled based on the information content and energy consumption. The intensities are separately changed by a user. Environmental conditions e.g. ambient light, incident light on the display surface, blare effect or temperature, are detected to control the Intensities of the respective backlights.

Description

The invention relates to a display method and a display device for a motor vehicle and a related computer program product.

In recent years, display units with a liquid crystal display or LCD are widely used. A display unit with an LCD has the advantage that the device is narrow and light and consumes little energy. A backlight unit is integrated in the display unit. An information content on a display surface of the LCD is reproduced by irradiating light from a light source via a color filter on LCD cells located in front of the light source.

The backlight unit is associated with a direct backlight type or an edge backlight type according to an arrangement of the light source.

In the edge backlight type, a light just outputting light source is provided on one side of the LCD. A transparent, light-conducting plate is provided to guide the light emitted from the light source to the entire surface of the LCD.

In the direct backlight type, a light source is provided behind the LCD. Light emitted from the light source is scattered by light scattering films evenly to the entire LCD. The light scattering films are provided between the light source and the LCD. The direct backlighting type allows an entire display unit to have a light and thin construction while having a high luminance and a uniform light distribution.

Various LCD display units are known in the art, as for example in the DE 102 52 630 A1 , of the DE 699 12 233 T2 and the DE 20 2005 015 061 U1 is disclosed. These LCD display units have a large or full-area backlight. A targeted lighting of individual areas is not possible.

There is a need in LCD-equipped display and / or control units, a need to backlit a displayed information content not only whole or large area, but also brighten certain areas and / or a representation of a displayed information content, possibly taking into account an energy consumption for a representation to optimize viewing users. Such optimizing may, for example, be the best possible lightening of certain areas while at the same time increasing the brilliance and contrast of the displayed information content, etc.

In vehicles, it must be taken into account that there are special requirements for display and / or operating units that result from the particular application in vehicles.

It is therefore an object of the present invention to provide a display method and a display device for a vehicle and a related computer program product which optimize display of information contents on a display unit of a vehicle.

This object is achieved with the measures specified in the independent claims.

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

More specifically, a display method for a vehicle includes displaying information content on a display surface, uniformly illuminating the display surface by a first backlight, and segmentally illuminating the display surface by a second backlight.

According to one embodiment, the display method comprises at least one of the steps of controlling the intensity of the first backlight and the intensity of the second backlight separately depending on the information content, changing the intensity of the first backlight and the intensity of the second backlight separately from each other by a user, and controlling the intensity of the first backlight and the intensity of the second backlight depending on the power consumption.

According to a further embodiment, the display method comprises the step of detecting an environmental condition.

According to a further embodiment, the display method comprises the step of controlling the intensity of the first backlight and the intensity of the second backlight separately from each other depending on the environmental condition concerning an ambient brightness, an incident light on the display surface, a glare effect, or a temperature.

According to a further embodiment, the display method comprises the step of displaying a plurality of information contents and emitting them in a plurality of different emission directions from the display surface.

According to a further embodiment, the display method comprises the step of dimming the first backlight and the second backlight separately.

According to a further embodiment, the display method comprises the steps of coupling first light into the first or second backlight at a first location, coupling second light into the first or second backlight at a second location, and coupling out the first light and the second Light separated from each other in different directions of radiation from the display surface.

According to a further embodiment, the display method has a decoupling of the first light and the second light separately from one another in different intensities from the display surface.

Further, a display method for a vehicle comprises displaying information content on a display surface, injecting first light into a backlight at a first location, injecting second light into the backlight at a second location, and extracting the first light and the second Light separated from each other in different directions of radiation from the display surface.

According to one embodiment, the display method comprises at least one of the steps of extracting the first light and the second light separately from each other at different intensities from the display surface, and displaying a plurality of information contents on the display surface and radiating them in the different emission directions from the display surface.

According to a further embodiment, the display method comprises the steps of linearly extending brightness values of the information content to a total available dynamic range of brightness values of the display area, detecting an environmental condition, non-linear fitting of brightness values of the information content obtained by the linear stretching depending on a detected environmental condition, and representing brightness values obtained by the nonlinear fitting of the information contents on the display surface.

According to a further embodiment, the linear stretching is carried out such that a range of non-relevant information of the information content is distinguished from a range of relevant information of the information content image by means of a threshold for the brightness values and only the range of the relevant information of the information content on the total available Dynamic range of brightness values is linearly stretched.

Furthermore, a display device for a vehicle has facilities that are designed to carry out the display method described above or its embodiments.

Furthermore, a computer program product is designed to interact with a computer or computer system directly or, after performing a predetermined routine, indirectly perform the previously described display method or embodiments thereof.

The display device and the computer program product achieve the same or equivalent advantages as previously described with regard to the display method or its embodiments, so that at this point a further explanation of these same or equivalent advantages is dispensed with.

The present invention will be explained below with reference to an embodiment with reference to the accompanying drawings.

It shows:

1 a schematic representation of a structure of a liquid crystal display or LCD according to an embodiment of the present invention:

2 a schematic representation of a structure and a basic operation of a split-view or dual-view display according to the embodiment of the present invention;

3 exemplary diagrams and illustrations on a display according to the embodiment of the present invention;

4 a schematic representation of a backlight according to the embodiment of the present invention;

5 a schematic representation of different beam paths of the backlight according to the embodiment of the present invention; and

6 a schematic representation of another backlight according to the embodiment of the present invention.

It is assumed below by a use case that different Information content from a vehicle or motor vehicle via a way of visually displaying the information contents on a display, such as an LCD, are displayed so that a user of the vehicle can perceive these information contents. Such visual presentation of the information contents on the display constitutes one of the most important ways of human / machine communication in a vehicle. Also, in a vehicle, more and more entertainment functions, such as TV, video, games, World Wide Web, etc., are provided via the display.

Furthermore, it should be noted that the present invention can be combined with the invention disclosed in co-pending application with Applicant's internal application number P816699 so that the contents of which are incorporated herein by reference.

Before going into the embodiment of the present invention in detail, it should be noted that although the embodiment of the present invention is directed primarily to a so-called dual-view or split-view display, as described below, various aspects of the present invention Invention are also applicable to a normal display, as will be apparent to those skilled in the following description. Accordingly, these two different display types will be described below with reference to FIG 1 and 2 explained.

1 shows a schematic representation of a structure of a liquid crystal display or LCD according to an embodiment of the present invention.

In 1 denotes the reference numeral 1 an LCD or liquid crystal display layer, denoted by the reference numeral 2 an RGB sub-pixel filter layer and denotes the reference numeral 3 a backlight.

The LCD layer 1 , the RGB subpixel layer 2 and the backlight 3 Make up an LCD together.

The LCD works such that the backlight 3 Light to the LCD layer 1 emits. The LCD layer 1 has polarizers that look like the backlight 3 modulate emitted light. The RGB subpixel filter layer 3 which is required only in a color LCD produced by additive mixing of the three primary colors red, green and blue, as respective subpixels in a respective pixel of the RGB subpixel filter layer 3 all possible colors that can be displayed on the LCD and viewed by a user.

2 shows a schematic representation of a structure and a basic operation of a split-view or dual-view display according to the embodiment of the present invention.

In 2 denote the same reference numerals as in FIG 1 the same or equivalent parts. Further referred to in 2 the reference number 4 a barrier mask, denoted by the reference numeral 5 a driver information for a driver of a vehicle, the reference numeral is a passenger information for a passenger of the vehicle, the reference numeral 7 a mixed image of the driver information and the passenger information and denoted by the reference numeral 8th a crosstalk area.

Except as described below works in 2 shown split-view display in the same way as in 1 shown LCD.

A split-view display is based on a new display technology that allows various information for the driver, that is driver information 5 , such as a driving information, and for the passenger, that is a passenger information 6 such as entertainment video / TV, simultaneously on a display with different viewing angles.

Using a special barrier mask 4 are certain subpixels of the subpixel filter layer 2 only visible to the driver, while other subpixels of the subpixel filter layer 2 only visible to the passenger. This is permitted by different emission directions for such subpixels. The radiation directions are here by the barrier mask 4 established. In this way, different information for driver and front passenger can be spatially separated into different viewing areas, as in the lower part of 2 is shown.

Between the viewing angle areas for the driver and front passenger, there is a so-called crosstalk or crosstalk area 8th in which a mixed picture 7 the driver information 5 and the passenger information 6 is available. By additional scattering and diffraction effects of various causes such crosstalk effects can image quality of driver information 5 and negatively affect the passenger information. For the driver, the viewing angle range for the driver information 6 due to a product safety designed technically large enough, thereby preventing the driver while driving, for example, entertainment content of the passenger information 6 of the passenger can be seen and distracted so that in particular the image quality of the passenger information 6 may be reduced or subject to specific technical constraints.

The perceptibility of crosstalk effects is influenced on the one hand by an information content or content of an image to be displayed and on the other by environmental conditions.

Below is the description of various display methods. It should be noted that the respective processing steps of the display methods of an information content to be displayed to a user in a corresponding processed form are performed in a processing unit corresponding to a display such as the LCD in FIG 1 or the split-view ad in 2 upstream. Although particular reference will be made below to the split-view display, various aspects of the display methods are also on a normal display, such as the LCD in FIG 1 applicable, as will be readily apparent to one skilled in the art.

The display and the processing unit together form a display device having means adapted to carry out the display processes. In this case, the display methods describe the operation of the display device.

3 shows exemplary diagrams and representations on a display according to the embodiment of the present invention.

As it is in the upper left diagram in 3 is apparent, an information content to be displayed has a frequency H of brightness values. The brightness values in the case of a color display refer to color values of a colored information content and, in the case of a black and white display, to gray values of a black / white information content.

In the upper right representation, the information content shown is an image similar to the upper left diagram in FIG 3 equivalent.

In detail, information contents are analyzed image by image and a threshold value S is determined from a distribution of the frequency H over a normalized brightness H of a respective image. The threshold S serves to distinguish relevant information in the image from irrelevant information in the image. The non-relevant information is information deemed to be unimportant or non-perceptual for a perceived value and / or informational content.

From a ratio of a maximum available range for the brightness values, that is a total available dynamic range of brightness values of a display area, to the threshold value S results in an extension factor with only a range of the relevant information on the total available dynamic range of brightness values of a display area is linearly stretched, as in the middle representations of 3 is shown. The resulting image has improved perceptibility over the original image, as shown in the middle right illustration of FIG 3 is shown. Non-relevant information that is not linearly stretched, all have the maximum brightness value that can be displayed on the display surface.

Next, the image obtained by the linear stretching, that is, information contents obtained by the linear stretching, is not linearly adjusted depending on a detected environmental condition. The detected environmental condition may include, for example, a condition concerning an ambient brightness in the vehicle, an incident light on the display area in the vehicle, a glare effect of a user in the vehicle, a temperature, or a combination thereof. Nonlinear fitting can still be selected or changed by a user. Overall, the non-linear fitting optimizes the information content for a perception. More specifically, nonlinear fitting redistributes brightness values such that originally linear brightness distributions, which are disturbed by the detected environmental conditions, are again linearly perceived by a user regardless of the detected environmental condition. It should be noted that nonlinear fitting does not lose information, that is, nonlinear fitting is lossless. The result of the non-linear apportion is in the lower left diagram in 3 shown.

Finally, the information content obtained by the non-linear fitting on the display surface, such as the LCD in 1 or the split-view ad in 2 displayed. This information content to be displayed is in the lower right figure in 3 shown. It can be seen that the image displayed on the display surface has a significantly improved perceptibility to a user compared to the original image.

The threshold value S described above can be determined in addition to the brightness distribution also taking into account other analysis aspects. In addition, a used stretch factor can be filtered in time and in terms of a predetermined range of values.

When applying the method described above to the in 2 In the split-split display shown, in which a plurality of information contents are displayed that are radiated in a plurality of different emission directions from the split-view display, at least one of the steps of linear stretching, nonlinear fitting, and representing one of the information contents may become independent be carried out by another of the information contents. It is preferred that all of the above-mentioned steps for a respective information content be performed independently of all steps for a different information content.

The information content to be displayed may be, for example, a still image, a moving image, an operation / display surface, or a combination thereof. In general, however, any type of informational content to be displayed is usable.

4 shows a schematic representation of a backlight according to the embodiment of the present invention.

It should be noted that the steps described below, both in combination with the above with respect to 3 described steps as well as separately from these can be applied.

In 4 denotes the reference numeral 3a a first backlight, denoted by the reference numeral 3b a second backlight, which is part of the backlight 3 are and denoted by the reference numeral 1 the LCD layer.

The translucent second backlight 3b is lit by light from the first backlight 3a backlit. That is due to the superposition of the light from the first backlight 3 and the light from the second backlight 3b resulting total light L is used to illuminate the display area 2 ,

5 shows a schematic representation of different beam paths of the backlight according to the embodiment of the present invention.

In 5 Denote the same reference numerals as in 4 the same or equivalent parts. In places where one from the first backlight 3a radiated light L1 on one of the second backlight 3b radiated light 12 the light intensifies due to the superposition to a total light 13 because the light L in 4 equivalent.

In places where one from the first backlight 3a emitted light L1 not on one of the second backlight 3b radiated light 12 meets, no light amplification takes place. The total light 13 the backlight 3 arises at these points from the first backlight 3a emitted light L1.

In detail, as it is in 4 and 5 is shown, by means of the first backlight 3a a display area is evenly lit and is illuminated by the second backlight 3b only a part of the display area is illuminated, which corresponds to a segmented illumination of the display area. Using such a backlight 3 an information content is displayed on the display area.

By means of the illustrated arrangement and a corresponding driving the first backlight 3a and the second backlight 3b can be intensities of the first backlight 3a and the second backlight 3b be controlled separately from each other depending on a respective information content. A respective intensity can also be changed by a user. The changing of respective intensities may be performed depending on an energy consumption.

The total light of the backlight 1 can thus be made lighter or darker in certain segments.

Similar to the case relating to 3 has been described, an environmental condition may be detected, for example, concerning an ambient brightness in the vehicle, an incident light on the display area in the vehicle, a blinding effect of a user, a temperature, or a combination thereof. The intensities of the first backlight 3a and the second backlight 3b can then be controlled independently of each other depending on the detected environmental condition.

Furthermore, when using a split-view display, in which different information contents are emitted in a plurality of different emission directions, the intensities of the first background illumination 3a and the second backlight 3b separately controllable or dimmable.

6 shows a schematic representation of another backlight according to the embodiment of the present invention.

It should be noted that the steps described below, both in combination with the above with respect to 3 and or 4 and 5 described steps as well as separately from these can be applied.

In 6 denotes the reference numeral 3 the backlight, the reference numeral 2 the sub-pixel filter layer, denoted by the reference numeral 14 first light and denotes the reference numeral 15 second light.

More specifically, a first light source becomes the first light 14 in a backlight 3 coupled at a first location and is from a second light source, the second light 15 in the backlight 3 coupled at a second location, which differs from the first place. The first light 14 and the second light 15 are separated from each other in different directions of emission from the subpixel filter layer 2 decoupled, which is in front of the backlight 3 located. The decoupling of the first light 14 and the second light 15 can be coupled separately from each other in different intensities.

Hereinafter, further features, aspects and advantages of the previously described methods will be described, which relate in particular to the application of these methods in vehicles.

As previously described, continuous dynamic analysis of the information content, situational adaptive algorithmic change of brightness distribution of the information content, and / or dynamic adjustment of backlighting is performed to provide a user-perceived, optimal representation of the information content on the display surface to ensure all external environmental conditions. In addition, further embodiments of the backlighting lead to additional improvements.

With regard to information contents, a distinction is made between a class of human-machine interaction or MMI and a class of video / TV / entertainment contents or video contents.

MMI content is specially created for the interaction of people with technical functions, such as radio functions, navigation, or general menus, and therefore also designed for optimal readability and recognizability. For this purpose, high contrast representations are selected for the most important information and font sizes are chosen appropriately. For these high contrast representations, the dynamic range of the illustrative display is widely used. Often, daytime and nighttime modes are selected to have different representations, such as dark text on a light background during the daytime and negative writing on a dark background at night, to accommodate perception at different ambient brightness levels and avoid dazzling effects during the night.

While very high contrasts are generally chosen for primary information, for increased perceived value and secondary information, less contrasty displays and grayscale / color gradients are often chosen, the perception and perceived value of which can suffer greatly under certain environmental conditions. By the previously described dynamically adaptive methods, the perceived value of these representations can be obtained by compensation of ambient light influences.

Video / TV / Entertainment content or Video content is content that is generally created for display in normal rooms (typical workplace conditions) or darkened rooms (cinema). Typically, these representations seldom use the maximum possible dynamic range (grayscale / color gamut) of the display, in order to take into account artistically the situations depicted (night scenes, scenes in rooms, very rarely bright daytime scenes) and, on the other hand, brilliance effects in certain scenes, such as small objects (small bright lamp, etc.).

The contents-dependent, dynamically-adaptive methods described above can greatly increase the perceptibility / recognizability of the contents. For optimal effects and optimal efficiency, information losses are sometimes deliberately allowed. However, these are generally below the perception threshold of the viewer under the appropriate environmental conditions.

According to a preparation of the video content MMI content can be edited. Here, however, the premises are especially on the aspect of readability

Even without the analysis of the information content, a change adapted to a perception (analysis of the environmental situation by sensors and evaluation of the physiological and psychological situation for the perception) can lead to a considerable improvement of the readability and perceived value, which would otherwise only be achieved with a considerable increase in intensity to reach the backlight is. An increase in the intensity of the backlight, in turn, requires an increase in the energy consumption and the heat development of the lighting unit.

Due to the use of the methods described above, there is the possibility of reducing the intensity of the backlight without sacrificing the representation perception. The resulting lower energy consumption of the backlight enables optimized energy and thermal management, which ultimately results in an optimized, more compact component geometry due to the lower need for cooling / heat dissipation.

As previously mentioned, there is a need to be able to optimally present brilliance effects in certain informational content. Here, the light-transmissive segmented backlight described above plays a crucial role. Through content-based taxation, particularly information-relevant information content is also backlit by segmented backlighting. By constructing the backlight from a uniformly luminous unit in combination with an additional, upstream backlight for segmented illumination of relevant information contents, it is possible to operate the uniformly luminous unit at a low intensity and energy level. The need-based additional backlighting of perception-relevant information contents is taken over by the upstream segmented backlighting.

As previously mentioned, split information displays represent different levels of information for the driver and front passenger. This results in the need to optimize the backlight, that is. each with different, specific intensities to the different information content for driver and front passenger to adapt. The backlight described above enables these requirements to be met by coupling two different lights into a backlight and coupling these two lights separately into each of the relevant driver and passenger viewing angles.

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

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10252630 A1 [0006]
• DE 69912233 T2 [0006]
• DE 202005015061 U1 [0006]

Claims (12)

Display method for a vehicle, comprising the steps of: Representing an information content on a display area, Uniform illumination of the display area by means of a first backlight, and Segmented illumination of the display area by means of a second backlight. A display method according to claim 1, comprising at least one of the steps: Controlling the intensity of the first backlight and the intensity of the second backlight separately depending on the information content, Changing the intensity of the first backlight and the intensity of the second backlight separated by a user, and Controlling the intensity of the first backlight and the intensity of the second backlight depending on the power consumption. A display method according to claim 1 or 2, comprising the step of detecting an environmental condition. A display method according to claim 3, comprising the step of controlling the intensity of the first backlight and the intensity of the second backlight separately from each other depending on the environmental condition concerning an ambient brightness, an incident light on the display surface, a glare effect, or a temperature. A display method according to any one of claims 1 to 4, comprising the step of displaying a plurality of information contents and radiating them in a plurality of different directions of emission from the display area. A display method according to claim 5, comprising the step of dimming the first backlight and the second backlight separately. A display method according to any one of claims 1 to 6, comprising the steps of: Coupling first light into the first or second backlight at a first location, - coupling second light into the first or second backlight at a second location, and - Disconnecting the first light and the second light separated from each other in different directions of radiation from the display surface. A display method according to claim 7, comprising extracting the first light and the second light separately from each other at different intensities from the display area. A display method for a vehicle, comprising: Representing an information content on a display area, Launching first light into a backlight at a first location, - coupling second light into the backlight at a second location, and - Disconnecting the first light and the second light separated from each other in different directions of radiation from the display surface. A display method according to claim 9, comprising at least one of the steps: Decoupling the first light and the second light separately from each other at different intensities from the display area, and - Representing a plurality of information contents on the display surface and emitting them in the different emission directions of the display surface. A display method according to any one of claims 1 to 10, comprising the steps of: Linear stretching of brightness values of the information content to a total available dynamic range of brightness values of the display area, - detecting an environmental condition, Non-linear fitting of brightness values of the information content obtained by the linear stretching as a function of a detected environmental condition, and - Representing obtained by the non-linear fitting brightness values of the information content on the display surface. The display method according to claim 11, wherein the linear stretching is performed such that a range of irrelevant information of the information content is discriminated from a range of relevant information of the information content image by means of a threshold for the brightness values and only the range of the relevant information of the information content is set to the entire available dynamic range of brightness values is linearly stretched.

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