NL1006420C2 - Method and device for displaying images. - Google Patents

Description

- 1 - 4870 algae

Title: Method and device for displaying images

The invention relates to a method for displaying 5 images consisting of a plane built up of pixels with a brightness value for each pixel, which method comprises varying the brightness values of the pixels according to a function that is dependent on and is not constant over time .

The invention also relates to a method for the reproduction of images consisting of a plane built up of pixels, with a brightness value for each pixel, wherein each pixel can be composed per se from at least two different colors and wherein the intensity for at least one and at most all all but one of the colors can also be permanently zero.

A method in which the brightness values of the pixels are varied is known per se from Tom N. Cornsweet: "Visual Perception", Academic Press,

New York and London to improve an observer's contrast sensitivity to a perceived image.

Obtaining medical X-ray images is referred to as radiography. Radiography is nowadays performed in an analogous as well as in a digital way. In the analogous mode of radiography, a photographic film is exposed with the X-ray image to be displayed. developed and then displayed by hanging the developed film in front of a light box in a generally somewhat darkened space and then viewing. In the digital mode of radiography, the image is obtained electronically. It can then be displayed on a screen.

10 0 6 4 20 - 2 method, whereby the developed film is viewed on a light box, the image on the screen has a less good contrast display. Screens have the following contrast-reducing properties: 5 - light scattering between the phosphor layer and the glass window; reflection of ambient light on the outer surface of the glass window.

Both phenomena cause a non-10 visual brightness increase that decreases the contrast. The display has a relatively poor contrast display, especially in dark image areas.

Although the influence of the ambient light 15 can be reduced by working in darkness, it is known to cause fatigue.

Another cause of fatigue is the image repetition rate. The brighter the image, or part of it, the more flickering an observer will experience. This phenomenon is also more serious as the brighter parts of the image fall into the peripheral part of the field of view. As an image (part) is brighter and / or more peripherally perceived, the higher the image repetition rate must be to avoid fatigue symptoms.

Furthermore, it is known per se (see: Tom N.

Cornsweet: "Visual Perception", Academy Press, New York and London) that an observer's contrast sensitivity to a perceived image depends on the modulation depth at which that image is presented image to image to an observer. For example, the contrast sensitivity can be increased by changing the image brightness from image to image, such as by modulating the image brightness with a frequency between 5 and 50 Hz.

In practice this is not used because 1 0 0 6 ^ 20 - 3 - such images cause fatigue. Therefore, in film and television reproduction, even the image repetition rate is chosen so high that no flickering is observed even in the peripheral field.

In order to improve the aforementioned poor contrast reproduction of images on a screen, the brightness of the displayed image could also be increased, but this is insufficiently possible due to technical limitations, such as maximum electron current and saturation of the phosphor.

Also, the light scattering in the thin film is less than in the thick glass window of the screen.

Compared to the film with its matte black surface in combination with the light box with its high brightness, displaying an image on a screen is therefore a disadvantage.

That is why often the digital image present in electronic form is first printed on film in order to subsequently be able to view it on a light box. It is evident that this method is very laborious.

The object of the invention is to improve the contrast perception of an image consisting of a surface composed of pixels, such as, for example, a medical X-ray image on a screen.

Other situations in which an image consisting of a pixel-constructed face is observed and in which the invention can be used to improve contrast perception include: 30 - a film for a light box as described in

Dutch patent application 84.01605 a television image projected on a screen a video monitor a film for a screen, on which screen a television image is projected an LCD monitor i 0 Ö 6 4 2 0 - 4 -

The method according to the invention, which method comprises varying the brightness values of the pixels, is therefore characterized in that the function also depends on the initial brightness, with which at least the relevant pixel would be displayed if the function were not applied and that for higher initial values. brightnesses the ratio between the highest and lowest value of the function is at least as close or closer to one as for lower initial brightnesses.

The method according to the invention in which each pixel can be composed per se from at least two different colors is characterized in that the color coordinates of each pixel are varied according to a function which is not constant over time and which depends on the initial brightness with which at least the relevant pixel would be displayed if the function had not been applied and because for higher initial brightnesses the variation in color coordinates is at most the same or smaller than for lower initial brightnesses.

The image consists of a surface made up of pixels with a brightness value for each pixel. In the aforementioned function, both the brightness values of the pixels and those of the surrounding pixels can optionally serve as a variable up to and including all pixels of the entire image.

If only the magnitude of the instantaneous values is chosen as determining factor for the image-related part of the function, simple realization of the invention with varying the brightness values is possible.

Display devices to which the invention can be applied namely often comprise a so-called "look up" table which determines the relationship between a signal presented to the display device and the signal that controls the image brightness on the screen via, for example, the * G ö 4 2 ö - 5 - intensity of the electron beam.

An apparatus in which the invention is applied in this simple manner is therefore characterized by at least two non-identical tables and means for switching from one look-up table to another during an image flyback.

If the mutual spatial relations are also involved in the invention, a method according to the invention is characterized in that at least two different spatially filtered variants of the original image are alternated.

The display system must therefore have access to a larger memory from which the differently filtered images can be retrieved.

It goes without saying that the combination with the first simple realization can be combined with this by, for example, alternating the method with alternating alternating look-up tables with the method with alternating alternating spatially filtered variants or by simultaneously selecting the filtered image. choose an associated look up table.

As already mentioned in the introduction, when choosing the spatial filtering and / or the look-up tables, care must be taken to display the brightest image parts with a constant brightness in order to avoid annoying flicker effects.

In practice this will mean that the image filtering will not or hardly alternate at high brightnesses, and at low brightness it will. In other words, the image filtering should therefore not be linear in nature.

This achieves that darker image parts 35 are displayed in a manner which makes optimum use of the increased contrast sensitivity of an observer at lower brightness of the relevant 1006420-6 image part and that brighter image parts are displayed without experiencing flicker.

The increase in contrast sensitivity depends on both the frequency and the modulation depth of the modulating signal and depends on the brightness to be displayed.

According to the invention, there are two variables that are set independently of each other. The first is the function that indicates the operation for the signal 10 which determines or displays the brightness and / or the color of the image on the screen. The second is the function that indicates in which order the images that have not been edited with the first function are displayed, respectively. Examples of the second function 15 are: edited - not edited - edited - not edited, etc., also referred to as yes / no / yes / no / yes / no ... yes / no / no / yes / not / not / well / not / not ...

20 - yes / no / no / no / yes / no / no / not well edited according to function 1 / unedited / yes edited according to function 2 / unedited ..., also indicated as well / not / well2 / not / well / not / well2 / not ...

25 - well / not / not / well2 / not / not / well / not / not / well2 / not / not ..

The function that the operation indicates can be according to the foregoing: a different brightness 30 - a different color a different spatial filtering For example, with decreasing brightness the modulation depth can be increased and / or the modulation frequency closer to that for optimum contrast perception select.

When choosing the second function, it is advantageous to choose the period duration as a whole multiple of the 1 n 0 * A 2 0 - 7 image interval as in the examples shown above. With an image repetition frequency of 70 Hz which is usual per se, the possible frequencies of the second function are then obtained as possible frequencies; 23.3; 5 17.5; 14; 11.6; 10; 9.1; 8.3 etc. Hz.

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Claims (13)

Method for the reproduction of images consisting of a surface made up of pixels with a brightness value for each pixel, which method comprises varying the brightness values of the pixels according to a function which is dependent on and is not constant over time, with characterized in that the function also depends on the initial brightness with which at least the relevant pixel would be displayed if the function were not applied and that for higher initial brightnesses the ratio between the highest and lowest value of the function is at least as close or closer located at one than for lower initial brightnesses. Method according to claim 1, characterized in that the function depends on an average brightness of the entire image. Method according to claim 1 or 2, characterized in that the function depends on the brightness values of pixels in the local environment of a pixel to which the function is applied. 4. Method for the reproduction of images consisting of a surface made up of pixels with a brightness value for each pixel, wherein each pixel can be composed per se from at least two different colors, the intensity of at least one and at most all but one of the colors may also be permanently zero, characterized in that the color coordinates of each pixel are varied according to a function which is not constant over time and which depends on the initial brightness with which at least the relevant pixel would become '? n. . ·; · .- v * - 9 - displayed if the function had not been applied and that for higher initial brightnesses the variation in color coordinates is at most the same or smaller than for lower initial brightnesses. Device for applying the method according to claim 1, 2, 3 or 4, characterized in that the device comprises a pixel-wise electronically controllable screen for displaying the images. 6. Device for applying the method 10 as claimed in claim 1, 2, 3 or 4, characterized in that the device comprises a pixel-electronically controllable screen and that means are present for at least temporarily displaying an image on an at least partly transparent support. display. 7. Device for applying the method as claimed in claim 1, 2, 3 or 4, characterized in that the device comprises a projection screen for projecting a projection image with a projector which can be controlled per pixel of said projection image and that means are present for to be fixed at least temporarily in front of the projection screen on an image which is at least partly transparent. 8. Device as claimed in any of the claims 5, 6 or 7, characterized in that the device is provided with at least two look-up tables and with means for switching from one look-up table to another during an image return and that means are present are what drive the means of exchange. 9. Device as claimed in claim 8, characterized in that the means for controlling can be operated manually. 1006420 - 10 - 10. Device as claimed in claim 8, characterized in that the means for controlling comprise detection means for detecting the initial brightness of a pixel. 11. Device as claimed in claim 8, characterized in that the means for controlling comprise detection means for detecting the brightness of the image. 12. Device as claimed in claim 5, 6 or 7, insofar as dependent on claim 4, which device comprises pixels which can produce a color image, the colors of which can be composed of at least two colors and wherein the intensity for at least one and at most all but one of the 15 colors can also be permanently zero, characterized in that means are present for varying the color coordinates of at least that pixel relative to the initial color coordinates, depending on the initial brightness of a pixel. 13. Device as claimed in claim 5, 6, 7 or 12, characterized in that means are present for spatially filtering the image and that means are present for switching between no and spatial filtering, respectively, depending on the initial brightness. between a first 25 and a second spatial filtering. 1 0 0 6 A 2 0 i