DE4012456A1 - DEVICE FOR THE BINOCULAR TEST OF A SAMPLE - Google Patents

Abstract

A pattern made up of two partial images in complementary colours (r, g) is generated on a colour television screen. The examinee's test spectacles (15) are fitted with a filter (RF) for one complementary colour on one eye (LA) and a filter (GF) for the other complementary colour on the other eye (RA). Each eye sees the image content to which its filter is opaque as black. Thus both eyes can be tested separately or at the same time with different image contents without the need for blacking out. The examinee sees the test symbols in dark colours against a light background.

Description

The invention relates to a device for the Binocular test of a subject, according to the generic term of Claim 1.

To determine the required optical correction Values for correct vision are in the visual acuity Test optotypes usually used by Slide projection or backlit film systems be generated.

Recently, systems have been offered in which the Optotype on the screen of a color television set be created, the optotype program in one EPROM is saved. For the presentation of the optotypes for the examination of binocular vision (spatial vision) becomes a phase difference method in this system used at by with the appropriate frequency  presented slightly different optotypes and the synchronous suppression of the right and left eye to this performance with proper stereo vision spatial visual impression arises. For this, one Test glasses with attachments, which liquid crystal off touch probes included, needed. These resolutions to selectively hide the right and left eyes must be switched in sync with the image content. This requires control cables that the glasses with connect to the control unit. Another disadvantage of known test system is that the optotype generated as bright colored characters on a black background will. This is disadvantageous because it means over their Radiate outlines.

The invention has for its object a Vorrich tion specified in the preamble of claim 1 to create the kind that is easy to use Test glasses without electrical connections enables and where the test mark is dark in front of a lighter Background appear.

This object is achieved with the invention in the characterizing part of claim 1 given characteristics.

In the device according to the invention, the picture is taken Selection for each eye based on two in the test glasses existing color filters based on two compliments tärfarben are coordinated. That on the screen witnessed picture also consists of these compliments tärfarbene together, but every eye sees through that associated color filter a different spectral component of this picture. It is now possible to test the  left eye to generate color images, their structures (Dashes) mainly from the complementary color be stand for which the color filter of the left eye un is permeable. As a result, such contours appear black while the rest of the picture from the left eye monochrome in that of the two complementary colors is seen for which the filter is permeable. It there is thus the possibility of an image for each eye with a different colored background, each the eyes recognize a different image content. The structure The content of the images is mostly in of the color for which the filter of the be hitting the eye is impermeable. In this way the visual acuity test for each eye can be separated by be performed without any on the test glasses Changes would have to be made. A darkening lung is not necessary. Even with heterophoria test in which the geometric overlay of the both eyes seen through the brain is tested and both eyes have their visual function Run at the same time, be under both eyes different image content that the subject in a certain mutual assignment or about must see cover.

The device according to the invention has the advantage that their use does not indicate any interference or changes the test glasses required. Of course, for the he required corrections in the usual way glasses in the test glasses, but he there is no mechanical shielding of either Eye another electrical change to the test glasses.

Another problem with the well-known test device tion is that the heterophoria test  Superimposition of the partial images seen by both eyes, d. H. the relative displacement of these drawing files until correct assignment is achieved by correcting door glasses is made.

The invention is also concerned with the task Heterophoria test without intervention on the test glasses to be able to perform.

For this purpose, the two differently colored drawing files on the screen as long as relative to each other pushed until the subject from these drawing files Overall picture in the correct assignment of the drawing files knows. The drawing files are then on the screen not the "correct" assignment to each other, but it are ver according to the abnormality of the subject pushed. The measure of this actual shift in Drawing files if the subject matches the drawing files Detects mood is displayed, so that the correction worth that the client's glasses must have to clear to compensate for misalignment on both eyes can be read. This device can also after Phase difference method work in which the part images are generated alternately on the screen and where the two lenses of the test glasses are in sync with the partial image generation are made impermeable, so that each eye sees only one of the partial images.

With the device according to the invention, he can all required eye tests are carried out, for example also the stereo test, in which spatial vision is checked by drawing partial images to both eyes that are generally coincident in be agreed areas but have deviations from each other.  

It should also be noted that the device works with color selection, but also with it Individuals who are defective in color can be tested are. Such people do not recognize whether the Background is red or green, but they recognize in dark contours against a light background like a normal sighted.

The following is with reference to the drawings an embodiment of the invention explained in more detail.

Show it:

Fig. 1 pictures a schematic representation of the apparatus while seeing two of overlapping part,

Fig. 2 shows a shift of the partial images in the hetero phoria test and

Fig. 3 shows an example of an image content for the stereo test.

Referring to FIG. 1, a color television 10 is provided on the screen of the test image is generated by a computer 11. The computer 11 is connected via a line 12 to the color television and it has a screen monitor 13 and a keyboard 14 as an input device. The computer station is operated by the examiner.

In Fig. 1, the eyes of the subject are shown schematically. The left eye is labeled LA and the right eye is labeled RA. Behind these eyes is schematically the image content that the respective eye sees.

Before the eyes is the test glasses 15 , which each contain a color filter in addition to the holders for the trial glasses to be used. In the present embodiment, it is assumed that a red filter RF is arranged in front of the left eye LA and a green filter GF is arranged in front of the right eye RA. This means that the left filter is permeable to red light and is permeable to the associated complementary color, while the right filter is permeable to green light and impermeable to the associated complementary color (red).

In Fig. 1, the case is shown that the computer 11 on the screen generates a pattern of two bars crossing each other at right angles, each bar consisting of two equally long partial bars, which are separated from one another by a small gap. Overall, the pattern forms a cross. The horizontal bar of the cross is shown predominantly in one complementary color g (green) and the other bar predominantly in the other complementary color r (red). The background of the pattern is reproduced in a balanced mixture r + g of both complementary colors. The entire image content consists exclusively of the two complementary colors r and g.

The left eye LA looks through the red filter RF finally the red parts of the picture, while the green ones Parts of the image appear dark. This means that the vertical red bars in front of which also contain red the background is no longer recognizable. The left one  So the eye only sees the horizontal bar as a dark bar against a light background.

The right eye RA recognizes through the green filter GF by no longer the horizontal green bar in front of the Green containing background. It only recognizes that vertical bars in dark form.

From the above description it is apparent that each of the two eyes through the test glasses 15 sees a different partial image or a different colored image component of the overall image. It is therefore possible to carry out an image sharpness test for each eye individually by generating only a green pattern on the screen against the red or red-green background for the left eye LA or by using an exclusively red pattern against the green or on the right eye RA red-green background is generated on the screen.

The aim of the heterophoria test is to determine whether the test person can see in the correct position, ie whether the image content seen by both eyes is connected to one another in the test person's brain in such a way that they combine to form an overall picture. This means that the subject with a cross, which is shown in FIG. 1, must assemble both components that the subject sees with different eyes in his brain so that the subject correctly recognizes the shape of the pattern shown.

In the case of a heterophoria error, the subject sees the pattern shown in FIG. 1, for example, when the bars of this pattern are actually shifted against one another on the screen in the manner shown in FIG. 2. The subject looks at the pattern through the test glasses 15 and indicates to the examiner that, in his view, the bars are offset from one another and do not complement the symmetrical cross figure. The tester then adjusts the horizontal crossbar on the input device 14, for example. The subject indicates when he sees the symmetrical cross. From the adjustment of the horizontal crossbar, the examiner then recognizes the necessary correction that must be made to the subject's final glasses in order to eliminate the heterophoria errors. This correction measure, ie the measure of the offset of one of the partial images on the screen, so that the subject brings both partial patterns into the correct correspondence, can be displayed on the monitor 13 or can also be determined by counting the movement steps required for shifting the bar.

The heterophoria test is also based on the fact that the left eye only one part of the picture and the right one Eye sees only the other part of the picture.

In Fig. 3 is an image content for the stereo test Darge provides. The stereo test, in which the ability of spatial vision is tested, is based on the fact that the side edges of one of the picture elements are widened and modified differently for each eye in several essentially identical picture elements. This gives the brain the impression that this one element is further forward than the other picture elements.

The stereo test is carried out with the same device as in FIG. 1, but with the image content shown in FIG. 3. Here, several equally large picture elements of essentially the same shape are generated, some of which are black, which is associated with black. is designated. The middle picture element consists of a surface made of a largely balanced mixture of green and red, one side edge being predominantly red and the other side edge being predominantly green. When viewing this image through the test glasses 15 , each of the two eyes sees three bars. In the brain, the images seen by both eyes merge with one another in such a way that a healthy subject has a spatial impression, with the middle bar appearing to be further forward (towards the subject) than the two outer bars.

The process is based on the fact of differentiating absorption of a bandpass filter. Become two Radiation sources whose colors are different viewed through the same color filter, there are two Mixed colors where the radiation sources are accurate appear the same.

This finding applies to dark test objects on a relatively light background after a Extinguish filter passage. The test object appears before the filter passage in a color A and the Background in a color B, and differs so in color from the background. Since the test object and the background both after the filter pass in the Color C can be seen, the test object is almost in Background disappeared. On the other hand, the test object and the background, through the second filter considered, does not appear in the common color C.  but in two clearly different colors. The The fact that this is not a dark one (black) but light color C, allows the Use as a heterophoria test.

Both for a green and for a red filter the above conditions must be met. It he give themselves the following points of view, once the Deletion of the test object in the same colored sub reason and the contrast-increasing representation of a Test object with a second color.

An RGB screen has red, green and blue colors rendering phosphors, which can be achieved with the help of a graphics card (VGA standard) control. The intensity game space of this phosphor luminescence can be in sizes of Express 0 to 63, where 0 is no intensity (dark) and 63 means maximum intensity. The separation he follows through a red and a green bandpass filter.

The color design is created so that the background color on the one hand from the red portion of the red-appearing Test mark and on the other hand from the green part of the green test mark is built, the Size of the blue component is zero.

The red test mark has the following Sizes: red value = 48, green value = 37, blue value = 0.

The green test mark has the sizes: Red value = 33, green value = 48, blue value = 0.

The background color as a combination: red value = 46, Green value = 48, blue value = 0.  

A fourth color simulates for special test arrangements gene, e.g. B. stereo test, an "overlap color" that viewed through the red or green filter, same color is. Color values: red value = 37, green value = 37, blue value = 0.

With these four colors, everyone can be taken care of complex heterophoria determination necessary test arrangement generate responses.

With the device described can thus for example the following tests are carried out:

• a) visual acuity test separated from right and left,
• b) heterophoria test,
• c) Stereo test.

Claims (4)

1. Device for the binocular test of a subject, with a color television ( 10 ), on the screen of which colored patterns can be generated, and with test glasses ( 15 ) with filtering disks, through which one of two image components of the image generated on the screen is filterable, characterized in
that the color television ( 10 ) is controlled in such a way
that on his screen creates a pattern of two complementary colors (r, g) and that each of the lenses of the test glasses ( 15 ) is a color filter (RF, GF) which is permeable to one of the two complementary colors. 2. Device according to claim 1, characterized in that the color television ( 10 ) is controlled in such a way that the pattern consists of figures which are produced in mixtures of the complementary colors, each in a different mixing ratio, and in that the background from a different one Mixture (r + g) of both complementary colors exists. 3. Apparatus according to claim 1, characterized in that for the stereo test of the color television ( 10 ) is controlled such that the pattern has at least one figure, which in an overlap area from a first mixture of two complementary colors and in it bordering areas each consist of a different mixture of the two complementary colors, in which the proportion of each complementary color is increased compared to the first mixture. 4. Device for the binocular test of a subject, with a television ( 10 ), on the screen of which patterns can be generated, and with a pair of test glasses ( 15 ) with complementary or alternately through casual panes, through which one of two partial images of the one generated on the screen Image is visible, characterized in that an input device ( 14 ) is provided with which the partial images can be adjusted relative to one another for the heterophoria test, in which partial images seen with a different eye each result in a geometrical association with one another for the test person are and that a display device is provided on which the degree of adjustment of the partial images can be displayed.