KR100612586B1 - Apparatus For Testing Squint in Head Mounted Display - Google Patents

Abstract

The present invention relates to a strabismus testing device for determining whether a user is strabismus.

According to an embodiment of the present invention, a perspective test apparatus of a head mounted display generates first and second display elements corresponding to left and right eyes, field signals and vertical start pulses corresponding to left and right eyes, and generates the first and second display elements. Drive means for driving, switching means for supplying one of the vertical start pulse and the base voltage to the first and second display elements in accordance with the field signal and the control signal, pattern generating means for generating a perspective test pattern; And control means for generating a control signal according to the field signal and controlling the pattern generating means.

With this configuration, the perspective test apparatus of the head mounted display according to the present invention uses two 4 to 1 multiplexers for switching vertical scan pulses and one on-screen display (OSD) for generating a perspective test pattern. Of course, there is an advantage in that a single test part can display a test pattern corresponding to the left and right eyes to display the test pattern with a minimum number of parts.

Description

Apparatus For Testing Squint in Head Mounted Display}

TECHNICAL FIELD The present invention relates to a head mounted display, and more particularly, to a strabismus test apparatus for determining whether a user is strabismus.

Recently, as a display device that plays a major role of the Man-Machine Interface, the development of a small display device suitable for small devices such as game machines with not only easy portability but also image quality comparable to existing display devices This is accelerating. Although such a small display device has been used for a long time as a special use, a head mount display (hereinafter referred to as "HMD"), which has been introduced to the general public for video viewing or game console monitor, is drawing attention. However, it has been pointed out that the HMD may adversely affect the human body depending on the user. In particular, it has been known that when a user with strabismus uses HMD, a physical or mental illness may be caused. To this end, the HMD is provided with a striking test device for showing the pre-stored strat test pattern after showing the warning message to the user to prevent the use of the strabismus user. The isometric test pattern displays test patterns corresponding to the left eye and the right eye as shown in FIG. 1 on each of the two display elements. As shown in FIG. 1, when the second pattern represented by the vertical lines having different sizes from the first pattern represented by the horizontal lines is displayed on each of the left and right eyes of the user, the user may synthesize the patterns. When a normal user who is not a striking person sees the test patterns as shown in FIG. 1, the user sees a composite image of horizontal lines intersecting at the center of the vertical lines as shown in FIG. 2. As shown in (A) and (B), the vertical lines are viewed as a composite image from which the vertical lines rise or fall. Accordingly, the user can determine whether they are strabismus using the test pattern and can prevent the use of the HMD.

A isometric test apparatus for displaying a isometric test pattern is generally configured as shown in FIGS. 4 and 5.

4 is a diagram illustrating a conventional perspective test apparatus. In the configuration of FIG. 4, the conventional perspective test apparatus includes two liquid crystal modules (hereinafter, referred to as "LCD modules") for displaying an image. ), One driver 6 for driving the LCD modules 8, 10, and a multiplexer 12 connected between the LCD modules 8, 10 and the driver 6. The driver 6 re-edits the strabismus test pattern 6 into left and right eye test patterns suitable for the first and second LCD modules 8 and 10. The multiplexer 12 is switched by a control signal supplied from a controller (not shown) to supply digital image signals input from the driver 6 to the first and second LCD modules 8 and 10, respectively. The first and second LCD modules 8 and 10 display the test patterns supplied from the multiplexer 12 in time division. However, in the conventional perspective test apparatus as shown in FIG. 1, since many signal transmission lines are formed between the driver 6 and the LCD panels 9 and 10, many multiplexers are required, so that the circuit is not thinned and the material cost is increased. There is a problem causing rise.

Figure 5 schematically shows another conventional isometric test apparatus.

In the configuration of FIG. 5, the conventional strabismus tester is connected to two LCD modules 8 and 10 and an LCD module 8 and 10 for displaying an image. And first and second drivers 16 and 18 and a multiplexer 14 connected between the input line and the drivers 16 and 18. In contrast to the striking test apparatus shown in FIG. 1, the striking test apparatus requires one more driving unit, and the multiplexer 14 connected between the driving units 16 and 18 and the LCD modules 8 and 10 is unnecessary. There is a need for a multiplexer 14 connected between the input lines to which the test pattern is supplied and the first and second drivers 16 and 18. However, in this striking test apparatus, many signal transmission lines are formed between the input lines and the first and second driving units 16 and 18, and thus, multiplexers have to be mounted.

Accordingly, an object of the present invention is to provide a perspective test apparatus for generating and displaying a perspective test pattern with a minimum number of driving components.

In order to achieve the above object, the HMD isometric test apparatus according to the present invention generates first and second display parts corresponding to the left and right eyes, field signals corresponding to the left and right eyes, and a vertical start pulse. 2 driving means for driving the display unit, and one of the first supply means for supplying any one of a vertical start pulse and a base voltage to the first display element according to a field signal and a control signal, and one of a vertical start pulse and a base voltage. Supply means including a second supply means for supplying the second display unit, a pattern generating means for generating a strabismus test pattern, and a control means for generating a control signal according to the field signal and controlling the pattern generating means. Equipped.

Other objects and features of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 6 and 7.

Figure 6 is a block diagram showing a perspective test apparatus of the HMD according to the present invention.

In the configuration of Figure 6, the HMD isometric test apparatus according to the present invention is a vertical start pulse in accordance with the logic value of the first and second LCD modules (32,34) and the first and second control signals for displaying an image And first and second 4 to 1 multiplexers (hereinafter referred to as " multiplexers ") 28 and 30 for supplying any one of the and ground voltage GND to the LCD modules 32 and 34, and the second control signal. A driver 26 for driving the first and second LCD modules 32 and 34 as well as generating a vertical start pulse, and an on-screen display for inputting an image signal and generating a striking test pattern. Device (hereinafter referred to as "OSD") 22, and a microcomputer (μ-) that generates a first control signal to control the first and second multiplexers 28 and 30 and controls the OSD 22. COM) 24. The first and second multiplexers 28 and 30 are commonly connected to the driver 26 and the microcomputer 24 and connected to the first LCD module 32 and the second LCD module 34 respectively from the driver 26. The first and second control signals S0 and S1 are inputted from the vertical start pulse Vs and the microcomputer 24 to generate the vertical start pulse Vs according to the logic values of the first and second control signals S0 and S1. One of the base voltages GND is supplied to the first and second LCD modules 32 and 34. In the first multiplexer 28, the vertical start pulse Vs is input to the input terminals C0, C2, and C3, and the ground voltage GND is input to the input terminal of C1. The first multiplexer 28 is supplied with first and second control signals S0 and S1 to the control signal input terminal. In the second multiplexer 30, the vertical start pulse Vs is input to the input terminals C1, C2, and C3, and the ground voltage GND is input to the input terminal of C0. The second multiplexer 30 is supplied with first and second control signals S0 and S1 to the control signal input terminal. The driver 26 generates field signals corresponding to the first and second LCD modules 32 and 34 as the second control signal S1 to the microcomputer 34 and the first and second multiplexers 28 and 30. Will be supplied. In addition, the driver 26 converts the image signal or the striking test pattern supplied from the OSD 22 into a format suitable for the resolution modes of the LCD modules 32 and 34. The OSD 22 is connected to an input line to supply an input image signal, re-edits the same, and supplies it to the driver 26, and generates a isometric test pattern under the control of the microcomputer 24 to supply the driver 26. Do it. The microcomputer 24 controls the OSD 22 even when generating a test pattern corresponding to the left and right eyes according to the field signal supplied from the driver 26. In this case, the first and second LCD modules 32 control the test patterns. The first control signal S0 is generated to control the first and second multiplexers 28 and 30 so as to be scanned.

When displaying the input video signal, the input video signal is formatted by the driver 26 via the OSD 22 and supplied to the first and second LCD modules 32 and 34 for display. At this time, the microcomputer 24 applies the high level first control signal S0 to the first and second multiplexers 28 and 30. As shown in the waveform diagram of FIG. 7, the first and second multiplexers 28 and 30 select the vertical start pulse Vs supplied from the driver 26 according to the first control signal S0 of the high level. The first and second LCD modules 32 and 34 are supplied. The first and second multiplexers 28 and 30 have the vertical start pulse Vs regardless of the logic value of the second control signal S1 (ie, the field signal) when the first control signal S0 remains high. Select to print.

When displaying the striking test pattern, the striking test pattern is generated in the OSD 22 and formatted converted in the driver 26 to be alternately applied to the first and second LCD modules 32 and 34 according to the logic value of the field signal. Is displayed. At this time, the microcomputer 24 applies the low level first control signal S0 to the first and second multiplexers 28 and 30. When the first control signal S0 maintains the low level, the first multiplexer 28 removes the vertical start pulse Vs when the logic value of the second control signal S1 (ie, the field signal) is high. 1 is supplied to the LCD module 32 to scan the striking test pattern, and when the logic value of the second control signal S1 is low level, the base voltage GND is supplied to the first LCD module 32 to test the strabismus test pattern. Do not scan the pattern. When the first control signal S0 maintains the low level, the second multiplexer 30 supplies the base voltage GND to the second LCD module 34 when the logic value of the second control signal S1 is high. By supplying the non-scan test pattern, and supplying the vertical start pulse Vs to the second LCD module 34 when the logic value of the second control signal S1 is high level so that the test test pattern is scanned. . That is, when the first control signal S0 maintains the low level, the first and second multiplexers 28 and 30 may receive a first start pulse Vs corresponding to the left / right eye according to the logic value of the field signal. And alternatingly supplying to the second LCD modules 32 and 34 so that the strabismus test pattern is displayed time-divisionally in the left / right.

When the input video signal and the striking test pattern are displayed, switching of the first and second multiplexers 28 and 30 is shown in Table 1 below.

As a result, the HMD strabismus test apparatus generates a strabismus test pattern corresponding to the left / right eye for each field and uses the field signal to generate a vertical start pulse Vs among the signal lines of the LCD modules 32 and 34. ) Is switched to two multiplexers (28, 30) to prevent or enable vertical scanning of each corresponding LCD module (32, 34), so that only one LCD module (32, 34) in each field can be used as a test panel. By displaying the display, whether the user is strabismus or not is determined according to whether the user's eyes are combined into one image.

As described above, the HMD isometric test apparatus according to the present invention uses two 4 to 1 multiplexers for switching vertical scan pulses and one OSD for generating isometric test patterns, and the input image signal is left as one driver. By displaying the striking test pattern corresponding to the right eye, the striking test pattern can be displayed with a minimum number of parts.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

1 is a diagram showing a strabismus test pattern corresponding to a left eye and a right eye;

FIG. 2 shows a composite image when a normal person sees the strabismus test pattern shown in FIG. 1. FIG.

3 is a view showing a composite image when a user having strabismus sees the strabismus test pattern shown in FIG. 1.

Figure 4 is a block diagram schematically showing a conventional perspective test apparatus.

Figure 5 is a block diagram schematically showing another conventional isometric test apparatus.

Figure 6 is a block diagram showing a perspective test apparatus of the head mounted display according to an embodiment of the present invention.

FIG. 7 is an output waveform diagram of the vertical start pulse and the first and second multiplexers shown in FIG. 6; FIG.

<Description of Symbols for Main Parts of Drawings>

2: input video signal 4: isometric test pattern

6,16,18,26: Driver 8,10,32,34: LCD module

12,14,28,30: Multiplexer 22: OSD

24: micom

Claims (2)

First and second display units corresponding to the left and right eyes; Driving means for generating a field signal and a vertical start pulse corresponding to the left / right and driving the first and second display units; A first supply means for supplying one of a vertical start pulse and a base voltage to the first display element according to a field signal and a control signal, and a second for supplying one of a vertical start pulse and a base voltage to the second display part; A supply means including a supply means, Pattern generation means for generating a perspective test pattern, And a control means for generating the control signal in accordance with the field signal and controlling the pattern generation means. The method of claim 1, And said pattern generating means is an on-screen display device.