JP2009230071A - Shutter spectacles system, device for adjusting shutter opening/closing timing in shutter spectacles device, and method for adjusting shutter opening/closing timing in shutter spectacles system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a shutter spectacles system capable of properly adjusting a shutter opening/closing timing of shutter spectacles for stereoscopic view in a case of using a hold type display device. <P>SOLUTION: In a shutter spectacles control device, an automatic adjusting section 121 of a liquid crystal shutter spectacles control device 12 detects a time point when the red light quantity or blue light quantity detected by a color sensor 13 through an L-shutter 111 or an R-shutter 112 of the liquid shutter spectacles control device 12 become maximum values, that is, the time when the ideal opening of the shutter with the least mixing, is started, and its opening period, while sliding the time point when the shutter opening is started and its opening period on a shutter control signal generated on the basis of a frame synchronization signal output with frame data, under a situation that the frame data for alternately displaying, for example, one side red image and one side blue image are alternately displayed on a liquid crystal panel 2, is output from an image generator 3. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a shutter opening / closing timing adjustment technique in a shutter eyeglass system that realizes stereoscopic viewing by alternately viewing a left eye image and a right eye image with the left eye and the right eye.

  As a technique for stereoscopically viewing a two-dimensional image displayed on a display device such as a CRT (Cathode Ray Tube) display like a three-dimensional image, an image for the left eye and an image for the right eye are alternately displayed on the display device. In addition, a technique for alternately viewing these images with the left eye and the right eye is well known (see, for example, Patent Document 1).

  In order to realize this stereoscopic view, liquid crystal shutter glasses are widely used as a tool for viewing an image for the left eye with the left eye and viewing an image for the right eye with the right eye. The liquid crystal shutter glasses have a left eye liquid crystal shutter for opening or shielding the left eye view and a right eye liquid crystal shutter for opening or shielding the right eye view, and control the liquid crystal shutter glasses. The liquid crystal shutter glasses control device that receives the frame synchronization signal output together with the frame data for alternately displaying the image for the left eye and the image for the right eye receives the two shutters based on the frame synchronization signal. A control signal for opening and closing is generated and supplied to the liquid crystal shutter glasses.

  For example, the control signal is configured to be at a low level during a period in which an image for the left eye is displayed, and to be at a high level during a period in which an image for the right eye is displayed. In the liquid crystal shutter glasses that have received this control signal, the right eye liquid crystal shutter is opened and the left eye liquid crystal shutter is closed at the timing of switching to the Low level, and the right eye liquid crystal shutter is closed and the left eye liquid crystal shutter is closed at the timing of switching to the High level. Open the liquid crystal shutter.

As a result, the user wearing the liquid crystal shutter glasses views the left-eye image and the right-eye image alternately with the left eye and the right eye, and the two-dimensional image displayed on the display device is displayed as 3 You can feel like a dimensional image.
JP 2001-154640 A

  Until now, an impulse-type CRT display has been assumed as a display device that alternately displays an image for the left eye and an image for the right eye. In the impulse-type display device, even if the left-eye image and the right-eye image are alternately displayed, there is no period in which an image in which these images are mixed is displayed. There is no problem in the control of opening the right eye liquid crystal shutter and closing the left eye liquid crystal shutter at the timing of switching to the Low level, and closing the right eye liquid crystal shutter and opening the left eye of the liquid crystal shutter at the timing of switching to the High level.

  Here, a case where a hold-type liquid crystal display (LCD: Liquid Crystal Display), which has recently been widely used, is used as a display device that alternately displays an image for the left eye and an image for the right eye.

  In a hold-type liquid crystal display, the image is switched from one image to the next in a stepwise manner from the top. Therefore, when the left-eye image and the right-eye image are alternately displayed, there is a period during which an image in which these images are mixed is displayed. Therefore, as described above, the control of opening the right-eye liquid crystal shutter at the timing of switching to the Low level and closing the left-eye liquid crystal shutter, and closing the right-eye liquid crystal shutter and opening the left-eye liquid crystal shutter at the timing of switching to the High level. Then, stereoscopic vision cannot be performed correctly.

  In other words, in order to achieve stereoscopic viewing using a hold-type liquid crystal display, the left-eye liquid-crystal shutter and the right-eye liquid-crystal shutter are each a substantially complete left-eye image or right-eye image with little mixing. In order to open the field of view of the left eye or right eye only during the period during which is displayed, a control signal for controlling the opening and closing is required for each of the left eye liquid crystal shutter and the right eye liquid crystal shutter. Along with this, a method for appropriately adjusting these two control signals is required.

  The present invention has been made in consideration of such circumstances, and is a shutter glasses system that realizes appropriate adjustment of the shutter opening / closing timing of stereoscopic shutter glasses when a hold-type display device is used. It is an object of the present invention to provide a shutter opening / closing timing adjusting device for a shutter glasses apparatus and a shutter opening / closing timing adjusting method in a shutter glasses system.

  In order to achieve the above-mentioned object, a shutter eyeglass system of the present invention includes a first shutter for opening or blocking the left eye field of view, and a second shutter for opening or blocking the right eye field of view. A shutter eyeglass device, and an image generation device that outputs frame data to a display device receives a frame synchronization signal output together with the frame data, and opens and closes the first shutter based on the frame synchronization signal. A shutter glasses control device that generates a first control signal and a second control signal for opening and closing the second shutter and supplies the second control signal to the shutter glasses device, and detects a light amount of a designated color A color sensor; and the shutter glasses control device provides the display device with a first image composed of a first color and a second image composed of a second color. In a situation where frame data for mutual display is output from the image generation device, the first color or the first color transmitted through one of the first shutter or the second shutter of the shutter glasses device While the light quantity of one of the second colors is input from the color sensor, the opening / closing timing of one of the first shutter and the second shutter of the shutter glasses device is slid within a predetermined range, and the color An adjustment unit is provided that detects an opening / closing timing at which a light amount input from the sensor is maximized and adjusts one of the first control signal and the second control signal generated based on the frame synchronization signal. And

  The shutter opening / closing timing adjusting device of the present invention is a shutter glasses device having a first shutter for opening or blocking the left eye field of view and a second shutter for opening or blocking the right eye field of view. A shutter opening / closing timing adjustment unit, an input unit for receiving a signal from a color sensor for detecting a light amount of a designated color, a first image composed of a first color, and a second color. In a situation where the second image to be configured is displayed alternately on the display device, the first color or the first color transmitted through one of the first shutter and the second shutter of the shutter glasses device While acquiring the amount of light of one of the second colors from the input means, the opening / closing timing of one of the first shutter and the second shutter of the shutter glasses device is controlled within a predetermined range. Adjusting means for detecting an opening / closing timing at which the amount of light input from the color sensor is maximized and adjusting an opening / closing timing of one of the first shutter and the second shutter of the shutter glasses device; It is characterized by comprising.

  Also, the shutter opening / closing timing adjustment method of the present invention is a shutter eyeglass device having a first shutter for opening or blocking the left eye field of view and a second shutter for opening or blocking the right eye field of view. A frame synchronization signal output together with the frame data by the image generation apparatus that outputs the frame data to the display device, and a first control for opening and closing the first shutter based on the frame synchronization signal A shutter opening / closing timing adjustment method in a shutter glasses system comprising: a shutter glasses control device that generates a signal and a second control signal for opening and closing the second shutter and supplies the second control signal to the shutter glasses device The shutter eyeglass control device generates a first image composed of a first color and a second image composed of a second color. In a situation where frame data to be alternately displayed on the display device is output from the image generation device, the first light passing through one of the first shutter and the second shutter of the shutter glasses device. One of the first color and the second color is input from a color sensor that detects the light quantity of the designated color, and one of the first shutter and the second shutter of the shutter glasses device is opened and closed. The first control signal or the second control is generated based on the frame synchronization signal by detecting the opening / closing timing at which the light quantity input from the color sensor is maximized by sliding the timing within a predetermined range. One of the signals is adjusted.

  According to the present invention, a shutter glasses system, a shutter opening / closing timing adjusting device for a shutter glasses device, and a shutter that can appropriately adjust the shutter opening / closing timing of stereoscopic shutter glasses when a hold type display device is used. A shutter opening / closing timing adjustment method in an eyeglass system can be provided.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram showing a configuration of the liquid crystal shutter glasses system 1 according to the present embodiment and its operating environment.

  The liquid crystal shutter glasses system 1 includes a liquid crystal shutter glasses 11, a liquid crystal shutter glasses controller 12, a color sensor 13, and an analog / digital (A / D) converter 14. The liquid crystal shutter glasses 11 include a left eye liquid crystal shutter (L shutter) 111 for opening or blocking the left eye field of view and a right eye liquid crystal shutter (R shutter) 112 for opening or blocking the right eye field of view. The user wears the liquid crystal shutter glasses 11 and views the left-eye image and the right-eye image alternately displayed with the left eye and the right eye alternately. Experience stereoscopic vision.

  As shown in FIG. 1, in the present embodiment, a hold-type liquid crystal panel 2 is used as a display device for alternately displaying a left-eye image and a right-eye image. The liquid crystal shutter glasses control device 12 outputs together with the frame data, the image generation device 3 that outputs frame data for alternately displaying the left eye image and the right eye image on the liquid crystal panel 2. A frame control signal is input, and a shutter control signal L and a shutter control signal R for opening and closing the L shutter 111 and the R shutter 112 are generated and supplied to the liquid crystal shutter glasses 11 based on the frame synchronization signal. The liquid crystal shutter glasses control device 12 includes an automatic adjustment unit 121 for automatically adjusting the shutter control signal L and the shutter control signal R.

  Here, in order to help the understanding of the principle that the automatic adjustment unit 121 automatically adjusts the shutter control signal L and the shutter control signal R, referring to FIG. 2 to FIG. A drive control method for liquid crystal shutter glasses when realizing vision and a problem when this drive control method is applied when realizing stereoscopic vision using the hold-type liquid crystal panel 2 will be described.

  When an impulse-type CRT display is used to alternately display a left-eye image and a right-eye image, the frame data output from the image generation device is as shown in FIG. Become. That is, the complete right eye image (a1) and the complete left eye image (a2) are alternately displayed with a predetermined blank period interposed therebetween. Therefore, the liquid crystal shutter glasses control device, based on the frame synchronization data output together with the frame data, between the end of displaying the right eye image and the start of displaying the left eye image, as shown in FIG. The shutter control signal is switched to a low level to close the R shutter and open the L shutter, and the L shutter is closed and the R shutter is closed from the end of the left eye image display to the start of the right eye image display. The shutter control signal is switched to a high level to open the window. Therefore, as shown in FIG. 3, it is sufficient to exchange only one shutter control signal between the liquid crystal shutter glasses control device and the liquid crystal shutter glasses.

  Next, referring to FIG. 4, when a hold-type liquid crystal panel is used to alternately display an image for the left eye and an image for the right eye, the liquid crystal shutter is only used with this one shutter control signal. A problem when the L shutter and the R shutter of the glasses are opened and closed will be described.

  When the left-eye image and the right-eye image are alternately displayed using the hold-type liquid crystal panel, the frame data output from the image generation device is as shown in FIG. Become. That is, for example, a right-eye image to a left-eye image is switched in a stepwise manner from the top to the bottom of the image. Are mixed images (left and right mixed images). Therefore, when the L shutter and the R shutter of the liquid crystal shutter glasses are opened and closed by the shutter control signal shown in FIG. 4B, the left and right mixed images are viewed by the user, and stereoscopic viewing cannot be experienced correctly.

  In order to solve this problem, as shown in FIG. 1, in the liquid crystal shutter glasses system 1 of the present embodiment, the L shutter 111 is opened and closed between the liquid crystal shutter glasses controller 12 and the liquid crystal shutter glasses 11. Two shutter control signals, i.e., a shutter control signal L for opening and closing, and a shutter control signal R for opening and closing the R shutter 112 are exchanged. Further, these shutter control signals need to be configured as shown in FIG. That is, the shutter control signal R is configured to be high only during the display period of the almost complete right eye image with little left eye image mixing (B1), while the shutter control signal L is mixed with the right eye image. It must be configured to be high only during the display period of the almost complete left eye image with little (B2). The automatic adjustment unit 121 included in the liquid crystal shutter spectacles control device 12 can automatically optimize the shutter control signal R and the shutter control signal L without depending on, for example, the experience of a customer engineer. Hereinafter, this point will be described in detail.

  The color sensor 13 and the A / D conversion device 14 shown in FIG. 1 are devices used for this adjustment. The A / D conversion device 14 may be built in the liquid crystal shutter glasses control device 12 (although not normally required).

  When this adjustment is performed, the image generation device 3 continues to output frame data for displaying the following pattern image on the liquid crystal panel 2. That is, for example, a single red image is displayed as the left eye image, and frame data for displaying a single blue image as the right eye image is continuously output. As a result, a red image and a blue image are alternately displayed on the liquid crystal panel 2.

  At this time, if the liquid crystal shutter glasses 11 are arranged in front of the liquid crystal panel 2 for displaying the pattern image as described above and the shutter control signal R is adjusted, the liquid crystal shutter glasses 11 pass through the R shutter 112. The color sensor 13 is arranged at a position where the pattern image can be viewed, and the color sensor 13 is caused to detect the amount of blue light. On the other hand, if the shutter control signal L is to be adjusted, the color sensor 13 is arranged at a position where the pattern image can be viewed through the L shutter 111 of the liquid crystal shutter glasses 11, and the color sensor 13 detects the red light quantity. Let The amount of light detected by the color sensor 13 is supplied to the automatic adjustment unit 121 of the liquid crystal shutter glasses controller 12 as a digital signal through the A / D converter 14.

  Under such circumstances, the automatic adjustment unit 121 first determines that the shutter control signal generated by the liquid crystal shutter glasses control device 12 based on the frame synchronization signal output together with the frame data by the image generation device 3 is within an allowable range. The time point at which shutter opening is started is set to the earliest time point, and the opening period is set to the shortest period within the allowable range. Then, from this state, as shown in FIG. 6, the automatic adjustment unit 121 slides the shutter opening time and the opening period, and the color light amount detected by the color sensor 13 is the largest. A point of time when the shutter is opened, that is, the ideal shutter with the least amount of mixing, and its opening period are detected.

  If this adjustment is performed for each of the shutter control signal R and the shutter control signal L, even when the left-eye image and the right-eye image are alternately displayed on the hold-type liquid crystal panel 2, the left-eye image and the right-eye image are displayed with little mixing. Since the L shutter 111 and the R shutter 112 of the liquid crystal shutter glasses 11 are opened / closed so as to open the field of view of the left eye or the right eye only during the period in which the eye image or the right eye image is displayed, stereoscopic viewing is performed. Will be experienced correctly.

  FIG. 7 is a flowchart showing a flow of adjustment processing executed by the automatic adjustment unit 121 included in the liquid crystal shutter glasses control device 12.

  The pattern image as described above is displayed on the liquid crystal panel 2, and the color sensor 13 that detects the amount of red or blue light can be viewed through the L shutter 111 or the R shutter 112 of the liquid crystal shutter glasses 11. Under the situation where the liquid crystal shutter glasses 11 and the color sensor 13 are arranged, the automatic adjustment unit 121 of the liquid crystal shutter glasses control device 12 provisionally sets the shutter opening period (step A1), and then opens the shutter. While shifting the start time (step A2), the light quantity detected by the color sensor 13 is acquired (step A3). This shift is continued until the largest light quantity value obtained so far (step A4) or until no further shift is possible (step A5).

  When the shift in the period set in step A1 ends (YES in step A4 or No in step A4, NO in step A5), the automatic adjustment unit 121 of the liquid crystal shutter glasses control device 12 determines whether the period is the longest at that time. If it is not the longest (NO in step A6), the process returns to step A1, is reset in the direction of extending the period, and the processes in steps A2 to A5 are repeated. The resetting in the direction of extending the period is continued until the period reaches the longest, and when the period reaches the longest (YES in step A6), the process ends.

  Thereby, the automatic adjustment unit 121 of the liquid crystal shutter glasses control device 12 detects the time when the light amount detected by the color sensor 13 becomes the largest, that is, the start time and the opening period of the ideal shutter with the least amount of mixing. It is possible to automatically optimize the shutter control signal R and the shutter control signal L.

  In the above description, the liquid crystal shutter glasses system 1 is shown as an example in which the liquid crystal shutter glasses 11 and the liquid crystal shutter glasses control device 12 are independent of each other. Of course, the liquid crystal shutter glasses 11 may be built in.

  That is, the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine a component suitably in different embodiment.

The figure which shows the structure of the liquid-crystal shutter spectacles system which concerns on one Embodiment of this invention, and its operating environment. 1st figure for demonstrating the drive control method of liquid-crystal shutter spectacles in the case of implement | achieving a stereoscopic vision using an impulse type CRT display 2nd figure for demonstrating the drive control method of the liquid-crystal shutter spectacles when implement | achieving a stereoscopic vision using an impulse type CRT display To explain a problem when the driving control method of liquid crystal shutter glasses when realizing stereoscopic viewing using an impulse type CRT display is used when realizing stereoscopic viewing using a hold type liquid crystal panel. Figure of The figure for demonstrating the drive control method of the liquid-crystal shutter spectacles in the liquid-crystal shutter spectacles system of the embodiment The figure for demonstrating the principle of the adjustment process of the shutter opening / closing timing of the liquid-crystal shutter spectacles performed with the liquid-crystal shutter spectacles system of the embodiment The flowchart which shows the flow of the adjustment process of the shutter opening / closing timing of the liquid-crystal shutter spectacles performed with the liquid-crystal shutter spectacles system of the embodiment

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Liquid crystal shutter spectacles system, 2 ... Liquid crystal panel, 3 ... Image generation apparatus, 11 ... Liquid crystal shutter spectacles, 12 ... Liquid crystal shutter spectacles control apparatus, 13 ... Color sensor, 14 ... Analog / digital (A / D) converter, 111: Left-eye liquid crystal shutter (L shutter), 112: Right-eye liquid crystal shutter (R shutter), 121: Automatic adjustment unit.

Claims (7)

A shutter eyeglass device having a first shutter for opening or blocking the left eye field of view and a second shutter for opening or blocking the right eye field of view;
An image generation device that outputs frame data to a display device inputs a frame synchronization signal output together with the frame data, and a first control signal for opening and closing the first shutter based on the frame synchronization signal; A shutter glasses control device that generates a second control signal for opening and closing the second shutter and supplies the second control signal to the shutter glasses device;
A color sensor that detects the amount of light of the specified color;
Comprising
The shutter glasses control device generates frame data for alternately displaying a first image composed of a first color and a second image composed of a second color on the display device. In a situation where the color is output from the apparatus, the color sensor is configured to measure the amount of light of one of the first color and the second color transmitted through one of the first shutter and the second shutter of the shutter eyeglass device. The opening / closing timing at which the light quantity input from the color sensor is maximized by sliding one of the first shutter and the second shutter of the shutter glasses device within a predetermined range. And adjusting means for adjusting one of the first control signal and the second control signal generated based on the frame synchronization signal. Glasses system.   2. The shutter glasses system according to claim 1, wherein the display device is a hold type, and the image generation device outputs frame data for displaying an image on the hold type display device.   The shutter glasses system according to claim 1, wherein the shutter glasses device is a liquid crystal shutter glasses device in which the first shutter and the second shutter are liquid crystal shutters.   The adjusting means of the shutter glasses control device includes a first setting means for setting a time point at which opening of the first shutter and the second shutter is started, and a second setting means for setting the opening period. The shutter glasses system according to claim 1, comprising:   The shutter glasses system according to claim 1, wherein the shutter glasses control device is built in the shutter glasses device. An apparatus for adjusting shutter opening / closing timing of a shutter eyeglass device having a first shutter for opening or shielding a left eye field of view and a second shutter for opening or shielding a right eye field of view,
An input means for receiving a signal from a color sensor for detecting a light amount of a designated color;
The first shutter of the shutter glasses device in a situation where the first image composed of the first color and the second image composed of the second color are alternately displayed on the display device. Alternatively, while acquiring the light amount of one of the first color or the second color that passes through one of the second shutters from the input means, the first shutter or the second shutter of the shutter glasses device One of the shutter opening / closing timings is slid within a predetermined range to detect the opening / closing timing at which the amount of light input from the color sensor is maximized, and the first shutter or the second shutter of the shutter glasses device is detected. Adjusting means for adjusting one of the opening and closing timings;
A shutter opening / closing timing adjusting device comprising: A shutter glasses device having a first shutter for opening or blocking the left eye field of view and a second shutter for opening or blocking the right eye field of view, and frame data is output to the display device. A frame synchronization signal output together with the frame data is input by the image generation apparatus, and a first control signal for opening and closing the first shutter and a second shutter are opened and closed based on the frame synchronization signal. A shutter opening / closing timing adjustment method in a shutter glasses system comprising: a shutter glasses control device that generates and supplies the second control signal to the shutter glasses device,
The shutter glasses control device comprises:
A situation in which frame data for alternately displaying the first image composed of the first color and the second image composed of the second color on the display device is output from the image generation device. Below, the amount of light of a designated color is detected from the amount of light of one of the first color and the second color transmitted through one of the first shutter and the second shutter of the shutter eyeglass device. While inputting from the color sensor, the opening / closing timing of one of the first shutter and the second shutter of the shutter eyeglass device is slid within a predetermined range, and the amount of light input from the color sensor is maximized. An opening / closing timing is detected, and one of the first control signal and the second control signal generated based on the frame synchronization signal is adjusted. Adjustment method.

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