JP2003298879A - Moving image display device and display method - Google Patents

Abstract

(57) [Problem] To provide a moving image display device capable of reducing blur due to motion and improving image display characteristics when displaying a moving image with a low number of frames. SOLUTION: An image holding block for holding one frame or more of image data for one frame cycle or more, a separate display data creating / holding block for creating / holding different display data different from the image data, and a frame cycle are divided. A sub-frame generation block for generating a plurality of sub-frames; a display data selection block for selecting one of the image data and the separate display data as display data for each sub-frame; A display element drive signal generation block for generating a signal for driving the display element, and a display signal selected by the display data selection block based on the drive signal generated by the display element drive signal generation block. An image display light generating block for generating image display light.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a moving image display device and a display method, and more particularly to a technique effective in displaying a low frame number moving image below a critical fusion frequency of human vision.

[0002]

2. Description of the Related Art A 35 mm film movie is a moving image with a low frame rate of 24 frames per second. If the image is simply displayed intermittently, it will blink at 24 Hz and fall below the critical fusion frequency of human vision. Therefore, the observer feels the disturbance due to "flicker / flicker" while watching the moving image. Therefore, in a general 35 mm film projector, the same frame is radiated twice using a shutter so that the blinking occurs at 48 Hz so that the observer does not feel flicker.

[0003]

SUMMARY OF THE INVENTION When an attempt is made to display a moving image with a low number of frames such as a movie described above using a hold type image display such as a liquid crystal display without changing the frame rate, As described in JP-A-64-82019, the backlight is turned on intermittently in synchronization with the frame period, or JP-A-9-
As described in Japanese Patent No. 325715, light from a backlight is turned on / off by a shutter in synchronism with a frame period, or in JP-A-11-1.
As described in Japanese Patent Publication No. 09921, if a part of each frame is used as a blanking data display period to reduce blur caused by motion, the frame period will be 24 Hz, which is flicker, and the observer will see flicker. You will feel If the backlight is always turned on without providing the shutter and the blanking data display period as described above, the hold-type image display does not feel flicker, but the blur due to the movement cannot be reduced.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to display a moving image with a low number of frames in a moving image display device and display method. Another object of the present invention is to provide a technique capable of reducing blur caused by movement and improving image display characteristics. The above and other objects and novel features of the present invention will become apparent from the description of this specification and the accompanying drawings.

[0005]

Among the inventions disclosed in the present application, a brief description will be given to the outline of typical ones.
It is as follows. That is, the present invention is a moving image display device, which creates an image holding block that holds image data of one frame or more from an input image signal for one frame period or more, and another display data different from the image data.・
Separate display data creation / holding block to be held, subframe generation block for dividing a frame period to generate a plurality of subframes, image data held in the image holding block, or the separate display data creation / holding
A display data selection block for selecting each of the sub-frames and a display element for generating a signal for driving the display element for each of the sub-frames, using one of the separate display data held in the holding block as the display data. A drive signal generation block; and an image display light generation block that generates image display light using the display data selected by the display data selection block based on the drive signal generated by the display element drive signal generation block. It is characterized by

The present invention also provides a display method, which comprises a first step of holding input image data for one frame or more from an input image signal for one frame period or more, and another display different from the image data. The second step of creating / holding data, the third step of dividing the l-frame period into n (n ≧ 2) subframes, the image data held in the first step, or the The fourth step of selecting for each subframe the display element by driving one of the separate display data held in the step 2 as the display data, and the fourth step of driving the display element for each subframe.
The fifth step of making the image display light by using the display data selected in the step.

In a preferred embodiment of the present invention, the separate display data includes a blank signal or display data having a pixel value of 0. In a preferred embodiment of the present invention, the separate display data includes display data having one pixel value uniquely determined by a pixel value of a pixel in the image data of the frame. In a preferred embodiment of the present invention, the separate display data is uniquely defined by a pixel value of image data of a frame and a pixel value of image data of at least one frame of the previous frame and the subsequent frame of the frame. It is characterized in that it includes display data of one determined pixel value. In a preferred embodiment of the present invention, the separate display data includes interpolation data obtained by a pixel value of image data of a frame and a pixel value of a previous frame or a subsequent frame of the frame. .

In a preferred embodiment of the present invention, said n
Is an integer of 3 or more. A preferred embodiment of the present invention is characterized in that image data is selected in an odd-numbered (or even-numbered) sub-frame and another display data is selected in an even-numbered (or odd-numbered) sub-frame. In a preferred embodiment of the invention, n
The image data is selected for each sub-frame, and the separate display data is selected for the other sub-frames.
In a preferred embodiment of the present invention, when n is an odd number and is an odd number (or even number) frame, image data is selected in an odd number (or even number) sub-frame, and an even number (or even number) sub-frame is selected. Select another display data for the (odd number) sub-frame and select the even number (or odd number)
Image data is selected in the even-numbered (or odd-numbered) sub-frames and the separate display data is selected in the odd-numbered (or even-numbered) sub-frames.

According to the above-mentioned means, one frame of a moving image signal of a low frame number equal to or lower than the human visual critical fusion frequency is divided into a plurality of subframes, and the blinking period by the image display device is set to the critical fusion period. Since the difference between the average brightness of the image data and the other display data is reduced as described below, flicker is less likely to be felt even when the moving image is displayed by the moving image signal. Further, by selecting another display data as the display light, the time for which the image data of the moving image signal is used as the image display light is shortened, and the motion blur caused by the hold type display can be reduced.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In all the drawings for explaining the embodiments, the same reference numerals are given to those having the same function, and the repeated description thereof will be omitted. [Embodiment 1] FIG. 1 is a block diagram showing a schematic configuration of a moving image display apparatus according to an embodiment of the present invention. The moving image display apparatus according to the present embodiment includes an image holding block 10, another display data creation / holding block 11, a subframe generation block 12, a display data selection block 13, a display element drive signal generation block 14, It is composed of an image display light generation block 15. In FIG. 1, 1
6 is an observer. The image holding block 10 has a frame memory only for storing image data for one frame or more, and stores the image data of the frame for each frame from the input low frame number moving image signal on the frame memory, It has a function of holding one frame period or more. The separate display data creation / holding block 11 creates and holds data different from the image data held in the image holding block 10. The subframe generation block 12 creates n subframes from the synchronization signal of the frame period,
A subframe synchronization signal corresponding to each is created.
For example, as shown in FIG. 2, the PLL circuit 21 divides the synchronization signal of the frame period F into four equal parts, whereby four sub-frame synchronization signals with a time width of 1 / 4F can be created.

When 24 Hz, which is a frame frequency (1 / frame period) of a movie that is equal to or lower than the critical fusion frequency (1 / critical fusion period), is divided into four, the frequency of subframes arranged at equal intervals in time becomes 96 Hz. . Since 96 Hz is higher than the critical fusion frequency, flicker due to blinking at that frequency is not felt. Note that the time widths of the subframes do not necessarily have to be evenly spaced. The display data selection block 13 is the subframe generation block 1
Either the image data stored in the image holding block 10 or the separate display data stored in the separate display data creating / holding block 11 is selected in accordance with the subframe synchronization signal generated in 2. Select
Use as display data. The display data selection block 13
A specific selection method in 1) will be described in an embodiment described later. The display element drive signal generation block 14 generates a drive signal for driving the display element in accordance with the subframe synchronization signal. Image display light generation block 15
Uses a display element to generate display data as image display light in response to the drive signal. The display element is a self-luminous type,
It does not matter whether it is a non-self-luminous type, but when a non-self-luminous display element is used, light from another light source is transmitted or reflected by the display element to be image display light.

[Second Embodiment] FIG. 3 is a diagram for explaining a first display method of a moving image display apparatus according to an embodiment of the present invention. The image display light generated by the moving image signal of the low frame number shown in FIGS.
As shown in (d), the 1F period below the critical fusion period is blinking, and the observer 16 feels flicker. It should be noted that FIG. 3C shows a case where a display element that emits impulse-like light such as a CRT is used, and FIG. 3D shows a hold-type display element that is used to turn off the second half of the light emission. It shows the blinking of the display light when countermeasures are taken. If a hold type display element is used without taking measures against motion blur,
The continuous light is as shown in (e), and the observer 16 does not feel flicker, but since the light emission time t becomes long, w = v
The motion blur determined by t becomes large. Note that w is the amount of blurring, v is the moving speed of the subject, and t is the light emission time. In the display method of the present embodiment, in the separate display data creation / holding block 11 of the moving image display device described above, the display data having the pixel value of 0 is held on the ROM or the like as the separate display data, or A blanking signal pattern as a display element drive signal is held, and an image signal and separate display data are alternately selected and displayed in accordance with the subframe synchronization signal.

According to the display method of the present embodiment, as in the first embodiment described above, the sync signal of the frame period F is reduced to 1 /
It is divided into 4F subframes, and a subframe synchronization signal as shown in FIG. And FIG. 3 (g)
As shown in, in the display data selection block 13,
The image data stored in the image holding block 10 is selected for the odd-numbered (or even-numbered) sub-frames, and the pixel value 0 or the blank signal is selected for the even-numbered (or odd-numbered) sub-frames. , So that the even-numbered subframes are subframes that do not display an image. In the display method according to the present embodiment, the display data selection block 13 receives the image data stored in the image holding block 10 or the separate display data creation / each time the subframe synchronization signal is input. It is configured to alternately select the separate display data stored in the holding block 11. As shown in FIG. 3 (h), the light emission at that time is blinking for half the period, and the observer 16 hardly feels flicker. For example, if F = 1/24 (s) as in a movie, F / 2
= 1/48 (s), the display effect is similar to that of a double-shutter projector, and flicker is less likely to be felt in a dark room such as a movie theater. Also from the point of motion blur, the light emission period is shortened as shown in FIG.

[Third Embodiment] FIG. 4 is a diagram for explaining an example of another display data creating / holding block 11 in the moving image display apparatus according to the embodiment of the present invention. According to the display method of the present embodiment, in the separate display data creation / holding block 11 of the moving image display device described above, a value uniquely determined by the pixel value in the image data is obtained, held in a register or the like, and stored in the subframe. Image signals and separate display data are alternately selected and displayed according to the synchronization signal. For example,
As shown in FIG. 4, the brightness level value of each pixel in the image data is added by the adder 31, and this value is held in the register 32 to add the brightness level values of all the pixels in the image data. By dividing this value by the total number of pixels held in the register 33 by the divider 34, the average luminance level of the image data can be obtained. The monochrome screen of the brightness level value is used as separate display data, or the lookup table (LUT) 35 is referred to by the brightness level value, and the corresponding monochrome screen is used as separate display data in accordance with the subframe synchronization signal. Alternately select and display image signals and separate display data. The lookup table 35
An example is shown in FIG.

FIG. 6 is a diagram for explaining a second display method of the moving image display device according to the embodiment of the present invention. For example, a low frame number moving image signal with a frame period F is shown in FIG.
As shown in (a), a round gray ball moves in an arc.
At that time, it is assumed that the moving image signal is such that the background becomes gradually darker. When the hold type display element and the existing countermeasure against motion blur are used, as shown in FIG. 6B, the black screen enters and the period F blinks, and the observer 16 feels flicker. According to the display method of the second embodiment described above, as shown in FIG. 6C, the blinking is half the period of FIG. 3B, and the blinking occurs in the area where the observer 16 hardly feels flicker. . Further, in the display method of the present embodiment, as shown in FIG. 6D, when another data is displayed subsequent to the frame (A1), a gray monochrome screen corresponding to the average luminance level in the image data of the frame (A1) is displayed. Is displayed. As a result, in the display method of the present embodiment, there is no difference in brightness between the image display and the separate data display on the entire screen.
6 feels less flicker. In the display method of the present embodiment, the display data selection block 13
Can be configured in the same manner as in the second embodiment described above.

In the method of the present embodiment, a case has been described in which a monochrome monochrome screen having an average luminance level value is inserted as separate display data as a value uniquely determined by the pixel value in the image data. In consideration of the above, a monochrome screen may be inserted as separate display data. Also,
In the display method of this embodiment, the separate display data is determined only by the pixel value of the image data of the frame, but the value of the separate display data is determined not only by the pixel value of the image data of the previous or subsequent frame. May be determined.
For example, the subframe (SubA2-2) and the subframe (SubA3-2) are each a frame (A
2), since it exists during the display of the image display data of the frame (A3), the value of the separate display data is obtained from the frame (A2) and the frame (A3), respectively, but the subframe (SubA2-4) is the frame. Since it exists between displaying the image display data of both (A2) and frame (A3), the value of the separate display data may be obtained using the pixel values of both frame (A2) and frame (A3). . When a non-self-luminous display element is used, the intensity of light from the light source when displaying separate display data is changed according to the average brightness level of the image data, so that it can be used as display light for a gray monochrome screen. Good.

[Fourth Embodiment] FIG. 7 is a diagram for explaining a third display method of the moving image display apparatus according to the embodiment of the present invention. In the display method of the present embodiment, in the separate display data creation / holding block 11 of the moving image display device,
Using the image data of the frame and the pixel value of the frame before or after the frame, motion estimation as used in, for example, MPEG is performed, and interpolation data at the time of subframe display, which does not exist as image data And display it as another display data. FIG. 7A shows image data for three frames of the low frame number moving image signal to be input. When the frame cycle F is divided into four equal parts to form subframes, SubA1-2, SubA1-3, SubA
1-4, SubA2-2, SubA2-3, SubA2
-4, SubA3-2, SubA3-3, and Sub
The subframe A3-4 is used as a subframe for displaying another data, and interpolation data at the time of displaying each subframe as shown in FIG. 7B is obtained and displayed. In the display method of the present embodiment, the display data selection block 1
3 indicates four subframe synchronization signals (SubA1 in FIG. 7).
-1, SubA2-1, SubA3-1), image data is selected for each subframe, and another display data is selected for the other subframes. The selection method is, for example, counting subframe synchronization signals (pulses of subframe period),
Looking at the remainder obtained by dividing that value by 4, for example, the remainder is "1"
In case of, image data is selected, and in other cases, separate display data is selected.

Since the time for obtaining the interpolated data is limited until each subframe is displayed, if the number of subframes increases, the interpolated data has to be obtained in such a short time, which requires a large calculation ability. And In that case, as shown in FIG. 7C, the separate display data of a single color obtained by the method described in the above-described third embodiment is converted into sub-frames (SubA1-2, SubA1-4, SubA2-).
2, SubA2-4, SubA3-2, SubA3-
4), it is possible to reduce the number of sub-frames for which interpolation data is obtained and displayed, and to have a small calculation capacity (in this example, one-third calculation capacity). In the case of FIG. 7C, the number of subframes in which the actual interpolation data is displayed is reduced, but the interpolation data is not displayed in human vision. SubA1-2, SubA1-4, SubA2-
2, SubA2-4, SubA3-2, and SubA
In the sub-frame 3-4, it is possible to perceive a smooth motion as if there is interpolation data due to the apparent motion.

[Fifth Embodiment] FIG. 8 is a diagram for explaining a fourth display method of the moving image display apparatus according to the embodiment of the present invention. The display methods of the above embodiments have been described in the case of displaying different data using subframes whose frame period is divided into four, but in the display method of the present embodiment, subframes are divided into three. The case of using is shown. When the frame frequency is 24 Hz, the frequency of the subframe created by dividing it into three equals 72 Hz. In the three sub-frames, as shown in FIG. 8B, when another image is displayed only in the even-numbered sub-frames of each frame, the display frequency of the different data is 24 Hz, which is different from the display method of the second embodiment. As described above, when 0 or blank is used as another display, flicker occurs due to that. Therefore, according to the display method of the present embodiment, as shown in FIG.
As shown in (c), in the odd-numbered frame, another data is displayed in the even-numbered frame, and in the even-numbered frame, another data is displayed in the odd-numbered frame.

By displaying in this way, the display frequency of the separate data and the display frequency of the image data can be set to 48 Hz, and blinking can be achieved in the area where flicker is less likely to be felt. In the display method of the present embodiment, the display data selection block 13 selects the image data when the odd-numbered sub-frame synchronization signal is input in the case of the odd-numbered frame cycle synchronization signal, and the even-numbered sub-frame synchronization signal. When the sub-frame sync signal is input, another display data is selected. When the even-numbered frame cycle sync signal is selected, the image data is selected when the even-numbered sub-frame sync signal is input, and the odd-numbered sub-frame is selected. The separate display data is selected when the synchronization signal is input.
Further, as another selection method, there is also a method of selecting the odd-numbered / even-numbered sub-frame sync signal without determining whether it is an odd-numbered frame or an even-numbered frame. For example,
The sub-frame synchronization signal (pulse of the sub-frame cycle) is counted, and the odd-numbered sub-frame (SubA1-
1, SubA1-3, SubA2-2, SubA3-
1, SubA3-3, SubA4-2), the image data, the even-numbered sub-frame (SubA1-2, SubA).
A2-1, SubA2-3, SubA3-2, SubA
4-1 and SubA 4-3) is a selection method of displaying separate display data. As described above, the invention made by the present inventor has been specifically described based on the above embodiment,
The present invention is not limited to the above embodiment,
Of course, various modifications can be made within the scope that does not depart from the gist of the invention.

[0021]

The effects obtained by the typical ones of the inventions disclosed in the present application will be briefly described as follows. According to the present invention, when displaying a moving image with a low number of frames, it is possible to reduce blur due to motion and improve image display characteristics.

[Brief description of drawings]

FIG. 1 is a block diagram showing a schematic configuration of a moving image display device according to an embodiment of the present invention.

FIG. 2 is a diagram for explaining an example of a subframe creation method in the moving image display device according to the embodiment of the present invention.

FIG. 3 is a diagram for explaining a first display method of the moving image display device according to the embodiment of the present invention.

FIG. 4 is a diagram for explaining an example of another display data creation / holding block in the moving image display device according to the embodiment of the present invention.

5 is a diagram showing an example of a lookup table shown in FIG.

FIG. 6 is a diagram for explaining a second display method of the moving image display device according to the embodiment of the present invention.

FIG. 7 is a diagram for explaining a third display method of the moving image display device according to the embodiment of the present invention.

FIG. 8 is a diagram for explaining a fourth display method of the moving image display device according to the embodiment of the present invention.

[Explanation of symbols]

10 ... Image holding block, 11 ... Separate display data creation / holding block, 12 ... Subframe generation block, 13 ...
Display data selection block, 14 ... Display element drive signal generation block, 15 ... Image display light generation block, 16 ... Observer, 21 ... PLL circuit, 31 ... Adder, 32, 33 ... Register, 34 ... Divider, 35 … Lookup table.

Front page continuation (51) Int.Cl. ⁷ Identification code FI theme code (reference) G09G 3/20 G09G 3/20 641R 660 660V 3/36 3/36 H04N 5/66 H04N 5/66 A (72) Invention Person Tetsuro Fujii 2-3-1, Otemachi, Chiyoda-ku, Tokyo F-term in Nihon Telegraph and Telephone Corporation (reference) 5C006 AA01 AA11 AA22 AF03 AF04 AF06 AF44 AF59 BF02 BF08 BF24 BF28 BF49 FA23 FA29 5C021 PA26 PA79 PA80 SA03 XB07 YA07 YB01 YC03 5C058 BA09 BA29 BB03 BB08 BB13 BB14 BB23 5C080 AA10 BB05 DD06 EE19 EE29 FF11 FF12 GG08 GG09 GG12 GG15 GG17 JJ02 JJ04

Claims (16)

[Claims] 1. An image holding block for holding image data for one frame or more from an input image signal for one frame period or more, and another display data creation / holding for creating / holding another display data different from the image data. A block, a subframe generation block that divides the frame period to generate a plurality of subframes, image data held in the image holding block, or a separate frame held in the separate display data creation / holding block. A display data selection block that selects each of the display data as display data for each subframe; a display element drive signal generation block that generates a signal for driving a display element for each subframe; Based on the drive signal generated by the element drive signal generation block, the display data selection block Moving image display device characterized by comprising an image display light generating block for generating the image display light using a-option display data. 2. The separate display data creating / holding block uses a blank signal or a pixel value of 0 as the separate display data.
2. The moving image display device according to claim 1, wherein the display data is created. 3. The separate display data creating / holding block creates, as separate display data, display data having one pixel value that is uniquely determined by a pixel value in image data of a frame. Item 2. The moving image display device according to item 1. 4. The separate display data creation / holding block includes a first means for adding pixel values of all pixels in image data of a frame, and a value added by the first means as a total number of pixels. The moving image display apparatus according to claim 3, further comprising: a second means for performing division and a third means for creating display data of the pixel value obtained by the second means. 5. The separate display data creating / holding block adds a table for storing pixel values of display data for each reference pixel value, and a first means for adding pixel values of all pixels in image data of a frame. A second means for dividing the value added by the first means by the total number of pixels; a pixel value obtained by the second means as a reference pixel value; and searching the table, The moving image display apparatus according to claim 3, further comprising a third means for creating display data having a pixel value determined by the reference pixel value. 6. The separate display data creation / holding block includes, as the separate display data, a pixel value of image data of a frame and image data of at least one frame of a previous frame and a subsequent frame of the frame. The moving image display apparatus according to claim 1, wherein display data of one pixel value uniquely determined by the pixel value is created. 7. The separate display data creation / holding block is interpolation, which is obtained as separate display data by a pixel value of image data of a frame and a pixel value of image data of a previous frame or a subsequent frame of the frame. The moving image display device according to claim 1, wherein data is created. 8. A first unit for holding input image data for one frame or more from an input image signal for one frame period or more
Step, a second step of creating and holding separate display data different from the image data, a third step of dividing the l frame period into n (n ≧ 2) subframes, and a first step of Image data stored in step, or
The fourth step of selecting each of the subframes as the display data held in the second step as the display data, and the driving of the display element for each subframe, and the selection in the fourth step Fifth, using the displayed data as image display light
And a step of displaying. 9. The display method according to claim 8, wherein the separate display data includes a blank signal or display data having a pixel value of 0. 10. The separate display data includes display data of one pixel value uniquely determined by a pixel value of a pixel in image data of a frame.
Display method described in. 11. The separate display data is uniquely determined by a pixel value of image data of a frame and a pixel value of image data of at least one of a frame preceding the frame and a frame subsequent to the frame. 9. The display method according to claim 8, comprising display data of one pixel value. 12. The separate display data includes interpolation data obtained by a pixel value of image data of a frame and a pixel value of a previous frame or a subsequent frame of the frame. How to display the description. 13. The display method according to claim 8, wherein the n is an integer of 3 or more. 14. The image data is selected in the odd-numbered (or even-numbered) sub-frames, and the separate display data is selected in the even-numbered (or odd-numbered) sub-frames. Display method. 15. The display method according to claim 8, wherein image data is selected for every n sub-frames, and separate display data is selected for the other sub-frames. 16. When n is an odd number and is an odd-numbered (or even-numbered) frame, image data is selected in an odd-numbered (or even-numbered) sub-frame and an even-numbered (or odd-numbered) sub-frame is selected. Select another display data for the sub-frame, select the image data for the even-numbered (or odd-numbered) sub-frame when the even-numbered (or odd-numbered) frame, and select the image data for the odd-numbered (or even-numbered) sub-frame. 9. The display method according to claim 8, wherein another display data is selected.