JP2000112428A - Stereoscopic image display method and apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To display a stereoscopic image by dividing a sub-field group into sub-field groups displaying L-image and R-image, and switching the shutter of shutter glasses in synchronization with the start of the addressing period of a 1st sub-field of each sub-field group. SOLUTION: To each period for displaying L- and R-images, each sub-field shown time sequentially by b0, b2, b4, b3, and b1 is composed of an addressing period and a sustaining period. A signal for opening a shutter of the glasses for L (R) in synchronization with the start point of the addressing period of a 1st L (R) image sub-field. If a sub-field is allotted every bit of a video input signal in the case that there are five sub-fields for L and R each, the first five sub-fields display the L-image, and then, the following five sub-fields display the R-image. Both images are alternately displayed by driving both right and left images with the same emitting scheme, and repeating it for every field.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display method for displaying a multi-tone image by a subfield method, and more particularly to an AC type P display.
A stereoscopic image display in which a display method of performing display using an address-sustain separate driving method (ADS method) which is a driving method of a DP (Plasma Display Panel) is configured to be suitable for displaying a stereoscopic image using shutter glasses. Method and apparatus.

[0002]

2. Description of the Related Art In the above description, the subfield method divides one television field into a plurality of subfields in the time direction and divides each of the divided subfields into two.
This is a display method for displaying a multi-tone image by emitting light corresponding to the weight of each bit of the value-encoded image signal.

Next, the ADS method will be described. FIG.
Shows a drive sequence of the PDP by the ADS method. In FIG. 3, for example, when an image of 256 gradations with 8 bits is to be displayed, one field has a relative luminance ratio of 1, 2, 4, 8, 16, 32, 64, 1 respectively.
It is composed of 28 eight sub-fields, and a display of 256 gradations is performed by a combination of the luminance of each of the sub-fields. Each subfield includes an address period in which data for one refreshed screen is written and a sustain period for determining a luminance level of the subfield. First, wall charges are initially formed on each pixel in the entire screen in the address period, and thereafter, a sustain pulse is simultaneously applied to the entire screen in the sustain period to perform display. The brightness of the subfield is proportional to the number of sustain pulses and is set to a predetermined brightness. In the ADS method, gradation display is thus realized.

The present inventor has proposed an invention for displaying a stereoscopic image using shutter glasses using a driving method in which an address-sustain period is continuous used in a DC type PDP.
"3D image display method and apparatus" (Japanese Patent Application No. 10-205)
No. 093). However, there is no example of displaying a stereoscopic image by the ADS method used in the AC type PDP.

[0005]

The above-mentioned Japanese Patent Application No. 10-20 / 1990
As described in the application specification of No. 5093, since a certain amount of time is required for opening and closing the shutter of the shutter glasses, the driving method in which the address-sustain period is continuous used in the DC-type PDP has the shutter. In a subfield that emits light during the shutter opening / closing time of the glasses, the brightness to be emitted cannot be expressed, and an incorrect gradation is displayed. The above-mentioned application solved this problem.

[0006] The same applies to the ADS method as it is. If the sustain period and the opening / closing period of the shutter glasses overlap, the subfield cannot express the brightness to emit light, and an erroneous gray scale may not be obtained. Will be displayed.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of displaying a stereoscopic image using shutter glasses on an AC type PDP which occupies the mainstream of current PDPs. An object of the present invention is to provide a stereoscopic image display method and apparatus appropriately configured so that opening and closing times do not overlap.

[0008]

In order to achieve the above object, a stereoscopic image display method according to the present invention is characterized in that a period corresponding to a shutter opening / closing time of shutter glasses for stereoscopic image display is set to a left eye image (hereinafter referred to as an L image). The image is set in correspondence with the address period (period before the sustain period) of the subfield group of the right-eye image (hereinafter referred to as an R image) or the right-eye image (hereinafter referred to as an R image). That is, the deterioration of the tone expression performance is reduced, that is, one screen display period of the display device is divided into a plurality of sub-fields each including an address period and a sustain period, and the sustain period of each sub-field is divided by two. An image display method for displaying a multi-tone image by emitting light corresponding to the bit weights of the value-encoded image signal uses shutter glasses. A stereoscopic image display method configured to be suitable for displaying a body image, wherein a stereoscopic image signal including an L and an R signal is provided by a shutter glasses in which an address period of a first subfield of each subfield group of the L and R images is set. Are set in such a manner as to be a period for the response of the shutter opening and closing, and the subfield group of the L image or the R image, the subfield group of the R image or the L image are sequentially allocated and displayed, and the display of those images is performed. The shutter glasses are controlled such that the corresponding side of L or R of the shutter glasses is opened in synchronization with the shutter glasses.

Further, in the three-dimensional image display device of the present invention, one screen display period of the display device is divided into a plurality of subfields each consisting of an address period and a sustain period, and the sustain period of each subfield is binary-coded. A display panel capable of displaying a multi-tone image by emitting light corresponding to the weights of the bits of the rendered image signal, a stereoscopic image signal composed of L and R signals, A subfield conversion circuit that sequentially assigns the subfield groups of R or L images to the display panel via a panel driving circuit and supplies a timing signal for driving shutter glasses to a glasses control circuit In synchronization with the display of the subfield group of the L or R image from the timing signal. Of the shutter glasses L or R
Corresponding to the L and R side shutters such that the address period of the first subfield of the respective subfield groups of the L and R images becomes a period for responding to opening and closing of the shutter of the shutter glasses. And a glasses control circuit for generating an opening / closing signal and supplying the shutter glasses to the shutter glasses.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below based on embodiments of the present invention with reference to the accompanying drawings. FIG.
FIG. 1 shows an embodiment of the present invention, in which one field is composed of ten subfields in the time direction and the time arrangement of subfields is driven by the ADS method. In FIG. 1, each subfield (for L and R)
, B ₀ , b ₂ , b ₄ , b _3, and b ₁ in time sequence with respect to each of the periods in which the image is displayed. ing.

A signal for opening the shutter of the L glasses is output in synchronization with the start point of the address period of the subfield of the first L image. Similarly, a signal for opening the shutter of the R glasses is output in synchronization with the start point of the address period of the subfield of the first R image. In FIG. 1, each subfield length is different, but in each address period, data of one refreshed screen is written, so that the length is constant. As shown in FIG. 1, when one field is composed of 10 subfields, the total of the sustain periods indicated by hatches in the figure is generally about several ms. Is about 1.5 ms. Also, the time for the current shutter glasses to change from closed to open is usually 1.5.
ms, which is almost equal to the length of the address period in FIG. Thus, the shutter is kept open during all sustain periods.

Now, assuming that a subfield is assigned to each bit of the video input signal, if there are five subfields for each of L and R, a 5-bit digital signal can be handled. A grayscale image can be displayed. At this time, first, the image for L is displayed in five subfields, and then the image for R is displayed in the subsequent five subfields. In this manner, the left and right images are driven by the same light emission scheme, and this is repeated for each field, so that the L and R images are alternately displayed on the entire screen.

FIG. 2 is a block diagram showing the configuration of one example of the three-dimensional image display device of the present invention. 2, 1 is a synchronization detection circuit, 2 is an A / D converter, 3 is an inverse gamma correction circuit, 4 is a subfield conversion circuit, 5 is a panel drive circuit, 6 is a PDP panel, 7 is a glasses control circuit, and Reference numeral 8 denotes shutter glasses.

The operation will be described. The video input signal is sent at a timing when an L-side and R-side image is to be displayed, such as an L signal in the first half of one field and an R signal in the second half. This signal is supplied to a synchronization detection circuit 1 and an A / D converter 2. In the former, horizontal and vertical synchronization signals are detected, and in the latter, they are converted into digital signals and supplied to an inverse gamma correction circuit 3. Since a normal television signal is basically displayed on a CRT, the gamma for that is set to PD.
This is because the inverse correction is performed in accordance with P (the gamma correction performed on the transmission side is canceled).

The subfield conversion circuit 4 is supplied with a horizontal and vertical synchronizing signal from the synchronism detecting circuit 1 and a digital video signal subjected to inverse gamma correction from the inverse gamma correction circuit 3, respectively, based on the horizontal and vertical synchronizing signals. And outputs a timing signal for driving the shutter of the shutter glasses 8 at the same time. This subfield conversion circuit 4
May include a pseudo gradation generating circuit that reduces the number of bits of a video signal to a gradation that can be actually displayed by using an error diffusion method, a dither method, or the like.

A subfield signal, which is an output signal of the subfield conversion circuit 4,
The image is supplied to the DP panel 6 and an image is displayed on the panel 6. Further, the timing signal from the subfield conversion circuit 4 is supplied to the spectacles control circuit 7 to generate an L-side and R-side shutter opening / closing signal of the shutter spectacles 8 and supply them to the spectacles. The shutter opening / closing signal at this time can be supplied to the shutter glasses 8 wirelessly using a conductive wire or using infrared rays.

In the embodiment described above, a three-dimensional image of 32 gradations is displayed using five sub-fields. However, the present invention is not limited to this, and generally, one field includes one sub-field. Divided into N subfields,
The first N / 2 subfields are assigned to the L image (or R image) and the second N / 2 subfields are assigned to the R image (or L image). The shutter glasses may be shuttered in synchronization with the start of the address period of the first subfield.

[0018]

According to the present invention, a group of subfields according to the ADS method for a binary light emitting display of an AC type PDP is divided into a subfield group for displaying an L image and a subfield group for displaying an R image. The three-dimensional image can be displayed by opening and closing the shutter of the shutter glasses in synchronization with the start of the address period of the first subfield of each of the subfield groups.

In particular, by assigning the response time from closing to opening of the shutter to the address period in the ADS method, all the driven subfields can be used for gradation display. Therefore, a correct gradation display characteristic can be obtained without providing a special period for the response of opening and closing the shutter of the shutter glasses.

[Brief description of the drawings]

FIG. 1 shows a time arrangement of subfields in an embodiment of the stereoscopic image display method of the present invention.

FIG. 2 is a block diagram showing a configuration of an example of the stereoscopic image display device of the present invention.

FIG. 3 shows a driving sequence of the PDP by the ADS method.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Synchronization detection circuit 2 A / D converter 3 Inverse gamma correction circuit 4 Subfield conversion circuit 5 Panel drive circuit 6 PDP panel 7 Eyeglass control circuit 8 Shutter glasses

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Toshihiro Yamamoto 1-10-11 Kinuta, Setagaya-ku, Tokyo Inside Japan Broadcasting Corporation Research Institute (72) Inventor Yoshimichi Takano 1-10-11 Kinuta, Setagaya-ku, Tokyo No. Japan Broadcasting Corporation F-Term in the Broadcasting Research Institute 5C061 AA01 AA11 AB12 AB16 5C080 AA05 BB05 CC04 DD09 EE29 EE32 FF12 GG12 HH02 JJ02 JJ04

Claims (2)

[Claims] 1. A screen display period of a display device is divided into a plurality of subfields each including an address period and a sustain period, and the sustain period of each subfield is weighted by bits of a binary-coded image signal. An image display method for displaying a multi-tone image by emitting light corresponding to each of the three-dimensional image display methods, wherein the three-dimensional image display method is configured to be suitable for displaying a three-dimensional image using shutter glasses. The image signal is set so that the address period of the first subfield of each subfield group of the L and R images is a period for responding to the opening and closing of the shutter of the shutter glasses. A field group and an R image or L image subfield group are sequentially assigned and displayed, and the display of those images is performed in the same manner. Stereoscopic image display method characterized in that said shutter glasses L or R corresponding side of the to control the shutter glasses so that the open state and. 2. A screen display period of a display device is divided into a plurality of subfields each including an address period and a sustain period, and the sustain period of each subfield is weighted by bits of a binary-coded image signal. A display panel capable of displaying a multi-tone image by emitting light corresponding to each of the subfield groups of the L or R image and the subfield group of the R or L image. A subfield conversion circuit that sequentially assigns and supplies the display panel through the panel drive circuit to the display panel, generates a timing signal for driving shutter glasses, and supplies the timing signal to the glasses control circuit, L or R of the shutter glasses is synchronized with the display of the subfield group of the L or R image. Corresponding to the L and R side shutters such that the address period of the first subfield of the respective subfield groups of the L and R images becomes a period for responding to opening and closing of the shutter of the shutter glasses. A stereoscopic image display device comprising: at least a glasses control circuit that generates an opening / closing signal and supplies the shutter glasses.