JPH0973143A - Device and method for recording and reproducing stereoscopic image - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device and a method for recording and reproducing a stereoscopic image capable of obtaining high luminance, reproducing the distinct stereoscopic image of an object and forming the stereoscopic image as it is seen on the front surface of an optical control panel. SOLUTION: By this device and this method; the object 10 is recorded as small images on a recording panel 13 through the optical control panel 12 having many minute light transmission parts 11, and the recorded small images are observed through the optical control panel 12a having many minute light transmission parts 11a. A light shielding panel 18 having an aperture part at its center part is set around the object 10 or between the object 10 and the panel 12, then the minute light transmission parts 11 form the images at positions where the small images of the aperture part of the panel 18 are adjacently recorded on the panel 13 in a state where they are not superposed each other.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a stereoscopic image recording / reproducing apparatus and method capable of viewing a bright and clear three-dimensional stereoscopic image.

[0002]

2. Description of the Related Art Conventionally, as a method of recording and reproducing a three-dimensional image of an object using a large number of minute light-transmitting portions such as pinholes, there is a three-dimensional image recording and reproducing method as proposed by Lippmann. The basic principle of this three-dimensional image recording / reproducing method will be described with reference to FIG. As shown in FIG.
An opaque light control panel 51 having a large number of minute light transmitting portions 52 is arranged on the front surface of a recording panel 53 made of a photographic dry plate, and an image of an object 50 arranged on the front surface of the light control panel 51 is divided into minute images. A large number of small images are recorded on the recording panel 53 via the transparent portion 52. Then, when observing the recorded stereoscopic image, as shown in FIG.
The stereoscopic image 55 is reproduced by looking through the light control panel 51a having a large number of minute light transmitting portions 52a arranged on the front side of the recording panel 53 with the backlight 56 applied from the rear side. That is, more specifically, FIG.
In the recording apparatus shown in (a), an arbitrary point P of the object 50 is P _{1 on the} recording panel 53 via the minute light transmitting portion 52,
It is recorded as a small image of P ₂ , P ₃ , ... Then, in the reproducing apparatus shown in FIG. 6B, when the backlight 56 is applied to the small image on the recording panel 53, the light from P ₁ , P ₂ , P ₃ , ... It converges on P'through the light part 52a, and a stereoscopic image 55 is formed on this part.
Will be played.

[0003]

However, in the stereoscopic image recording / reproducing method according to the conventional example, the light control panel 5 is used.
Each of the minute light-transmitting parts 52 on the optical disc 1 is of an optical axis parallel type arranged at a position in front of the perpendicular m at the center of each small image recording area S on the recording panel 53. Therefore, unnecessary scattered light from other than the object 50 is incident on the recording area of each small image, and the image of the object 50 is missing except for some small images near the center. There is. In addition, since the area for recording each small image is not actually defined, there is a problem that it is difficult to obtain a clear image due to overlapping interference between adjacent small images. Furthermore, in the method of reproducing a stereoscopic image according to the conventional example, since the irregularities of the reproduced stereoscopic image appear to be inverted, for example, Japanese Patent Application Laid-Open No. 6-1
As shown in Japanese Patent No. 33340, a recording image obtained by further inverting each small image on the recording panel is recorded on another recording panel, and this another recording panel is reproduced by the method shown in FIG. 6B. However, there is a problem that the formed stereoscopic image is always formed on the back surface side of the light control panel 51a and cannot be formed on the front surface side of the light control panel 51a. The present invention has been made in view of the above circumstances, and is capable of reproducing a clear stereoscopic image of an object having high brightness and reproducing a stereoscopic image as it is seen on the front surface of the light control panel. It is also an object of the present invention to provide a stereoscopic image recording / reproducing apparatus and a method thereof that can be used.

[0004]

A method according to the above-mentioned object.
The stereoscopic image recording / reproducing apparatus according to the above, installs a non-translucent light control panel having a large number of minute light-transmitting portions at a predetermined position between an object and a recording panel, and through the minute light-transmitting portions. After recording a large number of small images of the object formed on the recording panel, in place of the recording panel, an image display panel for displaying the large number of small images is installed behind the light control panel, In a stereoscopic image recording / reproducing apparatus which reproduces a stereoscopic image of the target object by emitting a small image displayed on the image display panel and converging a light flux passing through the minute light transmitting portion in front of the light control panel. A light-shielding panel having an opening in the center thereof is provided around the object or between the object and the light control panel, and each of the minute light-transmitting portions has a small opening of the light-shielding panel. Images on top of each other on the recording panel They are disposed at positions that can be recorded adjacently without. A stereoscopic image recording / reproducing apparatus according to a second aspect is the apparatus according to the first aspect, wherein the shape of the minute light transmitting portion is a slit shape or a rectangle. The three-dimensional image recording / reproducing apparatus according to claim 3 is disposed at a predetermined position and has a large number of minute light-transmitting portions, which is opaque to the first light control panel, and is arranged immediately after the first light control panel. A recording device having a recording panel in which an object arranged in front of the first light control panel is recorded as a large number of small images via the respective minute light transmitting parts, and an image of the recording panel is displayed. Stereoscopic image recording having an image display panel and a reproducing device having a second light control panel arranged immediately before the image display panel and having a large number of minute light-transmitting portions corresponding to small images on the image display panel In the reproducing device, a light-shielding panel having an opening through which the object can be viewed from the first light control panel is arranged around the object or between the object and the first light control panel. , The first light control panel Each micro light transmitting portions, the small image of the opening of the shielding panels are placed at a position capable of recording adjacent without overlapping each other on the recording panel.

A three-dimensional image recording / reproducing apparatus according to a fourth aspect is the apparatus according to the third aspect, wherein the minute light transmitting portions of the first and second light control panels are slit-shaped or rectangular. . The three-dimensional image recording / reproducing method according to claim 5, wherein an opaque light control panel having a large number of minute light transmitting portions is installed at a predetermined position between the object and the recording panel, Stereoscopic image for reproducing a stereoscopic image of the object by recording a large number of small images of the object formed on the recording panel via a recording unit and displaying the recorded small images on an image display panel. In the recording / reproducing method, a light-shielding panel having an opening is installed around the object or between the object and the light control panel, and a small image of the opening is formed on the recording panel, A conversion operation is performed by reversing the center point of the opening portion of the light-shielding panel and each of the minute light-transmitting portions so as to be symmetrical with respect to the recording panel by 180 ° point symmetry. The stereoscopic image recording / reproducing method according to claim 6 is the method according to claim 5, wherein the conversion operation for inverting the point symmetry is performed through each minute light transmitting portion and each minute point with the center point of the opening of the light shielding panel. After being performed on a small image formed on a plane orthogonal to the straight line connecting the light transmitting parts, each pixel on the small image is a straight line connecting the minute light transmitting part corresponding to each pixel. It includes the operation to move to the point where it intersects with.

According to a seventh aspect of the present invention, there is provided a three-dimensional image recording / reproducing method, wherein a opaque first light control panel having a large number of minute light transmitting portions is arranged on the front side of the recording panel, and the first light control panel is provided. The objects arranged in front of the are recorded as a large number of small images on the recording panel via the respective minute light-transmitting parts, and the large number of recorded small images are displayed on the image display panel and displayed. A stereoscopic image recording / reproducing method for reproducing a stereoscopic image of the object through a second light control panel having a minute light transmitting portion formed on the front surface of each of the small images, wherein the object is A light-shielding panel having an opening through which the object can be viewed from the first light control panel is disposed around the object or between the object and the first light control panel. Connect each minute light-transmitting part of the panel to the light-shielding panel Small image of the mouth is formed at a position which can be recorded adjacently without overlapping each other on the recording panel. The stereoscopic image recording / reproducing method according to claim 8, wherein in the method according to claim 7, a small image of the object including the opening formed on the recording panel is recorded.
After performing a conversion operation of inverting the center point of the opening portion of the light-shielding panel and each of the minute light-transmitting portions of the first light control panel to be 180 degrees point symmetrical about a point where the straight line intersects with the recording panel, It is displayed on the image display panel. The stereoscopic image recording / reproducing method according to claim 9, wherein in the method according to claim 7, a small image of the object including the opening to be imaged on the recording panel is displayed in the opening of the light shielding panel. A virtual small image formed on a plane orthogonal to the straight line intersecting the recording panel at a position where a straight line connecting the central point and each of the minute light-transmitting portions of the first light control panel intersects with the 180-degree point symmetry conversion. After the operation is performed, the image is displayed on the image display panel.

The object is an object which has a three-dimensional unevenness which is a so-called subject and which reflects light from another light source or emits itself by scattering light. A large number of small images of the object imaged through the minute light-transmitting portion were optically or electrically recorded by a photosensitive material such as photographic film, photographic paper or a CCD element, and then the small images were displayed. When scattered light is emitted from each small image displayed on the image display panel by irradiating light from behind the image display panel, each small image displayed on the image display panel emits light and passes through the minute light-transmitting part. By the convergence of the luminous flux
A stereoscopic image of the object is reproduced in front of the light control panel (or the second light control panel). The minute light-transmitting part is a minute light-transmitting part installed on the non-light-transmitting panel, selectively passes the light flux of scattered light emitted from the target object, and displays a small image of the target object on the recording panel. It has a function of forming an image and a function of reproducing a stereoscopic image of an object in front of the light control panel by selectively passing the light flux of scattered light emitted from each small image displayed on the image display panel. The recording panel is, for example, a panel in which a large number of light-sensitive materials such as photographic film and photographic paper or light conversion elements such as CCD elements are arranged, and a large number of small images of the object formed on the recording panel are optically recorded. It is a device that records by physical or electrical means.
The image display panel includes, for example, a photosensitive material such as printing, photographic film, photographic paper or a liquid crystal panel, a CRT, a plasma display panel, an LED panel, etc., and is a small object of the recorded object by optical or electrical means. This is a device for displaying an image. The light-shielding panel refers to a panel that is installed around the object or between the object and the light control panel (or the first light control panel) to shield extra light from other than the object. It does not necessarily mean a physical panel having an opening, but includes one having a function of virtually or practically defining a specific space around an object.

In the stereoscopic image recording / reproducing apparatus according to the first and second aspects, a light-shielding panel having an opening at the center is installed around the object or between the object and the light control panel.
Moreover, since the minute light-transmitting portion is arranged at a position where the small images in the opening of the light-shielding panel can be recorded adjacent to each other on the recording panel without overlapping with each other, a large amount of light from the object and , It is possible to record a small image in which the amount of light from other than the object is greatly cut. As a result, a small image of the target object with less scattered light from other than the target object and having no missing portion can be obtained, and a clear stereoscopic image of the target object with high brightness can be reproduced.

In the stereoscopic image recording / reproducing method according to the fifth and sixth aspects, the small image formed on the recording panel is point-symmetrically 180 with respect to the point corresponding to the center point of the opening of the light shielding panel on the small image. Since the inverted small image is displayed on the image display panel in the inverted state, when the stereoscopic image of the object is reproduced, when viewed from the direction of the recording panel, the left and right sides of the front surface of the light control panel, A three-dimensional image of the object whose top and bottom and unevenness are reversed is reproduced. Therefore, when this is viewed from the front of the light-shielding panel, which is the direction opposite to that at the time of recording, it is possible to see a stereoscopic image of the object having exactly the same shape as the object viewed from the direction of the recording panel. Further, in the stereoscopic image recording / reproducing method according to claim 6, the conversion operation for inverting the point symmetry is a straight line connecting the center point of the opening of the light-shielding panel and each minute light transmitting portion through each minute light transmitting portion. After being performed on a small image formed on an orthogonal plane, an operation of moving each pixel on the small image to a point where a straight line connecting a minute light transmitting portion corresponding to each pixel intersects with the recording panel is performed. Therefore, the stereoscopic image of the object with less distortion can be reproduced without changing the pixel density.

A stereoscopic image recording / reproducing apparatus according to any one of claims 3 and 4,
In the three-dimensional image recording / reproducing method according to any one of claims 7 to 9, a large number of small images of the object formed through the minute light-transmitting portion of the first light control panel are exposed on a photographic film, photographic paper, or the like. Recording is performed optically or electrically using a material or a CCD element. When a large number of small images are displayed on the image display panel and light is irradiated from the rear, light is emitted from each small image displayed on the image display panel, and the light flux passing through the minute light-transmitting portion converges, A stereoscopic image of the object will be reproduced in front of the light control panel of No. 2. here,
In this three-dimensional image recording / reproducing method and apparatus, a light-shielding panel having an opening in the center is installed around the object or between the object and the first light control panel, and the minute light-transmitting part is provided. Since the small images in the openings of the light-shielding panel are arranged on the recording panel at positions where they can be recorded adjacent to each other without overlapping, the amount of light from the target is large and the amount of light from other than the target is large. It is possible to record a small image that has been significantly cut. Therefore, a small image of the target object with less scattered light from other than the target object and having no missing portion can be obtained, and a clearer stereoscopic image of the target object with high brightness can be reproduced. Particularly, in the three-dimensional image recording / reproducing apparatus according to claims 2 and 4, since the shape of the minute light transmitting portion is slit-like or rectangular, a large amount of light passes through the minute light transmitting portion, and as a result, a bright small image is recorded. In addition, since a large amount of light passes through the minute light transmitting portion even during reproduction, a brighter stereoscopic image can be reproduced. In the three-dimensional image recording / reproducing method according to claim 8, a small image of an object including an opening formed on the recording panel is displayed at the center point of the opening of the light-shielding panel and each of the first light control panel. The image is displayed on the image display panel after a conversion operation is performed in which the straight line connecting the minute light-transmitting portions is inverted symmetrically about the point intersecting the recording panel by 180 degrees. As a result, the concavo-convex state of the displayed image is an image that is point-symmetrical with respect to the center point of the opening of the light-shielding panel, that is, a stereoscopic image of the object viewed from the front, that is, the concavo-convex state is in the correct direction. It is possible to reproduce a stereoscopic image facing. Further, in the stereoscopic image recording / reproducing method according to claim 9, a small image of an object including an opening to be imaged on the recording panel is displayed at the center point of the opening of the light shielding panel and the first light control panel. A virtual small image formed at a position where a straight line connecting the minute translucent portions intersects with the recording panel and on a plane orthogonal to the straight line is subjected to a 180-degree point symmetry conversion operation, and then displayed on the image display panel. Therefore, it is possible to reproduce a stereoscopic image when the object is viewed from the front and the pixel density is not changed and the image distortion is small even in the peripheral portion.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, embodiments of the present invention will be described with reference to the accompanying drawings to provide an understanding of the present invention. Here, FIG. 1 is an explanatory diagram of a stereoscopic image recording / reproducing apparatus according to a first embodiment of the present invention, FIG. 2 is an explanatory diagram of a method of arranging each minute light transmitting portion on a light control panel, and FIG.
Is a layout view of a small image of the opening recorded on the recording panel when the shape of the opening of the light shielding panel is a regular hexagon,
FIG. 4 is an explanatory diagram of a stereoscopic image recording / reproducing method according to a second embodiment of the present invention, and FIG. 5 is an explanatory diagram of a stereoscopic image recording / reproducing method according to a third embodiment of the present invention.

FIG. 1A is an explanatory view of an apparatus for recording a large number of small images of the object 10 placed at the center position of the opening of the light shielding panel 18. The first light control panel 12, which is the light control panel on the recording side, uses a technique for forming an integrated circuit, laser processing, etching processing, etc.
Although the tens of thousands are formed, the number of the minute light-transmitting portions 11 may be an arbitrary number. Further, the minute light transmitting portion 11 in which a mechanical shutter is provided on the front surface or the rear surface of the light control panel 12 may be adopted. further,
As the light control panel 12, a liquid crystal panel or the like, which can electrically form the minute light-transmitting portion 11 on the panel, may be used. In this case, the position of the minute light-transmitting portion 11 can be electrically operated, The number and shape can be changed arbitrarily. The formation position of the minute light transmitting portion 11 will be described later. In the present embodiment, the circular minute light-transmitting portion is adopted, but for example, the length ratio of the long side to the short side is 100: 1 or 10: 1 by electrically operating the liquid crystal panel. When a rectangular small light-transmitting part is formed,
The amount of light passing through the minute light transmitting portion in the long side direction can be significantly increased. As shown in FIG. 1A, the object 10
A large number of small images of the object 10 are recorded on the recording panel 13 by the light fluxes 15 emitted from the light passing through the minute light transmitting portions 11 and imaged at positions corresponding to the respective minute light transmitting portions 11 on the recording panel 13. As the recording panel 13, a panel on which one or a large number of photosensitive materials such as photographic film and photographic paper or light converting elements such as CCD elements are arranged is used to record a small image of the object 10 by optical or electrical means. To do.

FIG. 1B is an explanatory view of an apparatus for displaying a small image of the object 10 recorded by the above method. A large number of small images of the recorded object 10 are displayed on the image display panel 1
4 and the back light panel 17 provided behind the image display panel 14 emits light, the small image displayed on the image display panel 14 emits light, and the second light control panel on the reproduction side emits light. The light beam 15a passing through the minute light transmitting portion 11a on the light control panel 12a converges to form a stereoscopic image 16
Is imaged. As the image display panel 14, a panel that displays a small image by optical or electrical means is used. In this case, when observed from the front of the light shielding panel 18a, it looks as if the object 10 is present in the center of the opening of the light shielding panel 18a. That is, at the time of recording, the stereoscopic image 1 of the object 10 is present at the position where the object 10 was present.
6 is played. However, in this case, the image display panel 14
Since each small image displayed above is inverted by 180 degrees with respect to the object 10 with the center of the small image as a symmetry point,
When viewed from the front of the light shielding panel 18a, the reproduced stereoscopic image has left, right, top, and bottom reversed. Here, as will be described later, when each small image formed on the recording panel 14 is inverted by 180 degrees and reproduced, as shown in FIG.
A stereoscopic image 16 in which irregularities as shown by broken lines in FIG.
a is obtained. Here, F indicates a symmetry point. Although the light-shielding panel 18a having the opening is described for convenience of description, it is not necessary in the reproducing device. As the image display panel 14, a panel which displays a large number of small images by optical (including printing) or electrical means is used.
Here, when the recording panel forms a large number of small images by optical means such as a photographic film, the recorded photographic film may be used as it is.

FIG. 2 illustrates the light control panel 12 of the recording apparatus in more detail. The small light transmitting portions 11 are provided on the light control panel 12 so that the small images are recorded adjacent to each other without overlapping each other. It is located in. As shown in FIG. 1 and FIG. 2, the respective straight lines k and m connecting the boundaries A and B between the minute light-transmitting portion 11 set at an arbitrary position on the light control panel 12 and the opening of the light-shielding panel 18 are A recording area A ₁ -B _{1 of} a small image is formed at a position intersecting the recording panel 13 via the minute light transmitting portion 11. Next, a straight line n that connects the minute light-transmitting portion 11 ′ adjacent to the minute light-transmitting portion 11 to the edge B ₁ point of the small image recording area corresponding to the minute light-transmitting portion 11 and the boundary A of the opening of the light-shielding panel 18. If There was placed in the point of intersection with the optical control panel 12, a straight line p is a point which intersects the recording panel 13 and B ₂ connecting point B and the newly obtained fine translucent portion 11 ', the minute light transmitting portions 11 A small image recording area B ₁ -B ₂ corresponding to ′ is obtained. By sequentially performing the above operation on the surface of the light control panel 12, it is possible to determine the position of the minute light transmitting portion so that the small images are recorded adjacent to each other without overlapping each other. This is the light control panel 12 shown in FIG.
As for the formation position of the minute light-transmitting portion 11a of FIG.
It is applied as indicated by the auxiliary line in (b).

FIG. 3 shows an example in which, when the shape of the opening of the light-shielding panel is a regular hexagon, the minute light-transmitting portions are arranged on the recording panel so that the small images are recorded adjacent to each other without overlapping each other. Shows. In FIG. 3 (a), point C is the center point of the regular hexagonal opening, and C ₁ , C ₂ , C
Points C ₃ and C ₄ show a one-dimensional arrangement of the minute light transmitting portions on the light control panel 12, and FIG. 3B is a plan view of each small image recording area on the recording panel 13.

The stereoscopic image recorded / reproduced by the method shown in FIGS. 1 (a) and 1 (b) has a recording panel as compared with the conventional system in which there is no light-shielding panel and the minute light-transmitting portion is not arranged as described above. Since the amount of light from the object recorded above is relatively increased, the sharpness and brightness of the stereoscopic image can be significantly improved.

Next, a stereoscopic image recording / reproducing method according to a second embodiment of the present invention, which is a further improvement of the first embodiment, will be described with reference to FIG. FIG. 4A is a schematic diagram showing a light path in a stereoscopic image recording / reproducing apparatus including a light-shielding panel 18, a light control panel 12 having a large number of minute light-transmitting parts, and a recording panel 13. FIG. 4B shows the small images R and S of the opening recorded on the recording panel 13, and FIG. 4C shows the small images R and S of the opening recorded on the recording panel 13. The small images R ₁ and S ₁ obtained by performing the conversion operation on are shown. The light-shielding panel 18 has an opening D-C whose center point is the point M. Here, as the center point, the geometrical center of gravity on the figure of the shape of the opening is adopted, but it may be a center of gravity or the like. Although a large number of minute light transmitting portions are formed on the light control panel 12, in FIG.
For convenience of explanation, only the two minute light transmitting portions K and K ₁ are shown. As shown in FIG. 4B, the inverted small images S (C ₁ -D ₁ ), R (C) of the openings including the objects corresponding to the minute light-transmitting portions K, K ₁ are formed on the recording panel 13. _2- D ₂ ) is recorded. Further, the image of the center point M of the opening is recorded at the points M ₁ and M ₂ through the minute light transmitting portions K and K ₁ , respectively. The image data of each inverted small image S, R of the opening is input to the computer, and the image conversion operation is performed by the mathematical calculation processing on the computer, and M _{1 of} the small image corresponding to the center point M of the opening, Erect small images S ₁ and R ₁ inverted 180 degrees with M ₂ as the symmetry point are obtained (see FIG. 4C). Therefore, the conversion operation of each small image can be performed by the arithmetic processing on the computer without actually performing the geometrical optics operation. Next, the small image converted by the image data stored in the computer is displayed on the image display panel by optical or electrical means,
By diverging light from each small image on the image display panel, it is possible to reproduce a stereoscopic image of the object in front of the light control panel 12 at the converging point of the light flux passing through the minute light transmitting portion. Since the small image displayed on the image display panel is inverted by the conversion operation, when viewed from the front of the light control panel 12, the three-dimensional object having the same shape as the object viewed from the direction of the recording panel 13 is viewed. The image is reproduced.

Next, a stereoscopic image recording / reproducing method according to a third embodiment, which is a further improvement of the stereoscopic image recording / reproducing method according to the second embodiment, will be described with reference to FIG.
Also in the third embodiment of the stereoscopic image recording / reproducing method of the present invention, the conversion operation of the small image is performed in the same manner as in the first and second embodiments. The image data is processed on a computer according to the concept shown in FIG. That is, FIG.
As shown in (a) and (b), corresponding to the small images C ₁ -D ₁ on the plane U orthogonal to the straight line q connecting the center point M of the opening of the light shielding panel 18 and the minute light transmitting portion K. Small image V (C ₃ −
D ₃ ) is imaged. Next, a small image V on the plane U
By reversing (C ₃ -D ₃ ) 180 degrees in point symmetry with the point M ₁ corresponding to the center point M of the opening of the light shielding panel 18 as a symmetry point, it is inverted as shown in FIG. 5C. A small image V ₁ is obtained and stored by the computer.
The plane U is not actually installed, but is set on the computer as a conceptual plane. The image data of the small image V ₁ is arithmetically processed on a computer, and the image display panel 14 in the first embodiment is processed.
Is converted into a small image displayed on the image display panel 1
4 is displayed. As shown in FIG. 4, in the second embodiment, when the small images R ₁ and S ₁ obtained by reversing the small images R and S recorded on the recording panel 13 are displayed on the image display panel 14. , Light-shielding panel 1 in the direction opposite to that during recording
When viewed from the front of 8a, the reproduced stereoscopic image 16a is distorted because the pixel densities for the same viewing angle are not the same, but in the third embodiment, the conversion operation of the small image is performed on the optical axis (light-shielding panel). Since it is performed on a plane orthogonal to the straight line q) connecting the center point M of the opening of 18 and the minute light-transmitting portion K, even when observing from the direction opposite to that at the time of recording, pixels for the same viewing angle due to reversal It is possible to observe a stereoscopic image without any change in density and without distortion.

The embodiments of the present invention have been described above.
The present invention is not limited to these embodiments, and changes in conditions and the like without departing from the spirit are all within the scope of application of the present invention. For example, in the present embodiment, light is emitted from the backlight panel to scatter light from each of the small images on the image display panel to reproduce a stereoscopic image. It is also possible to obtain scattered light from each small image. Further, a microlens or the like can be used as the minute light transmitting portion, and the small image displayed on the image display panel may be artificially created by a method such as computer graphics.
In addition, when recording a large number of small images of an object, move an image pickup device such as a CCD camera little by little on an arbitrary plane,
You may take the method of taking many small images of a target object.
In this case, it is also possible to specify a region corresponding to the opening of the light-shielding panel by calculation or the like and record it without actually using the physical light-shielding panel.

[0020]

According to the three-dimensional image recording / reproducing apparatus of the first and second aspects, a light-shielding panel having an opening at the center is installed around the object or between the object and the light control panel.
Moreover, since the minute light-transmitting portion is arranged at a position where the small images in the opening of the light-shielding panel can be recorded adjacent to each other on the recording panel without overlapping with each other, a large amount of light from the object and , It is possible to record a small image in which the amount of light from other than the object is greatly cut. Therefore, a small image of the object having few parts other than the object and having no missing parts can be obtained, so that a clear stereoscopic image of the object with high brightness can be reproduced.

Particularly, in the three-dimensional image recording / reproducing apparatus according to the second aspect, since the shape of the minute light transmitting portion is a slit or a rectangle, a large amount of light passes through the minute light transmitting portion, and as a result, a bright small image is recorded. In addition to the above, it is possible to reproduce a brighter stereoscopic image due to the large amount of light passing through the minute light transmitting portion during reproduction.

In the three-dimensional image recording / reproducing method according to the fifth or sixth aspect, the small image formed on the recording panel is a point of symmetry at a point corresponding to the center point of the opening of the light-shielding panel on the small image. Since a small image which is symmetrically inverted by 180 degrees and is inverted is displayed on the image display panel, when a stereoscopic image of the object is reproduced, when viewed from the direction of the image display panel, the left and right sides are displayed in front of the light control panel. , A three-dimensional image of the object whose top and bottom and unevenness are reversed is reproduced. Therefore, when this is viewed from the front of the light-shielding panel, which is the direction opposite to that at the time of recording, it is possible to see a stereoscopic image of the object having exactly the same shape as the object viewed from the direction of the recording panel. Particularly, in the stereoscopic image recording and reproducing method according to claim 6, after the inversion operation of the small image is performed on a plane orthogonal to a straight line connecting the center point of the opening and the minute light-transmitting portion,
Since the image is processed and displayed on the image display panel, it is possible to reproduce the stereoscopic image of the object with less distortion without changing the pixel density. In the stereoscopic image recording / reproducing apparatus according to claims 3 and 4, and the stereoscopic image recording / reproducing method according to claims 7 to 9, a central portion is provided around the object or between the object and the first light control panel. A light-shielding panel having an opening is installed, and the minute light-transmitting portion of the first light control panel is
Since the small images of the openings of the light-shielding panel are arranged on the recording panel at positions where they can be recorded adjacent to each other without overlapping with each other, the amount of light from the object is large and from other than the object. It is possible to record a small image in which the light intensity is greatly cut. Therefore, a small image of the object having few parts other than the object and having no missing part can be obtained, so that a clear stereoscopic image of the object with high brightness is projected to the front surface of the second light control panel. Can be played back. The three-dimensional image recording / reproducing apparatus according to claim 4, wherein the minute light-transmitting portion has a slit shape or a rectangular shape, so that a large amount of light passes through the minute light-transmitting portion, resulting in a bright small image. In addition to being able to record, it is possible to reproduce a brighter three-dimensional image due to the large amount of light passing through the minute light-transmitting portion during reproduction. Further, as in the stereoscopic image recording / reproducing method according to claim 8, each small image formed on the recording panel is point-symmetrically 180 with respect to the center point of the opening of the light shielding panel on each small image. When each small image inverted is displayed on the image display panel, a stereoscopic image of the target object with normal left, right, up and down, and unevenness is reproduced when viewed from the front side of the second light control panel. Therefore, when this is viewed from the front of the light-shielding panel, which is the direction opposite to that at the time of recording, a stereoscopic image of the object having the same shape as the object viewed from the direction of the recording panel can be seen. Particularly, as in the stereoscopic image recording / reproducing method according to claim 9, after the inversion operation of the small image is performed on a plane orthogonal to a straight line connecting the center point of the opening and the minute light-transmitting portion, By performing image processing and displaying the image on the image display panel, it is possible to reproduce a stereoscopic image of an object with less distortion without changing the pixel density.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a stereoscopic image recording / reproducing device according to a first embodiment of the present invention.

FIG. 2 is an explanatory diagram of a method of arranging each minute light transmitting portion on a light control panel.

FIG. 3 is a layout view of a small image of an opening recorded on the recording panel when the shape of the opening of the light shielding panel is a regular hexagon.

FIG. 4 is an explanatory diagram of a stereoscopic image recording / reproducing method according to a second embodiment of the present invention.

FIG. 5 is an explanatory diagram of a stereoscopic image recording / reproducing method according to a third embodiment of the present invention.

FIG. 6 is a diagram illustrating the principle of a stereoscopic image recording / reproducing method.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 10 Target 11 Micro translucent part 11a Micro translucent part 12 Light control panel (first light control panel) 12a Light control panel (second light control panel) 13 Recording panel 14 Image display panel 15 Light flux 15a Light flux 16 Three-dimensional Image 16a Stereoscopic image 17 Backlight panel 18 Light-shielding panel 18a Light-shielding panel

Claims (9)

[Claims] 1. An opaque light control panel having a large number of minute light-transmitting portions is installed at a predetermined position between an object and the recording panel, and the recording panel is placed on the recording panel via the minute light-transmitting portions. After recording a large number of small images of the object formed on the image display panel, instead of the recording panel, an image display panel for displaying the large number of small images is installed behind the light control panel. In a stereoscopic image recording / reproducing apparatus which reproduces a stereoscopic image of the object by emitting a light beam from a small image displayed above and passing through the minute light-transmissive portion to converge in front of the light control panel, A light-shielding panel having an opening at the center around the periphery or between the object and the light control panel, and each of the minute light-transmitting portions records the small image of the opening of the light-shielding panel. Adjacent to each other on the panel without overlapping Stereoscopic image reproducing apparatus characterized by being arranged at a position capable of recording Te. 2. The stereoscopic image recording / reproducing apparatus according to claim 1, wherein the minute light-transmitting portion has a slit shape or a rectangular shape. 3. An opaque first light control panel having a large number of minute light-transmitting parts at predetermined positions, and the first light control panel which is arranged immediately after the first light control panel. A recording device having a recording panel in which an object arranged in front of the recording device is recorded as a plurality of small images via the respective minute light-transmitting parts, an image display panel for displaying the image of the recording panel, and the image A stereoscopic image recording / reproducing apparatus having a second light control panel arranged immediately before a display panel and having a large number of minute light-transmitting portions corresponding to small images of the image display panel. A light-shielding panel having an opening through which the object can be visually recognized from the first light control panel, the light-shielding panel being disposed around the object or between the object and the first light control panel. Each small translucent part of the panel is A stereoscopic image recording / reproducing apparatus, characterized in that small images in the opening of the light-shielding panel are arranged on the recording panel at positions where they can be recorded next to each other without overlapping each other. 4. The shape of the minute light transmitting portions of the first and second light control panels is a slit shape or a rectangle.
The stereoscopic image recording / reproducing apparatus described. 5. An opaque light control panel having a large number of minute light transmitting portions is installed at a predetermined position between an object and the recording panel, and the recording panel is provided through the minute light transmitting portions. A stereoscopic image recording / reproducing method for reproducing a stereoscopic image of the object by recording a large number of small images of the object formed on the image display panel and displaying the recorded small images on the image display panel. A light-shielding panel having an opening is installed around the object or between the object and the light control panel, and a small image of the opening formed on the recording panel is displayed at the center of the opening of the light-shielding panel. A three-dimensional image recording / reproducing method characterized in that a conversion operation is performed in which a straight line connecting a point and each of the minute light-transmitting portions is symmetrically inverted at a point where the line intersects the recording panel, and the point is symmetrical about 180 degrees. 6. The conversion operation for inverting the point symmetry forms an image on a plane orthogonal to a straight line connecting the center point of the opening of the light-shielding panel and each minute light-transmitting portion through each minute light-transmitting portion. The method, further comprising the step of moving each pixel on the small image to a point at which a straight line connecting a minute light-transmitting portion corresponding to each pixel intersects with the recording panel after the small image is performed. 5. The stereoscopic image recording / reproducing method described in 5. 7. A non-translucent first light control panel having a large number of minute light transmitting portions is arranged on the front side of the recording panel, and an object arranged in front of the first light control panel is Each of the small images is recorded as a large number of small images on the recording panel via the minute light-transmitting portion, the recorded small number of small images is displayed on an image display panel, and the displayed large number of small images is a small image. A stereoscopic image recording / reproducing method for reproducing a stereoscopic image of the object through a second light control panel having a minute light transmitting portion formed on the front surface of the object. A light-shielding panel having an opening through which the object can be viewed from the first light control panel, and each of the minute light-transmitting parts of the first light control panel is A small image of the opening of the light shielding panel is displayed on the recording panel. Stereoscopic image recording and reproducing method characterized by forming at a position that can be recorded adjacently without overlapping are. 8. A small image of the object including the opening formed on the recording panel is displayed at the center point of the opening of the light-shielding panel and each minute light transmitting portion of the first light control panel. 180 around the point where the connecting straight line intersects with the recording panel
8. The stereoscopic image recording / reproducing method according to claim 7, wherein the image is displayed on the image display panel after a conversion operation of inverting it in a point-symmetrical manner. 9. A small image of the object including the opening to be imaged on the recording panel, a small light transmission of each of the center point of the opening of the light shielding panel and the first light control panel. A virtual small image is formed at a position where a straight line connecting the parts intersects with the recording panel and is formed on a plane orthogonal to the straight line.
The stereoscopic image recording / reproducing method according to claim 7, wherein the image is displayed on the image display panel after a conversion operation of 0-degree point symmetry is performed.