KR100257333B1 - Digital still camera for displaying a tree-dimensional image - Google Patents

Abstract

PURPOSE: A three-dimensional digital still camera is provided to enable a viewer to easily view a stereoscopic subject video by photographing the subject video without using a special device. CONSTITUTION: A left side optical system(2) makes an optical image of a subject at an arbitrary angle. A right side optical system(1) makes an optical image of the subject at a different angle to the left side optical system(2). A left side photographing unit(4) converts the optical image made from the left side optical system(2) into an electric signal. A right side photographing unit(3) converts the optical image made from the right side optical system(1). A signal processing unit(5) processes each electric signal outputted from the left and the right photographing unit(4,3). The liquid crystal display unit(6) displays video information of the left and the right in turn. A lenticular lens unit(7) compounds the video information of the left and the right, and displays a three-dimensional video.

Description

Stereoscopic digital still camera {DIGITAL STILL CAMERA FOR DISPLAYING A TREE-DIMENSIONAL IMAGE}

The present invention relates to a stereoscopic digital still camera, and more particularly, to a stereoscopic digital still camera capable of capturing three-dimensional stereoscopic images.

In general, a digital still camera records two-dimensional information of a subject, and converts an optical image of the subject into an electrical image and stores it in a memory, and reads, prints, or transfers the image stored in the memory as necessary. The camera can be processed.

That is, one image is taken and displayed by one optical system, thereby displaying a two-dimensional planar image.

However, according to various needs of users, there is an increasing tendency to view stereoscopic images, not just flat images, and various stereoscopic devices have been developed accordingly.

However, the conventional digital still camera has a disadvantage of having to use a separate stereoscopic glasses made of a polarized lens, etc., in order to see the captured image three-dimensionally by recording and displaying only a planar image.

An object of the present invention is to solve the above-mentioned disadvantages, and to provide a three-dimensional digital still camera that can three-dimensionally view the subject image to be photographed without using a separate three-dimensional device in the digital still camera.

1 is a view showing a principle of viewing a general stereoscopic image,

2 is a block diagram of a stereoscopic digital still camera according to an embodiment of the present invention;

3 is a view showing a three-dimensional image principle of the lenticular lens according to an embodiment of the present invention,

4 is a perspective view of a lenticular lens according to an embodiment of the present invention;

5 is a block diagram of a stereoscopic digital still camera according to another embodiment of the present invention.

The configuration of the present invention for achieving the above object,

A first optical system for forming an image of a subject at an arbitrary angle;

A second optical system for forming an image of a subject at an angle different from that of the first optical system;

Imaging means for outputting an electrical signal corresponding to each object formed in the first optical system and the second optical system;

The first image signal corresponding to the image formed in the first optical system and the second image signal corresponding to the image formed in the second optical system are processed by processing an electrical signal corresponding to each subject output from the image pickup means. Signal processing means for outputting alternately;

Means for driving the first image signal and the second image signal which are alternately output from the signal processing means to display a corresponding composite image;

And a lenticular lens configured to display the synthesized image displayed on the display means in three dimensions.

Another configuration of the present invention for achieving the above object,

A large-diameter optical system for forming an image of a subject incident at different angles;

A first lenticular lens configured to alternately form an image of a subject incident in different directions formed by the large-diameter optical system;

Imaging means for outputting an electrical signal corresponding to a synthetic subject formed by the first lenticular lens;

Signal processing means for processing a signal output from said imaging means and outputting a corresponding composite video signal;

Means for driving the synthesized video signal output from the signal processing means to display a corresponding video;

And a second lenticular lens configured to display an image output from the display means in three dimensions.

With the above configuration, the most preferred embodiment which can be easily carried out by those skilled in the art with reference to the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a principle of viewing a general stereoscopic image,

2 is a block diagram of a stereoscopic digital still camera according to an embodiment of the present invention;

3 is a view showing a three-dimensional image principle of the lenticular lens according to an embodiment of the present invention,

4 is a perspective view of a lenticular lens according to an embodiment of the present invention;

5 is a block diagram of a stereoscopic digital still camera according to another embodiment of the present invention.

As shown in FIG. 2, the configuration of the stereoscopic digital still camera according to the embodiment of the present invention is characterized by a left optical system 2 for forming an optical image of a subject at an arbitrary angle and a different angle from the left optical system 2; The right optical system 1 for forming an optical image of a subject, the left image pickup unit 4 for converting and outputting the optical image formed in the left optical system 2 into corresponding electric image signals, and the right optical system 1 The right image pickup unit 3 converts and outputs the optical image formed by the image into a corresponding electric image signal, and processes the respective electric signals output from the left image capture unit 4 and the right image capture unit 3 to correspond to each other. The left and right image signals R are alternately outputted, and the left and right image signals R are connected to an output terminal of the signal processor 5 and are driven according to the left and right image signals R. Alternately A liquid crystal display 6 for display and a lenticular lens unit 7 mounted on an output terminal of the liquid crystal display 6 to display left and right information displayed on the liquid crystal display 6 to display a stereoscopic image.

The left optical system 2 and the right optical system 1 according to the embodiment of the present invention are mounted at regular intervals, i.e., at intervals corresponding to the depths of the left and right eyes of the human eye, in order to form an image of a subject at different angles. do.

The lenticular lens unit 7 is mounted such that an output side of the liquid crystal display unit 6, that is, a display surface on which an image is displayed, becomes a focal plane.

In addition, the signal processor 5 processes an electrical signal output from the left image pickup unit 4 and outputs a left signal processor 53 for outputting a corresponding left image signal L and a right image pickup unit 3. It consists of a right signal processor 51 for processing the electrical signal to output a corresponding right image signal (R), the signal processor 5 is the same as the signal processing technology of a known digital still camera.

That is, the signal processing unit 5 may capture an electrical signal processed by an image pickup device, which is a general technique of a digital still camera, or may control a white balance by adjusting a signal gain. And an A / D conversion circuit for digitally converting the processed signal, a digital signal processing circuit for processing the converted digital signal, and a plurality of signals processed in the captured image signal processing are synthesized and reproduced so as to be reproduced as original images. By including a synthesis circuit and a control circuit for controlling the above-described signal processing operation, the signal processing unit 5 is a known technique, and thus detailed operation descriptions corresponding to signal processing will be omitted.

The operation of the stereoscopic digital still camera according to the embodiment of the present invention by the above configuration is as follows.

In general, the principle that a human sees an image in three dimensions is that the left and right eyes view different images, as shown in FIG. 1.

In more detail, since the left eye and the right eye are located at regular intervals, the eyes of the human eye are different from each other. The image information viewed from each of the left eye and the right eye is synthesized in the brain, so that humans feel a three-dimensional sense of the image.

Various stereoscopic methods using this principle have been developed, and in the embodiment of the present invention, instead of capturing one image with one optical system, the two images are photographed with different angles at different angles, By synthesizing and displaying two images, the user can feel a three-dimensional effect.

In particular, in the present invention, the image photographed by the two optical systems is synthesized using a lenticular lens so that a three-dimensional feeling is felt.

When power is applied to the digital still camera to photograph an arbitrary subject, all the components are initialized and ready to be photographed.

In the shooting standby state, the left and right optical systems 2 and 1 are mounted on the front side of the digital still camera at regular intervals (40 to 70 mm), so that the optical images of the subject are imaged at different angles. In other words, different areas of the subject are imaged.

The optical image formed by the left optical system 2 is converted into an electrical signal by the left imaging unit 4 and input to the signal processing unit 5, and the optical image formed by the right optical system 1 is the right imaging unit 3. ) Is converted into an electrical signal and input to the signal processor 5.

As described above, the respective signals output from the left and right imaging units 3 can be reproduced as original images by the signal processing units 51 and 53 of the signal processing unit 5 in the same manner as general video signal processing. Is processed.

In general, the picked-up signal is separated into a luminance signal and a color signal, and then processed, and when it is desired to reproduce the original image, the processed luminance signal and the color signal are synthesized and displayed through a separate display device.

In order to display the original image according to the left and right image signals L and R processed by the image processing unit, the signal processor 5 outputs the left and right signals obtained by combining the luminance signal and the color signal as described above. Will output

The left and right image signals L and R are named as left and right image signals L and R for convenience in order to represent an image formed in the left and right eyes of a human in a stereoscopic principle. The image corresponds to only the left side of the subject and does not indicate that the right image signal R corresponds to only the right side of the subject.

The signal processor 5 does not output all of the left image signal L corresponding to one frame and then outputs the right image signal R, rather than the left and right image signals L, Alternately prints R).

Therefore, the liquid crystal display unit 6 shows the left and right image signals L and R corresponding to one frame as shown in FIG. RLRLRLRLR… In order.

As described above, the left and right video signals L and R corresponding to one frame on the liquid crystal display 6 are. RLRLRLRL… In order, the left and right eyes of the user are different from each other by the convex lens surfaces of the lenticular lens unit 7 mounted so that the display surface of the liquid crystal display unit 6 becomes a focal plane. Denotes an image corresponding to the left image signal (L), and the right eye views an image corresponding to the right image signal (R), so that the user feels a stereoscopic sense of the image.

As shown in FIG. 3, the three-dimensional principle of the lenticular lens is attached.

The lenticular lens is a group of flat convex cylindrical lenses as shown in FIG. 4, and continuous projection of images in different directions from the back side (focal plane) of the lenticular lens, as shown in FIG. When the user's left eye and right eye see different images, the user feels a three-dimensional image.

Unlike the two optical systems, as shown in the above-described embodiment, two images photographed in different directions are displayed by the lenticular lens so that a stereoscopic feeling is felt. As shown in FIG. Three lenticular lenses can be used to feel three-dimensional.

Next, the operation of the stereoscopic digital still camera according to another embodiment of the present invention will be described.

As shown in FIG. 5, a configuration of a stereoscopic digital still camera according to another embodiment of the present invention includes a large-diameter optical system 11 for condensing light of a subject and an output side of the large-diameter optical system 11 to be mounted on the subject. The first lenticular lens unit 8 for forming an optical image of the image, and the image pickup mounted on the focal plane side of the first lenticular lens unit 8 to output an optical image of an image formed by a corresponding electric image signal. A liquid crystal for displaying an image signal processed by being connected to an output terminal of the image processor 9 and a signal processor 5 connected to an output terminal of the imaging unit 9 and an output terminal of the signal processor 5. The display unit 6 and the second lenticular lens unit 7 connected to the output terminal of the liquid crystal display unit 6 to display the displayed image in three dimensions.

The large-diameter optical system 11 according to another embodiment of the present invention is a lens having a size of about the depth of the left and right eyes of a human, and the larger the lens size, the greater the stereoscopic effect.

In other words, as the lens size of the large-diameter optical system 11 increases, light corresponding to a subject in different directions is focused, so that light of the subject is incident at different angles using two optical systems as in the above-described embodiment. As described above, an image of a subject corresponding to different areas is formed.

As described above, two subject images corresponding to different areas formed through the large-diameter optical system 11 are combined and imaged on the focal plane of the first lenticular lens unit 8 according to the principle of FIG. .

That is, when the subject image formed through the left side of the large-diameter optical system 11 is called the left image L, and the subject image formed through the right side of the large-diameter optical system 11 is called the right image R, As shown in Fig. 5, the first lenticular lens portion 8 is used to focus on the focal plane. RLRLRL… Left and right images are synthesized and formed in order.

Accordingly, the imaging unit 9 mounted on the focal plane of the first lenticular lens unit 8 outputs an electrical signal corresponding to the synthesized left and right images.

The signal output from the imaging unit 9 is processed through the signal processing unit 5 and output as an image signal. At this time, the left and right images formed by the large-diameter optical system 11 Signal corresponding to the synthesized image.

As the signal processed through the signal processing unit 5 is applied to the liquid crystal display unit 6, the liquid crystal display unit 6 combines the left and right images. RLRLRLR… Display the video.

Accordingly, the above… RLRLRLR… The image is projected from the back side of the second lenticular lens unit 7, so that the user feels a three-dimensional effect on the image displayed on the liquid crystal display unit 6 according to the principle of FIG.

As described above, according to the embodiment of the present invention, it is possible to easily view a three-dimensional image in the digital still camera itself without using a separate three-dimensional device.

Claims (2)

A large-diameter optical system for forming an image of a subject incident at different angles; A first lenticular lens configured to alternately form an image of a subject incident in different directions formed by the large-diameter optical system; Imaging means for outputting an electrical signal corresponding to a composite subject formed by the first lenticular lens and positioned on a focal plane of the first lenticular lens; Signal processing means for processing a signal output from said imaging means and outputting a corresponding composite video signal; Means for driving the synthesized video signal output from the signal processing means to display a corresponding video; It comprises a second lenticular lens to display the image output from the display means in three dimensions, And said display means is located on the focal plane of the second lenticular lens. The method of claim 1, The display means is a stereoscopic digital still camera, characterized in that the composite image is displayed on one screen by alternately displaying the corresponding image on the subjects incident at different angles in the large-diameter optical system.

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