KR101752004B1 - 3d image display device - Google Patents

Abstract

The stereoscopic image display apparatus according to the present invention includes an image sensor for acquiring a left image and a right image, a left image and a right image obtained from the image sensor to a light side error measuring unit connected to the outside, A memory unit for storing error information between a left image and a right image measured by the light side error measuring unit, a memory unit for storing error information between the left image and the right image measured by the light side error measuring unit, And a controller for controlling the image sensor based on the light side error information, wherein the light side error information is error information between a left image and a right image measured by the image sensor.
The above-mentioned invention has a memory unit in which an optical axis error is stored, thereby further preventing optical axis correction from being performed.

Description

TECHNICAL FIELD [0001] The present invention relates to a 3D image display device,

The embodiment relates to a stereoscopic image display device.

In general, a stereoscopic image display device in which three-dimensional stereoscopic images are supported is being developed for viewing realistic images. Such a stereoscopic image display device is capable of forming stereoscopic images by receiving images from two left and right image sensors and synthesizing two images.

Since the stereoscopic image display device has two image sensors, the alignment of the two image sensors with respect to the optical axis is weak, which causes viewer's dizziness.

In addition, since the conventional stereoscopic image display device does not have a function of correcting the optical axis, it is necessary to perform separate optical axis correction every time the stereoscopic image display device is used.

In addition, the conventional stereoscopic image display device merely changes the image positions for the up, down, left, and right sides to perform the optical axis correction, which causes a limitation in reproducing the stereoscopic image.

It is an object of the present invention to provide a stereoscopic image display apparatus for preventing the quality of a stereoscopic image from being degraded due to an optical axis error.

The stereoscopic image display apparatus according to an embodiment of the present invention includes an image sensor for acquiring a left image and a right image, a left image and a right image obtained from the image sensor to a light side error measuring unit connected to the outside, Side error measured by the light-side error measuring unit based on the right image, a memory unit for storing error information between the left image and the right image measured by the light-side error measuring unit, And a controller for controlling the image sensor based on the light side error information, wherein the light side error information is error information between a left image and a right image measured by the image sensor.

The stereoscopic image display apparatus according to the embodiment includes a memory unit in which an optical axis error is stored, thereby further preventing an optical axis correction from being performed.

1 is a block diagram illustrating a stereoscopic image display apparatus according to an exemplary embodiment of the present invention.
2 is a diagram illustrating data stored in a memory of a stereoscopic image display apparatus according to an exemplary embodiment of the present invention.
3 is a flowchart illustrating a process of storing an optical axis error in the stereoscopic image display apparatus according to the present invention.
4 is a block diagram illustrating a stereoscopic image display apparatus according to another exemplary embodiment of the present invention.

In the description of the embodiment, it is assumed that each panel, wiring, battery, device, surface or pattern is formed "on" or "under" each pattern, wiring, cell, The terms " on "and " under " all include being formed either" directly "or" indirectly " In addition, the upper or lower reference of each component is described with reference to the drawings. The size of each component in the drawings may be exaggerated for the sake of explanation and does not mean the size actually applied.

FIG. 1 is a block diagram illustrating a stereoscopic image display apparatus according to an exemplary embodiment of the present invention. FIG. 2 is a diagram illustrating data stored in a memory included in the stereoscopic image display apparatus according to the present invention. FIG. 3 is a flowchart illustrating a process in which an optical axis error is stored in a stereoscopic image display device according to an embodiment of the present invention.

The stereoscopic image display apparatus 100 according to an embodiment of the present invention includes a first sensor unit 120 for acquiring a left image, a second sensor unit 140 for acquiring a right image, And a memory unit 180 for storing error information between the left and right images measured from the outside.

The first sensor unit 120 acquires a left image of an object. To this end, the first sensor unit 120 includes a first image sensor 122 and a second image sensor 122, A first controller 124 for reading and writing data is provided. As the first image sensor, a CCD (charge-coupled device camera) sensor or a COMS sensor can be used.

The second sensor unit 140 acquires the right image of the object and the second sensor unit 140 controls the second image sensor 142 and the image information obtained from the second image sensor 142, And a second controller 144 for reading and writing data. Here, the second image sensor 142 may be spaced apart from the first image sensor 122 by a predetermined distance, thereby obtaining a left image and a right image for the same object.

When the left and right images are acquired from the first sensor unit 120 and the second sensor unit 140, the interface unit 160 transmits the left and right images to the outside of the stereoscopic image display apparatus 100 do. The interface unit 160 can be transmitted to the outside through the USB transmission method.

As described above, when the information of the left and right images is transmitted from the interface unit 160 to the outside, information of the left and right images transmitted to the outside can be measured by the optical axis error measuring unit 200 have.

The optical axis error measuring unit 200 first measures the optical axis error value by comparing the left and right images and transmits the same to the stereoscopic image displaying apparatus 100. The optical axis error measuring unit 200 measures an error Or it may be a separate embedded computer.

As shown in FIG. 2, when a left image and a right image are obtained from the stereoscopic image display apparatus (S100), an optical axis error is measured from a separate measurement program (S200).

The optical axis error can be measured by comparing the left and right images with each other. The optical axis error includes a shift value, a rotation value, a tilt value, And an enlargement magnification value (Magnification).

As described above, when the optical axis error information of the left and right images is measured, the measured optical axis error can be transmitted to the stereoscopic image display device 100 (S300).

As described above, the optical axis error information transmitted to the interface unit 160 of the stereoscopic image display device can be read by the second controller 144, and the second controller 144 can read the optical axis error information transmitted to the second controller 144, And can store the optical axis error information by performing a write function on the memory unit 180 connected thereto.

The memory unit 180 preferably uses a flash memory, which is a nonvolatile memory, to store the optical axis error information transmitted from the second controller 144. Therefore, even after power is turned off to the stereoscopic image display apparatus 100, The optical axis error information can be stored.

When the stereoscopic image display apparatus 100 is restarted, the second controller 144 displays a first image sensor 122 that displays the left and right images by calling the stored optical axis error information from the memory unit 180, To prevent an error between the second image sensor 142 and the second image sensor 142. [

3, the memory unit 180 stores a shift value, a rotation value, a tilt value, and an enlargement magnification value between the left image and the right image, The capacity can be made sufficiently small. For example, the capacity of the memory unit 180 may be formed to have 1k or less.

Accordingly, the stereoscopic image display apparatus 100 according to the present invention has a memory unit 180 in which an optical axis error is stored, thereby providing a user with a high-quality stereoscopic image without measuring an optical axis error.

Although the memory unit 180 is connected to the second controller 144 in the above description, the present invention is not limited thereto and may be connected to the first controller 124. It is of course also possible to connect to both the first controller 124 and the second controller 144.

The optical axis error measuring unit 200 is provided outside the stereoscopic image display apparatus 100. However, the optical axis error measuring unit 200 may be provided inside the stereoscopic image display apparatus 100, May be provided inside the stereoscopic image display apparatus 100 may be easily changed.

Although the memory unit 180 is configured to be connected to the second controller 144 in the above description, the present invention is not limited thereto and may be configured as follows. 4 is a block diagram illustrating a stereoscopic image display apparatus according to another embodiment of the present invention.

4, a stereoscopic image display apparatus according to another embodiment of the present invention includes a first sensor unit 120 for collecting a left image, a second sensor unit 140 for collecting a right image, And an interface unit 160 for transmitting a left image and a right image collected from the sensor unit 120 and the second sensor unit 140 to the outside. The interface unit 160 is provided with an optical axis error measuring unit 200 A memory unit 180 for storing the measured optical axis error information and a memory controller 190 for writing optical axis error information in the memory unit 180.

The first sensor unit 120 collects the left image. To this end, the first sensor unit 120 includes a first image sensor 122 and a first controller 124. The second sensor unit 140 collects the right image. To this end, the second sensor unit 140 includes a second image sensor 142 and a second controller 146.

The interface unit 160 is connected to the first controller 124 and the second controller 144 and the interface unit 160 is connected to the left and right images collected from the first controller 124 and the second controller 144, And transmits the image to the outside.

The left and right images transmitted from the interface unit 160 are transmitted to the optical axis error measuring unit 200 through the optical axis error such as a position shift between the left and right images, ) And an enlargement magnification value (Magnification) can be measured.

The measured optical axis error information is retransmitted to the interface unit 160 and may be stored in the memory unit 180 by the memory unit controller 190 connected to the interface unit 160. [ Here, the memory controller unit 190 preferably has a read function and a write function in order to store and load optical axis error information in the memory unit 180.

As described above, the stereoscopic image display apparatus 100 according to the present invention includes the separate controller unit 190 for performing the read and write operations on the memory unit 180, The error information can be easily stored.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood that various modifications and applications are possible. For example, each component specifically shown in the embodiments can be modified and implemented. It is to be understood that all changes and modifications that come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

100: a three-dimensional image display device 120:
140: second sensor unit 160: interface unit
180: memory unit 200: optical axis error measuring unit

Claims (6)

An image sensor for acquiring a left image and a right image;
An interface unit for transmitting the left and right images obtained from the image sensor to an optical axis error measuring unit connected to the outside and receiving optical axis error information measured by the optical axis error measuring unit based on the transmitted left and right images, ;
A memory unit for storing error information between a left image and a right image measured from the optical axis error measuring unit;
And a controller for controlling the image sensor based on the optical axis error information stored in the memory unit,
Wherein the optical axis error information is error information between a left image and a right image measured by the image sensor. The method according to claim 1,
Wherein the error information includes at least one of a position value (Shift), a rotation value, a vertical value, and a magnification value between a left image and a right image. The method according to claim 1,
The image sensor
A left image image sensor and a right image image sensor,
And the controller is configured to correspond to each of the image sensors. The method of claim 3,
And a memory unit is connected to at least one of the controllers. The method of claim 1, wherein
And a memory controller unit for storing optical axis error information received from the interface unit in the memory unit and reading the optical axis error information at the request of the controller. The method according to claim 1,
The controller
Wherein when the stereoscopic image display apparatus is restarted, the optical axis error information stored in the memory unit is read to correct the image sensor.

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