KR20070028087A - Apparatus and method for display of 3-d images in mobile terminal - Google Patents

Abstract

A mobile device having a function of displaying stereo images and a method of displaying stereo images using the mobile device are provided to display more natural stereo images to a user and alleviate the user's eye strain by using an image shifting/clipping technique. A mobile device having a function of displaying stereo images includes a stereo image acquisition unit(20), an image processor(200), and a display unit. The stereo image acquisition unit captures left and right images to generate an image signal. The image processor converts the left and right images acquired by the stereo image acquisition unit into pixel strings according to an image conversion ratio. The display unit outputs the left and right image pixels as a stereo image according to binocular disparity.

Description

Mobile device having a stereoscopic image display function and a stereoscopic image display method using the same {Apparatus and Method for display of 3-D images in mobile terminal}

Figure 1a is an exemplary view showing a manufacturing method of a stereoscopic video camera of the prior art parallel method.

Figure 1b is an exemplary view showing a stereoscopic image implementation method of a conventional stereoscopic stereoscopic camera.

Figure 2a is an exemplary view showing a manufacturing method of a three-dimensional image camera of the prior art Tode-in method.

Figure 2b is an exemplary view showing a stereoscopic image implementation method of a three-dimensional stereoscopic camera of the prior art Tode-in.

Figure 3 is an exemplary view showing a manufacturing method of a three-dimensional image camera of the prior art Horizontally-moving method.

Figure 4 is an exemplary view showing a manufacturing method of a three-dimensional image camera according to the present invention.

Figure 5 is a block diagram showing a three-dimensional image display mobile device according to an embodiment of the present invention.

Figure 6a is a block diagram showing a three-dimensional image display device of a mobile device according to the present invention.

Figure 6b is an illustration showing the principle of viewing stereoscopic image according to an embodiment of the present invention.

7 is a flowchart illustrating a stereoscopic image display method of a mobile device according to an embodiment of the present invention.

<Description of Main Parts of Drawing>

1. Central subject 4. Parrallax barrier forming panel

2. Lens 5. Video Panel

3. Image Sensor (Camera) 6. Backlight

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile device capable of viewing stereoscopic images, and in particular, to obtain a left / right image from a subject with a camera and to perform image shifting and clipping to adjust a stereoscopic image of a main view. A stereoscopic image display apparatus and method for a mobile terminal capable of implementing and appreciating the present invention.

In order to apply a stereoscopic video camera to a multimedia mobile device, the design of a stereoscopic image that is easy to design, overcomes spatial limitations, and is easy to see in consideration of the small size of mobile devices should be supported. When the conventional stereoscopic camera is applied to and utilized in a mobile device, various problems, such as securing a mounting space due to a design problem and increasing the cost thereof, occur. An implementation method and a problem of the conventional stereoscopic camera will be described.

Figure 1a is an exemplary view showing a manufacturing method of a conventional stereoscopic stereoscopic camera.

Two cameras, which are image senses 3, are positioned at a predetermined interval S, and the central subject 1 is located within a radius of the lens 2.

Figure 1b is an exemplary view showing a stereoscopic image implementation method of a conventional stereoscopic stereoscopic camera.

As shown in FIG. 1, the stereoscopic image camera of the parallel array type has a simple production method (a) and no distortion of the image, but when the stereoscopic image is realized, a monoscopic region (b, 4) is generated to form an infinite gaze angle. There is a limit to the natural three-dimensional image expression that survives.

Figure 2a is an exemplary view showing a manufacturing method of a three-dimensional image camera of the prior art Tode-in method.

At a predetermined distance S, two cameras, which are image senses 3, are positioned and a central subject 1 is located within a radius such that an intersection angle is generated from the two lenses 2.

Figure 2b is an exemplary view showing a stereoscopic image implementation method of the prior art Tode-in stereoscopic video camera.

The three-dimensional image camera of the toed-in array method (a) of FIG. 2 has an advantage in terms of the representation of a short-range subject, but a vertical angle (b, 4) is increased as the cross angle is formed between the acquired left and right images. There is a disadvantage that the increase in the phenomenon occurs peripheral distortion of the stereoscopic image.

Figure 3 is an exemplary view showing a manufacturing method of a three-dimensional image camera of the prior art Horizontally-moving method.

In order to compensate for the shortcomings of the parallel and toed-in schemes, as shown in FIG. In this method, the distance information (D) and the image sensor between the horizontally moving stereoscopic camera (3) and the central subject (1) in order to focus on the central subject (1) and adjust the viewing angle (θ) to the focus position. The horizontal movement amount m _h of the image sensor 3 is calculated using the distance information d between the lens 3 and the lens 2, and the image sensor 3 is moved in hardware according to the position of the central subject 1. To move horizontally. However, it is difficult to apply to small devices such as mobile devices. The reason is that the driving circuit 10 for precise horizontal movement of the image sensor is required, as shown in Figure 3, resulting in an increase in hardware space and an increase in design / manufacturing cost and applied to small media devices such as mobile devices. Because there is a limit to doing.

The present invention is to solve the above problems, to realize the stereoscopic image of a small mobile such as PDA, PMP, mobile phone, unnaturalness of the perspective representation of the conventional stereoscopic camera, occurrence of monoscopic region, peripheral distortion phenomenon, etc. The purpose of the present invention is to solve the problem of the problem, and to provide a method for solving the hardware space increase and the resulting cost increase when applied to a mobile device.

The present invention for achieving the above object is a stereoscopic image acquisition unit for generating a video signal by taking a left / right image; An image processor for converting the left / right images obtained by the stereoscopic image acquisition unit into pixel columns according to an image conversion ratio; And a display unit configured to output a left / right image pixel processed by the image processor as a stereoscopic image by binocular parallax.

In addition, the present invention provides a method for displaying a stereoscopic image of a mobile device, the method comprising: acquiring a left / right image from a subject; Processing an image in pixel units according to an image conversion ratio from the obtained image; Separating the processed left and right images by slits formed by inputting corresponding to the corresponding pixel columns; And outputting a stereoscopic image represented by the parallax of the eyes.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is an exemplary view showing a manufacturing method of a three-dimensional image camera according to the present invention.

The two cameras 3 are fixedly arranged side by side at regular intervals S, and left and right images are obtained from the center projectile 1. The horizontal movement ratio Q of the image is calculated by using the distance information D between the central subject 1 and the lens 2 and the distance information d between the lens 2 and the image sensor 3. The acquired left and right images are image-shifted and clipped by the horizontal shift ratio (Q) to perform the left and right images according to the distance between the focal point and the central subject 1 and the lens 2. / Adjust the viewing angle (θ) of the right image.

5 is a block diagram illustrating a stereoscopic image display mobile device according to an exemplary embodiment of the present invention.

A stereoscopic image acquisition unit 20 consisting of two cameras for photographing left and right images, shifting left and right image images obtained by the image conversion ratio (Q) 30 and clipping a monoscopic region (a) An image processor 200 which is in charge of a processing process and a stereo image generator 40 are provided. The stereoscopic image acquisition unit 20 acquires left and right images by arranging two cameras at the same time that are controlled at the same time horizontally at fixed intervals. The image processor 200 may view the left / right image obtained from the stereoscopic image acquirer 20 and the distance value D between the central subject 10 and the image sensor 3 and the lens 2 as shown in FIG. 5. Image shift ratio using the distance (d) value between the image sensor 3, the horizontal size (L) of the image sensor, the image formed in the image sensor and the horizontal deviation value (t _h ) from the center axis of the sensor ( Q) Using this, the left and right images are shifted and the monoscopic area is clipped. An equation for obtaining an image conversion ratio Q, which is an important variable value required by the image processor 200, is as follows.

D: S / 2 = d: t _h (One)

Q = (t _h / L) * 100 [%] (2)

Using the distance (S) of the two cameras of the fixed stereoscopic image sensor, the distance (d) between the lens and the image sensor, and the distance (D) between the central subject and the lens, as shown in (1) of Equation 1 The horizontal deviation (t _h ) from the image centered on the sensor and the center axis of the sensor is calculated. Then, as shown in Equation 1 (2), the ratio of the horizontal deviation t _h and the horizontal size L of the image sensor is converted into a percentage to obtain an image conversion ratio Q for the left and right images. The captured left and right images are shifted by the pixel unit by the obtained image conversion ratio Q, and the gaze points of the left and right images are collected at the same point. And the resulting monoscopic area is clipped at the same time as the image shift (image shift) as shown in FIG. That is, through image conversion, a finite angle of view θ is generated as in the conventional Toed-in stereoscopic camera of FIG. 2, and the perspective angle can be changed according to the distance between the central subject and the lens, so that perspective can be properly saved. Since the image can be obtained and the crossing angle between the obtained left and right images is lost, the distortion of the peripheral portion of the image caused by the vertical deviation increases as the peripheral portion is generated when the stereoscopic image is generated. The monoscopic region of the left / right image is clipped by the image conversion ratio and input to the stereoscopic image display device 40. The left and right image pixels are inputted to the image panel by the slits that are automatically driven in the 3D mode to display the stereoscopic image 100 due to parallax.

Figure 6a is a block diagram showing a three-dimensional image display device of a mobile device according to the present invention.

6B is an exemplary view showing a principle of viewing stereoscopic images according to an embodiment of the present invention.

The stereoscopic image display apparatus (a) includes a parallax barrier forming panel 4, an image panel 5, and a backlight 6. The parallax barrier forming panel 4 forms an automatic slit only in 3D mode and outputs a stereoscopic image by a driving circuit. When the obtained left / right image is input to the image panel 5, the left eye image L is input to an odd pixel, and the right eye image R is input to an even pixel column, and the order of the columns may be reversed. The left eye image is input to the user's left eye and the right eye image is input to the user's right eye by receiving light from the backlight 6 and separated by the slit 4 formed on the front of the image panel 5. You can enjoy the video.

7 is a flowchart illustrating a stereoscopic image display method of a mobile device according to an embodiment of the present invention.

The control signals of two cameras are simultaneously driven to obtain left and right images from the subject (S700 and S701). Image data is processed from the obtained image into a left / right image pixel column according to an image conversion ratio Q. The image conversion ratio is obtained as a percentage of the ratio between the horizontal deviation t _h and the horizontal size L of the image sensor. The left and right image image shifting and clipping processes by the image conversion ratio Q are performed (S702 and S703). The processed left and right images are separated by slits formed by inputting corresponding to the corresponding pixel columns. In this case, automatic slot driving is performed by inputting a stereoscopic image signal. The stereoscopic image shown by the parallax parallax is output by the light provided from the light source (S704 to S705). If it is not a three-dimensional image signal is output to the 2D video screen (S706).

The present invention uses the distance information between the center subject and the lens and the distance information between the lens and the image sensor for viewing a stereoscopic image in a mobile device, to adjust the viewing angle according to the distance of the center subject (Image shifting / By using a clipping) method, an unnatural image problem such as perspective expression and distortion around a stereoscopic image is eliminated, thereby providing a user with a more natural, comfortable, and reduced eye fatigue. In addition, in the conventional stereoscopic camera system, the disadvantages of securing the space and the cost increase due to the hardware's vergence adjustment method have been solved, so that a general 2D image and a stereoscopic image can be easily selectively viewed on a mobile device.

Claims (12)

A stereoscopic image acquisition unit for photographing left and right images and generating a video signal; An image processor for converting the left / right images obtained by the stereoscopic image acquisition unit into pixel columns according to an image conversion ratio; And And a display unit configured to output a left / right image pixel sequence processed by the image processor as a stereoscopic image by binocular parallax. The method of claim 1, The display unit, A parallax partition wall forming panel having slits of a predetermined period in horizontal and vertical directions in the left and right image pixel columns; An image panel that separates the left and right images and outputs them to each pixel column; And Mobile device having a three-dimensional image display function comprising a backlight. The method of claim 2, The Parallax partition wall forming panel is a mobile device having a stereoscopic image display function, characterized in that the slit is formed only in the 3D mode. The method of claim 2, And the image panel outputs a left eye image to an odd pixel column and a right eye image to an even pixel column. The method of claim 2, The image panel is a mobile device having a stereoscopic image display function characterized in that for outputting the left eye image even pixels, the right eye image in an odd pixel column. The method of claim 1, The image processing unit is a mobile device having a stereoscopic image display function, characterized in that for clipping (clipping) the monoscopic region of the left / right image image. The method of claim 6, The clipping of the monoscopic region is a mobile device having a stereoscopic image display function, characterized in that the image shifting (shifting) by the image conversion ratio. The method of claim 1, The image acquisition unit is a mobile device having a stereoscopic image display function, characterized in that composed of two cameras for taking the left and right images. The method of claim 1, The mobile device is a mobile device having a stereoscopic image display function, characterized in that at least one of the PDA, PMP, mobile phone. Obtaining left and right images from the subject, respectively; Processing an image in pixel units according to an image conversion ratio from the obtained image; Separating the processed left and right images by slits formed by inputting corresponding to the corresponding pixel columns; A stereoscopic image display method of a mobile device comprising the step of outputting a stereoscopic image represented by the parallax of the eyes. The method of claim 10, The image conversion ratio is a ratio of the horizontal deviation (t _h ) and the horizontal size (L) value of the image sensor as a percentage value, characterized in that for displaying a mobile device. The method of claim 11, The horizontal deviation t _h is a distance D from the lens to the central subject, a distance d between the lens and the image sensor, and a distance S between the two cameras, where D: S / 2 = d: A three-dimensional image display method of a mobile device, characterized in that calculated by the t _h equation.

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