KR20110134710A - 3-dimension image display system - Google Patents

Abstract

PURPOSE: A 3D image display system is provided to automatically control an image depth or volume by receiving a signal transmitted from 3D glasses. CONSTITUTION: A 3D glasses device(100) supplies a 3D image. A 3D display device(200) calculates a distance from the 3D glasses device. After the image depth is controlled, a 3D display device displays a 3D screen. A 3D image display system automatically controls an image depth or volume according to a distance between the 3D image displayed on the 3D display device and a user.

Description

3D image display system {3-dimension image display system}

The present invention relates to a three-dimensional image display system.

Recently, with the development of display technology, display has been developed to provide a virtual image to a user such as high resolution, high definition, large screen, and 3D image.

In particular, 3D imaging technology has been widely used due to the development of digital technology. 3D image technology is a technology that expresses more realistic image by giving depth information to 2D image, and it is applied in various fields such as communication, game, medical, and broadcasting by providing realism and reality as if seeing the real thing in the field. have.

Such a three-dimensional display is generally used a method using polarized glasses or shutter glasses.

That is, the polarizing glasses type is configured by projecting images having different polarizations to each projector using two projectors on the screen so that the user wears and watches glasses having different polarizing plates in the left eye and the right eye, or There is a polarizing glasses method in which the left and right eye images with different polarizations over time are alternately projected to a large projector, and a user wears and views polarized glasses having different polarizing plates in the left and right eyes.

In addition, there is a shutter glasses method in which a single projector alternately projects images of left and right eyes over time, and a user wears and watches shutter type glasses in which the shutter of left and right glasses changes with time.

The present invention is to solve the problem that can automatically adjust the image depth or sound size according to the distance of the user.

The present invention,

A three-dimensional glasses device capable of three-dimensionally feeling a three-dimensional image;

Provided is a three-dimensional image display system including a three-dimensional display device for displaying a three-dimensional screen by calculating the distance to the three-dimensional glasses device and adjusting the image depth.

The 3D glasses apparatus transmits a signal, and the 3D display apparatus receives the signal and calculates a distance from the 3D glasses apparatus.

The 3D display apparatus may further include a signal detector configured to detect a signal transmitted from the 3D glasses apparatus, a distance calculator configured to receive a signal detected by the signal detector and calculate a distance from the 3D glasses apparatus; The display depth control unit for controlling the image depth by the distance between the control unit, the distance calculation and the three-dimensional eyeglasses calculated by the control unit, and the three-dimensional screen having the image depth adjusted by the image depth adjustment unit And a 3D image signal processor for processing the 3D image signal to be displayed.

The 3D glasses apparatus includes a first UWB communication unit capable of transmitting an ultra wide band (UWB) signal, and the signal detection unit is a second UWB communication unit receiving a UWB signal transmitted from the 3D glasses apparatus. to be.

In addition, the three-dimensional glasses device is configured to transmit a signal to the three-dimensional display device only when the user wears the three-dimensional glasses device.

In addition, the distance calculation and control unit is configured to calculate the distance from the three-dimensional eyeglasses device by the propagation delay speed of the signal sensed by the signal detection unit or the signal strength.

In addition, the three-dimensional display device is a volume control unit for adjusting the sound volume to the distance to the three-dimensional glasses device calculated by the distance calculation and the control unit, and processing the audio signal at the sound volume adjusted by the volume control unit The apparatus further includes an audio signal processor.

The 3D display device adjusts a sound volume by calculating a distance from the 3D glasses device.

The present invention,

A three-dimensional glasses device capable of three-dimensionally feeling a three-dimensional image;

Provided is a three-dimensional image display system including a three-dimensional display device for adjusting the sound volume by calculating the distance to the three-dimensional glasses device.

The 3D glasses apparatus is configured to transmit a signal, and the 3D display apparatus is configured to receive a signal detected by a signal transmitted from the 3D glasses apparatus and a signal detected by the signal detector. A distance calculation and control unit for calculating a distance from the 3D eyeglasses device, a volume control unit for adjusting an acoustic volume with a distance from the 3D eyeglasses device calculated by the distance calculation and control unit, and adjusted by the volume control unit It includes an audio signal processing unit for processing an audio signal at a sound level.

The three-dimensional image display system of the present invention has the effect of transmitting a signal from the three-dimensional glasses device, and receives the signal transmitted from the three-dimensional glasses device from the three-dimensional display device to automatically adjust the image depth or sound volume. .

In addition, the user of the three-dimensional image display system of the present invention by adjusting the image depth appropriately according to the distance between the three-dimensional image and the user, it is possible to feel the three-dimensional feeling of the optimal three-dimensional image, and to minimize dizziness have.

1 is a view for explaining a three-dimensional image display system according to the present invention
2 is a schematic block diagram illustrating a three-dimensional image display system according to the present invention
3 is a schematic structural block diagram illustrating an example of a three-dimensional image display system according to the present invention;
4 is a schematic block diagram illustrating another example of a three-dimensional image display system according to the present invention.
FIG. 5 is a schematic block diagram illustrating an example of calculating a distance from a 3D glasses device according to the present invention. FIG.

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

1 is a view for explaining a three-dimensional image display system according to the present invention.

The 3D image display system transmits a signal from the 3D glasses apparatus 100 and receives the signal transmitted from the 3D glasses apparatus 100 from the 3D display apparatus 200 to automatically adjust the image depth or sound volume. It can be adjusted with.

In this case, the 3D image display system automatically determines an appropriate image depth or sound size according to the distance d between the 3D image displayed on the 3D display apparatus 200 and the user wearing the 3D glasses apparatus 100. Adjust with

 On the other hand, the depth of the three-dimensional image is artificially made to express the three-dimensional feeling of the three-dimensional image, when the user views the three-dimensional image, if the image depth does not match the user, you feel dizzy or tired eyes .

Therefore, the user of the three-dimensional image display system of the present invention can adjust the image depth appropriately according to the distance between the three-dimensional image and the user, it is possible to feel the three-dimensional feeling of the optimal three-dimensional image, and to minimize dizziness have.

2 is a schematic block diagram illustrating a three-dimensional image display system according to the present invention.

In the 3D image display system of the present invention, the 3D glasses device 100 is provided with a configuration capable of transmitting a signal to the 3D display device 200, and the 3D display device 200 includes the 3D glasses. The device 100 is provided with a configuration for adjusting the image depth by receiving the signal transmitted.

That is, the three-dimensional image display system of the present invention can be a three-dimensional image in three-dimensional image, the three-dimensional glasses apparatus 100 for transmitting a signal; The signal detector 210 detects a signal transmitted from the 3D glasses apparatus 100 and the signal detected by the signal detector 210 calculates a distance from the 3D glasses apparatus 100. An image depth adjusting unit 240 for adjusting an image depth by a distance between the distance calculating and controlling unit 220, the distance calculating and controlling unit 220, and the 3D glasses apparatus 100, and the image depth adjusting unit. And a three-dimensional display device 200 including a three-dimensional image signal processor 250 for processing the three-dimensional image signal such that the three-dimensional screen having the image depth adjusted at 240 is displayed on the display unit 260. .

Referring to the operation of the three-dimensional image display system of the present invention, first, the signal is transmitted from the three-dimensional glasses device 100, the signal detection unit 210 of the three-dimensional display device 200 is the three-dimensional A signal transmitted from the spectacles device 100 is sensed.

In this case, the 3D glasses device 100 may be designed to transmit a signal only when the user wears the 3D glasses device 100.

For example, the three-dimensional glasses device 100 may be designed to be provided with a switch terminal for transmitting the signal when the user wears.

That is, the switch terminal is pressed when the user wears the 3D glasses device 100 is switched on (Switch On), and transmits the signal before wearing the 3D glasses device 100 The signal is transmitted after the three-dimensional eyeglasses 100 are worn.

The distance detected by the signal detector 210 is input by the distance calculator and the controller 220 and the distance between the 3D eyeglasses 100 is calculated.

Here, the distance calculation and control unit 220 may be designed to calculate the distance to the three-dimensional eyeglasses 100 based on the propagation delay speed of the signal detected by the signal detection unit 210 or the strength of the signal. .

Subsequently, the image depth controller 240 adjusts the image depth by the distance calculation and the distance from the 3D glasses apparatus 100 calculated by the controller 220, and the image depth controller 240 adjusts the image depth. When the 3D image signal is processed at an image depth, the display unit 260 displays a 3D screen having an image depth adjusted according to a distance from the 3D glasses apparatus 100.

On the other hand, the three-dimensional eyeglasses 100 includes a left eye lens unit for passing a left eye image; It includes a right eye lens unit for passing the right eye image.

In addition, the left eye lens unit and the right eye lens unit are set to recognize objects at different angles to the 3D image, so that the user can feel them in three dimensions. The 3D glasses device 100 of the present invention uses a polarizing plate and a shutter glass method. Or it may include a configuration for implementing a shutter glass method.

For reference, when the left eye image is displayed on the 3D display apparatus 200, the shutter glass type 3D glasses apparatus 100 opens the left eye lens of the 3D glasses apparatus 100 and closes the right eye lens. When the right eye image is displayed on the 3D display apparatus 200, the right eye lens of the 3D glasses apparatus 100 is opened and the left eye lens is closed to allow the user to feel in three dimensions.

3 is a schematic structural block diagram illustrating an example of a three-dimensional image display system according to the present invention.

The 3D image display system applies a UWB communication unit as a signal detection unit, and increases the accuracy when measuring the distance with the 3D glasses device 100 and reduces the power consumption of the 3D glasses device in a UWB (Ultra Wide Band) method. Communication between the 100 and the 3D display device 200 may be performed.

On the other hand, the UWB is a wireless communication technology that transmits a large amount of information at low power over a very wide band compared to the existing spectrum, and transmits a large amount of data bidirectionally, while using a frequency band of 3.1 to 10.6 GHz and 10m to 1 Km transmission distance can be guaranteed.

In addition, the UWB is a wireless communication technology capable of transmitting at a speed of 100 to 500M per second using a wide bandwidth, and can transmit a large capacity video without shaking or buggy and has a transmission distance of 10m compared to 100m of Bluetooth. As long as 1km long, it has the advantage of implementing a perfect home networking system.

Therefore, as shown in FIG. 3, the 3D glasses apparatus 100 includes a first UWB communication unit 120 capable of transmitting a UWB signal, and the first UWB communication unit 120 includes a 3D glasses control unit ( 110).

In addition, the three-dimensional display device 200 includes a second UWB communication unit 211 that receives the UWB signal transmitted from the three-dimensional glasses device 100, the second UWB communication unit 211 described above It is a signal detector.

In addition, the distance calculation and control unit 220 calculates the distance from the 3D glasses apparatus 100 using the UWB signal received from the second UWB communication unit 211.

4 is a schematic block diagram illustrating another example of a three-dimensional image display system according to the present invention.

In the 3D image display system of the present invention, the 3D display apparatus 200 may calculate a distance from the 3D glasses apparatus 100, adjust the sound volume, and adjust and output the sound according to the distance from the user.

In this configuration, the three-dimensional image display system includes a three-dimensional glasses device 100 that can be sensed three-dimensional image three-dimensional; It includes a three-dimensional display device 200 for adjusting the sound volume by calculating the distance to the three-dimensional glasses device 100.

In addition, the 3D image display system according to the present invention may receive a signal transmitted from the 3D glasses apparatus 100 from the 3D display apparatus 200 and adjust the sound size as well as the image depth.

As a detailed configuration for receiving the signal transmitted from the 3D glasses apparatus 100 from the 3D display apparatus 200 and adjusting the sound volume, as shown in FIG. 4, the 3D display apparatus is a 3D glasses apparatus. A signal detector 210 for detecting a signal transmitted from the signal, a distance calculator and controller 220 for receiving a signal detected by the signal detector 210 and calculating a distance from the 3D glasses device; The volume control unit 270 adjusts the sound volume based on the distance calculated and the distance from the 3D glasses apparatus 100 calculated by the controller 220, and the audio signal is adjusted using the sound volume adjusted by the volume adjuster 270. An audio signal processor 280 is included.

Therefore, the signal detector 210 detects a signal transmitted from the 3D glasses device and receives the signal detected by the signal detector 210 from the distance calculator and the controller 220. Calculate the distance between and.

Next, the volume control unit 270 adjusts the sound volume by the distance from the distance calculation and control unit 220 and the distance to the three-dimensional glasses device, and adjusts the sound volume by the volume control unit 270. The audio signal processor 280 processes the audio signal and outputs the audio signal through the speaker 290.

FIG. 5 is a schematic block diagram illustrating an example of calculating a distance from the 3D glasses device according to the present invention.

The above-described distance calculation and control unit 220 may be configured to calculate the distance to the 3D eyeglass apparatus using the data stored in the memory unit 235.

That is, the memory unit 235 stores distance data with the spectacle apparatus regarding the propagation delay speed or the signal strength of the signal detected by the signal detector 210 in advance, and the distance calculation and control unit 220 The distance data may be read to calculate a distance from the 3D glasses device.

Although the invention has been described in detail only with respect to specific examples, it will be apparent to those skilled in the art that various modifications and variations are possible within the spirit of the invention, and such modifications and variations belong to the appended claims.

Claims (10)

A three-dimensional glasses device capable of three-dimensionally feeling a three-dimensional image;
3D image display system including a three-dimensional display device for displaying the three-dimensional screen by calculating the distance to the three-dimensional glasses device and adjusting the image depth.
The method according to claim 1,
The three-dimensional glasses device transmits a signal,
And the 3D display device receives the signal and calculates a distance from the 3D glasses device.
The method according to claim 2,
The three-dimensional display device,
A signal detector for detecting a signal transmitted from the 3D glasses device, a distance calculator and controller for receiving a signal detected by the signal detector and calculating a distance from the 3D glasses device, and the distance calculator and controller The 3D image signal is processed to display an image depth adjusting unit for adjusting the image depth by the distance from the 3D glasses apparatus calculated in the and a 3D screen having the image depth adjusted by the image depth adjusting unit. 3D image display system comprising a three-dimensional image signal processing unit.
The method according to claim 3,
The three-dimensional glasses device,
A first UWB communication unit capable of transmitting an ultra wide band (UWB) signal,
The signal detector,
And a second UWB communication unit receiving the UWB signal transmitted from the 3D glasses device.
The method according to claim 3,
The three-dimensional glasses device,
And transmit a signal to the three-dimensional display device only when the three-dimensional glasses device is worn by a user.
The method according to claim 3,
The distance calculation and control unit,
3D image display system configured to calculate a distance from the three-dimensional eyeglasses device based on the propagation delay rate of the signal sensed by the signal detector or the strength of the signal.
The method according to claim 3,
The three-dimensional display device,
A volume control unit for adjusting an acoustic volume by the distance from the three-dimensional glasses device calculated by the distance calculation and control unit;
And an audio signal processor configured to process an audio signal at a sound volume adjusted by the volume controller.
The method according to claim 1,
The three-dimensional display device,
3D image display system for adjusting the sound volume by calculating the distance to the three-dimensional glasses device.
A three-dimensional glasses device capable of three-dimensionally feeling a three-dimensional image;
3D image display system including a three-dimensional display device for adjusting the sound volume by calculating the distance to the three-dimensional glasses device.
The method according to claim 9,
The three-dimensional eyeglasses apparatus is configured to transmit a signal,
The three-dimensional display device,
A signal detector for detecting a signal transmitted from the 3D glasses device;
A distance calculation and control unit for receiving a signal sensed by the signal detection unit and calculating a distance to the 3D glasses device;
A volume control unit for adjusting an acoustic volume by the distance from the three-dimensional glasses device calculated by the distance calculation and control unit;
And an audio signal processor configured to process an audio signal at a sound level adjusted by the volume controller.

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