KR101713786B1 - Display apparatus and method for providing graphic user interface applied to the same - Google Patents

Abstract

A display device and a GUI providing method applied thereto are provided. The display device includes: an operation unit for receiving a user's operation; A video input unit into which a 3D image is input; A 3D image implementing unit for generating a left eye image and a right eye image corresponding to the input 3D image; An image output unit for alternately outputting the left eye image and the right eye image and a graphic user interface (GUI) generation command to be displayed on the 3D image through the operation unit, And a controller for controlling the GUI to be output. Accordingly, when the user inputs a GUI generation command while viewing the 3D image, the display device converts the input 3D image into a 2D image, so that the user can not see the converted 2D image and the generated GUI overlapping each other.

3D GUI, display device

Description

[0001] The present invention relates to a display apparatus and a GUI providing method applied thereto,

The present invention relates to a display device and a GUI providing method applied thereto, and more particularly, to a display device for outputting a 3D image in a manner of alternately displaying a left eye image and a right eye image, and a GUI providing method applied thereto.

The 3D stereoscopic image technology has various applications such as information communication, broadcasting, medical education, training, military, game, animation, virtual reality, CAD and industrial technology, and the next generation 3D stereoscopic multimedia communication Based technology.

Generally, the three-dimensional sensation perceived by a person depends on the degree of thickness change of the lens depending on the position of the object to be observed, the angular difference between both eyes and the object, the difference in position and shape of the object on the left and right eyes, Time difference, and various psychological and memory effects.

Among them, the binocular disparity which appears when the human eyes are located about 6 ~ 7 cm apart in the horizontal direction is the most important factor of the stereoscopic effect. In other words, the binocular parallax is used to look at the angular difference of the subject. Due to this difference, the images coming into each eye have different phases. When these two images are transmitted to the brain through the retina, It is possible to feel the original 3D stereoscopic image by fusing them exactly.

The 3D image display device is classified into a spectacle type using special glasses and a non-standard type using no special glasses. The spectrophotometer is a color filter system that separates images using a color filter having a complementary color relationship, a polarizing filter system that separates images of the left eye and the right eye using a light blocking effect by a combination of orthogonal polarizing elements, There is a shutter glass system which can sense a stereoscopic effect by alternately blocking the left and right eyes in response to a synchronizing signal for projecting a video signal on a screen.

The 3D image consists of the left eye image recognized in the left eye and the right eye image recognized in the right eye. And, the 3D image display device expresses the stereoscopic effect of the image using the parallax between the left eye image and the right eye image.

Also, a GUI (graphic user interface) is required for setting the display device in the 3D image display device. Particularly, when the GUI is output in 3D, there arises a problem that the input 3D image and the 3D GUI overlap each other.

Therefore, when a 3D GUI is generated while a 3D image is displayed, a search for a method for preventing a 3D image and a 3D GUI from overlapping each other is requested.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the above problems, and it is an object of the present invention to provide a method of generating a graphic user interface (GUI) to be displayed on a 3D image, And outputting a GUI, and a method of providing a GUI.

According to an aspect of the present invention, there is provided a display device including: an operation unit receiving a user's operation; A video input unit into which a 3D image is input; A 3D image implementing unit for generating a left eye image and a right eye image corresponding to the input 3D image; An image output unit for alternately outputting the left eye image and the right eye image and a graphic user interface (GUI) generation command to be displayed on the 3D image through the operation unit, And a controller for controlling the GUI to be output.

The GUI is preferably a 3D GUI.

The 3D image implementing unit may generate a left eye GUI and a right eye GUI corresponding to the generated 3D GUI, and the controller may select one of the left eye image and the right eye image, It is preferable that the left eye GUI and the right eye GUI are alternately outputted.

The 3D image implementing unit may generate only one of the left eye image and the right eye image when a command for generating a GUI to be displayed on the 3D image is input through the operation unit and the control unit generates the left eye image and the right eye image, It is preferable to control to output any one of them.

Preferably, when the end command of the 3D GUI is input through the operation unit, the control unit controls the 3D GUI to disappear and alternately output the left eye image and the right eye image corresponding to the input 3D image.

The 3D image implementation unit generates a left eye image and a right eye image corresponding to the input 3D image when the end instruction of the 3D GUI is inputted through the operation unit, and the control unit causes the 3D GUI to disappear, Eye image and the right-eye image corresponding to the 3D image, respectively.

Preferably, the control unit automatically terminates the GUI after a predetermined time without using the GUI, and alternately outputs the left eye image and the right eye image corresponding to the input 3D image alternately.

According to another aspect of the present invention, there is provided a GUI providing method including: receiving a user's operation; A step of inputting a 3D image; Generating a left eye image and a right eye image corresponding to the input 3D image; Outputting the left eye image and the right eye image alternately and outputting the GUI and either the left eye image or the right eye image when a command for generating a GUI to be displayed on the 3D image is inputted through the operation unit .

The GUI is preferably a 3D GUI.

Generating a 3D GUI; Generating a left eye GUI and a right eye GUI corresponding to the generated 3D GUI; And outputting the left eye GUI and the right eye GUI alternately with any one of the left eye image and the right eye image.

The generating of the left eye image and the right eye image corresponding to the input 3D image is performed by generating only one of the left eye image and the right eye image when a command for generating a GUI to be displayed on the 3D image is inputted through the operation unit And outputting only one of the left eye image and the right eye image may output one of the generated left and right eye images.

Inputting an end command of the 3D GUI through the operation unit; And outputting the left eye image and the right eye image alternately corresponding to the input 3D image when the 3D GUI disappears.

Inputting an end command of the 3D GUI through the operation unit; The method may further include generating a left eye image and a right eye image corresponding to the input 3D image, and alternately outputting a left eye image and a right eye image corresponding to the input 3D image with the 3D GUI disappearing .

Automatically terminating the GUI after a predetermined time without using the GUI; And outputting the left eye image and the right eye image alternately corresponding to the input 3D image when the GUI ends.

According to various embodiments of the present invention, when a user inputs a GUI generation command while viewing a 3D image, the displayed 3D image is converted into a 2D image so that the user can not see the converted 2D screen and GUI overlapping each other.

Hereinafter, the present invention will be described in detail with reference to the drawings.

1 is a diagram illustrating a 3D (3-Dimension) TV 100 according to an embodiment of the present invention. As shown in FIG. 1, the 3D TV 100 can communicate with the 3D glasses 190.

The 3D TV 100 generates a left eye image and a right eye image alternately and displays the left eye image and the right eye image displayed on the 3D TV 100 alternately with the left eye and the right eye using the 3D glasses 190 So that 3D stereoscopic images can be viewed.

Specifically, the 3D TV 100 generates a left eye image and a right eye image, and alternately displays the generated left eye image and right eye image on the screen at regular time intervals.

Then, the 3D TV 100 generates a synchronization signal for the generated left and right eye images, and transmits the generated synchronization signals to the 3D glasses 190.

The 3D glasses 190 receive the synchronization signal transmitted from the 3D TV 100 and alternately open the left eye glass and the right eye glass in synchronization with the left eye image and the right eye image displayed on the 3D TV 100.

In this manner, the user can view the 3D image using the 3D TV 100 and the 3D glasses 190 of FIG.

2 is a block diagram showing a detailed configuration of a 3D TV 100 according to an embodiment of the present invention. 2, the 3D TV 100 includes a broadcast receiving unit 110, an image input unit 120, an A / V processing unit 130, a sound output unit 140, an image output unit 150, a control unit 160, a storage unit 170, an operation unit 180, and a glasses signal transmission and reception unit 195.

The broadcast receiving unit 110 receives and demodulates broadcasts from a broadcasting station or satellite by wire or wireless. Also, the broadcast receiving unit 110 receives a 3D image signal including 3D image data.

The image input unit 120 is connected to an external device and receives an image. In particular, the image input unit 120 can receive 3D image data from an external device. The image input unit 120 may interfere with an S-Video, a component, a composite, a D-Sub, a DVI, and an HDMI, for example.

Here, the 3D image data refers to data including 3D image information. The 3D image data includes left eye image data and right eye image data in one data frame region. The type of the 3D image data is classified according to the form including the left eye image data and the right eye image data.

Hereinafter, the format of the 3D image data will be described with reference to FIG. 3 is a diagram illustrating the types of 3D image data according to an exemplary embodiment of the present invention.

3D image data of the side by side method 310, the tom-bottom method 320, and the 2D + depth method 330 of FIG. 3 are divided into left eye image data and right eye image data by a split method, And 3D image data including right eye image data.

The left / right division method 310 is a form in which the left-eye image data and the right-eye image data are included in the left-data area and the right-data area of the frame data area divided into left and right, respectively. That is, as shown in FIG. 3, the 3D image data of the left and right division method 310 includes one frame data area divided into right and left, left-eye data includes left eye image data, Right eye image data is included.

The upper / lower division method 320 is a form in which the left-eye image data and the right-eye image data are included in the upper-data area and the lower-data area of the frame data area divided into upper and lower parts, respectively. 3, one frame data area is divided into upper and lower parts in the 3D image data of the upper and lower division method 320, the left-eye image data is included in the upper-data area, Right eye image data is included.

The 3D image data of the 2D + depth method 330 includes 2D image data to be displayed on the screen and depth data representing depth information of each part of the 2D image data. That is, as shown in FIG. 3, one frame data area is divided left and right in 3D image data of the 2D + depth method 330, 2D image data is included in the left-data area, And depth data is included in the data. However, it is needless to say that one frame data area is divided into right and left in the 2D image data of the 2D + depth method 330 and the 2D image data and the depth data are included.

The 3D image data of the horizontal interleaved method 340, the vertical interleaved method 350 and the checker board method 360 of FIG. 3 are interleaved by the interleave method, 3D image data including data and right eye image data

The horizontal interleave method 340 is a form in which left eye image data and right eye image data are alternately arranged in units of pixel rows. The vertical interleave method 350 is a form in which the left eye image data and the right eye image data are alternately arranged in units of pixel columns. The checkerboard method 360 is a form in which left eye image data and right eye image data are alternately arranged in units of pixels or square blocks including a plurality of pixels.

As described above, the 3D image data has a form including the left eye image data and the right eye image data in one frame data area, or a form including 2D image data and depth data. This is for realizing the transmission of the 3D image using the data format for transmitting the 2D image as it is.

2, the A / V processing unit 130 performs signal processing such as video decoding, video scaling, audio decoding, and the like on the video signal and the audio signal input from the broadcast receiving unit 110 and the video input unit 120, Perform GUI generation.

On the other hand, when the input video and audio signals are stored in the storage unit 170, the A / V processing unit 130 compresses the input video and audio to store the input audio and video in compressed form.

2, the A / V processing unit 130 includes a voice processing unit 132, an image processing unit 134, a 3D image implementing unit 136, and a GUI generating unit 138.

The audio processing unit 132 performs signal processing such as audio decoding on the input audio signal. Then, the voice processing unit 132 outputs the processed voice signal to the voice output unit 140.

The image processing unit 134 performs signal processing such as video decoding and video scaling on the input image signal. When the 3D image data is input, the image processing unit 134 outputs the inputted 3D image data to the 3D image implementing unit 136. [

The 3D image implementing unit 136 generates the left eye image and the right eye image interpolated at the size of one screen by using the inputted 3D image data. That is, the 3D image implementing unit 136 generates a left eye image and a right eye image to be displayed on the screen in order to implement a 3D stereoscopic image.

Specifically, the 3D image implementing unit 136 separates left eye image data and right eye image data from the input 3D image data. Since the left eye image data and the right eye image data are included together in one frame data, the separated left eye image data and right eye image data have image data corresponding to half of the entire screen size, respectively. Accordingly, the 3D image implementing unit 136 enlarges or interpolates the separated left eye image data and right eye image data to generate a left eye image and a right eye image to be displayed on a screen having a size of one screen. The 3D image implementing unit 136 outputs the generated left eye image and right eye image to the image output unit 150 so as to be alternately displayed.

When a GUI generation command is input from the user, the 3D image implementing unit 136 may generate only one of the left eye image and the right eye image of the input 3D image and output the same to the image output unit 150. Thereafter, when the GUI end command is input from the user or the GUI is automatically operated for a predetermined time without using the GUI, the 3D image implementing unit 136 generates both the left eye image and the right eye image of the 3D image input again.

The GUI generation unit 138 generates a GUI for setting the environment of the 3D image display device. At this time, the generated GUI is a 3D type GUI. Here, the 3D-type GUI can be considered as two cases. The first case is a 2D GUI that looks like a 3D image. In the second case, a left 3D GUI and a right 3D GUI are generated in the same manner as a 3D image to generate a 3D GUI.

More specifically, in the first case, the GUI generating unit 138 generates a 2D GUI. At this time, the 2D GUI does not look like a normal 2D GUI but looks like a 3D GUI. In this case, the user can view the 3D-type GUI without using the 3D glasses 190.

In the second case, the GUI generation unit 138 generates a GUI including a left 3D GUI and a right 3D GUI in the same manner as the 3D image. Accordingly, the generated 3D GUI data including the left 3D GUI and the right eye 3D GUI are input to the image implementing unit 136, and the 3D image implementing unit 136 generates a left 3D GUI and a right 3D GUI. The 3D image implementing unit 136 alternately outputs the generated left and right 3D GUIs to the image output unit 150. [

The voice output unit 140 outputs the voice transmitted from the A / V processing unit 130 to a speaker or the like.

The video output unit 150 outputs the video transmitted from the A / V processing unit 130 to be displayed on the screen. In particular, in the case of a three-dimensional image, the image output unit 150 alternately outputs the left eye image and the right eye image to the screen.

The storage unit 170 stores images received from the broadcast receiving unit 110 or the image input unit 120. [ The storage unit 170 may be implemented as a hard disk, a nonvolatile memory, or the like.

The operation unit 180 receives the user's operation and transmits the received operation to the control unit 160. The operation unit 180 may be implemented by a remote controller, a pointing device, a touch pad, a touch screen, or the like.

The eyeglass signal transmitting and receiving unit 195 transmits a clock signal for alternately opening the left eye glass and the right eye glass of the 3D glasses 190. [ The 3D glasses 190 alternately open the left eye glass and the right eye glass according to the received clock signal. In addition, the eyeglass signal transmitting / receiving unit 195 receives status information and the like from the 3D glasses 190.

The control unit 160 grasps a user command based on a user's operation transmitted from the operation unit 180, and controls the overall operation of the TV according to the user command.

When a command for generating a GUI to be displayed on the 3D image is inputted through the operation unit 180, the controller 160 controls only one of the left eye image and the right eye image to be output, 138 to be output. If the 3D image implementing unit 136 generates the left 3D GUI and the right 3D GUI through the 3D GUI data generated from the GUI generating unit 138, the controller 160 determines whether any one of the generated left and right eye images And controls the left eye GUI and the right eye GUI to be outputted alternately.

In addition, when a command for generating a 3D GUI to be displayed on the 3D image is input through the user's operation and the 3D image implementing unit 136 generates only one of the left eye image and the right eye image of the 3D image, So that either the left eye image or the right eye image is output. At this time, if the end instruction of the 3D GUI is inputted through the user's operation, the control unit 160 controls the left eye image and the right eye image corresponding to the input 3D image to be outputted alternately.

In addition, after a predetermined time without using the 3D GUI, the control unit 160 automatically terminates the GUI and controls the left eye image and the right eye image corresponding to the input 3D image to be outputted alternately.

Hereinafter, a method of providing a GUI in a display device according to an embodiment of the present invention will be described in detail with reference to FIG. 4 to FIG.

4 is a flowchart illustrating a method of providing a GUI when a 3D GUI generation command is input by an operation of a user according to an embodiment of the present invention.

If a 3D GUI generation command is input to the 3D TV 100 in operation S410-Y in response to a user's operation while the 3D image is being output, the 3D TV 100 converts the output 3D image into a 2D image ).

Specifically, when the 3D GUI generation command is inputted to the 3D TV 100 by the user's operation, the 3D image implementation unit 136 generates only one image of the left eye image or the right eye image of the input 3D image. The 3D image implementing unit 136 may output only one generated image to the image output unit 150. [ Therefore, the 3D image is converted into the 2D image.

As another method for converting the 3D image into the 2D image, the 3D image implementation unit 136 generates a left eye image and a right eye image of the 3D image, and outputs only one of the generated left eye image and right eye image to the image output unit 150). Through this method, the 3D image can be converted into the 2D image.

The GUI generating unit 138 generates 3D GUI data, and the 3D image implementing unit 136 generates the left 3D GUI and the right 3D GUI through the 3D GUI data (S430). Thereafter, the 3D TV 100 generates the 3D GUI by alternately outputting the generated left-eye 3D GUI and the right-eye 3D GUI together with one image output from the 3D image (S440).

As described above, when the 3D GUI generation command is inputted and the 3D image is converted into the 2D image, the inconvenience that the 3D GUI and the 3D image overlap each other is reduced.

5 is a flowchart for explaining a GUI termination method when a 3D GUI termination command is inputted by a user operation according to an embodiment of the present invention.

As described with reference to FIG. 4, when a 3D GUI is generated, the 3D image is converted into a 2D image. That is, the 3D TV 100 outputs the 3D GUI to the 2D image (S510). At this time, the 3D TV 100 determines whether a termination command has been input through the user's operation (S520). If a termination command is inputted through the user's operation (S520-Y), the 3D GUI is terminated (S530). At this time, the video output unit 150 does not output the 3D GUI any more.

Then, the 3D TV 100 converts the 2D image into the 3D image again (S540). Specifically, the 3D image implementing unit 136 generates a left eye image and a right eye image of the 3D image, and outputs the left eye image and the right eye image of the generated 3D image alternately to the image output unit 136. Accordingly, the 3D TV 100 again outputs the 3D image (S550).

6 is a diagram illustrating a process of providing a 3D GUI according to an embodiment of the present invention.

3D image data is input to the 3D TV 100 and a 3D image is output (610). When the 3D GUI generation command is inputted through the operation of the user, the 3D GUI is generated as described above. Then, as shown in 620 of FIG. 6, the 3D image is converted into a 2D image. The method of converting the 3D image into the 2D image is as described above. When the 3D GUI end command is input through the user's operation, the 3D GUI is no longer output through the video output unit 150. [ The 2D image is converted into a 3D image by the above-described method (630).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

1 is a diagram illustrating a 3D TV according to an embodiment of the present invention;

2 is a block diagram showing a detailed configuration of a 3D TV according to an embodiment of the present invention;

FIG. 3 is a view showing a kind of 3D image data according to an embodiment of the present invention; FIG.

4 is a flowchart illustrating a method of providing a 3D UI according to an exemplary embodiment of the present invention;

5 is a flowchart illustrating a process of terminating a 3D UI according to an exemplary embodiment of the present invention,

6 is a diagram illustrating a process of generating a 3D UI according to an embodiment of the present invention.

Claims (14)

An operation unit for receiving a user's operation; A video input unit into which a 3D image is input; A 3D image implementing unit for generating a left eye image and a right eye image corresponding to the input 3D image; An image output unit for alternately outputting the left eye image and the right eye image; And a controller for controlling the output of only one of the left eye image and the right eye image and outputting the GUI when a command for generating a graphic user interface (GUI) to be displayed on the 3D image is inputted through the operation unit, Wherein the output image is converted from a 3D image to a 2D image and output, and the GUI is a 3D GUI. delete The method according to claim 1, Further comprising a GUI generation unit for generating a 3D GUI, Wherein the 3D image implementing unit comprises: Generates a left eye GUI and a right eye GUI corresponding to the generated 3D GUI, Wherein, Wherein the controller controls the left eye GUI and the right eye GUI to be alternately outputted together with any one of the left eye image and the right eye image. The method according to claim 1, Wherein the 3D image implementing unit comprises: When a command for generating a GUI to be displayed on the 3D image is inputted through the operation unit, only one of the left eye image and the right eye image is generated, The control unit Eye image and the right-eye image to output the generated left-eye image and right-eye image. The method of claim 3, Wherein, Wherein the 3D GUI disappears and the left eye image and the right eye image corresponding to the input 3D image are alternately outputted when the end instruction of the 3D GUI is inputted through the operation unit. 5. The method of claim 4, Wherein the 3D image implementing unit comprises: And a left eye image and a right eye image corresponding to the input 3D image are generated when an end instruction of the 3D GUI is inputted through the operation unit, Wherein, Wherein the 3D GUI disappears and controls to output the left eye image and the right eye image alternately corresponding to the input 3D image. The method according to claim 1, Wherein, Wherein the controller is configured to automatically terminate the GUI and to alternately output the left eye image and the right eye image corresponding to the input 3D image after a predetermined time without using the GUI. Receiving an operation of a user using an operation unit; A step of inputting a 3D image; Generating a left eye image and a right eye image corresponding to the input 3D image; Alternately outputting the left eye image and the right eye image; And outputting a 3D GUI and a 3D image converted from the 3D image to one of the left eye image and the right eye image when a command for generating a GUI to be displayed on the 3D image is inputted through the operation unit . delete 9. The method of claim 8, Creating a 3D GUI; Generating a left eye GUI and a right eye GUI corresponding to the generated 3D GUI; And outputting the left eye GUI and the right eye GUI alternately with one of the left eye image and the right eye image. 9. The method of claim 8, Wherein the step of generating a left eye image and a right eye image corresponding to the input 3D image comprises: When a command for generating a GUI to be displayed on the 3D image is inputted through the operation unit, only one of the left eye image and the right eye image is generated, Wherein the step of outputting only one of the left eye image and the right eye image comprises: And outputting one of the generated left eye image and right eye image. 11. The method of claim 10, Inputting an end command of the 3D GUI via the operation unit; And outputting the left eye image and the right eye image alternately corresponding to the input 3D image when the 3D GUI disappears. 12. The method of claim 11, Inputting an end command of the 3D GUI through the operation unit; Generating a left eye image and a right eye image corresponding to the input 3D image; And outputting the left eye image and the right eye image alternately corresponding to the input 3D image when the 3D GUI disappears. 9. The method of claim 8, Automatically terminating the GUI after a predetermined time without using the GUI; And outputting the left eye image and the right eye image alternately corresponding to the input 3D image when the GUI is terminated.

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