KR20050091423A - Method and apparatus for processing pip of (an) image display device - Google Patents

Abstract

The present invention relates to a PIP (PIP) moving device and a method of a video display device having a touchable display unit, in a video display device having a tuner, a scaler and an optical engine, The decoder recognizes and decodes the pixel as the user touches the display unit, receives the decoded signal from the decoder, recognizes the coordinates, determines whether the coordinates are within a preset range, and accordingly, displays the sub-picture (PIP). A control unit for controlling the output and movement of the PIP, a scaler for processing an image signal input through the tuner according to the control signal of the control unit, and outputting it to the main / sub screen, and according to the output of the scaler. It is configured to include a drive unit for driving the optical engine, the remote control when you want to float (PIP) (PIP) In addition, the user can directly display the PIP (PIP) by directly touching the display unit without any additional key operation, and it is more convenient because only the user touches the position when moving the position of the PIP (PIP). Because it can be moved to the desired location, it has the effect of stimulating the curiosity of the user, increasing the sales opportunities.

Description

Method and apparatus for processing PIP of (an) image display device}

The present invention relates to an image display device, and more particularly, to an apparatus and a method for moving a sub picture (PIP) of an image display device having a touchable display unit.

In general, all videos send several pictures in succession to make the picture look as if it is moving, using the afterimage effect of the human eye, and superimposing the picture immediately after it while the one picture is left in the eye. There is this.

Currently, the video display device makes a moving video by overlapping successive pictures at speeds of 50㎐ and 60㎐.

As a way of implementing a single picture to make a video like this, a single picture can be expressed in a mosaic form. A mosaic is a collection of dots of different colors to form a picture.

Therefore, every image display device expresses each picture using a pixel when a picture is to be expressed, and a pixel is a frame divided into several pieces like a mosaic.

These pixels are used in CPT TVs, and modern display devices are being used in all video display devices from CPT to PRT, PDP, LCD, and DLP projection TVs. However, each device has a different method of making the color of the furnace.

For example, in the case of CPT and PRT, electrons from the electron gun pass through the deflector and reach the fluorescent material located on the opposite glass film, and the fluorescent material collides with the light and emits light. Therefore, each pixel is composed of RGB color type and material combination, and one pixel color is classified according to the amount of light emitted by each color of RGB.

In the case of PDP, the plasma is vaporized with a high-voltage potential difference, and the plasma emits light. The plasma that emits RGB colors constitutes a single furnace. Are distinguished.

In the case of LCD, LCD is placed on the emitter and makes one pixel color by passing desired light among RGB colors in one pixel, and the LCD does not emit itself and uses RGB potential to selectively select each RGB color. Transmit to adjust the amount of light.

DLP projection makes the light of the lamp into the color of RGB through the color wheel, and adjusts the angle of the mirror to pass the image through the lens. Therefore, there is one mirror for each pixel, and as many mirrors as there are pixels on the DMD chip. At this time, the HD level is 1280 × 720. DLP's name is Digital Light Processor, a registered trademark of Texas Instruments. Each video display device has pixels, and the resolution is evaluated by the number of pixels.

At this time, the sub picture (PIP) is a function to show the main image full on the display screen in PIP or POP, and another small image on the main image screen. This small image controls the movement and size, and there are functions to be controlled by the remote control.

However, the image display device according to the related art has a problem in that the range used by the user becomes small because only a remote controller or a direct key input can be operated to display a sub screen (PIP).

The present invention has been made to solve the above problems, and the object is to allow the user to directly touch the hand to bring up the sub-screen (PIP), to move and adjust the size.

In addition, the user has another purpose to improve the intimacy between the device and the user by using the PIP (PIP) -related operation by using your own hands rather than a remote control or a separate key input device.

In order to achieve the above object, a PIP processing apparatus for an image display apparatus according to the present invention includes a display unit formed of a touch screen in a video display apparatus including a tuner, a scaler, and an optical engine, and a display unit configured by a user. A decoder that recognizes and decodes a pixel according to a touch, receives a signal decoded by the decoder, recognizes a corresponding coordinate, determines whether the corresponding coordinate is within a preset range, and outputs and moves a sub picture accordingly. A control unit for controlling, a scaler for processing an image signal input through the tuner according to a control signal of the control unit to be output to the main / sub screen, and a driving unit for driving the optical engine according to the output of the scaler It is composed by its features.

Preferably, the controller controls the sub-picture to be outputted when the user inputs a touch command through the display while the main image is processed by the scaler.

More preferably, the control unit detects the touched heat generated when the re-touch is detected in the state where the sub-picture (PIP) is floated to control the movement or end of the sub-screen (PIP).

In accordance with an aspect of the present invention, a method for processing a sub picture (PIP) of an image display device includes a tuner and a touch screen, and a user inputs a power-on command. The method may further include displaying an image signal on a main screen, calculating a touched area when a user touch is detected through the touch screen while the main screen is displayed, and whether or not a sub-picture is present. And controlling the movement or termination of the sub picture by identifying the calculated area.

Preferably, the calculating of the area touched by the user may include calculating a median value of the touched X and Y coordinates if the distance between the coordinates touched by the user is greater than or equal to a preset distance, and retouching a message if the distance is less than or equal to the preset distance. It is characterized by the step of displaying a.

More preferably, the step of controlling the movement or the termination of the sub picture PIP may include determining whether a currently calculated area exists inside the existing sub picture PIP when the sub screen PIP already exists before the user touch. And moving the start point of the sub-picture according to the current touched area if the pre-existing sub-picture is present within the pre-existing sub-picture. If the PIP is not present in the PIP, the PIP is terminated.

More preferably, if there is no PIP before the user touch, the method further includes displaying the PIP in a preset horizontal and vertical size.

Hereinafter, a PIP processing apparatus and method of an image display device according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram illustrating an apparatus for processing a sub screen (PIP) of an image display device according to the present invention, and FIG. 2 is a flowchart illustrating a method for processing a sub screen (PIP) of an image display device according to the present invention.

As shown in FIG. 1, the apparatus for processing a sub picture (PIP) of an image display device according to the present invention displays a video signal and simultaneously recognizes a region according to a user's touch, and the display unit. A decoder 102 that recognizes the pixel through the touch of 101 and decodes the data into data; and controls the output and movement of the sub picture PIP in accordance with the data input through the decoder 102, A control unit 103 for controlling channel channel selection, a tuner 104 for tuning a channel desired by a user according to a control signal of the control unit 103, and a broadcast signal of a channel tuned by the tuner 104 A scaler 105 for processing a display on the display unit 101 and for outputting a sub picture PIP according to a touch command input through the decoder 102 and the scaler 105. According to the output consists of a driving unit 106 for driving the optical engine (107).

At this time, the optical engine is composed of a DMD 107a for DLP projection TV or an LCD 107b for LCD projection TV, and the display unit is configured as a touch screen.

A touch screen is an image display device that acts as a switch when a hand or an object having a corresponding dielectric constant is touched on a display panel. The operation principle of the touch screen is a hand touched by a hand touching a display panel showing an image. The induced electrons induce '+' across the display panel, and the higher the dielectric constant of the panel, the more '+'. At this time, there is a movement of fine electrons, and the movement of electrons becomes a current. Therefore, by amplifying and signaling this minute current, it is possible to determine whether the switch is on or off.

Referring to the operation of the PIP processing apparatus of the image display apparatus according to the present invention configured as described above, when the user inputs a power-on command, the tuner may be displayed such that the broadcasting signal of the channel selected by the user is displayed as the main image. The control signal is outputted to 104 and the scaler 105.

When the user touches the display unit 101 while the main image is displayed, the sub screen PIP may be displayed by a preset horizontal and vertical size.

At this time, the horizontal / vertical pixel of the HD screen is 1280 × 720 lines as shown in FIG. 1, and the preset horizontal and vertical size are 300 pixels on the X axis of the pixel (X1, Y1) where the user touches the hand. On the Y-axis, a 200-pixel PIP is displayed.

In addition, if you want to move the position of the sub-screen (PIP), just touch again, and to control the size, the controller 103 must recognize the position of the pixel touched by the hand.

In this case, the conductive lines are connected horizontally and vertically for each pixel, and the horizontal and vertical lines are not connected to each other. This wire acts as a wire in which electrons induced by the dielectric constant move through the touch of a hand. The wires connected horizontally are connected to an amplifier (not shown) that amplifies the current signal, and each amplifier in the horizontal (not shown). Is the same as the 'X-axis' position of the pixel, and the position information of the amplifier 'X' is transmitted to the controller 103.

Accordingly, when the first touch point is decoded by the decoder 102 and transmitted to the controller 103, the controller 103 first recognizes a coordinate and then uses the coordinate as a starting point (PIP). Float.

However, since the size of the finger is significantly larger than the pixel, the position of the correct pixel touched is determined as follows. That is, the center point among the horizontal top and bottom points recognized as the touch is set as the horizontal coordinate of the touch unit, and the center point among the recognized vertical top and bottom points is set as the vertical coordinate of the touch unit.

When the hand touches several pixels at the same time, when the center points deviate from each other by more than 20 pixels (the length / length of the touch part), the hand touch point reassignment is required.

Referring to FIG. 2, first, when a user inputs a power-on command, a video signal is displayed on a main screen (S101 to S102).

In operation S103, it is determined whether a user touch exists.

Subsequently, in the determination result (S103), if a user touch exists, it is determined whether the separation distance between the touch coordinates is greater than or equal to the preset distance (S104).

As a result of the determination (S104), when the separation distance between the touch coordinates is equal to or greater than the preset distance, the median value of the touched X and Y coordinates is calculated (S105).

In operation S106, it is determined whether the sub picture PIP already exists.

As a result of the determination (S106), if the sub screen PIP already exists, it is determined whether the touched area exists in the existing sub screen PIP (S107).

As a result of the determination (S107), if the touched area exists inside the sub picture PIP, the starting point of the sub picture PIP is moved and displayed by the corresponding distance (S018).

If the user inputs the power-off command, the process ends. If no user inputs the power-off command, the count is incremented and the process returns to step S103 (S109 to S110).

Meanwhile, if the separation distance between the touch coordinates is less than or equal to the preset distance (S106), a message to re-touch is displayed (S112).

If the sub-picture PIP does not exist, the sub-picture PIP is displayed at a preset horizontal / vertical size, and the count is increased to return to the step S103. S114).

In this case, as shown in FIG. 4, the sub picture PIP is horizontally set based on the X and Y coordinates of the touched area when the user touches a predetermined area on the screen where the main image as shown in FIG. 4 is displayed. PIP will be displayed in / vertical size.

At this time, the luminance signal of the vertical line corresponding to the 'Y' coordinate output from the scaler 105 is reduced with a predetermined interval as shown in FIG. It can be seen that as shown in (b), the PIP is displayed again and then gradually decreases with a very small width.

As described above, an apparatus and method for processing a sub picture (PIP) of an image display device according to the present invention may include a sub screen (PIP) in which a touch part of a hand is present when a hand is touched on the screen while an image is displayed on the main screen. ) You can choose to move the place or remove the PIP depending on whether it is inside or outside the screen.

As described above, the PIP processing apparatus and method of the image display device according to the present invention have the following effects.

First, when the user wants to display the PIP, the user can display the PIP more easily by directly touching the display without a remote control or a separate key operation.

Second, since only the location touched by the user needs to be moved when moving the position of the sub screen (PIP), it can be moved to a desired position more conveniently.

Third, the product can be designed for consumer convenience to stimulate consumer's curiosity and increase sales opportunities.

1 is a block diagram showing a sub-screen (PIP) moving device of an image display device according to the present invention

2 is a flowchart illustrating a method of moving a sub screen (PIP) of a video display device according to the present invention.

3 is a diagram illustrating a general HD class pixel array and a touch sense signal amplifier array.

4 is a view showing an embodiment of a method of moving a sub screen (PIP) of a video display device according to the present invention;

5 is a graph showing luminance signals of vertical lines;

Explanation of symbols for main parts of the drawings

101: display unit (touch screen)

102: decoder 103: control unit

104: tuner 105: scaler

106: driving unit 107: optical engine

Claims (7)

In an image display device having a tuner, a scaler and an optical engine, A display unit formed of a touch screen; A decoder that recognizes and decodes a pixel as a user touches the display unit; A controller which receives the signal decoded by the decoder, recognizes the coordinates, determines whether the coordinates exist within a preset range, and controls the output and movement of the sub picture accordingly; A scaler for processing an image signal input through the tuner to be output on a main / sub screen according to a control signal of the controller; And, And a driving unit for driving the optical engine according to the output of the scaler. The method of claim 1, And the controller controls the sub screen to be output when the user inputs a touch command through the display unit while the main image is processed through the scaler. The method of claim 1, The controller controls the movement or termination of the PIP by detecting the touched heat when the re-touch is detected while the PIP is displayed. Processing unit. In the PIP processing method of a video display device having a tuner, a touch screen, Displaying a video signal on a main screen when a user inputs a power-on command; Calculating a touched area when a user touch is detected through the touch screen while the main screen is displayed; And, Sub-PIP processing of an image display device, comprising the step of controlling the movement or termination of the sub-picture by identifying the calculated area according to whether there is a sub-picture. Way. The method of claim 4, wherein Calculating the area touched by the user And calculating a median value of the touched X and Y coordinates if the separation distance between the coordinates touched by the user is greater than or equal to a preset distance, and displaying a retouch message when the separation distance is less than or equal to the preset distance. How to handle PIP The method of claim 4, wherein Controlling the movement or termination of the sub picture (PIP) Determining whether a currently calculated area exists in a pre-existing sub-picture, if the sub-picture previously exists before the user's touch; Moving the sub screen PIP by moving a starting point of the sub screen PIP according to the currently touched area if the sub screen PIP exists inside the existing sub screen PIP; If the existing existing sub-picture (PIP) does not exist in the sub-screen (PIP) processing, characterized in that the step of terminating the sub-screen (PIP). The method of claim 6, If the sub screen (PIP) does not exist before the user touch, the sub screen (PIP) processing method further comprises the step of displaying the sub screen (PIP) in a preset horizontal, vertical size .