KR20000013229A - Screen portion zoom-in apparatus - Google Patents

Abstract

PURPOSE: A screen portion zoom-in apparatus capable of enlarging and reducing a special part of a display screen is provided. CONSTITUTION: A screen portion zoom-in apparatus comprising: a memory section(2) for temporarily storing an input image signal; a buffer memory section(4) for temporarily storing an image signal of a special part; a zoom-in controller(50) controlled by a controller for setting a window area and enlarging/reducing and indicating the special part; a display controller(40) for controlling the buffer memory section(4) in response to an area signal of the zoom-in controller(50); and a signal processor(10) for converting a format of an image signal in order to simultaneously output an image signal of a total screen and an image signal of a special part.

Description

Apparatus of Screen Partial Zoom-in

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device, and more particularly to a device that is a screen portion zoom configured to enlarge / reduce a specific portion of a display screen.

In general, the display device displays a desired image on the screen in response to the input image information. At this time, a user needs to enlarge / reduce a specific portion of the image displayed on the screen to display in detail. For example, when a display device is used for a presentation, a specific part to be emphasized is designated according to the presenter's intention, and the enlarged image is displayed on the entire screen. To this end, according to the needs of the user to designate a specific portion to enlarge / reduce the display on the screen, and also to display the unspecified portion on the screen is required.

Accordingly, an object of the present invention is to provide an apparatus for zooming in a screen portion configured to enlarge / reduce a specific portion of a screen according to a user's request.

1 is a block diagram showing a configuration of an apparatus for zooming in a screen portion according to the present invention;

FIG. 2 is a block diagram illustrating a synchronization signal generator of FIG. 1. FIG.

3 is a block diagram illustrating a memory reproducing unit of FIG. 1;

4 is a block diagram illustrating the zoom-in control of FIG. 1.

5 is a block diagram illustrating a display controller of FIG. 1.

6 is a block diagram illustrating a signal processor of FIG. 1.

FIG. 7 is a diagram for explaining a concept of enlargement / reduction of a video signal of a specific portion; FIG.

8 is a diagram for explaining image compensation of a video signal.

<Description of Symbols for Main Parts of Drawings>

2: memory section 4: buffer memory section

6 memory recorder 8 controller

10: signal processor 12: first-in first-out memory

14 data processing unit 16 multiplexer control unit

18: multiplexer 20: synchronization signal generator

22: clock generator 24: horizontal synchronization signal generator

26: vertical synchronization signal generator 30: memory playback unit

32: horizontal active signal generator 34: vertical active signal generator

36: memory playback signal generator 40: display controller

41: horizontal address increase control unit 42: horizontal delay signal generator

43: vertical address increase control unit 44: buffer memory write control unit

45: buffer memory playback control unit 50: zoom-in control unit

52: horizontal delay signal generator 54: vertical delay signal generator

56: horizontal area signal generator 58: vertical area signal generator

In order to achieve the above object, the apparatus for zooming in a screen portion according to the present invention includes a memory unit for temporarily storing an input video signal, a buffer memory unit for temporarily storing a video signal of a specific portion, and controlled by the controller. A zoom-in control unit for setting a window area for enlarging / reducing a specific portion, a display control unit for controlling a buffer memory unit in response to an area signal of the zoom-in control unit, and outputting a video signal of a full screen and a video signal of a specific part at the same time And a signal processing unit for converting the format of the video signal.

Other objects and features of the present invention other than the above object will become apparent from the description of the embodiments with reference to the accompanying drawings.

Referring to Figures 1 to 8 will be described a preferred embodiment of the present invention.

Referring to FIG. 1, an apparatus for zooming in a screen portion according to the present invention includes a memory unit 2 for temporarily storing an input video signal, and a recording signal for recording the video signal in the memory unit 2. A memory recording section 6, a memory reproducing section 30 for generating a reproduction signal for reproducing the video signal stored in the memory section 2, a synchronization signal generating section 20 for generating a synchronization signal, and a specific portion A buffer memory unit 4 for temporarily storing a video signal of a video signal, a zoom-in control unit 50 for setting a window area for enlarging / reducing a specific portion under control of the control unit 8, and a zoom-in control unit 50 A display control unit 40 for controlling the buffer memory unit 4 in response to an area signal of the signal and a signal processing unit 10 for converting the format of the video signal so as to simultaneously output the video signal of the entire screen and the video signal of the specific portion. Equipped. The memory block 2 temporarily stores the video signals (i.e., R, G, and B) input by the write signal transmitted from the memory write block 6. As shown in FIG. In this case, the memory unit 2 stores image information corresponding to one frame. In addition, the memory unit 2 reads a video signal stored therein by the reproduction signal transmitted from the memory reproducing unit (Memoey Read Block) 30, and a signal processing unit (Signal Processing Block) 10 and a buffer memory unit (Buffer) which will be described later. Meeory Block; 4). At this time, the synchronized signal generation block 20 generates a horizontal synchronization signal and a vertical synchronization signal and transmits them to the memory recording unit 6 and the memory reproducing unit 30. On the other hand, if the user does not specify a specific portion, the video signal stored in the memory unit 2 is transmitted to the signal processing unit 10. The signal processor 10 outputs an image signal transmitted from the memory unit 2 to display the entire image on the screen. On the other hand, when the user designates a specific part, the zoom-in control block 50 enlarges / reduces the specific part by the control of the control part 8 to determine the size and position of the window to be displayed on the screen. After setting, an area signal corresponding thereto is generated. In addition, the zoom-in control unit 50 transmits an area signal to the display control block 40, and the control unit 8 temporarily records / records a video signal of a specific portion designated by the user to the buffer memory unit 4. The display controller 40 is controlled to play back. In addition, under the control of the display controller 40, the signal processor 50 processes the full screen image signal transmitted from the memory unit 2 and the specific partial image signal transmitted from the buffer memory unit 4 to zoom in the controller 50. In the window set in), the video signal of a specific part is enlarged / reduced and displayed on the screen, and in other areas, the video signal of the entire screen is displayed on the screen. Accordingly, the apparatus for zooming in a screen portion according to the present invention is enlarged / reduced an image corresponding to a video signal of a specific portion designated by a user and displayed in a window on the screen. It can be displayed for the convenience of the user.

Hereinafter, the synchronization signal generation unit 20, the memory reproducing unit 30, the zoom-in control unit 50, the display control unit 40, and the signal processing unit 10 will be described in detail with reference to FIGS. 2 to 6.

Referring to FIG. 2, the synchronization signal generation unit 20 generates a horizontal synchronization signal (hereinafter referred to as “Hsync”) in synchronization with the clock generation unit 22 generating a reference clock and the reference clock. A horizontal synchronizing signal generator 24 and a vertical synchronizing signal generator 26 for generating a vertical synchronizing signal (hereinafter referred to as "Vsync") from the Hsync information in synchronization with the reference clock. The clock generator 22 generates a reference clock by a control signal transmitted via a data bus. At this time, the control unit 8 transmits a control signal which sets the frequency of the reference clock to be output and the frequency of the horizontal and vertical synchronization signals via the data bus.

Meanwhile, referring to FIG. 3, the memory recording unit 30 may include a horizontal active signal generator 32 generating a horizontal active signal in synchronization with Hsync, and a vertical active signal in synchronization with Hsync and Vsync. And a vertical active signal generator 34 for generating a signal, and a memory reproduction signal generator 36 for generating a memory regeneration signal in response to the horizontal and vertical active signals. The vertical active signal has a high logic in the section where the video signal is in Vsync, and the horizontal active signal has a high logic in the section where the video signal is in Hsync. The memory regeneration signal is also generated by the memory regeneration signal generator 36 in response to the vertical and horizontal active signals. That is, the reproduction signal generated by the memory reproducing unit 30 controls the memory unit 2 to read the image signal to be displayed in the horizontal direction and the image signal to be displayed in the vertical direction among the image signals stored in the memory unit 2. .

Referring to FIG. 4, the zoom-in control unit 50 may include a horizontal delay signal generator 52 generating a horizontal delay signal in synchronization with Hsync, and a vertical delay signal generator generating a vertical delay signal in synchronization with Hsync and Vsync ( 54, a horizontal region signal generator 56 for generating a horizontal region signal from the horizontal delay signal, and a vertical region signal generator 58 for generating a vertical region signal from the vertical delay signal. When the user designates a specific portion, the controller 8 sets the position and size of the window to be displayed on the screen by enlarging / reducing the specific portion, and the position and size information of the window is zoomed in via the data bus. 50 is sent. At this time, the horizontal delay signal generator 52 generates a horizontal delay signal so as to delay the horizontal line corresponding to the horizontal position of the window. The vertical delay signal generator 54 generates a vertical delay signal so as to delay the vertical line corresponding to the vertical position of the window. In addition, the horizontal area signal generator 56 generates a horizontal area signal to secure an area of the horizontal line corresponding to the size of the horizontal line of the window. The vertical region signal generator 58 generates a vertical region signal to secure the region of the vertical line corresponding to the size of the vertical line of the window. That is, the zoom-in control unit 50 generates horizontal and vertical delay signals corresponding to the position of the window for displaying a specific portion set by the control unit 8 on the screen, and also horizontal and vertical corresponding to the size of the window. Generate an area signal.

Referring to FIG. 5, the display controller 40 generates a buffer memory write signal from a horizontal / vertical delay signal generator 42 generating horizontal and vertical delay signals in synchronization with Hsync and Vsync. A buffer write signal generator 44, a horizontal address controller 41 that controls a horizontal address corresponding to the size of the window in synchronization with Hsync, and a vertical address corresponding to the size of the window in synchronization with Hsync and Vsync And a buffer reproducing signal generator 45 for generating a buffer memory reproducing signal from the horizontal and vertical address signals. When the user designates a specific portion, the horizontal / vertical delay signal generator 42 delays the horizontal line corresponding to the horizontal position of the specific portion and delays the vertical line corresponding to the vertical position of the specific portion. do. The buffer write signal generator 44 generates a buffer write signal from the horizontal and vertical delay signals. In this case, the buffer write signal causes the video signal corresponding to the specific part designated by the user among the video signals stored in the memory unit 2 to be temporarily stored in the buffer memory unit 4. Meanwhile, the horizontal address control unit 41 controls the horizontal address corresponding to the horizontal area according to the area signal transmitted from the zoom-in control unit 50, and the vertical address control unit 43 controls the vertical address corresponding to the vertical area. do. The buffer regeneration signal generator 45 generates a buffer regeneration signal from horizontal and vertical addresses. In this case, the buffer reproducing signal reads out the video signal stored in the buffer memory section 4 and transmits it to the signal processing section 10.

Referring to FIG. 6, the signal processing unit 10 includes a first-in-first-out memory (First In Frist Out Memory; 12 or less " FIFO Memory ") for storing a video signal of a specific portion by a first-in-first-out method by a buffer reproduction signal. A data processor 14 for synchronizing with Hsync and Vsync and processing a video signal of a full screen and a video signal of a specific part by referring to an area signal, and a video signal transmitted from the video signal and the data processor 14 of the full screen. A multiplexer 18 for selectively switching and a multiplexer controller 16 for controlling the multiplexer 18. The operation of the signal processor 10 will be divided into a case in which the user does not specify a specific part and a case in which a specific part is designated. First, when the user does not designate a specific part, the video signal transmitted from the memory unit 2 (that is, the video signal of the full screen) is transmitted to the multiplexer 18. The multiplexer 18 outputs a video signal of a full screen under the control of the multiplexer controller 16. In this case, an image corresponding to the video signal of the full screen is displayed on the screen. On the other hand, when the user designates a specific part, the specific part video signal transmitted from the buffer memory unit 4 is transmitted to the FIFO memory 12. The data processing unit 14 receives a specific portion video signal transmitted from the FIFO memory 12 and a video signal of the entire screen transmitted from the memory unit 2, and enlarges the video signal of the specific portion designated by the user in a window on the screen. In addition to processing the display in a reduced size, the video signal of the entire screen is displayed in portions other than the window. Meanwhile, the signal processing of the data processor 14 will be described in detail with reference to FIGS. 7 and 8. FIG. 7 is a diagram for explaining a concept of enlargement / reduction of a specific portion of a video signal. In FIG. 7A, a window for displaying a video signal of a specific portion is set to X1 and X2 coordinates in the horizontal direction and Y1 and Y2 coordinates in the vertical direction. At this time, X1, Y1 is to set the coordinate position of the window, X2, Y2 is to set the size of the window. In FIG. 7B, a format of a video signal is converted to enlarge / reduce a specific portion. In the horizontal direction, assuming that the total size is 6 in the horizontal direction, the video signal of 1 is 0.5 based on the middle part (that is, 3 and 4) to equalize the enlargement / reduction ratio of a specific part left and right. The video signal of 2 is set to 1 times, and the video signals of 3 and 4 are set to 1.5 times. In addition, the video signal of 5 is set to 1 times and the video signal of 6 is set to 0.5 times. In this way, the zoom ratio is made to have the same ratio. In the vertical direction, the same method as in the horizontal direction is applied. It forms a window having the same ratio. In this case, the middle part is a window part in which a video signal of a specific part is displayed, and the other part is a part in which a video signal of a full screen is displayed. Meanwhile, when the enlarged / reduced video signal is displayed on the screen as shown in FIG. 7, a predetermined distortion may occur, so that the image displayed on the screen is clarified by performing the process of FIG. 8 to compensate for the distortion. The video signal of the specific portion input to the data processor 14 is delayed for a predetermined time to detect the digital video signal of the high frequency component by the edge detector 14a. In this case, the FIFO memory 12 delays the video signal of the specific portion by a predetermined time. In addition, the multiplexer 18 receives the video signal of the full screen and the video signal transmitted from the data processor 14 and outputs the video signal transmitted from the data processor 14 under the control of the multiplexer 18. As a result, an image corresponding to a video signal of a specific portion is enlarged / reduced and displayed on a screen in a window on the screen, and an image corresponding to a video signal of a full screen is displayed on a screen other than the window.

As described above, the apparatus for zooming in a screen portion according to the present invention can enlarge / reduce a specific portion designated by a user and display it in a window on the screen, and display a full screen in an area other than the window to facilitate the user's convenience. There is an advantage.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (5)

A memory unit for temporarily storing the input video signal; A buffer memory unit for temporarily storing a video signal of a specific portion; A zoom-in control unit which is controlled by a control unit and sets a window area for enlarging / reducing the specific part and displaying the window area; A display controller which controls a buffer memory unit in response to an area signal of the zoom-in controller; And a signal processing unit for converting the format of the video signal to simultaneously output the video signal of the entire screen and the video signal of the specific part. The method of claim 1, A memory recording section for generating a recording signal for recording the video signal in the memory section; And a memory reproducing section for generating a reproducing signal for reproducing the video signal stored in the memory section. The method of claim 1, The zoom-in control unit, A horizontal delay signal generator for generating a horizontal delay signal in synchronization with the horizontal synchronization signal; A vertical delay signal generator for generating a vertical delay signal in synchronization with the horizontal and vertical synchronization signals; A horizontal region signal generator for generating a horizontal region signal from the horizontal delay signal; And a vertical area signal generator for generating a vertical area signal from the vertical delay signal. The method of claim 1, The display control unit, A horizontal / vertical delay signal generator for generating horizontal and vertical delay signals in synchronization with the horizontal and vertical synchronization signals; A buffer write signal generator for generating a write signal of a buffer memory from the horizontal and vertical delay signals; A horizontal address control unit controlling a horizontal address corresponding to the size of the window in synchronization with the horizontal synchronization signal; A vertical address controller configured to control a vertical address corresponding to the size of the window in synchronization with the horizontal and vertical synchronization signals; And a buffer playback signal generator for generating a playback signal of the buffer memory from the horizontal and vertical address signals. The method according to any one of claims 1 and 4, The signal processing unit, A first-in, first-out memory for storing a video signal of a specific portion by a first-in first-out method according to the buffer reproduction signal; A data processor for converting the format of the video signal so that the video signal of the entire screen and the video signal of a specific part are simultaneously output with reference to the area signal; A multiplexer for selectively switching the video signal of the full screen and the video signal transmitted from the data processor; And a multiplexer controller for controlling the multiplexer.