JP2006238436A - Projection video display device, method of correcting shape of projection video image, program, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projection type, matrix display device that corrects distortion of a projection video image when a video image is projected with a projection light axis being obliquely inclined to a screen. <P>SOLUTION: A device body projects a video image displayed on a matrix video display to a screen as radial projection light through a projection lens, so that it displays a projection video image on the screen. A distortion correction device corrects distortion of a projection video image when the image is projected with a projection light axis being obliquely inclined to the screen. Test video means displays a test projection video image on the screen using, for example, a rectangle as a test video image. A coordinate input device inputs coordinates of four corners of a non-distorted rectangle corresponding to coordinates of four corners of a distorted rectangle. A pointer moves the four corners of the distorted rectangle to the four corners of the non-distorted rectangle. A distortion correction circuit corrects distortion of the projection video image based on a relationship between the coordinates of the four corners of the distorted rectangle and the coordinates of the four corners of the non-distorted rectangle. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a projection-type grid display device and a projection image distortion correction method. More specifically, the present invention projects an image from an oblique direction with respect to the screen when the screen is inclined with respect to the projection optical axis. In particular, the present invention relates to a projection-type grid display device having a mechanism for correcting distortion of a projected image caused by oblique projection, and a method for correcting such a projected image distortion.

  The projection-type lattice display device displays an image on a lattice image display body such as a liquid crystal panel, and projects and displays the image of the image display body as radial projection light on a screen through a projection lens. By the way, when displaying an image on a screen using a projection-type grid-like display device, the projection optical axis is moved vertically with respect to the screen, rather than projecting the image with the projection optical axis orthogonal to the screen. In many cases, the image is projected at an angle. When the image is displayed on the screen by tilting the projection optical axis in the vertical direction, the rectangular image is displayed as a trapezoidally distorted image.

  Therefore, a correction circuit that corrects an image in which a rectangle is distorted into a trapezoid correctly into a rectangle when the image is projected in an up-down direction with respect to the screen is provided in a conventional projection-type grid display device. A conventional correction circuit is composed of a correction unit when the projection optical axis is tilted upward and a two-way correction unit including a correction unit when the projection optical axis is tilted downward. The user of the display device operates the correction circuit by operating the main body button of the projection-type lattice display device or the remote control device, and corrects the distortion.

  By the way, when projecting from the front of the screen, avoid the place where the observer is, install a projection-type grid display device, or install a projection-type grid display device between the observer and the screen and observe In general, the installation location of the projection-type lattice display device with respect to the screen is restricted in order to install it with care so as not to obstruct the view of the person. For this reason, an image is often projected from an oblique direction with the projection optical axis inclined with respect to the screen. When an image is displayed on the screen with the projection optical axis inclined with respect to the screen, the rectangular graphic image is distorted into a substantially diamond shape as shown in FIG. In FIG. 6, a projector means a projection-type grid display device. The same applies to the following.

  However, when the projection optical axis of the projection-type lattice display device is tilted only in the vertical direction with respect to the screen, it is dealt with by a conventional correction circuit for bi-directional correction to sufficiently correct image distortion. However, when the image is displayed with the projection optical axis of the projection-type grid display device inclined with respect to the screen, the conventional bi-directional correction circuit corrects the image distortion. I can't. In addition, when the projector is projected obliquely with respect to the screen, it is not easy for a user who does not have expertise to correct the distorted image.

  SUMMARY OF THE INVENTION An object of the present invention is to provide a projection-type lattice display device having means for correcting distortion of a projected image when the image is projected with the projection optical axis inclined obliquely with respect to the screen. is there.

  In order to achieve the above object, a projection-type lattice display device according to the present invention projects an image displayed on a lattice-like image display body onto a screen as a radial projection light through a projection lens, and projects the image on the screen. As a correction device for correcting distortion of the projected image when the projection optical axis is projected obliquely with respect to the screen in the projection-type grid display device, any one of the regular polygons is used as a test image, Means for projecting a test image on a screen to display the test image, a coordinate input device for inputting coordinates of a test image having no distortion corresponding to the coordinates of a specific position defining a distortion contour of the test image, and a test A pointer that moves the specific position that defines the distortion contour of the projected image to the coordinates of the test image without distortion input by the coordinate input device, and the distortion contour of the test projection image The coordinates of a specific position defined based on the relationship between corresponding coordinates of the undistorted test video is characterized by comprising a distortion correcting means for correcting the distortion of the projected image.

  In the present invention, a figure having a clear geometric relationship between coordinates defining the outline of the figure, for example, a rectangle is projected as a test image, and a coordinate relationship between a distortion projection image and an undistorted projection image is set. According to the coordinate relationship, the distortion correction means corrects the subsequent actual projection image to generate a projection image without distortion. For example, a rectangle is used for the test video. The coordinate input device is, for example, a mouse. An actual input video for display purposes can also be used as the test video. In that case, the means for displaying the test projection video projects the actual input video for the purpose of the projection display as the test projection video, and the coordinate input device has a specific position that defines the distortion contour of the actual input video. The coordinates of the actual input video without distortion corresponding to the coordinates are input, and the pointer sets the specific position that defines the distortion contour of the actual input video to the coordinates of the actual input video without distortion input by the coordinate input device. The distortion correction means moves and corrects the distortion of the projected video based on the relationship between the coordinates of the specific position that defines the distortion contour of the actual input video and the corresponding coordinates of the actual input video without distortion.

  The projected image distortion correction method according to the present invention projects an image displayed on a grid-like image display body onto a screen as a radial projection light through a projection lens, and displays the projected image on the screen. A method for correcting distortion of a projected image that corrects distortion of the projected image when the projection optical axis is obliquely projected, and a specific position that defines the distortion contour of the test projection image projected on the screen has no distortion. The step of moving with a pointer to the coordinates defining the test video, the step of calculating the distortion correction parameter from the relationship between the coordinates of the specific position defining the distortion contour of the test projection video and the coordinates defining the test video without distortion And a step of correcting the projected video according to the distortion correction parameter.

  An actual input video for display purposes can also be used as the test video. In that case, the actual input video for projection purposes is projected as the test projection video, the specific position that defines the distortion contour of the actual input video projected on the screen, and the actual input video without distortion is specified. A step of moving a pointer to the coordinates to be corrected, a step of calculating a distortion correction parameter from the relationship between the coordinates of a specific position that defines the distortion contour of the actual input video and the coordinates that define the actual input video without distortion; And a step of correcting the projected image according to the distortion correction parameter.

  According to the present invention, any one of the regular polygons is used as a test video, and the test video is projected on the screen to display the test projection video, and the test video coordinates corresponding to the specific coordinates of the test projection video are input. Based on the relationship between the coordinate input device, the pointer that moves the specific position of the test projection video to the normal coordinates (the coordinates of the undistorted video), the specific coordinates of the test projection video, and the normal coordinates. The projection-type grid display device includes a distortion correction unit that corrects distortion. As a result, it is possible to easily correct the distortion of the projected image when the projection optical axis is projected obliquely with respect to the screen. In addition, according to the method of the present invention, a method for easily correcting distortion of a projected image when the projection optical axis is projected obliquely with respect to the screen is realized.

Embodiments of the present invention will be described below specifically and in detail with reference to the accompanying drawings.
Embodiment of Projection-Type Grid Display Device This embodiment example is an example of an embodiment of a projection-type grid display device according to the present invention, and FIG. 1 is a projection-type grid shape according to this embodiment example. It is a block diagram which shows the structure of a display apparatus. As shown in FIG. 1, the projection-type grid display device 10 according to this embodiment includes a projection-type grid display device body 12, and a distortion correction device 14 attached to the projection-type grid display device body 12. Consists of The distortion correction device 14 includes a test video display unit 16 that displays a test projection video, a coordinate input device 18, a pointer 20, and a distortion correction circuit 22.

  The projection-type grid display device main body 12 projects the video displayed on the grid video display body onto the screen as radial projection light through the projection lens, and displays the projected video on the screen. The distortion correction device 14 is a device that corrects the distortion of the projected image when the projection optical axis is projected obliquely with respect to the screen.

  The test video means 16 uses a figure having a clear geometric relationship between coordinates defining the outline of the figure, that is, a regular polygon, for example, a rectangle as a test video, and projects the test video on the screen to perform the test. Display the projected image. The coordinate input device 18 is an input device such as a mouse, and the coordinates of specific positions that define the distortion contour of the test projection video, for example, the coordinates of the four corners of the undistorted rectangle corresponding to the coordinates of the four corners of the distorted rectangle. input. The pointer 20 moves from the four corners of the distorted rectangle to the coordinates of the four corners of the input distorted rectangle. The distortion correction circuit 22 corrects the distortion of the projected video based on the relationship between the coordinates of the four corners of the distorted rectangle and the coordinates of the four corners of the undistorted rectangle.

  With reference to FIG. 2 to FIG. 4, a method of using the distortion correction device 14 of the projection type lattice display device 10 of the present embodiment will be described. FIG. 2 to FIG. 4 are diagrams showing the shape of the projected image at each stage when correcting distortion of the projected image obtained by projecting the image using the projection-type grid display device of this embodiment. In this embodiment, first, a test image means 16 built in the projector projects a rectangular image on the screen with the projection optical axis oblique to the screen and is distorted as shown in FIG. A rectangular test projection image 30 is obtained. Next, using the coordinate input device 18 such as a mouse, as shown in FIG. 3, four coordinate designation points 32A to 32D are designated in the test projection video 30 in accordance with the screen frame. The distortion correction circuit 22 calculates and sets distortion correction parameters from the coordinate data of the four points 32A to 32D. Thereafter, the distortion correction circuit 22 corrects the distorted projection image based on the set distortion correction parameter to obtain a projection image 34 without distortion as shown in FIG. As the test video, an actual input video intended for projection display can be used.

Embodiment of Projected Image Distortion Correction Method This embodiment is an example of a projection image distortion correction method according to the present invention, and FIG. 5 shows a projection image distortion correction method according to this embodiment. It is a flowchart which shows a procedure. The projected image distortion correction method of the present embodiment example projects the image displayed on the lattice-shaped image display body onto the screen as radial projection light through the projection lens, and displays the projected image on the screen. This is a method of correcting the distortion of the projected image when the projection optical axis is obliquely projected. As shown in FIG. 5, first, in a first step S ₁ , an undistorted contour corresponding to specific positions defining the distorted contour of the test projection image projected on the screen, for example, four corners of a distorted rectangle. For example, the coordinates of the four corners of the rectangle without distortion are designated by the pointer. In other words, by performing the operation of moving the designated coordinates indicated by the pointer to the coordinates input to the coordinate input device a plurality of times,
Then, in a second step S _2, (described as in FIG. 5 CPU) distortion correction circuit 22 calculates a distortion correction parameter based on the four-point coordinates, set. In the third step S ₃ , the distortion correction circuit 22 writes the calculated correction parameter in the storage device and the correction LSI. The correction LSI corrects the distorted projection image according to the written correction parameter and displays a projection image that is not distorted.

  In addition to the method of determining the position by moving the pointer as described above, the coordinate input first selects which point to adjust from the four points, and then obtains coordinate information from the coordinate input device. The method may be used. By using this method and always processing the coordinate information, the correction result is reflected in the video in real time. As the test video, an actual input video intended for projection display can be used.

It is a block diagram which shows the structure of the projection type grid | lattice display apparatus of the example of an embodiment. It is a figure which shows the shape of the distortion projection image | video at the time of carrying out distortion correction of the projection image | video which projected the image | video using the projection type grid | lattice display apparatus of the example of an embodiment. It is a figure which shows a coordinate designation | designated point. It is a figure which shows the projection image by which distortion correction was carried out. It is a flowchart explaining the procedure of the distortion correction method of the projection image | video of the example of an embodiment. It is a figure which shows a projection image with distortion.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Projection type | mold grid | lattice display apparatus 12 Example projection type | mold grid | lattice display apparatus main body 14 Distortion correction apparatus 16 Test image display means 18 Coordinate input apparatus 20 Pointer 22 Distortion correction circuit 30 Distorted rectangular test projection image 32 4 Point coordinate designation point 34 Projection image without distortion

Claims (4)

In the projection-type grid display device that projects the image displayed on the grid-like image display body onto the screen as radial projection light through the projection lens, and displays the projection video on the screen.
As a correction device that corrects the distortion of the projected image when the projection optical axis is projected obliquely to the screen, one of the regular polygons is used as a test image, and the test image is projected onto the screen to display the test projection image. Means for displaying;
A coordinate input device for inputting the coordinates of the test video without distortion corresponding to the coordinates of the specific position defining the distortion contour of the test projection video;
A pointer that moves the specific position that defines the distortion contour of the test projection image to the coordinates of the test image without distortion input by the coordinate input device;
Distortion correcting means for correcting the distortion of the projected video based on the relationship between the coordinates of the specific position that defines the distortion contour of the test projected video and the corresponding coordinates of the test video without distortion, Projection-type grid display. The means for displaying the test projection video projects the actual input video for the purpose of projection display as the test projection video, and the coordinate input device is a distortion corresponding to the coordinates of a specific position that defines the distortion contour of the actual input video. Enter the coordinates of the actual input video without any distortion, and the pointer moves to the coordinates of the actual input video without any distortion input by the coordinate input device, and moves the specified position that defines the distortion outline of the actual input video to correct the distortion. The means corrects the distortion of the projected video based on the relationship between the coordinates of the specific position that defines the distortion contour of the actual input video and the corresponding coordinates of the actual input video without distortion. Item 4. A projection-type grid display device according to Item 1. When the image displayed on the grid-like image display is projected on the screen as radial projection light through the projection lens and the projection image is displayed on the screen, the projection is performed with the projection optical axis oblique to the screen. A method for correcting distortion of a projected image for correcting image distortion, the step of moving a specific position defining a distortion outline of a test projection image projected on a screen to a coordinate defining a test image without distortion Calculating a distortion correction parameter from the relationship between the coordinates of a specific position that defines the distortion contour of the test projection video and the coordinates defining the test video without distortion, and correcting the projection video according to the distortion correction parameter A distortion correction method for projected video, comprising: As a test projection video, the actual input video for projection purposes is projected, and the specific position that defines the distortion contour of the actual input video projected on the screen is pointed to the coordinates that define the actual input video without distortion. A step of calculating a distortion correction parameter based on the relationship between the step of moving, the coordinates of the specific position that defines the distortion contour of the actual input video, and the coordinates that define the actual input video without distortion, and according to the distortion correction parameter The method for correcting distortion of a projected image according to claim 3, further comprising a step of correcting the projected image.

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