JPH03192979A - Display system for picture - Google Patents

Abstract

PURPOSE:To reduce turn-back distortion or blur by limiting beforehand the frequency band of an input picture by filter processing whose pass band is the frequency band capable of displaying the input picture. CONSTITUTION:A display device is provided with a position information setting means 1, a conversion information setting means 2, a filter factor calculating means 3, an input picture read-out means 4, a filter means 5, and a picture display means 6. Here, position information to show the position of the picture element of the input picture and conversion information to show conversion to be given to the input picture are set, and a filter factor whose pass band is the frequency band capable of displaying the input picture to be determined from the conversion information and the frequency band capable of displaying a display picture is obtained. Then, the values of plural picture elements in the circumference of the position shown by the position information are read out from the input picture, and the filter processing is given to these values of plural picture elements by using the filter factor, and the value of every picture element of the display picture is obtained, and the turn-back distortion or the blur appearing on the display picture can be restricted.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an image display method that converts an input image into display images of different shapes and displays the converted images.

(Prior Art) There is a technique called texture mapping as a general technique used in computer graphics. This technique is a technique that expresses complex patterns on the surface of an object by pasting an input image onto the surface of the object based on predetermined rules and displaying this on a display image. However, when displaying the actual image in one display image, the shape transformation from the input image to the display image is determined based on the position of the object surface on the display image, and the shape of the input image is transformed accordingly. Generate and display a display image.

In particular, as a well-known method for this shape transformation, there is a method called affine transformation. In this affine transformation, for example, a rectangular input image is generally transformed into a parallelogram display image.

Details of these texture mapping and affine transformations can be found in, for example, Reference Engineer: Toshio Tsukada, [Texture Mapping to Realistically Draw Object Surfaces], Nikkei CG, 19
It is described in the November 1987 issue, pages 154-159.

In addition, digital video effects (hereinafter abbreviated as DVE) used in program production at broadcasting stations, etc.
A method for transforming the shape is given in advance, and the shape of the input image is converted into a display image according to this method and displayed.

(Problem to be Solved by the Invention) When converting the shape of an input image into a display image using texture mapping or DVE, if the size of the display image is smaller than the input image, it is necessary to wrap the shape of the input image into the display image. Distortion will occur. In order to remove such aliasing distortion, conventional DVEs apply a low-pass filter to the input image in advance and then perform shape conversion. This process limits the high frequency components of the input image, so
No aliasing distortion occurs in the displayed image.

Incidentally, the method of converting the shape of the input image may differ depending on the portion of the displayed image. In such cases, conventional methods apply one type of low-pass filter to the input image.

Therefore, for example, if the reduction ratio of the input image differs for each part of the displayed image, if a filter is applied that prevents aliasing distortion from occurring in the part with a large reduction ratio, the displayed image will become blurred in the part with a small reduction ratio. There is a problem with storing it away.

Furthermore, if a filter is applied that does not cause blurring in areas where the reduction ratio is small, aliasing distortion will occur in areas where the reduction ratio is large, causing problems.

The present invention solves the above-mentioned problems and eliminates aliasing distortion,
The purpose of the present invention is to provide an image display method that reduces blur.

(Means for Solving the Invention) The image display method of the present invention converts an input image into a display image of a different shape and displays the input image for each pixel of the display image. Set position information indicating the position of a pixel and conversion information indicating the conversion to be performed on the input image, and determine the displayable frequency band of the input image determined from the conversion information and the displayable frequency band of the display image. Find a filter coefficient with a passband of It is comprised of means for determining the value of each pixel of the display image and displaying the display image.

In addition, the image display method of the present invention that converts another input image into a display image of a different shape and displays it indicates, for each pixel of the display image, the position of the pixel of the input image that should be displayed at that pixel. setting position information and transformation information indicating transformation to be performed on the input image, and setting in advance a plurality of types of filter coefficients that limit the frequency band of the input image;
A filter coefficient having a passband closest to the displayable frequency band of the input image determined from the conversion information and the displayable frequency band of the display image is selected from the plurality of types of filter coefficients, and the filter coefficient is The values of the plurality of pixels around the position to be displayed are read from the input image, and the values of the plurality of pixels are filtered using the filter coefficient to obtain the value of each pixel of the display image. It consists of a means of display.

In addition, the image display method of the present invention that converts another input image into a display image of a different shape and displays it indicates, for each pixel of the display image, the position of the pixel of the input image that should be displayed at that pixel. a frequency band that approximates the displayable frequency band of the input image determined from the conversion information and the displayable frequency band of the display image by setting position information and conversion information indicating the conversion to be performed on the input image; Find the filter coefficients in the horizontal and vertical directions of a horizontal and vertical separation type filter with a passband of The device is configured to perform horizontal filter processing and vertical filter processing on the values of a plurality of pixels in the display image to obtain the value of each pixel in the display image, and display the display image.

In addition, the image display method of the present invention that converts another input image into a display image of a different shape and displays it indicates, for each pixel of the display image, the position of the pixel of the input image that should be displayed at that pixel. Position information and transformation information indicating the transformation to be applied to the input image are set, filter coefficients of multiple types of horizontal and vertical separation type filters that limit the frequency band of the input image are set in advance, and the transformation information is set. A filter coefficient having a passband closest to the displayable frequency band of the input image, which is determined from The values of the plurality of pixels are read from the input image, and the values of the plurality of pixels are subjected to horizontal filter processing and vertical filter processing using the filter coefficient to obtain the value of each pixel of the display image. seek,
It is constituted by means for displaying the above-mentioned display image.

(effect) The image display method of the present invention will be explained.

When converting an input image into a display image of a different shape and displaying the converted image, position information indicating the position of the pixel of the input image to be displayed at each pixel of the display image is first set for each pixel of the display image.

This position can be easily determined by providing a shape conversion rule from the input image to the display image. However, the position of this pixel does not necessarily have to match the position of each pixel in the input image, and if the position is set between each pixel in the input image, the values of surrounding pixels may be interpolated. The value of the set position can be obtained by using the pixel value of the displayed image.

At the same time, information indicating the transformation to be applied to the input image is set for each pixel of the display image. Specifically, for example, the enlargement/reduction of the input image at that position, the rotation angle of the input image, etc. may be set.

By the way, the frequency band of the input image that does not cause aliasing distortion due to shape conversion, that is, the displayable frequency band of the input image is unique based on the conversion information set for each pixel of the display and the displayable frequency band of the display image. It is decided.

Here, if the frequency band of the input image is limited in advance by filtering using the displayable frequency band of the input image as a passband, aliasing distortion will not occur in the displayed image due to shape conversion. Moreover, since the passband of this filter becomes a frequency band that can be displayed in the display image by shape conversion, no blurring occurs in the display image.

Therefore, the filter coefficients of a filter whose passband is the displayable frequency band of the input image determined from the conversion information set for each pixel of the display image and the displayable frequency band of the display image are determined. The method for determining the filter coefficients is described in detail in Document 2: "Digital Filter" by Hamming, translated by Hiroshi Miyayo and Hideki Imai, published by Kagaku Gijutsu Publishing Co., Ltd.

Then, the values of a plurality of pixels around the position indicated by the position information set for each pixel of the display image are read from the input pixel. The thus read values of the plurality of pixels are subjected to filter processing using the obtained filter coefficients to obtain the value of each pixel of the display image.

However, if the position of the pixel indicated by the set position information is a position between each pixel of the input image, at the same time as the filter processing, interpolation processing of the values of the surrounding pixels is also performed, and the set position information is used to interpolate the values of the surrounding pixels. Find the value of the pixel at the indicated position.

Finally, display the display image.

As mentioned earlier, since the filter processing is performed using the displayable frequency band of the input image as the passband, aliasing distortion and blurring will not occur in the displayed image.

Furthermore, since the filter coefficient to be applied to the input pixel is determined for each pixel of the display image based on the conversion information, it is possible to perform appropriate filter processing even if the shape of the input image is converted differently for each part of the display image. , it is possible to limit the occurrence of aliasing and blurring in displayed images.

Also, instead of finding filter coefficients for each pixel of the display image in this way, multiple types of filter coefficients that limit the frequency band of the input image are set in advance and selected and used based on the conversion information. You can also do that. In this selection, a filter coefficient that has a pass band closest to the displayable frequency band of the input image is selected. - For example, find a filter coefficient that reduces the area of a portion other than the common portion of the displayable frequency band of the input image and the passband of the filter.

By selecting and using filter coefficients in this manner, the amount of processing can be much reduced compared to the case where filter coefficients are determined for each pixel.

However, in this case, the passband of the filter and the displayable frequency band of the input image do not necessarily match. However, by preparing multiple types of filter coefficients, it is possible to bring this passband closer to the displayable frequency band of the input image, and it is possible to sufficiently limit the occurrence of aliasing distortion and blurring in the displayed image. I can do it.

Moreover, instead of performing arbitrary filter processing to limit the frequency band of the input image, filter processing using a horizontal and vertical separation type filter can also be performed. That is, first, a horizontal filter coefficient and a vertical filter coefficient are determined for a horizontal/vertical separation type filter whose pass band is a frequency band that approximates the displayable frequency band of the input image. Using these filter coefficients, horizontal filter processing and vertical filter processing are performed.

In this case, the passband of the filter does not necessarily match the displayable frequency band of the input image.

However, by bringing this passband close to the displayable frequency range of the input image, it is possible to sufficiently limit the occurrence of aliasing and blurring in the displayed image.

Moreover, by using such a horizontal/vertical separation type filter, the amount of filter calculation processing can be reduced compared to the case where an arbitrary filter is generally used.

Also, instead of finding horizontal and vertical filter coefficients for each pixel, multiple types of filter coefficients that limit the frequency band of the input image are set in advance, and the horizontal and vertical filter coefficients are set respectively. It can also be used selectively.

In this selection, the horizontal and vertical filter coefficients closest to the displayable frequency band of the input image are selected. - For example, find a filter coefficient that minimizes the area other than the intersection of the displayable frequency band of the input image and the passband of the filter.

By selecting and using filter coefficients in this way, the amount of processing can be much reduced compared to the case where horizontally and vertically separated filter coefficients are determined for each pixel.

(Example) Hereinafter, the present invention will be explained in detail with reference to the drawings.

FIG. 1(a) is a block diagram showing an example of a display device that implements the image display method of the first invention. Figure 1 (a
), in converting the input image 100 into a display image 105 of a different shape and displaying it, the position information setting means 1 first converts each pixel of the display image 105 according to a pre-given conversion rule. Position information 101 indicating the position of the pixel of the input image 100 to be displayed on the pixel is set and stored. The position indicated by this position information 101 does not need to match the pixel position of the input image 100,
It may also indicate positions between pixels of the input image 100.

At the same time, the conversion information storage means 2 sets and stores conversion information 102 indicating the shape conversion to be applied to the input image 100 for each pixel of the display image 105 according to a predetermined conversion rule. This conversion information 102 is information indicating, for example, the enlargement/reduction ratio of the input image 100 by shape conversion and the rotation angle of the input image.

FIG. 2 (aXb) shows the input image 100 and the display image 105.
FIG. 2 is an explanatory diagram showing the relationship between frequency bands and For example, in the displayable frequency band A of the display image 105, the conversion information 1
By applying the inverse transformation of the shape transformation shown in 02,
The displayable frequency band A' of the input image 100 shown in FIG. 2(b) can be determined.

Here, within the frequency band B of the input image 100, the frequency band C shown in the shaded area is a portion where aliasing distortion occurs. Therefore, the filter coefficient calculation means 3 calculates the filter coefficient 103 of the filter whose passband is the frequency band A' from the display image 1.
The calculation is performed based on the conversion information 102 set for each pixel of 05.

Next, the input image reading means 4 reads, from the input image 100, the values of a plurality of pixels around the position indicated by the device information 101 constituted by the position information setting means 1. and,
The filter means 5 performs filter processing on the values of these plurality of pixels using a filter coefficient 103 to obtain a display image 105.
Find the value of the pixel.

As a result, only the portion within the frequency band A' of the frequency band B of the input image 100 can be extracted. This portion becomes a displayable frequency band A of the display image 105 by shape conversion. Therefore, by extracting only the frequency band A' of this part and converting the shape, the display image 105 can be displayed without causing aliasing distortion or unnecessary blurring. Since the filter coefficient 103 is calculated based on the conversion information 102 set for each pixel of the image 105, even if the shape conversion method of the input image 100 is different for each part of the display image 105, the Appropriate filter processing can be applied to the entire image, and local occurrences of aliasing distortion and blurring can also be eliminated.

However, if the position of the pixel indicated by the set position information 101 is between each pixel of the input image 100, interpolation processing of the values of surrounding pixels is also performed at the same time as the filter processing, and the pixel position indicated by the set position information 101 is The value of the pixel at the position indicated by the information 101 is determined as the value of the pixel of the display image 105.

The display image 105 obtained in this way is displayed on the display means 6.

FIG. 1(b) is a block diagram showing an example of a display device that implements the image display method of the second invention. Figure 1 (b
), the filter coefficient setting means 7 sets and stores a plurality of types of filter coefficients 107 for limiting the frequency band B of the input image 100. Then, the filter coefficient selection means 8 selects a filter coefficient 103 having a pass band closest to the displayable frequency band A' of the input image 100 from among these filter coefficients 107 based on the conversion information 102 and outputs the selected filter coefficient 103. do. Then, the filter means 5 performs filter processing using the selected filter coefficients 103.

In this case, the passband does not necessarily match the displayable frequency band A' of the input image 100. However, by preparing a plurality of types of filter coefficients 107, it is possible to bring this passband closer to the displayable frequency band A' of the input image 100, thereby reducing the occurrence of aliasing distortion and blurring in the displayed image 105. can be sufficiently limited.

By selecting and using the filter coefficients 103 in this manner, the amount of processing can be much reduced compared to the case where the filter coefficients 103 are determined for each pixel.

FIG. 1(C) is a block diagram showing an example of a display device that implements the image display method of the third invention. Figure 1 (C
), the filter coefficient calculating means 9 converts the horizontal filter coefficient 110 and the vertical filter coefficient 111 of a horizontal/vertical separation type filter whose pass band is a frequency band approximating the frequency band A'. Calculate based on information.

Then, the horizontal filter means 10 first performs filter processing on the values of the plurality of pixels read out from the input image reading means 4 using the horizontal filter coefficient 110, and then the vertical filter means 11 performs filter processing using the horizontal filter coefficients 110. Filter processing is performed using vertical filter coefficients 111, and display image 1 is
Find the value of pixel 05.

FIG. 3 is an explanatory diagram showing the passband of the horizontal/vertical separation type filter. As shown in FIG. 3, the passband of the horizontal/vertical separation type filter is rectangular, so the input image 100
does not necessarily match the displayable frequency band A'.

However, by bringing this passband closer to the frequency band A', it is possible to sufficiently limit the occurrence of aliasing and blurring in the displayed image 105.

In this way, by using the horizontal/vertical separation type filter, the amount of filter calculation processing can be reduced compared to the case where an arbitrary filter is generally used.

However, if the position of the pixel indicated by the set position information 101 is between the pixels of the input image 100, the horizontal filter means 10 and the vertical filter means 1
At the same time as the filter processing in step 1, horizontal and vertical interpolation processing is also performed on the values of the surrounding pixels, and the value of the pixel at the position indicated by the set position information 101 is converted into the value of the pixel in the display image 105. Find it as.

FIG. 1(d) is a block diagram showing an example of a display device that implements the display method of the fourth invention. Figure 1 (d,)
As shown in FIG. 2, the filter coefficient setting means 12 sets and stores a plurality of types of filter coefficients 112 of horizontal and vertical separation filters for limiting the frequency band B of the input image 100. Then, the filter coefficient selection means 8 selects from among these filter coefficients 107 a horizontal filter coefficient 110 and a vertical filter coefficient 111 that have a pass band closest to the displayable frequency band A' of the input image 100.
are selected and output based on the conversion information 102. Then, using the selected horizontal filter coefficients 110 and vertical filter coefficients 11, the horizontal filter means 10 and the vertical filter means 11 respectively perform filter processing.

In this way, by selecting and using the filter coefficients 110.111, the filter coefficients no, ii
The amount of processing can be much reduced compared to the case of calculating i.

In the above explanation, input images are not particularly defined, but include multivalued black and white images, RGB color component images, luminance/color difference signals such as Y, (RY), (B-Y), etc. are all included in this input image.

(Effects of the Invention) As described above, by using the image display method of the present invention, when an input image is converted into a display image of a different shape and displayed, aliasing distortion and blurring that occur in the display image are limited. can do.

[Brief explanation of drawings]

FIGS. 1(a), (b), (c), and (d) are block diagrams showing an example of a display device that implements the image display method of the present invention, and FIGS. 2(a) and (b) are input FIG. 3 is an explanatory diagram showing the relationship between the frequency bands of an image and a display image, and FIG. 3 is an explanatory diagram showing the passband of a horizontal/vertical separation type filter. In the figure, 1... position information setting means, 2... conversion information setting means, 3... filter coefficient calculation means, 4...
- Input image reading means, 5... Filter means, 6.
...Image display means, 7...Filter coefficient setting means, 8
... filter coefficient selection means, 9... filter coefficient calculation means, 10... horizontal direction filter means, 11...
- Vertical filter means.

Claims (4)

[Claims] (1) In an image display method in which an input image is converted into a display image of a different shape and displayed, position information indicating the position of the pixel of the input image to be displayed for each pixel of the display image and the above and conversion information indicating the conversion to be performed on the input image, and find a filter coefficient whose passband is the displayable frequency band of the input image determined from the conversion information and the displayable frequency band of the display image. , reads the values of a plurality of pixels around the position indicated by the position information from the input image, and performs filter processing on the values of the plurality of pixels using the filter coefficient to obtain the value of each pixel of the display image. An image display method for calculating and displaying the above display image. (2) In an image display method in which an input image is converted into a display image of a different shape and displayed, position information indicating the position of the pixel of the input image to be displayed for each pixel of the display image and the above Conversion information indicating the conversion to be applied to the input image is set, multiple types of filter coefficients are set in advance to limit the frequency band of the input image, and the conversion information and the displayable frequency band of the display image are set in advance. A filter coefficient having a passband closest to the displayable frequency band of the input image determined by An image display method in which the values of each pixel of the display image are obtained by reading the values of the plurality of pixels using the filter coefficients, and displaying the display image. (3) In an image display method in which an input image is converted into a display image of a different shape and displayed, position information indicating the position of the pixel of the input image to be displayed for each pixel of the display image and the above Conversion information indicating a transformation to be performed on the input image is set, and a frequency band that approximates the displayable frequency band of the input image determined from the conversion information and the displayable frequency band of the display image is defined as a passband. Find the filter coefficients in the horizontal and vertical directions of the horizontal and vertical separation type filter, read out the values of multiple pixels around the position indicated by the position information from the input image, and use the filter coefficients to calculate the values of the multiple pixels. An image display method in which the value of is subjected to horizontal filter processing and vertical filter processing to obtain the value of each pixel of the display image, and the display image is displayed. (4) In an image display method in which an input image is converted into a display image of a different shape and displayed, position information indicating the position of the pixel of the input image to be displayed for each pixel of the display image and the above Conversion information indicating the conversion to be applied to the input image is set, filter coefficients of multiple types of horizontal and vertical separation type filters that limit the frequency band of the input image are set in advance, and the conversion information and the display image are set in advance. A filter coefficient that has a passband closest to the displayable frequency band of the input image determined from the displayable frequency band of the input image is selected from the plurality of types of filter coefficients, and a filter coefficient is selected from the plurality of types of filter coefficients, and a filter coefficient is selected from the plurality of types of filter coefficients, and a plurality of pixels around the position indicated by the position information are selected. is read from the input image, and using the filter coefficient, the values of the plurality of pixels are subjected to horizontal filter processing and vertical filter processing to obtain the value of each pixel of the display image, and the value of each pixel of the display image is obtained. Image display method for displaying images.