JPH0318387B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an image conversion device that performs geometric transformations such as enlargement, reduction, rotation, etc. on an original image by performing digital processing using a memory or the like.

Examples of geometric transformation include converting an input image 1 shown in FIG. 1A into an output image 2 shown in FIG. 1B. Here, the converted image 3 in the output image 2 and the background part 4 such as a black image
According to the conventional image conversion device, the outline between the two (indicated by the hatched area) has noticeable jagged edges as shown in an enlarged view in FIG. 1C. According to _the conventional device, pixel P ₁ in FIG.
Since the brightness and color (which have values obtained by interpolation from surrounding pixels) corresponding to P ₂ ' (see Figure 1A) were assigned, the background part 4 and the outline of the input image 1 If there was a large difference in color and brightness between the surrounding areas, the jaggedness along the contour became noticeable.

The present invention is intended to prevent jaggedness from occurring in the outline of an output image when performing the above-described geometric transformation.

An embodiment of the present invention will be described below with reference to the drawings. In this example, before performing the original transformation on the input image 1 shown in FIG. 2A, preprocessing is applied to the input image 1 having a contour band 5 (indicated by a dotted line area) as shown in FIG. 2B. ′ is formed. This contour band 5 is located along the contour of the input image 1,
The level gradually changes toward the brightness level of the background portion 4 of the output image 2. Figure 3A
represents the change in brightness level along the vertical line 6 of the input image 1, and B represents the change in the brightness level along the vertical line 7 of the input image 1.
represents the change in brightness level along the . And the change in brightness level along similar lines 6 and 7 for the input image 1' with the contour band 5 added is shown in FIG.
and D, and in the portion corresponding to the contour band 5, the brightness level gradually changes toward the brightness level LB of the background portion 4.

As described above, when the input image 1' to which the contour band 5 is added is geometrically transformed, the converted contour band 5 is generated between the converted image 3 and the background portion 4, as shown in FIG. 2C. ′ is positioned, and the jagged edges become less noticeable. Further, in one embodiment of the present invention, the width of the contour band 5 added to the input image 1 is changed according to the local enlargement ratio so that the width of the contour band 5' after conversion is constant. . In other words, the width of the contour band 5 is made relatively narrow in the locally enlarged portion, and the width of the contour band 5 is made relatively narrow in the locally enlarged portion.
Keep the width relatively wide.

In the case of the conversion shown in FIG. 2, the left side of the input image 1 is a part with a small magnification, and the right side is a part with a high magnification, so the width of the contour band 5 is adjusted accordingly. It is wider on the left side of the image and narrower on the right side. In this way, by making the width of the contour band 5' in the output image 2 approximately constant,
It is possible to avoid such problems as the width of the contour band becomes wider during enlargement, causing blurring in the output image 2, or the width of the contour band becomes smaller during reduction, and the effect of making the jagged edges less noticeable is lost.

Note that the same preprocessing described above may also be applied to color difference signals. FIG. 4 shows the configuration of an embodiment of the image conversion device of the present invention. The image conversion device of the present invention includes a preprocessing device 8 to which an input image signal is supplied and which forms a contour band 5 on the input image signal.
, a conversion information generating device 10 that generates information a indicating a local enlargement rate, information b indicating a contour, and conversion information for performing geometric conversion such as enlargement, reduction, and rotation on an input image; The conversion processing device 9 performs image conversion processing on the image signal supplied from the preprocessing device 8 based on the conversion information supplied from the generation device 0.

Information a indicating the magnification rate from the conversion information generating device 10 is supplied to the ROM 11 in the preprocessing device 8,
It is converted into information d indicating the width of the contour band 5. The interpolation circuit 12 in the preprocessing device 8 includes a ROM
Information d indicating the contour zone 5 is supplied from the converter 11, and information b indicating the contour is supplied from the conversion information generating device 10.
is supplied, and furthermore, luminance (or hue) information c of a background portion 4 (background image) added as a background of the input image after the input image is converted is supplied.

Next, the operation of an embodiment of the image conversion apparatus of the present invention shown in FIG. 4 will be described.

When the input image signal is supplied to the interpolation circuit 12 in the preprocessing device 8, it is calculated based on the information b indicating the contour, the information d indicating the width of the contour band 5, and the luminance (or hue) information c of the background portion 4. , a background portion 4 in which the brightness of the contour part from the contour of the input image to the point inside by a predetermined width is added after conversion from the brightness level of the corresponding part of the input image from the inside toward the contour.
The interpolation circuit 12 converts the brightness level (or hue) of the input image signal so that the brightness level (or hue) of the input image signal gradually changes to that of the background image.

The output signal of the interpolation circuit 12 is supplied to the conversion processing device 9. The conversion processing device 9 performs conversion processing on the image signal supplied from the interpolation circuit 12 based on the conversion information supplied from the transformation information generation device 10, adds a background image, and outputs the signal.

As described above, the image signal output from the conversion processing device 9 becomes as shown in FIG. 2C. The contour portion of the image signal output from the conversion processing device 9 is as shown in an enlarged view in FIG. 2D.
Although there are jagged edges, the luminance is equal to the luminance of the background, so the jagged edges are not noticeable.

As understood from the description of one embodiment above,
According to this invention, even if there is a large difference in brightness or color near the outline of the input image and the background part, it is possible to prevent jaggedness from becoming noticeable along the outline of the output image, resulting in visually favorable output. This can generate images. In addition, when adding a contour band to an input image, by varying the width of the contour band depending on the local enlargement rate, blurring may occur in the contour part of the output image or the contour band may be lost. You can avoid the inconvenience of being left behind.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram used to explain a conventional image conversion device, FIGS. 2 and 3 are schematic diagrams used to explain an embodiment of the present invention, and FIG. 4 is a schematic diagram used to explain an embodiment of the present invention. FIG. 2 is a block diagram showing the configuration. 1... Input image, 2... Output image, 4... Background portion, 5... Contour band, 8... Preprocessing device, 9...
Conversion processing device.

Claims (1)

[Claims] 1. Conversion information generating means 10 that generates information indicating the outline of the input image after conversion and conversion information for performing geometric conversion on the input image, and the luminance of the background image added to the input image after conversion. Information indicating the level or hue and the contour of the input image after conversion is input, and the brightness level or hue of the background image to which the brightness level or hue of the contour of the input image is added after conversion from the inside to the contour an interpolation means 8 for converting the brightness level or hue of the outline of the input image so that the brightness level or hue of the outline of the input image gradually changes; and a conversion process is performed on the image signal supplied from the interpolation means 8 based on the conversion information. conversion processing means 9 for adding the background image to the converted input image to form an output image;
An image conversion device comprising: