JPH0424912B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an image conversion device that performs geometric conversion of an image using a memory or the like.

As an example of geometric transformation, as shown in FIG. 1, an output image 2 is formed from an input image 1, having a transformed image 3 and a background portion 4, which are obtained by wrapping the input image 1 around a cylindrical surface. There is something to do. In such a case, the input image will also appear on the back side 5 of the converted image 3, resulting in a visually unnatural image.

The present invention aims to solve this problem, and when converting an input image, it discriminates between the front side and the back side, and based on this discrimination, two input images 1A are converted as shown in FIG. 2A. and 1B as the front side image and back side image, respectively, to obtain the output image 2, or even when one input image is used as shown in FIG. It is designed to be replaced with a predetermined color.

As described above, whether the orientation of the surface after conversion is the front side or the back side is first determined from the sign of the determinant of the coefficient matrix in the image conversion method proposed by the applicant. This image transformation method realizes geometric transformation of an image by approximating each minute region of the image by affine transformation. First, to explain this image conversion method, in Figure 3, the point (x ¹ ₀ , x ² ₀ ) of input image 1 is transformed into the point (y ¹ ₀ , y ² ₀ ) of output image 2 by geometric transformation. Suppose you move. Let us write this as y ¹ ₀ = ¹ (x ¹ ₀ , x ² ₀ ) y ² ₀ = ² (x ¹ ₀ , x ² ₀ ). ¹ and ² using the partial differential value (or difference value) at (x ¹ ₀ , x ² ₀ ) of ¹ and ²
is first approximated as follows.

y ¹ y ² =y ¹ ₀ y ² ₀ +a ₁₁ a ₁₂ a _{21 a 22 x} ¹ −x ¹ ₀ x ² −x ² _0However , a _ij =〓i／〓xj｜(x ¹ , x ² )=( x ¹ ₀ , x ² ₀ ) ^× 〓 (i, j=1, 2, α is a number greater than or equal to 1) Here, the determinant of matrix A=(a _ij ) (Q)A(Q)=deta ₁₁ a ₁₂ Mathematically speaking, when a ₂₁ a ₂₂ is positive,
It indicates that the direction of the surface after conversion is the same as the direction of the surface before conversion, that is, it is the front side, and when the value is negative, it indicates that the direction of the surface after conversion is different from that before conversion, that is, it is the back side. It represents. Therefore, depending on the sign (Q)(Q)A(Q), it is possible to distinguish between the front side and the back side.

FIG. 4 shows the configuration of an embodiment of the present invention,
In the figure, 6 and 7 indicate input image memories each having a field memory or frame memory configuration, and one input image memory 6 stores image data corresponding to the front side and the image.
The other input image memory 7 stores image data corresponding to the back side image. One of these two input image memories 6 and 7 is selected by an input image selection device 8, and the input image from the selected input image memory is supplied to a conversion processing device 9. The conversion processing device 9 performs address calculation and image data interpolation processing based on the address calculation, and the converted image data is written into the output image memory 10.

Information on the conversion formula is input in advance to the conversion processing device 9, and address control and arithmetic processing for the image memories 6, 7, and 10 are performed. In other words, when a sample point (x ¹ ₀ , x ² ₀ ) of the input image is specified, the position of the output image corresponding to this sample point is calculated using the conversion formula, and the matrix A is calculated. The write address of the output image memory 10 is formed from the position of the output image and the information in matrix A. Furthermore, information regarding the positive and negative signs of the determinant (Q)A(Q) of the matrix A in each minute region is sent from the conversion processing device 9 to the input image selection device 8, and the determinant (Q)A
When the sign of (Q) is positive, image data is read from the input image memory 6, and when it is negative, image data is read from the input image memory 7.

In addition, when applying a specified color to the back side part 5 as shown in Figure 2B, only one input image memory is used, and when the sign of the determinant (Q)A(Q) is negative, , the process of stopping access from this input image memory and writing the data of the specified color to the specified address of the output image memory is performed.

Furthermore, as shown in FIG. 5, one input image memory 6 is used, and a selection device 1 is provided on the data input side.
1 may be provided, and the selection device 11 may be switched in response to a control signal from the conversion processing device 9 indicating the sign of the determinant (Q)A(Q).

As understood from the description of one embodiment above,
In this invention, by using the sign of the determinant of the matrix that appears during approximation by affine transformation on each microregion, it is possible to determine whether each microregion is a front or back surface. It is possible to obtain an output image with a distinction between the front and back sides. Also,
According to this invention, it is also possible to provide the image conversion device with the function of a switcher.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram used to explain a conventional image conversion device, FIG. 2 is a schematic diagram used to explain an image conversion device according to the present invention, and FIG. 3 is a schematic diagram used to explain an example of an image conversion method. 4 are block diagrams showing the structure of one embodiment of the invention, and FIG. 5 is a block diagram showing the structure of another embodiment of the invention. 1, 1A, 1B...Input image, 2...Output image, 5...Back side, 6,7...Input image memory,
9... Conversion processing device, 10... Output image memory.

Claims (1)

[Claims] 1 A conversion processing means that divides an input image signal into a large number of minute regions, performs image conversion for each region based on a conversion formula of predetermined coefficients, and forms an output image signal; a signal forming means for forming a signal indicating the front and back sides of each region; and a first input image signal indicating the front side and a second input image signal indicating the back side selectively based on the output signal of the signal forming means. An image conversion device comprising: selection means for supplying the input image signal to the conversion means.