JPS62128279A - Picture processor - Google Patents

Abstract

PURPOSE:To obtain a stronger correlation between real data and compensating data than the case when enlarging and processing a picture by using picture data for displaying and to obtain the sharp and enlarged picture by performing the enlarging processing of the picture by the use of all the picture data. CONSTITUTION:In order to display all the picture of an edited picture at first, the display picture data is transferred from a memory device 7 to a display picture memory 6, displayed on a display device 9, while seeing it, a desired parameter required for the enlarging processing is inputted by an I/O device 10, and an enlarged area is displayed on the display picture displayed on the display device 9. When the enlarged area is set the most suitably, the parameter for matching the set enlarged area on the display picture to the area on all the picture is set and the enlarging processing for the picture is performed by the use of all the picture data. In this case, by applying interpolation data to data in a picture element except for the real data, the enlarging processing is performed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to an image processing apparatus useful for enlarging a read image, particularly a high resolution, large capacity image such as an X-ray film image.

[Background of the invention]

In general, an image processing device processes image data obtained from an image reading device in an image processing section, and displays and stores the image data as a grayscale image on an image display device. Here, the image data used for display is edited (reduced) to all read image data to create a matrix size suitable for the image display device, but conventionally, image enlargement processing also uses the above matrix size (reduced size). -e) image data was used and processed at an arbitrary magnification rate. For this reason, as the magnification rate increases, the number of actual data in the data that makes up the enlarged image decreases, and the number of interpolated data increases, and the correlation between the actual data and interpolated data, in other words, increases The correlation between the image and the enlarged image becomes weaker,
There was a problem that a clear enlarged image could not be obtained.

[Purpose of the invention]

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide an image processing device that can obtain a clear enlarged image with a strong correlation between real data and interpolated data.

[Summary of the invention]

The inventive device is an image processing device configured to store all image data read by an image reading device and display image data edited for display by an image processing unit from this all image data. During the enlargement process, the image based on the display image data is displayed on the image display device until the parameter is set for the enlargement process, and the image is used for setting the parameter. Enlargement processing is performed using all the image data to achieve the above objective.

[Embodiments of the invention]

The present invention will be described in detail below with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of an image processing apparatus according to the present invention. In the figure, reference numeral 1 denotes a film image reading apparatus that converts signals obtained by reading film images into digital image data. Reference numeral 2 denotes an image processing device main unit forming the part surrounded by a dashed line in the figure, and 3 a measurement interface for reading image data (read image data) from the film image reading device 1 into the image processing section 4.

The image processing unit 4 converts the image data read through the measurement interface 3 into density data, that is, performs measurement processing, records image data, performs various image processing (editing, enlargement, etc.), and image search. . Reference numeral 5 represents an image memory that stores image data during image reading and image processing, and 6 represents a display image memory that stores image data for display.

7 is a storage device that records (accumulates) image data processed by the image processing section 4, such as all read image data and edited display image data; 8 connects the image processing section 4 and the I10 device 10; I10 ink-face.

The I10 device 1O allows the image processing unit 4 to input various operation commands and arbitrary data such as 79 rammeters for image processing, and causes the image processing unit 4 to perform image reading, storage, retrieval, or image processing. Reference numeral 9 denotes an image display device that displays images based on image data stored in the display image memory 6.

Here, details of the image processing section 4 will be described. That is, the image processing unit 4 sequentially edits (reduces) the read image data from all image data to image data to be displayed on the image display device 9 while the image reading device 1 is reading the image data. Image memory 6 for displaying edited image data
The image data after editing is stored in the storage device 7 together with all the image data.

Furthermore, during image enlargement processing, the image processing section 4 displays an image based on the display image data on the display device 9 until the /'P parameter for the enlargement processing is set. The enlarging process after setting the parameter is performed using the entire image data.

Next, the operation of the above-mentioned device of the present invention will be explained.

First, to explain the editing (reduction) operation, high resolution,
An image matrix of all images (e.g. 2048 x 2048
(pixels) are generally larger than the image matrix of the CRT display (not shown) of the image display device 9, that is, the image matrix of the display image (for example, 512 x 512 pixels), and it is difficult to display the entire image on the display device 9. If so, edit is performed to associate all images with display images.

A specific example of such editing will be described below with reference to FIG. 2. As shown in Fig. 2, here the image matrix (total number of pixels) of all images 21 of the X-ray film image is 2048.
x 2048, and the image matrix (total number of pixels) of the display image 22 displayed on the display device 9 is 512
512, that is, 16 of all images 21 (=
20481512) Editing of the display of the entire image 21 by the display device 9 when a pixel is associated with one pixel of the image 22 will be explained. In this case, the pixels of the entire image 21 are Pij, and the pixels of the display image 22 are Q+j.
(1 and j are each positive integers and represent pixel positions in the image). In addition, person ~A16 in the figure is the display image 22
23 is the amplifying means A which gives a weight of 1 to kl11 to each of the 166 pixels of the entire image 21 for one pixel of
,~A,. , and are both provided in the image processing section 14 . That is, width increasing means A
1 to AI6 and the calculation means 23, for 166 pixels of the entire image 21, for example, pixel pH to P44, P, □+,
P□10, P13+...+k16P44
...Perform the calculation (1), and calculate the pixel Ql of the display image 22.
It is stored in the display image memory 6 as + image data.

Similarly, calculations are performed for each of the 16 pixels of the entire image 21 corresponding to each pixel of the display image 22 and stored in the display image memory 6, thereby completing the editing of the entire image 21 into the display image 22. Thereafter, the data will be recorded in the storage device 7 as appropriate.

According to this, by giving the edited image data stored in the display image memory 6 or the storage device 7 to the image display device 9 at a timely command from the I10 device 10, the edited image data can be displayed on the display device 9. An image (display image 22) is displayed.

Next, the image enlargement processing operation will be described with reference to FIGS. 3 to 6. FIG. 3 is a diagram schematically showing the image enlargement process, and 31 in the figure is a total image data matrix (kxt
), 32 is the display image data matrix (mXn)
, 33 is a matrix of the display image memory 6. 31m and 32m are the image data matrix 31.
This is an example of a portion corresponding to the area to be expanded (enlarged area) in No. 32.

During such enlargement processing, the apparatus of the present invention displays an image based on the display image data on the display device 9 until the parameter for the enlargement processing is set, and then displays this image on the display device 9 for use in setting the parameter. The enlargement process after setting the e-parameter is performed using all image data. That is, as shown in FIG. 4, first, in order to display the entire edited image (display image), display image data is transferred from the storage device 7 to the display image memory 6 (
Step 601). Next, display the display image on the display device 9 (Stella 7'602), and while looking at it,
Enter the desired parameters (enlargement ratio, enlargement area, etc.) necessary for the enlargement process using 0 (Stella f 603).

Subsequently, an enlarged area is displayed on the display image displayed on the display device 9 based on the input parameters (Stella 7° 604). When the enlarged area is optimally set, parameters are set to make the enlarged area on the set display image correspond to the area on the entire image (Stella 7
'605). After setting the parameters, image enlargement processing is performed using all image data (step 606). In this case, the data in pixels other than the actual data can be enlarged by applying interpolation data.

FIG. 5 is a diagram for explaining an example of a method for obtaining the interpolated data. In the figure, P(1,1) to P(4,4) are real data, '+ gt - fa g4 is real data P( t, t)
~ Assuming that it is a complement coefficient for P (4, 4), the value (interpolated data) at a point other than the actual data, here P (l, j) in the figure, can be obtained by, for example, the following equation (2) .

However, Σf1gj==1j Image data obtained by performing enlargement processing using such interpolation and real data is transferred to the display image memory 6 (step 607), and then transferred to the display device 9. The image is displayed as an enlarged image (step 608).

Here, the relationship between actual data and interpolation data when display image data is used for image enlargement processing and when all image data is used will be explained with reference to FIG. In FIG. 6, Qll to Q44 are display image data, p,
I ”” P44 is all image data, and during image enlargement processing,
It is assumed that these are used as actual data. As mentioned above, one pixel of the display image has multiple pixels in the entire image.
For example, it is obtained based on 16 pixels. Therefore, when obtaining interpolated data for a certain point during image enlargement processing, the number of data required is the same in either case, but if the same number of interpolated data is obtained for the same number of actual data, the entire image data When using display image data, the interval between the actual data points and the interpolated data points is not smaller than when display image data is used. Therefore, when all image data is used, the correlation between real data and interpolated data is stronger,
In other words, the obtained interpolated data has a value closer to the true data, and a clear enlarged image can be obtained.

〔Effect of the invention〕

As described above, in the present invention, in an image processing device that stores all image data and display image data, image enlargement processing is performed using all image data.
Compared to the case where enlargement processing is performed using display image data, the correlation between the actual data and the interpolated data is stronger, and a clear enlarged image can be obtained. Moreover, in this case,
Since the image based on the display image data is displayed until the dimeter for enlargement processing is set, there is also the effect that it is convenient to set the parameters.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the device of the present invention, and FIG.
The figure is a diagram for explaining the editing operation of the same device, FIGS. 3 to 6 are diagrams for explaining the image enlargement processing operation of the same device, and FIG. 3 is a diagram schematically showing the same processing, Figure 4 is a flowchart of the same process, Figure 5 is a diagram for explaining an example of how to obtain interpolated data in the same process, and Figure 6 shows the case where the image enlargement process is performed using display image data and the full image. FIG. 4 is a diagram illustrating a comparison of the correlation between actual data and interpolated data when image data is used. 1... Film image reading device, 4... Image processing section,
5... Image memory, 7... Storage device, 9... Image display device, 21... All images, 22... Image for display. Patent Applicant Hitachi Medical Co., Ltd. Patent Attorney Tadashi Akimoto Figure F Figure 2 Figure 3 Figure 4 Figure 5 Jem

Claims (1)

[Claims] an image reading device that converts signals obtained by reading an image into digital image data; an image processing unit that processes the image data from the reading device; and an image processing unit that processes the image data when reading the image and processing the image data. an image display device that displays an image based on the image data processed by the image processing section; and a storage device that records the image data processed by the image processing section; In the image processing device configured to record in the storage device all image data read by the reading device and display image data edited for display by the image processing unit from the all image data, the image processing device When enlarging an image, the processing section displays an image based on the display image data on the display device to set the parameters until parameters for the enlargement processing are set, and after setting the parameters. An image processing apparatus characterized in that enlargement processing is performed using the entire image data.