JPS6272072A - Picture processor - Google Patents

Abstract

PURPOSE:To prevent the increase in the capacity of an actually mounted memory and to shorten widely the time necessary to an edition and a picture processing by executing the edition to the picture information for input picture information successively, calculating a picture processing parameter and storing to a parameter memory. CONSTITUTION:When the picture matrix of all pictures 13 of the picture with a high resolution and a large capacity is displayed by a display device, the edition corresponding to a picture 32 for the displaying is executed. The edition is successively executed until recording is executed from an input device 11 through a picture information memory 13 to a recording device 15, and in such a case, one picture element of the picture 32 for the displaying is corresponded to the picture element of all pictures. For example, calculation is executed to picture elements P11-P44, the picture element is stored to the above- mentioned picture memory 19 for the displaying as the picture information of a picture element Q11 of the picture 32 for the displaying. In the same manner hereinafter, the edition to the picture 32 for the displaying of all the pictures 31 is completed.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to an image processing device suitable for editing, displaying, and processing read images, particularly high-resolution, large-capacity images such as X-ray film images. It is.

[Background of the invention]

A conventional image processing device is shown in FIG. In FIG. 6, numeral 11 is an image information input device that converts a signal obtained by reading an image into digital image information. 12
An image processing section performs various processing on image information input thereto, and also controls various sections within the image processing apparatus. 13 is a memory that temporarily stores image information when reading the image and processing the image information; 14 is an image display device that displays an image based on the image information from the image processing section 12; and 15 is the image processing section. This is an image information recording device that records image information from 12, for example, all input image information after processing at the time of image reading by the image processing unit 12 (after reading processing), image information after image processing, etc. 16 is an image information output device for outputting the image information from the image processing section 12 to the outside; 17 is an interface for transferring the image information from the image processing section 12 to the output device 16. Reference numeral 18 denotes a keyboard for operating the image processing section 12, which provides desired image processing parameters and the like to the image processing section 12 and causes it to perform various arithmetic processing such as image processing.

That is, in the conventional device, the image information sequentially sent from the input device 11 is read and processed by the image processing section 12 and temporarily stored in the memo 3, and then recorded in the recording device 15. This process is repeated a number of times according to the capacity of , and the image information of all the images is completely recorded in the recording device 15 .

When displaying an image, the CR of the display device 14 is
Even if the image matrix (total number of pixels) of all images based on all input image information is larger than the image matrix (total number of pixels) of a display such as T, all images are displayed on the display (reduced display). ), or when displaying (enlarged display) a part of the entire image smaller than the image matrix of the display on the entire surface of the display, editing or image processing such as edge emphasis and smoothing is as follows. It was done like this. That is, the entire image is read,
After being recorded in the recording device 15, all image information is read out from the recording device 16 into the memory 13, and the image processing unit 1
2 is performed by performing an operation for editing or image processing, and the image after editing or image processing is displayed on the display device 14.

Therefore, at the time of editing, the processing time is the sum of the total successive output time obtained by multiplying the image information continuous output time per capacity of the memory 13 and the number of consecutive outputs until all image information is completed, and the editing processing time of the image processing section 12. Requires. In addition, during image processing, the processing time is the sum of the total successive time, the image processing time of the image processing section 12, and the number of repetitions of image processing operations required for optimization of image processing (determination of optimal image processing parameters). I need.

As described above, in the conventional device, unless a large-capacity memory capable of storing both the entire image information and the display image information is used as the memory 13, editing from the entire image or a part thereof to the display image is not possible. There is a problem in that a large amount of processing time is required for image processing and image processing.

(Purpose of the Invention) The present invention has been made to solve the above-mentioned problems, and is a novel method that can significantly reduce the time required for editing and image processing without significantly increasing memory capacity. The purpose of the present invention is to provide an image processing device that is easy to use.

[Summary of the invention]

In the device of the present invention, an image processing unit that processes image information displays all image information on an image display device before the image information from the image information input device is recorded in the image information recording device via the memory. The input image information is sequentially edited for image information, and the edited image information is stored in a display image memory provided between the image processing unit and the display device, and Image processing parameters are given to the image processing unit, and image processing is performed appropriately on the display image based on the edited image information. From the predetermined image processing parameters obtained, the image processing unit calculates the entire image based on the image information recorded in the recording device. This system is designed to calculate image processing parameters to be used in image processing of an image and store them in a parameter memory, thereby achieving the above-mentioned purpose.

[Embodiments of the invention]

Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of an image processing apparatus according to the present invention, and 11, 13 to 18 in the figure are the same as those in FIG. 6. 12 also shows an image processing section as in FIG. 6, but in the present invention, in addition to the above-mentioned functions, it also has the following functions. In other words, this image processing section 12 is the image information input device 1
1 until the image information is recorded in the image information recording device 15 via the memo IJ 13, editing such as reduction or enlargement is input from all image information to image information for display on the image display device 14. The image information is sequentially edited, and the image information after editing is sent to the image processing section 12 and the display device 14.
It is designed to be stored in the display image memo provided between January 9th and January 9th. The image processing unit 12 also gives image parameters from the keyboard 18 to the image information stored in the display image memory 19 (if this has already been transferred and recorded to the recording device 15, the recorded image The image for display according to information) is suitably subjected to image processing to be displayed on the display device 14, this is repeated to obtain a desired display image, and the image processing parameters at that time are recorded in the recording device 15. Image processing parameters to be used in image processing for all images based on image information are calculated and stored in the parameter memory 20.

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

First, the editing operation, and here the editing operation for reduced display, will be explained. As shown in FIG. 2, an image matrix (m pixels x n pixels) of a whole image 31 such as a high-resolution, large-capacity image, such as an X-ray film image, is generally stored on a CRT display of the image information display device 14 (Fig. (not shown), that is, the image matrix (k
Pixel x! If it is desired to display the entire image 31 on the display despite the fact that the entire image 31 is large compared to the display image 32 (pixels), editing is performed to associate the entire image 31 with the display image 32.

In the present invention, this editing is performed sequentially until the image information memo from the input device 11 is recorded in the recording device 15. In this case, one pixel of the display image 32 is the entire image. 31 n'(=n/j') pixels x l' (
= m/k) pixels.

A specific example of such editing will be described below with reference to FIG. As shown in FIG. 3, here, the image matrix (total number of pixels) of all images 31 of the X-ray film image is 2048.
X 2048, display image 32 displayed on the display device
If the image matrix (total number of pixels) is 512 x 512, that is, 16 (-2048151
2) Editing for displaying the entire image 31 on the display when a pixel is associated with one pixel of the image 32 will be explained. In this case, the pixels of the entire image 31 are Pij
, a pixel of the display image 32 is represented by Qij (i and j are each positive integers and represent the pixel position in the image). In addition, A1 to A16 in the figure are circuits that give +6 to the weight of each of the 166 pixels of the entire image 31 for one pixel of the display image 32, and ADD adds the output value of this circuit A 1 "" A 16. Both adders are included in the image processing section 12. That is, circuits A1 to A16 and adder A
DD is 166 pixels of the entire image 31, for example, pixels pH to P
For 44 +Pz+kzP+□+3PI3+...
. . +6P44 (1) is calculated and stored in the display image memory 19 as image information of the pixel Ql+ of the display image 32.

Similarly, calculations are performed for each 16 pixel of the entire image 31 corresponding to each pixel of the display image 32 and stored in the display image memory 19 to complete the editing of the entire image 31 into the display image 32. Thereafter, the image is recorded on the image recording device 15 as appropriate.

As described above, this editing is performed sequentially until the image information from the image information input device 11 is recorded on the image information recording device 15, so that it is completed when the recording is finished. Therefore, there is no need to read the image information or edit it after recording.If the edited image information from the display image memory 19 or the image recording device 15 is given to the image display device 14 by a command from the keyboard 18 in a timely manner, the display The edited image (all images 31) is displayed. Therefore, the processing time when displaying an image becomes 0, and the time reduction at that time is significant. Furthermore, as described above, editing is performed until the input image information is recorded in the recording device 15, that is, sequentially as the information is recorded, so compared to conventional devices that read the input image information into the memory 13 and edit it after recording, the amount of data stored in the memory 13 is reduced. The processing time is shortened by the amount of time for successive output of all image information (total successive output time).

Next, image processing operations such as edge enhancement and smoothing will be explained with reference to FIGS. 4 and 5. First, the image information of the display image 32 edited as described above and recorded in the image recording device 15 (hereinafter simply referred to as the display image 3
2) is read out sequentially in each capacity of the memo January 3. Step a) in FIG. 5 The display image memo January 9 is given to be displayed on the image display device 14 (step b). next,
Appropriate image processing parameters PARA2 are input from the keyboard 18 to the image processing section 12 (step C). The image processing unit 12 performs image processing on the display image 32 according to the input parameter PARA2 (step d), and displays the processed display image 32a on the image display device 14 via the display image memory 19 (step d). e). Next, it is determined whether the displayed post-processing display image 32a is the optimal one, step f), and if it is not the optimal one, step a
If the parameter is optimal, the image processing parameter PARA1 for the entire image 31 is calculated by the image processing unit 12 from the image processing parameter PARA2 input at that time (step g). The relationship between the display image 32 and the entire image 31 is calculated based on the above equation (11).In addition, when performing image processing that depends on the image matrix size, for example, image processing for spatial frequency emphasis, the third In the image matrix size example shown in the figure, the display image 32
The entire image 3 is obtained by multiplying the image processing parameter PARA2 obtained by image processing for the emphasis frequency by 4.
1 image processing parameter PARA1 can be calculated. Furthermore, when performing image processing that does not depend on the image matrix size, for example, contrast enhancement, the image processing parameters PARA2 obtained by the image processing for contrast enhancement of the display image 32 are used as they are for image processing of the entire image 31. It can be calculated as the parameter PARA1. In addition, these parameters PA
RAI,2 is stored in parameter memory 20.

Next, image information of all images 31 (hereinafter simply referred to as all images 31) is sequentially read out from the image recording device 15 for each memo capacity (step h in FIG. 5), and at that time, it is stored in the parameter memory 20. The image processing unit 12 performs image processing on all images 31 according to the stored image processing parameter PARA 1 for all images 31 (step i). The entire processed image 31a thus obtained is sequentially recorded from the memory 13 to the image recording device 15 (step j). Then, it is determined whether the image processing of all the images 31 is completed or not (step k), and if it is not completed, the process is re-executed from step g, and when it is completed, the image processing is ended.

According to such image processing, in order to obtain the optimal image processing parameters, the image matrix size example shown in FIG. 3 (512"/2048
”) - The processing time can be shortened to 1/16, and at this time, there is no need to increase the capacity of the memo January 3.

〔Effect of the invention〕

As described above, according to the present invention, the time required for editing and image processing can be significantly reduced without increasing the capacity of the mounted memory beyond the capacity of the display image memory. .

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the device of the present invention, and FIG.
3 and 3 are diagrams for explaining the editing operation of the device,
FIG. 4 is a diagram for explaining the image processing operation of the same device, FIG. 5 is a flowchart, and FIG. 6 is a block diagram of the conventional device. 11... Image information input device, 12... Image processing section,
13...Memory, 14...Image display device, 15...
- Image recording device, 18... Keyboard, 19... Image memory for display, 20... Parameter memory, 31.
...All images (all image information), 31a...All images after processing (all image information after processing), 32...Image for display (image information for display), 32a...Image for display after processing ( image information for display after processing). Patent Applicant Hitachi Medical Co., Ltd. Agent Patent Attorney Tadashi Akimoto Actual Figure 1 B4 Figure 2 Figure 31! I Figure 4 Figure 5 Figure 6

Claims (1)

[Claims] an image information input device that converts a signal obtained by reading an image into digital value image information; an image processing unit that processes the image information from this input device; An image comprising a memory that temporarily stores information, an image display device that displays an image based on image information from the image processing section, and an image information recording device that records the image information from the image processing section. In the processing device, the image processing unit converts all image information into image information to be displayed on the display device before the image information from the input device is recorded in the recording device via the memory. The editing is performed sequentially on the input image information, and the edited image information is stored in a display image memory provided between the image processing section and the display device, and the image processing section Image processing is performed on all images based on the image information recorded in the recording device from predetermined image processing parameters obtained by giving processing parameters and performing appropriate image processing on the display image based on the edited image information. An image processing device characterized in that it is configured to calculate image processing parameters to be used and store them in a parameter memory.