JPS61163378A - Image processor - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF THE INVENTION The present invention relates to an image processing apparatus that reduces omissions of information to be displayed and displays the information in a reduced size.

BACKGROUND ART When displaying data with a large amount of information such as an image on a display device with a small amount of information that can display one image, the data is reduced and displayed by sampling the original data at the same size. Conventionally,
This sampling position is generally fixed with respect to the golden data to obtain image data to be displayed in a reduced size. In addition, in order to reduce the loss of information due to sampling, methods have been proposed to obtain reduced data that is sampled by calculations based on the state of the original data rather than being sampled uniquely (for example, by Takahiko Fukinuki
"Image signal processing for FAX and OA".

(Sho 57.1O, 2G), Nikkan Kogyo Shimbunsha, P, 32
).

Problems to be Solved by the Invention While the conventional method of fixing the sampling position during reduction has a simple configuration, information may be significantly missing depending on the sampling position, making it difficult to decipher the reduced image. Met.

・-As an example, FIG. 3 shows a case where the data to be displayed at the same size as shown in FIG. 2 is reduced to 1/2 in both the vertical and horizontal directions. Of the four pixels surrounded by dotted lines in Figure 2, a represents the top left pixel, and b represents the top right pixel.
This is the case where the pixel is fixed as the sampling position, C is one pixel at the bottom left, and d is one pixel at the bottom right (hereinafter referred to as a and b).

(c and d indicate the respective sampling positions). As is clear from this example, depending on the sampling position during the reduced display, information may be significantly lost and the reading becomes erratic.

Further, in the method of obtaining reduced data obtained by calculating and sampling one-dimensional data, it is possible to reduce the loss of information, but there are problems in that the structure becomes complicated and the processing speed decreases.

SUMMARY OF THE INVENTION An object of the present invention is to provide an image processing apparatus that has a simple configuration, does not reduce processing speed, and enables reduced display with less missing information.

Means for Solving the Problems The image processing device of the present invention is configured to generate reduced image data by sampling the image data in the 1-1 magnification display and provide it to the display device. processing means for dividing into blocks and determining sampling positions within each block; storage means for storing the sampling positions determined by the processing means as attributes for each block; and sampling based on information in the storage means. The present invention is characterized in that it includes a sampling position changing means for changing the position, and when outputting reduced image data, the sampling position is changed based on this attribute and the sampling position is displayed in a reduced size.

Effect With this configuration, when displaying the image in a reduced size, the sampling position is changed for each block to the optimum position where the amount of information missing is the least, thereby reducing the amount of information missing in the entire reduced display image.

Embodiment FIG. 1 is a block diagram showing an embodiment of a reduction display circuit of the present invention. In FIG. 1, (11) is a sampling circuit, (12) is an image memory, (13) is an address generation circuit, and (14) is a microprocessor (hereinafter referred to as a microprocessor).

(referred to as MPU), (15) is an attribute storage table,
(16) is a sampling position change circuit, and (17) is a parallel/serial conversion circuit vII (hereinafter referred to as a P/S conversion circuit).

(18) is a display device.

Prior to output to the display device (18), first, the optimum sampling position for each block is determined and a block attribute table is created. Based on the preset block size and number, the address generation circuit (13) sends the address of each pixel in the block to the one-image memory (12) for Kin'ai data, and also outputs the address of each pixel in the block to the attribute storage table. A block management address is given to (15), respectively. MPU(14)
calculates the amount of information at each sampling position according to the reduction rate for each pixel in the block output from the 1-image memory (12), and selects the sampling position where the amount of information is maximum,
The optimum sampling position for that block is stored in the attribute storage table (15). - As an example, 1. Consider the case where each second block data is reduced to 1/2 in both the vertical and horizontal directions. Figure 3a shows the reduced image data at each sampling position.
= d, from Figure 3, in the first block, a
The sampling location has the least missing information, and
In the second block, it is clear that the sampling position C has the least amount of missing information. Therefore, in the attribute storage table (15), the sampling position a as the sampling position of the first block and the sampling position C as the sampling position of the second block are stored as attributes of each block.

After the above processing is completed for the Kin'ai data and the attributes of all blocks are stored in the attribute storage table (15),
Start reading reduced image data for reduced display. At the time of reading, the sampling position change circuit (16) provides sampling position change information to the sampling circuit (11) for each block based on the information in the attribute storage table (15) determined in the above processing, and changes the sampling position. do. In this way, the data reduced in the optimal sampling state is transferred to the P/S conversion circuit (17).
After converting it into a serial signal, it is applied to the display device Fjl (18). FIG. 4 is a diagram showing a state in which each block is reduced at the optimum sampling position in this manner.

In addition, in this embodiment, the case where sampling is performed on data read from the image memory (12) has been explained, but one image memory can be given m addresses independently (where lm=2'', Q is an integer). ), performs replacement processing in m-bit image data and writes it, and when reading m-bit image data, changes the address given to the memory element to obtain sampled and reduced image data, The present invention is also effective for image processing apparatuses that provide information to display devices.

Effects of the Invention As described above, the image processing device of the present invention is configured to generate reduced image data by sampling the image data in the same size display and provide it to the display device, and also to generate the image data in the same size display. processing means for dividing the blocks into a plurality of blocks and determining sampling positions in each block; storage means for storing the sampling positions determined by the processing means as attributes for each block; and a means for changing the sampling position, and when displaying in a reduced size,
By changing the sampling position for each block to the optimal position with the least amount of missing information, the loss of information in the entire reduced display image is reduced, so the extremely simple circuit configuration eliminates the problem of slowing down processing speed. , it is possible to obtain reduced image data that can be displayed without missing information, and is extremely useful in practice.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing one embodiment of the present invention. FIG. 2 is an explanatory diagram of image data to be displayed at the same size; FIG. 3 is an explanatory diagram of the image data shown in FIG. 2 reduced to 1/2 in both the vertical and horizontal directions with the sampling position fixed; FIG. 4 is an explanatory diagram of a reduced display state according to the present invention. (11)...Sampling circuit, (12)...Image memory, (13)...Address generation circuit, (14)
... Microprocessor, (15) ... Attribute storage table, (16) ... Sampling position change circuit, (I7) ... Parallel/serial conversion circuit, (18
)... Display device agent Yoshihiro Morimoto Figure 1 14... Microphone 0aOf'yf

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Claims (1)

[Claims] 1. It is configured to generate reduced image data by sampling the image data in the same size display and provide it to the display device, and also divides the image data in the same size display into a plurality of blocks and determines the sampling position within each block. Image processing comprising: a processing means for determining, a storage means for storing the sampling position determined by the processing means as an attribute for each block, and a sampling position changing means for changing the sampling position based on information in the storage means. Device.