JP3723383B2 - Resolution adapting apparatus, resolution adapting method, and recording medium recording resolution adapting program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a resolution adapting apparatus, a resolution adapting method, and a recording medium on which a resolution adapting program is recorded. In particular, the present invention relates to a resolution adapting apparatus and a resolution adapting method for displaying an image in an appropriate required size by reducing the spatial resolution of a digital image to a required level by adapting to human visual cognitive ability. The present invention relates to a recording medium on which a resolution adaptation program is recorded.
[0002]
[Prior art]
In general, when the spatial resolution and color resolution of a digital image are improved, the image quality improves. However, the amount of data increases geometrically, and the load on storage, transmission, and display processing exceeds the technical limit. There is. On the other hand, human visual recognition ability has a characteristic that a color image requires lower resolution than a monochrome image, and a moving image requires lower resolution than a still image. Therefore, various image compression means have been used conventionally. All of them have been methods for reducing the amount of data by reducing the color resolution while minimizing the degradation of the apparent image quality.
[0003]
[Problems to be solved by the invention]
The display resolution per unit length of digital images has historically been around 72 (ppi: pixel per inch), but in general, when calculated backward from the spatial resolution of the human retina, it will be 200 (ppi) in the future. It is said that it is meaningful to improve to about 400 (ppi). A product that achieves such high spatial resolution is already in the prototype stage, and if it is put to practical use, the human eye will theoretically distinguish digital images with such spatial resolution and resolution from analog images. It is not possible. Therefore, it is possible to completely replace a digital image with a conventional analog medium, and the field of use of the digital image is expected to expand at a stroke.
[0004]
However, if you simply display an image digitized at a conventional resolution (for example, 72 (ppi)) on a display unit with a spatial resolution and resolution of about 200 (ppi) to 400 (ppi), it will follow the pixel density of the display unit. The size of the image becomes smaller in inverse proportion to the resolution. Further, in order to display an image with the same size, the data for the area, that is, the data amount that is the square of the resolution ratio is required, so that the display process and the arithmetic process cannot be caught up. However, the conventional image compression technique cannot cope with such a problem.
[0005]
In view of the above points, the present invention reduces the spatial resolution of a digital image to an appropriate required size by reducing it to a required or minimum level adapted to human visual cognitive ability. It is intended to be displayed with. That is, according to the present invention, the spatial resolution when digitizing a digital image is set to a necessary minimum level in conformity with human visual cognitive ability, and the spatial resolution of the image and the spatial resolution of the display unit are displayed when displayed. An object is to always display an image of the same size by developing one pixel of a digital image into a corresponding pixel of a display unit according to the ratio, even if the resolution of the two is different.
[0006]
It is another object of the present invention to prevent the amount of image data from being increased unnecessarily beyond the spatial resolution that can be recognized by humans even when the resolution of the display unit is increased. Another object of the present invention is to maintain compatibility when an image digitized in accordance with the resolution of a current or existing display unit is used on a high-resolution display unit.
[0007]
[Means for Solving the Problems]
According to the first solution of the present invention,
An input unit or a receiving side transmission unit for inputting a digital image with spatial resolution information including necessary or minimum necessary spatial resolution information;
A digital image display for displaying the output digital image;
Based on the digital image with spatial resolution information input from the input unit or the receiving side transmission unit and the spatial resolution of the digital image display unit stored in advance, the data of one pixel of the digital image with spatial resolution information is Provided is a resolution adapting device including an automatic spatial resolution adapting unit that assigns to an appropriate number of pixels of a digital image display unit and converts a digital image with spatial resolution information according to the allocated number of pixels to form an output digital image. .
[0008]
According to the second solution of the present invention,
An input step for inputting a digital image with spatial resolution information including information on the required or minimum required spatial resolution;
A digital image display step for displaying the output digital image on the digital image display unit;
Based on the digital image with spatial resolution information input in the input step and the spatial resolution of the digital image display unit stored in advance, an appropriate number of digital image display units can be obtained from 1 pixel data of the digital image with spatial resolution information. A resolution adaptation method including a spatial resolution automatic adaptation step for forming an output digital image by converting a digital image with spatial resolution information according to the number of allocated pixels and a recording medium recording the resolution adaptation program To do.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 shows a configuration diagram of a resolution adapting apparatus according to the present invention. The resolution adaptation apparatus includes a processing unit 1, a storage unit 2, a display unit 3, an input unit 4, an output unit 5, a transmission unit 6, and an internal connection unit 8.
[0010]
The processing unit 1 includes a spatial resolution optimization unit 11 and a spatial resolution automatic adaptation unit 12. The storage unit 2 stores appropriate image information such as an analog image, an input digital image, an output digital image, and a digital image with spatial resolution information, and information on the spatial resolution of the display device of the display unit 3 and the necessity of the input image. Various information such as information on the minimum or necessary spatial resolution and information on the type of image is stored. Furthermore, the storage unit 2 can also store various processing programs. The display unit 3 includes a digital image display unit 31 and can include an appropriate display for displaying when the image is tampered.
[0011]
The input unit 4 includes a digitizing unit 41 and can include an appropriate input device such as a keyboard and a pointing device. The output unit 5 has a drive device for various recording media such as DVD, CD-R, CD-ROM, MO, and FD, and an interface with other devices. The transmission unit 6 includes a transmission side transmission unit 61 and a reception side transmission unit 62, and is connected to the communication line 7 to send and receive signals. The internal connection unit 8 connects these components to each other.
[0012]
FIG. 2 is an explanatory diagram showing the operation of the resolution adapting apparatus and method according to the present invention. In this figure, description will be given separately for the transmission unit 100 and the reception unit 200. The transmission unit 100 includes a digitizing unit 41, a spatial resolution optimization unit 11, and a transmission side transmission unit 61. The reception unit 200 includes a reception side transmission unit 62, a spatial resolution automatic adaptation unit 12, and a digital image display unit 31. The transmission side transmission unit 61 and the reception side transmission unit 62 are connected by a communication line 7.
[0013]
In the transmission unit 100, the digitizing unit 41 reads the analog image a and digitizes it to form an input digital image b. The spatial resolution optimization unit 11 creates a digital image c with spatial resolution information including necessary or minimum necessary spatial resolution information based on the input digital image b digitized by the digitizing unit 41. The transmission side transmission unit 61 outputs the digital image c with spatial resolution information created by the spatial resolution optimization unit 11 to the communication line 7. As the communication line 7, an appropriate wired transmission path and network such as a telephone line, a dedicated line, an ISDN line, and the Internet, or an appropriate wireless transmission path and network such as a mobile communication line, a microwave line, and an infrared line are used. it can.
[0014]
On the other hand, in the receiving unit 200, the receiving side transmitting unit 62 inputs the digital image c with spatial resolution information created by the spatial resolution optimizing unit 11 of the transmitting unit 100 as the digital image d with spatial resolution information via the communication line 9. To do. The spatial resolution automatic adaptation unit 12 is based on the digital image d with spatial resolution information input from the receiving side transmission unit 62 and the spatial resolution of the digital image display unit 31 stored or set in advance. Is assigned to an appropriate number of pixels of the digital image display unit 31. Furthermore, the spatial resolution automatic adaptation unit 12 converts the digital image d with spatial resolution information according to the number of assigned pixels to form an output digital image e. The digital image display unit 31 displays the output digital image e formed by the spatial resolution automatic adaptation unit 12.
[0015]
Next, FIG. 3 shows a flowchart of processing of the spatial resolution optimization unit.
First, when the processing is started and the input digital image b is input, the spatial resolution optimizing unit 11 obtains a necessary minimum spatial resolution according to the type of image (step S301). Here, for example, the obtained spatial resolution is Pg (ppi). As types of images, for example, appropriate types such as black and white images, gray scale images, 256 color images, 1024 color images, moving images or still images, recording locations / parts, and combinations thereof are used. Can do. As a method for obtaining the spatial resolution, an appropriate method such as a method of preparing a pre-stored table for each type of image or a method of input by an operator as appropriate can be used. The spatial resolution is not limited to the necessary minimum, and can be an appropriate spatial resolution that is required, and a lower limit value or an upper limit value may be set in advance.
[0016]
Next, the spatial resolution optimization unit 11 sets the spatial resolution to Pg (ppi) and further digitizes the input digital image b (step S303). Further, the spatial resolution optimization unit 11 attaches the spatial resolution information Pg (ppi) to the image file to form a digital image c with spatial resolution information (step S305). As for the method of attaching spatial information, a method of attaching as a code to an arbitrary part of an image, a method of inserting the image data in a header or an appropriate position, a method of attaching as a watermark image to prevent tampering, etc. The method can be adopted. Furthermore, an appropriate watermark image or encryption can be inserted in consideration of fraudulent acts such as tampering and the same data retention.
[0017]
Next, FIG. 4 shows a flowchart of processing of the spatial resolution automatic adaptation unit.
When the processing is started and the digital image d with spatial resolution information is input, the spatial resolution automatic adaptation unit 12 takes out spatial resolution information Pg (ppi) attached to the image (step S401). In addition, the spatial resolution automatic adaptation unit 12 may read a watermark image or the like when it is not tampered with or inserted on the transmission side in order to confirm the identity with the original. If the image has been tampered with, it can be displayed on the display unit 3 such as the digital image display unit 31.
[0018]
Next, the spatial resolution automatic adaptation unit 12 acquires the spatial resolution of the digital image display unit 31 (step S403). Here, for example, this spatial resolution is Pd (ppi). This spatial resolution is obtained by storing the spatial resolution corresponding to the digital image display unit 31 in advance and reading it, by accessing the digital image display unit 31 and automatically obtaining the spatial resolution, or An appropriate method, such as a method for an operator to input appropriately, can be employed. Note that a lower limit value and an upper limit value of the spatial resolution may be set.
[0019]
Next, the spatial resolution automatic adaptation unit 12 forms the output digital image e so that one pixel data of the image is assigned to Pg / Pd (pixel) in the digital image display unit 31 (step S405). As described above, the spatial resolution automatic adaptation unit 12 outputs and displays the output image 14 on the digital image display unit 31.
[0020]
Although the above description is an example in which the present invention is applied to a digital image display unit such as a personal computer or a workstation, the present invention can also be used for a digital television or the like. Furthermore, more generally, it can be used as an apparatus / method for automatically adapting when the digital image and the display section have different spatial resolutions. Further, instead of transmitting / receiving digital image information by the transmission unit, a digital image may be input / output by the input unit / output unit using an appropriate recording medium. Furthermore, the automatic resolution adjustment processing according to the present invention is realized by an automatic resolution adjustment program, which can be provided by a recording medium.
[0021]
【The invention's effect】
According to the present invention, as described above, by appropriately reducing the spatial resolution of a digital image to the level required or necessary to adapt to human visual cognitive ability, an appropriate required size is obtained. Can be displayed. That is, according to the present invention, the spatial resolution when digitizing a digital image is set to the minimum necessary level adapted to human visual cognitive ability, and when displayed, the spatial resolution of the image and the spatial resolution of the display unit By expanding one pixel of a digital image into a corresponding pixel of the display unit in accordance with the ratio, it is possible to always display an image of the same size even if the resolutions of the two differ.
[0022]
Further, according to the present invention, even when the resolution of the display unit is increased, it is possible to prevent the amount of image data from being unnecessarily increased beyond the spatial resolution that can be recognized by humans. Furthermore, according to the present invention, it is possible to maintain compatibility when an image digitized in accordance with the resolution of the current or existing display unit is used on the high-resolution display unit.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a resolution adapting apparatus according to the present invention.
FIG. 2 is an explanatory view of the operation of the resolution adaptation apparatus and method according to the present invention.
FIG. 3 is a flowchart for processing of a spatial resolution optimization unit.
FIG. 4 is a flowchart of processing of a spatial resolution automatic adaptation unit.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Processing part 2 Memory | storage part 3 Display part 4 Input part 5 Output part 6 Transmission part 7 Communication path 8 Internal connection part 11 Spatial resolution optimization part 12 Spatial resolution automatic adaptation part 31 Digital image display part 41 Digitize part 61 Transmission side transmission part 62 Transmitter on the receiving side

Claims (6)

A spatial resolution optimizing unit that creates a digital image with spatial resolution information including information of the spatial resolution based on an input digital image in which a required or minimum spatial resolution is set;
An output unit or a transmission side transmission unit that outputs a digital image with spatial resolution information created by the spatial resolution optimization unit;
An input unit or a receiving side transmission unit for inputting a digital image with spatial resolution information including necessary or minimum necessary spatial resolution information;
A digital image display for displaying the output digital image;
Based on the digital image with spatial resolution information input from the input unit or the receiving side transmission unit and the spatial resolution of the digital image display unit stored in advance, the data of one pixel of the digital image with spatial resolution information is A spatial resolution automatic adaptation unit that assigns to an appropriate number of pixels of the digital image display unit, converts a digital image with spatial resolution information according to the allocated number of pixels, and forms an output digital image;
The spatial resolution automatic adaptation unit outputs the digital image with spatial resolution information output from the output unit or transmission side transmission unit of another device to the input unit or the reception side transmission unit of its own device. A resolution adaptation device designed to form digital images. The spatial resolution optimization unit includes:
When an input digital image is input, a means for obtaining a necessary minimum spatial resolution according to the type of image,
Means for setting the required spatial resolution and digitizing the input digital image;
2. The resolution adapting apparatus according to claim 1 , further comprising means for attaching the obtained spatial resolution information to the digitized image to form a digital image with spatial resolution information. The spatial resolution automatic adaptation unit is:
When a digital image with spatial resolution information is input, means for taking out spatial resolution information Pg attached to the image,
Means for obtaining a spatial resolution Pd of the digital image display unit;
3. The resolution adapting apparatus according to claim 1, further comprising means for forming an output digital image so that data of one pixel of the image is allocated to Pg / Pd (pixel) in the digital image display unit. The spatial resolution optimization unit further inserts a watermark image or an image or code for preventing unauthorized tampering into the digital image with spatial resolution information,
The spatial resolution automatic adaptation unit, if not read the inserted image or code, the resolution adjustment unit according to any one of claims 1 to 3, characterized in that a message to that effect on the digital image display unit. A spatial resolution optimization step of creating a digital image with spatial resolution information including information on the spatial resolution based on an input digital image in which a required or minimum spatial resolution is set;
An output step of outputting a digital image with spatial resolution information created by the spatial resolution optimization step;
An input step for inputting a digital image with spatial resolution information including information on the required or minimum required spatial resolution;
A digital image display step for displaying the output digital image on the digital image display unit;
Based on the digital image with spatial resolution information input in the input step and the spatial resolution of the digital image display unit stored in advance, an appropriate number of digital image display units can be obtained from 1 pixel data of the digital image with spatial resolution information. assigned to the pixel, and a spatial resolution automatic adaptation step of forming an output digital image by converting as the number of pixels assigned a digital image with spatial resolution information,
A resolution adaptation method in which an output digital image is formed by the spatial resolution automatic adaptation step by inputting the digital image with spatial resolution information output by the output step by the input step. A spatial resolution optimization step of creating a digital image with spatial resolution information including information on the spatial resolution based on an input digital image in which a required or minimum spatial resolution is set;
An output step of outputting a digital image with spatial resolution information created by the spatial resolution optimization step;
An input step for inputting a digital image with spatial resolution information including information on the required or minimum required spatial resolution;
A digital image display step for displaying the output digital image on the digital image display unit;
Based on the digital image with spatial resolution information input in the input step and the spatial resolution of the digital image display unit stored in advance, an appropriate number of digital image display units can be obtained from 1 pixel data of the digital image with spatial resolution information. assigned to the pixel, and a spatial resolution automatic adaptation step of forming an output digital image by converting as the number of pixels assigned a digital image with spatial resolution information,
The digital image with spatial resolution information output by the output step is input by the input step, and a computer-readable recording of a resolution adaptation program configured to form an output digital image by the spatial resolution automatic adaptation step recoding media.

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