JPH08294091A - Image data processing unit and its method, image data recorder and its method, and image data reproducing device and its method - Google Patents

Abstract

PURPOSE: To reproduce and display recorded image data with a different aspect ratio by operating a changeover switch and selecting image data of DVTR and connecting the selected data to plural vertical filtering circuits. CONSTITUTION: A video signal outputted from a CCD 12 is given to a data read circuit 13, in which the signal is converted into digital data, which are given to a data arrangement generating circuit 14. The image data outputted from the circuit 14 enter a changeover switch 15. The switch 15 is set to the wide mode or the normal mode through the mode setting, and in the case of the wide position, the data are given to a 1st vertical filtering circuit 17 via a data extract circuit 16, and in the case of the normal mode, the data are led to a 2nd vertical filtering circuit 18 selectively. The circuits 17, 18 are connected to a data compression circuit 20 by the switching of a switch 19 and to a magnetic head 22 via a data arrangement generating circuit 21. The magnetic head 22 records the image data and the mode data onto the magnetic tape.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to an image data processing apparatus and method, an image data recording apparatus and method, and an image data reproducing apparatus for obtaining image data of wide display having an aspect ratio of 16: 9 and normal display of 4: 3. Regarding the method.

[0002]

BACKGROUND OF THE INVENTION A wide-screen television system having a screen aspect ratio of 16: 9 has been realized, while a standard television system has a screen aspect ratio of 4: 3. Since two types of television systems coexist in this way, there is also a demand for a technique for converting image data representing an image having one aspect ratio into image data representing an image having the other aspect ratio. Examples of such image data conversion techniques are described in JP-A-5-3555 and JP-A-5-199547.

However, none of the above-mentioned ones has a complicated structure and does not relatively easily convert image data representing an image having a specific aspect ratio into image data representing an image having another aspect ratio. . In particular, a device used for consumer needs to be relatively simple because cost reduction is required.

[0004]

DISCLOSURE OF THE INVENTION An object of the present invention is to relatively easily convert image data representing an image having a specific aspect ratio into image data representing an image having another aspect ratio.

According to a first aspect of the present invention, there is provided an image data processing device for recording reference image data representing an image having a horizontal reference pixel number in the horizontal direction and a vertical reference pixel number in the vertical direction on a recording medium, in the vertical direction. The number of pixels of n is n times the number of vertical reference pixels, image data of n times the data amount of the reference image data is generated, and the aspect ratio of the image represented by the generated image data is the normal display aspect ratio. An image pickup unit including a certain solid-state electronic image pickup device, which outputs image data representing a subject image obtained by picking up an image of the subject by the solid-state electronic image pickup device, and a wide display processing mode and a normal display processing mode can be selectively set. According to the setting of the wide display processing mode by the mode setting means and the mode setting means, the image data output from the image pickup means Image data extraction means for extracting the image data output from the image pickup means so that the aspect ratio of the normal display image represented by the above becomes the aspect ratio of the wide display image, and the image data extracted by the image data extraction means. Adjusting the data amount of the image data extracted by the extracting means such that the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by are the horizontal reference pixel number and the vertical reference pixel number. Of the image data adjusting means and the normal display processing mode set by the mode setting means, the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the image data output from the image pickup means are set to the horizontal direction. The number of images output from the image pickup means is adjusted so that the reference pixel number and the vertical reference pixel number are obtained. Characterized in that it comprises a second image data adjusting means for adjusting the amount of data.

The first invention also provides an image data processing method. That is, in an image data processing apparatus for recording reference image data representing an image in which a horizontal reference pixel number in the horizontal direction and a vertical reference pixel number in the vertical direction are set on a recording medium, the vertical reference pixel number is A solid-state electronic image pickup device having n times the number of pixels and having n times the data amount of the reference image data is generated, and the aspect ratio of the image represented by the generated image data is the normal display aspect ratio. The subject is imaged to obtain image data representing the subject image, and the wide display processing mode and the normal display processing mode can be selectively set, and the image obtained by the above-mentioned imaging according to the setting of the wide display processing mode. The above-mentioned imaging is performed so that the aspect ratio of the normal display image represented by the data becomes the aspect ratio of the wide display image. The number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the image data extracted by the image data extracting process are the horizontal reference pixel number and the vertical reference pixel number. As described above, the first image data adjustment process for adjusting the data amount of the image data extracted by the extraction process is performed, and is represented by the image data output from the image pickup means according to the setting of the normal display processing mode. Second image data for adjusting the data amount of the image data output from the image pickup means such that the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image become the horizontal reference pixel number and the vertical reference pixel number, respectively. The feature is that adjustment processing is performed.

Depending on the set mode, the image data obtained from the first image data adjustment processing or the image data obtained from the second image data adjustment processing will be recorded on the recording medium. .

A second invention is an apparatus for reproducing image data recorded according to the first invention.
According to the second invention, a reading means for reading the image data recorded on the recording medium, and a reading means for reading the image data read by the reading means on the recording medium based on the wide display processing mode. First image data generating means for generating and outputting image data based on the image data read by the reading means so that the aspect ratio of the image represented by the read image data becomes the aspect ratio of wide display. Also, when the image data read by the reading means is recorded on the recording medium based on the normal display mode, the aspect ratio of the image represented by the read image data becomes the aspect ratio of the normal display.
It is characterized by further comprising second image data generating means for generating and outputting image data based on the image data read by the reading means.

The second invention also provides a method for reproducing the image data recorded according to the first invention. That is, when the image data recorded on the recording medium is read and the read image data is recorded on the recording medium based on the wide display mode, the aspect ratio of the image represented by the read image data is Wide aspect ratio,
Image data is generated and output based on the image data read by the reading means, and when the read image data is recorded on the recording medium based on the normal display mode, it is represented by the read image data. The image data is generated and output based on the image data read by the reading means so that the aspect ratio of the displayed image becomes the aspect ratio of the normal display.

The number of horizontal reference pixels is, for example, 720, and the number of vertical reference pixels is, for example, 480. The solid-state electronic image pickup device has, for example, 720 pixels in the horizontal direction and 960 pixels in the vertical direction.
Pixels are used.

An image represented by image data obtained by imaging a subject with a solid-state electronic image pickup device having 720 pixels in the horizontal direction and 960 pixels in the vertical direction has a normal display aspect ratio (4: 3). To convert image data representing an image having a normal display aspect ratio into image data representing an image having a wide display aspect ratio (16: 9), the number of pixels in the horizontal direction and the number of pixels in the vertical direction are used. The ratio must correspond to the aspect ratio of the wide display. 720 pixels horizontally and 960 pixels vertically 4: 3
Therefore, in order to correspond to the aspect ratio of 16: 9, it is necessary to have 720 pixels in the horizontal direction and 720 pixels in the vertical direction (960 × 3/4). In the above, in the wide display processing mode, the image data of 720 horizontal pixels and 960 vertical pixels of the image data of 720 horizontal pixels and 960 vertical pixels output from the solid-state electronic image pickup device is converted into the image data described above. Data extraction processing is being performed. By this image data extraction processing, image data representing an image with a normal display aspect ratio (4: 3) is converted into image data representing an image with a wide display aspect ratio (16: 9). Even if the image data extraction process is the image data thinning process, the horizontal direction is 720 pixels and the vertical direction is 720 pixels.
It may be a process of fixing the level of image data other than the image data of pixels to a fixed level.

On the other hand, in the digital video tape recorder, the standard is set so that image data of about 350,000 pixels of 720 pixels in the horizontal direction and 480 pixels in the vertical direction is recorded over 10 tracks. Therefore, image data representing an image with a normal display aspect ratio of 720 pixels in the horizontal direction and 960 pixels in the vertical direction and 72 pixels in the horizontal direction are displayed.
It is not possible to record image data according to the conventional standard, whether it is image data representing an image with a wide display aspect ratio of 0 pixels or 720 pixels in the vertical direction. Therefore, in the present invention, image data representing an image with a horizontal display aspect ratio of 720 pixels in the horizontal direction and 960 pixels in the vertical direction and image data representing an image with a wide display aspect ratio of 720 pixels in the horizontal direction and 720 pixels in the vertical direction are generated. The image data is adjusted so that it has 720 pixels in the horizontal direction and 480 pixels in the vertical direction. The adjustment of the image data is performed by the first image data adjustment processing and the second image data adjustment processing. As a result, it becomes possible to record in conformity with the conventional standard.

When reproducing the image data recorded in this way, image data of 720 pixels in the horizontal direction and 480 pixels in the vertical direction are read from the recording medium. If the read image data is recorded on the recording medium based on the wide display process described above, the image data generation process is performed based on the read image data so that the aspect ratio of the wide display image is obtained. If the image is recorded on the recording medium based on the normal display process described above, the image data generation process is performed based on the read image data so that the aspect ratio of the image is displayed normally. Wide image display or normal display is realized by applying the image data thus generated to a display device having a wide image aspect ratio or a normal image aspect ratio.

Both a wide display and a normal display are possible with a relatively simple structure.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 shows an embodiment of the present invention and is a block diagram showing an electrical configuration of a recording system of a digital video tape recorder.

This digital video tape recorder records image data for wide display with an aspect ratio of 16: 9 and image data for normal display with an aspect ratio of 4: 3 on a magnetic tape. Is something that can be done. Before describing the digital video tape recorder shown in FIG. 1, the recording standard of the digital video tape recorder will be described.

The recording format of the magnetic tape is shown in FIG.
And (B). FIG. 4A shows a track Tr of the magnetic tape 8, and a large number of tracks Tr are formed at a constant angle in the oblique direction with respect to the longitudinal direction of the magnetic tape 8. Consecutive of these many tracks Tr
Digital image data for one frame is recorded using 10 tracks.

The track format is shown in FIG. One track Tr includes a subcode recording area, a video recording area, an auxiliary recording area, an audio recording area, and a track information recording area. Information such as a time code and an absolute track number for high speed search is recorded in the sub code recording area. Digital image data representing a subject image is recorded in the video recording area. Data representing sound is recorded in the audio recording area. Information serving as a reference of the track Tr for the magnetic head to trace the center of the track Tr is recorded in the track information recording area. Auxiliary recording areas are provided discretely, and additional information is recorded in this auxiliary recording area.
When the image for one frame is divided into four fields, recording area data indicating which track of the magnetic tape 8 the image data representing these four fields was recorded in the auxiliary recording area. To be done. Illustrations of the gaps provided between the regions are omitted.

The CCD used in the digital video tape recorder generally has a pixel number of about 350,000 pixels, which is 720 pixels in the horizontal direction and 480 pixels in the vertical direction. One frame of digital image data obtained using such a CCD is recorded on 10 tracks of the magnetic tape 8. This is an existing standard.

In order to improve the image quality of the image represented by the image data recorded on the magnetic tape 8, a CCD having a large number of pixels may be used. However, in the digital video tape recorder, the standard is set so that the digital image data obtained by capturing an image of a subject using a CCD having a pixel count of 350,000 pixels is recorded on 10 tracks. Therefore, if the digital image data obtained by picking up an image of a subject using a CCD having a larger number of pixels than 350,000 pixels is recorded on the magnetic tape 8, it will be out of this standard. The digital video tape recorder described here captures an image of a subject using a CCD having a number of pixels larger than the number of pixels of 350,000 pixels generally used in a digital video tape recorder, and the digital video tape recorder is a digital video tape recorder. It enables the recording of image data that conforms to the conventional recording standards of video tape recorders.

FIG. 3 is a block diagram of the digital video shown in FIG.
The image shown by the data of the image which flows into a tape recorder is shown.

Referring to FIGS. 1 and 3, a subject image is formed on the light receiving surface of CCD 12 by imaging lens 11.

The CCD 12 has twice the image data amount of 720 pixels in the horizontal direction and 480 pixels in the vertical direction = about 350,000 pixels, which is the recording standard of the digital video tape recorder, and is twice the pixel amount in the vertical direction. Horizontal 720 pixels, vertical 96
Image data of 0 pixels = approximately 700,000 pixels is generated. An image represented by image data of 720 pixels in the horizontal direction and 960 pixels in the vertical direction corresponds to a normal display image with an aspect ratio of 4: 3. In order to obtain a wide display image with an aspect ratio of 16: 9 from such image data, it is necessary to obtain image data representing a wide display image with an aspect ratio of 16: 9.

The digital video tape shown in FIG.
The recorder regards the image represented by the image data of 720 pixels in the horizontal direction and 960 pixels in the vertical direction obtained by the CCD 12 as a normal image with an aspect ratio of 4: 3. Therefore, the image data of 720 pixels in the horizontal direction and 720 pixels in the vertical direction. Need to be converted to. Considering the ratio of the number of pixels in the horizontal direction to the number of pixels in the vertical direction of 720: 960 as the image aspect ratio of 4: 3, the image aspect ratio of 16: 9 is the ratio of the number of pixels in the horizontal direction to the number of pixels in the vertical direction. 720: Because it will be 720.

The digital video tape shown in FIG.
When the wide recording mode is specified by the mode setting in the recorder, the image data is converted so that an image with 720 horizontal pixels and 960 vertical pixels becomes an image with 720 horizontal pixels and 720 vertical pixels. Processing is done.

On the other hand, in the digital video tape recorder, the standard is set so that the image data amount of 720 pixels in the horizontal direction and 480 pixels in the vertical direction = about 350,000 pixels is recorded on the magnetic tape 8. It is not possible to perform recording in conformity with the standard for both image data representing a normal display image of 720 pixels and 960 pixels in the vertical direction and image data representing a wide display image of 720 pixels in the horizontal direction and 720 pixels in the vertical direction. Can not. Therefore, in the digital tape recorder shown in FIG. 1, the image data is filtered so that the image data represents an image having 720 pixels in the horizontal direction and 480 pixels in the vertical direction so as to conform to the standard.

Referring to FIG. 1, an analog video signal output from the CCD 12 by picking up an image of a subject is given to a data reading circuit 13, converted into digital image data, and given to a data array forming circuit 14. The data array circuit 14 outputs the image data, which is serially provided, in the horizontal direction 72.
This is a circuit that converts the image data to an image that represents an image with 0 pixels and 960 pixels in the vertical direction and outputs it. The image data output from the data array circuit 14 is given to the changeover switch 15.

The change-over switch 15 is turned on according to the mode setting.
The terminal side and the b terminal side are switched. The a terminal is connected when the wide display is set, and the b terminal is connected when the normal display is set. Although the changeover switch 15 is shown here as a contact switch, it may be realized by a semiconductor switch in practice.

When the wide display is set, the image data output from the data array circuit 14 is given to the image data extraction circuit 16 via the changeover switch 15. As shown in FIG. 3, the image data extraction circuit 16 uses the horizontal direction 72
A normal display image with an aspect ratio of 4: 3, which is represented by image data of 0 pixels and 960 pixels in the vertical direction, is displayed in the horizontal direction.
This is a circuit for converting to a wide display image represented by image data of 720 pixels and 720 pixels in the vertical direction. Of the image data of 720 pixels in the horizontal direction and 960 pixels in the vertical direction, image data other than the part of 720 pixels in the horizontal direction and 720 pixels in the vertical direction is invalid and is not output. Of the image data of 720 pixels in the horizontal direction and 960 pixels in the vertical direction, the image data part of the image of 720 horizontal pixels and 720 vertical pixels to be extracted is not particularly specified, but preferably the image data representing the central part of the image is Extract.

The image data extracted and output by the image data extraction circuit 16 is the first vertical filtering circuit.
Given to 17. The vertical filtering circuit 17 has 720 pixels in the horizontal direction and 480 pixels in the vertical direction so that the image data representing the image of 720 pixels in the horizontal direction and 720 pixels in the vertical direction matches the recording standard of the digital video tape recorder.
It is a circuit that adjusts image data so as to represent an image of pixels. For example, the first vertical filtering circuit 17 averages three vertically adjacent pixels to form image data of two pixels, and reduces the number of vertical pixels from 720 pixels to 480 pixels. The first filtering circuit is composed of, for example, an adding circuit and an averaging circuit.

When the normal display is set,
Since the changeover switch 15 is connected to the b terminal, the image data output from the data array creating circuit 14 is applied to the second vertical filtering circuit 18. The second vertical filtering circuit 18 as well as the first vertical filtering circuit 17,
The supplied image data is digital video tape
It is a circuit that conforms to the recording standard of the recorder. Since the second vertical filtering circuit 18 is supplied with image data representing an image of 720 horizontal pixels and 960 vertical pixels,
720 in the horizontal direction in the second vertical filtering circuit 18.
Converted to image data that represents an image with 480 pixels in the vertical direction. The second vertical filtering circuit 18 is, for example, a circuit that arithmetically averages two adjacent pixels in the vertical direction.

The output image data of the first vertical filtering circuit 17 and the output image data of the second vertical filtering circuit 18 are given to terminals a and b of the changeover switch 19. The changeover switch 19 is connected to the a terminal when the mode setting is wide display, and is connected to the b terminal when the mode setting is normal display. As a result, the output image data of the first vertical filtering circuit 17 is given to the data compression circuit 20 in the case of wide display, and the output image data of the second vertical filtering circuit 18 is given to the data compression circuit 20 in the case of normal display. To be

The data compression circuit 20 is a circuit for dividing the input image data into blocks of 8 pixels × 8 pixels and subjecting each block to DCT conversion to compress the image data. In the data compression circuit 20, DC
Variable-length coding processing such as Huffman coding is performed on the T-transformed image data and the image data is output.

The output image data of the data compression circuit 20 is given to the data string creation circuit 21. The set data of the mode is also given to the data string creating circuit 21. Data string creation circuit
Image data is recorded in the video recording area A ₂ by 21,
A data string is created so that data representing the mode information set in the auxiliary recording area A ₃ is recorded. Output image data of the data array creation circuit 21 and data representing the mode setting are given to the magnetic head 22 and recorded on the magnetic tape 8. Since the image data conforms to the recording standard of the digital video tape recorder, recording according to the conventional standard is performed.

FIG. 2 is a block diagram showing the electrical construction of the reproducing system of the digital video tape recorder.

The magnetic head 31 reads the image data recorded on the magnetic tape 8 and the data representing the mode setting information. The read image data and the data representing the mode setting information are given to the data demodulation circuit 32, and the coded image data is demodulated. The image data output from the data demodulation circuit 32 is a data expansion circuit.
Data decompression processing of the image data compressed and given to 33 is performed. The output image data of the data expansion circuit 33 is given to the changeover switch 34.

Data representing the mode setting information read by the magnetic head 31 is also output from the data demodulation circuit 32 and given to the changeover switch 34. The changeover switch 34 is
When the mode setting information indicates wide display, the a terminal is connected, and when the mode setting information indicates normal display, the b terminal is connected.

In wide display, the image data output from the data expansion circuit 33 is the first image data generation circuit 35.
Image data of 720 pixels in the horizontal direction and 480 pixels in the vertical direction, and image data of 720 pixels in the horizontal direction and 720 pixels in the vertical direction. The generation of this image data is performed so that two pixels adjacent in the vertical direction become three pixels.
By this image data generation processing, image data for wide display of 16: 9 is generated. The output image data of the first image data generation circuit 35 is given to the display device 36 for wide display, and 16: 9 wide display is performed.

In the normal display, the data expansion circuit 33
The image data output from the second image data generation circuit
The image data of 720 horizontal pixels and 480 vertical pixels is converted to image data of 720 horizontal pixels and 960 vertical pixels. The generation of this image data is performed by dividing the image data so that one pixel becomes two vertically adjacent pixels. By this image data generation processing, image data for normal display of 4: 3 is generated. The output image data of the second image data generation circuit 37 is applied to the display device 38 for normal display, and normal display of 4: 3 is performed. In FIG. 3, two display devices 36 and 38 are shown.
Is connected to a digital video tape recorder, but one display device may be used for both normal display and wide display.

Further, in the normal display described above, the horizontal direction
It is possible to normally display high-quality images of 720 pixels and 960 pixels in the vertical direction, but 720 pixels in the horizontal direction and vertical pixels
A normal display of 480 pixels of normal image quality is also possible. In this case, the image data generation process in the image data generation circuit 37 is skipped, and the decompressed image data is given to the display device.

As a result of recording and reproducing the image data as described above, since high-pixel image data of 720 pixels in the horizontal direction and 960 pixels in the vertical direction is obtained at the time of shooting, high-quality reproduction is possible. Also, with a relatively simple structure, 1
Image data for wide display and image data for normal display can be obtained from the CCDs 12 of various types.

[Brief description of drawings]

FIG. 1 is a block diagram showing an electrical configuration of a recording system of a digital video tape recorder.

FIG. 2 is a block diagram showing an electrical configuration of a reproduction system of a digital video tape recorder.

FIG. 3 shows a state of an image represented by image data flowing through a digital video tape recorder.

FIG. 4A shows a format of a magnetic tape,
(B) shows the track format.

[Explanation of symbols]

 12 CCD 16 Image data extraction circuit 17, 18 Vertical filtering circuit 35, 37 Image data generation circuit

Claims (6)

[Claims] 1. An image data processing device for recording reference image data representing an image, in which a horizontal reference pixel number in the horizontal direction and a vertical reference pixel number in the vertical direction are defined, on a recording medium. N of the number of vertical reference pixels
A solid-state electronic image pickup device that generates image data n times as large as the reference image data and has an aspect ratio of an image represented by the generated image data is a normal display aspect ratio. An image pickup means for outputting image data representing a subject image obtained by picking up an image of a subject by an image pickup element, a mode setting means capable of selectively setting a wide display processing mode and a normal display processing mode, and a wide display by the mode setting means. According to the setting of the processing mode, the image data output from the image pickup means is extracted so that the aspect ratio of the normal display image represented by the image data output from the image pickup means becomes the aspect ratio of the wide display image. Image data extraction means, the image data extracted by the image data extraction means A first amount of image data extracted by the extracting means is adjusted so that the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the represented image become the horizontal reference pixel number and the vertical reference pixel number. The number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the image data output from the image pickup means are determined according to the setting of the normal display processing mode by the image data adjusting means and the mode setting means. An image data processing device comprising: second image data adjusting means for adjusting the data amount of the image data output from the image pickup means so that the number of pixels and the number of vertical reference pixels are obtained. 2. The image data processing apparatus according to claim 1, wherein the image data output from the first image data adjusting means or the second image is output according to the mode set by the mode setting means. An image data recording device comprising recording means for recording the image data output from the data adjusting means on the recording medium. 3. A recording medium for recording reference image data representing an image in which the horizontal reference pixel number in the horizontal direction and the vertical reference pixel number in the vertical direction are recorded, and the number of pixels in the vertical direction is n of the vertical reference pixel number. If the aspect ratio of the image represented by the image data n times the data amount of the reference image data is the aspect ratio of the normal display, the aspect ratio of the wide display is set in the wide display processing mode. The image data that is extracted and whose data amount is adjusted so that the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the extracted image data become the vertical reference pixel number and the horizontal reference pixel number. In the normal display processing mode, the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the n-fold image data are recorded. A device that reproduces image data when the image data is recorded so that the data amount is adjusted so that the number of pixels becomes the number of vertical reference pixels and the number of horizontal reference pixels, which is recorded in the recording medium. Reading means for reading image data, and when the image data read by the reading means is recorded on the recording medium based on the wide display processing mode, the aspect ratio of the image represented by the read image data is wide display. The first image data generating means for generating and outputting the image data based on the image data read by the reading means so as to have the aspect ratio, and the image data read by the reading means are in the normal display mode. When recorded on the recording medium based on the above, it is represented by the read image data. An image data reproducing device including second image data generating means for generating and outputting image data based on the image data read by the reading means so that the aspect ratio of the image becomes a normal display aspect ratio. . 4. An image data processing device for recording reference image data, which represents an image having a horizontal horizontal reference pixel number and a vertical vertical reference pixel number, on a recording medium, N of the number of vertical reference pixels
Image data of n times the data amount of the reference image data is generated, and a subject is imaged using a solid-state electronic image pickup device in which the aspect ratio of the image represented by the generated image data is the aspect ratio of normal display. Then, image data representing a subject image is obtained, and a wide display processing mode and a normal display processing mode are selectively settable, and represented by the image data obtained by the image pickup in accordance with the setting of the wide display processing mode. The number of pixels in the vertical direction of the image represented by the image data extracted by extracting the image data obtained by the image pickup so that the aspect ratio of the normal display image becomes the aspect ratio of the wide display image. And the number of pixels in the horizontal direction is the number of horizontal reference pixels and the number of vertical reference pixels As described above, the first image data adjusting process for adjusting the data amount of the image data extracted by the extracting process is performed, and the image represented by the image data output from the image pickup means is set according to the setting of the normal display processing mode. Second image data adjustment for adjusting the data amount of the image data output from the image pickup means such that the number of pixels in the vertical direction and the number of pixels in the horizontal direction of are the horizontal reference pixel number and the vertical reference pixel number. Image data processing method to perform processing. 5. The image data processing method according to claim 1, wherein the image data obtained from the first image data adjustment processing or the second image data adjustment processing is obtained in accordance with a set mode. An image data recording method for recording image data on the recording medium. 6. A recording medium for recording reference image data representing an image in which a horizontal reference pixel number in the horizontal direction and a vertical reference pixel number in the vertical direction are recorded, and the number of pixels in the vertical direction is n of the vertical reference pixel number. If the aspect ratio of the image represented by the image data n times the data amount of the reference image data is the aspect ratio of the normal display, the aspect ratio of the wide display is set in the wide display processing mode. The image data that is extracted and whose data amount is adjusted so that the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the extracted image data become the vertical reference pixel number and the horizontal reference pixel number. In the normal display processing mode, the number of pixels in the vertical direction and the number of pixels in the horizontal direction of the image represented by the n-fold image data are recorded. This is a method of reproducing image data when the image data of which the data amount is adjusted so that the pixel number becomes the vertical reference pixel number and the horizontal reference pixel number is recorded, and the image data is recorded on the recording medium. When the image data is read and the read image data is recorded on the recording medium based on the wide display processing mode, the aspect ratio of the image represented by the read image data becomes the wide display aspect ratio. ，
Image data is generated and output based on the image data read by the reading means, and when the read image data is recorded on the recording medium based on the normal display mode, it is represented by the read image data. An image data reproducing method for generating and outputting image data based on the image data read by the reading means so that the aspect ratio of the displayed image becomes the aspect ratio of the normal display.