JPH05176252A - Display system converter - Google Patents

Abstract

PURPOSE:To display a picture while keeping compatibility even when the picture with plural formats is reproduced on a reproduction device of a different kind of display system by correcting the distortion of a pixel aspect ratio depending on a difference of the system. CONSTITUTION:A system difference detection means 2 sends a system difference to a correction coefficient calculation means 7 to correct a pixel aspect ratio. The correction coefficient calculation means 7 calculates a correction coefficient from the system difference and sends the correction coefficient to an aspect ratio correction means 8. The aspect ratio correction means 8 corrects the pixel aspect ratio of picture data so that the pixel aspect ratio is the unity by multiplying the sent correction coefficient with the picture data 9 in the vertical direction and sends the corrected picture data to a display timing conversion means 6.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display format conversion device for equipment compatible with a plurality of display formats such as NTSC and PAL.

[0002]

2. Description of the Related Art In recent years, CD-I has been in the spotlight as a home multimedia device. Unlike conventional image media, the CD-I handles an image format that is common throughout the world. That is, the image recorded in the NTSC format must be displayed on the PAL monitor, and conversely, the image recorded in the PAL format must be displayed on the NTSC monitor.

A conventional CD-I display format conversion device will be described below. FIG. 2 is a block diagram of a conventional CD-I display format conversion device. In FIG. 2, 11 is a display means, 12 is a display method detection means, 13 is an image format detection means, 14 is a method difference detection means, 1
Reference numeral 5 is a display position setting means, 16 is a display timing converting means, and 17 is image data.

The operation of the apparatus configured as described above will be described below. There are three types of display systems for the CD-I playback device: 525 TV, 525 monitor, and 625 system. The display area of each method is as shown in (Table 1).

NT for 525 monitor and 525 TV mode
Display method for displaying on SC display,
The 625 system mode is a display method for displaying on a PAL display.

[0006]

[Table 1]

On the other hand, the image format recorded on the CD-I disc is 525 lines, 525 TV, 625.
There are four types of formats, line and compatible.
The size of the display data of each image format is shown in (Table 2).

[0008]

[Table 2]

As an example, let us consider a case where an image recorded in each image format is reproduced by a reproducing apparatus having the display means 11 in the 525 monitor mode.

First, the display system detection means 12 is the display means 1
The display method of 1 is detected. This reproducing apparatus displays a display area of 360 × 240 pixels in a display mode of 525 monitor mode. Next, the image format detecting means 13 detects the data format of the image data to be displayed. The display method detection means 12 and the image format detection means 13 send the detection results to the method difference detection means 14. The system difference detection means 14 detects the difference between the display system and the image format.

When the image data to be displayed has the 525 line format, the display area of the display means 11 matches the image format, and therefore the image may be displayed as it is. However, in the case of the 625 line format, an image of 384 pixels is displayed in a display area of 360 pixels in the horizontal direction, and an image of 280 lines is displayed in a display area of 240 lines in the vertical direction. In order to display this while maintaining compatibility, it is necessary to shift the display position by 12 pixels in the horizontal direction and 20 lines in the vertical direction and discard the protruding data.

The display offset amount in each direction between the display system and the image format is shown in (Table 3).

[0013]

[Table 3]

The display means 1 in the 525 monitor mode
No. 1 is displayed according to the display timing of the NTSC system, so that the image data is displayed at 60 Hz. Similarly, the display means 1 in the 525 monitor mode is an image format created so that the 525 line format is displayed at 60 Hz and the 625 line format is displayed at 50 Hz.
In order to display an image of 625 line format in 1), 50Hz / 60Hz conversion is required.

In order to adjust the display position and the display timing, the system difference detecting means 14 sends the system difference to the display position setting means 15 and the display timing converting means 16.

The display position setting means 15 is horizontal because of the system difference.
The offset amount in the vertical direction is set and sent to the display means 11.

The display timing conversion device 16 converts the image data into a cycle suitable for the display means 11 according to the method difference, and sends it to the display means 11 together with the display timing.

The display means 11 displays the image data converted by the display timing conversion device 13 with the offset amount sent from the display position setting means 12 in accordance with the display timing.

In CD-I, the pixel aspect ratio differs depending on the display method, and is as shown in (Table 4).

[0020]

[Table 4]

That is, when the same image is displayed on the display means 11 of the 625 system and when it is displayed on the display device of the 525TV, the 525TV appears to be vertically distorted by 13%.

Further, even with the same display method, the pixel aspect ratio is distorted as shown in (Table 5) depending on the image format of the image to be displayed.

[0023]

[Table 5]

That is, for example, when an image in the 525 line format and an image in the 625 line format are displayed on the same display unit 11, the 625 line format appears to be vertically distorted by 6% as compared with the 525 line format.

[0025]

However, in the above conventional configuration, the offset amount and the display cycle due to the method difference are improved, but the distortion of the pixel aspect ratio caused by the method difference is not improved. There is a problem that the image data displayed as a circle by the means is displayed as an ellipse by the other display means, and the compatibility between the display devices and the image formats cannot be maintained.

The present invention solves the above-mentioned conventional problems, and an object of the present invention is to provide a display system conversion device capable of correcting distortion of pixel aspect ratio due to system difference and performing display while maintaining compatibility.

[0027]

In order to achieve this object, a display system conversion apparatus of the present invention displays a display unit for displaying image data, a display system detection unit for detecting a display system of the display unit, and displays the display system. Image format detecting means for detecting an image format of image data, method difference detecting means for detecting a method difference between a display method and an image format, display position setting means for setting a display position of image data from the method difference, and a method Display timing conversion means for converting the display timing of the image data from the difference, correction coefficient calculation means for obtaining the correction coefficient from the method difference, and aspect ratio correction means for correcting the aspect ratio of the image data according to the correction coefficient. ..

[0028]

According to the present invention, with the above configuration, the distortion of the pixel aspect ratio due to the method difference can be corrected, and the plurality of image formats can be displayed with compatibility even if they are reproduced by the reproducing apparatus of different display methods. ..

[0029]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a CD-I display format conversion apparatus according to an embodiment of the present invention. Figure 1
1, 1 is display means, 2 is display method detection means, 3 is image format detection means, 4 is method difference detection means, 5 is display position setting means, 6 is display timing conversion means, 7 is correction coefficient calculation means, 8 Is an aspect ratio correction means, and 9 is image data.

The operation of the apparatus configured as described above will be described below. As shown in (Table 1), there are three types of display systems for the CD-I playback device: 525 TV, 525 monitor, and 625 system.

On the other hand, as shown in (Table 2), the image formats recorded on the CD-I disc include four types of formats: 525 lines, 525TV, 625 lines, and compatible.

As an example, consider the case where an image recorded in each image format is reproduced by a reproducing device having a display device of 525 monitor mode.

First, the display system detection means 2 detects the display system of the display means 1. This reproducing apparatus displays a display area of 360 × 240 pixels in a display mode of 525 monitor mode. Next, the image format detecting means 3 detects the data format of the image data to be displayed. Display method detecting means 2 and image format detecting means 3
Sends the detection result to the method difference detecting means 4. The system difference detection means 4 detects the difference between the display system and the image format.

When the image data to be displayed has the 525 line format, the display area of the display means 1 matches the image format, and therefore the image may be displayed at the position as it is. However, in the case of the 625 line format, an image of 384 pixels is displayed in a display area of 360 pixels in the horizontal direction, and an image of 280 lines is displayed in a display area of 240 lines in the vertical direction. In order to display this while maintaining compatibility, it is necessary to shift the display position by 12 pixels in the horizontal direction and 20 lines in the vertical direction and discard the protruding data.

In order to adjust the display position, the system difference detecting means 2 sends the system difference to the display position setting means 5.

The display position setting means 5 sets the horizontal and vertical offset amounts based on the method difference and sends them to the display means 1.

In CD-I, the pixel aspect ratio differs depending on the display system, and is as shown in Table 4. Further, even in the same display method, the pixel aspect ratio is distorted as shown in (Table 5) depending on the image format of the image to be displayed.

Since the pixel aspect ratio is different when the display means 1 and the image format are different, even if the same image is displayed, it looks like a circle on one side and an ellipse on the other side.

The method difference detection means 2 sends the method difference to the correction coefficient calculation means 7 for correcting the pixel aspect ratio. The correction coefficient calculation means 7 calculates the correction coefficient from the system difference (Table 4),
Calculation is performed as shown in (Table 6) from the values in (Table 5), and the correction coefficient is sent to the aspect ratio correction means 8. The aspect ratio correction means 8 corrects the aspect ratio of the image data by the correction coefficient in the vertical direction of the image data so that the pixel aspect ratio becomes 1 by the correction coefficient sent, and the corrected image data is converted in display timing. Send to means 6.

[0041]

[Table 6]

Further, the display device 1 in the 525 monitor mode
Since the image is displayed according to the display timing of the NTSC system, the image data is to be displayed at 60 Hz. Similarly, the display means 1 in the 525 monitor mode is an image format created so that the 525 line format is displayed at 60 Hz and the 625 line format is displayed at 50 Hz.
In order to display an image in the 625-line format, a 50Hz / 60Hz conversion is required.

The system difference detecting means 2 sends the system difference to the display timing converting means 6 for adjusting the display timings.

The display timing conversion device 6 converts the image data sent from the aspect ratio correction means 8 into a cycle suitable for the display means 1 according to the system difference, and sends it to the display means 1 together with the display timing.

The display means 1 displays the image data converted by the display timing conversion device 6 with the offset amount sent from the display position setting means 5 in accordance with the display timing.

[0046]

As described above, the display format conversion apparatus of the present invention not only improves the offset amount and the display cycle due to the format difference, but also corrects the distortion of the pixel aspect ratio due to the format difference so that a plurality of image formats can be displayed. It is possible to provide a display system conversion device capable of displaying while maintaining compatibility even when reproduced by a reproduction device of a different display system.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a display system conversion device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a display system conversion device in a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 display means 2 display method detection means 3 image format detection means 4 method difference detection means 5 display position setting means 6 display timing conversion means 7 correction coefficient calculation means 8 aspect ratio correction means

Claims (1)

[Claims] 1. Display means for displaying image data, display method detecting means for detecting a display method of the display means, image format detecting means for detecting an image format of image data to be displayed, the display method and the image format. A method difference detecting means for detecting a method difference between the method, a display position setting means for setting a display position of the image data from the method difference, and a display timing converting means for converting a display timing of the image data from the method difference. A display method conversion device comprising: a correction coefficient calculation means for obtaining a correction coefficient from the method difference; and an aspect ratio correction means for correcting the aspect ratio of the image data according to the correction coefficient.