RU2461976C2 - Method of displaying television frames - Google Patents

Abstract

FIELD: information technology.

SUBSTANCE: method of displaying television frames in 4:3 and 16:9 format is characterised by that according to the disclosed method, the raster format of the display device is taken as equal to 5:3. The number of active elements in a raster line on the horizontal is taken, according to the ITU BT - 709 recommendation, as equal to 1920, and the number of active lines is determined from the relationship 1920 x h/b = 1920 x 3/5 = 1152, where b is the width of the image, h is the height of the image, wherein during display of a frame in the format 16:9, a process field is obtained for displaying additional information in the lower part of the image, and when a frame is displayed in the 4:3 format, one or two side process fields are obtained on the image, wherein during display of high definition television images, the number of active raster units is equal to 768 x 1280, and during display of a standard definition television image, the number of active raster units must be equal to 576 x 960.

EFFECT: displaying television frames in 4:3 and 16:9 formats in one display device without distortions and allocating a process field for letter-digital display of audio information.

2 dwg

Description

The proposed technical solution relates to television technology and can be used in the development of digital television video monitoring devices and televisions.

Known methods for displaying television frames with formats b: h = 4: 3, where b is the image width, h is the image height on a display device with a 4: 3 format and television frames with a 16: 9 format on a display device with a 16: 9 format [ETSI EN 300 294 Television systems; 625-line television Wide Screen Signaling (WSS)].

Known methods for displaying television frames with various formats on display devices 4: 3 or 16: 9 with the conversion of image signals or distortion of reproduced images [ETSI TS 101154 Digital Video Broadcasting (DVB); Implementation guidelines for the use of Video and Audio Coding in Broadcasting Applications based on the MPEG-2 Transport Stream].

The disadvantages of the above known methods are distortion of reproduced images or the complexity of the conversion of television signals.

Closest to the claimed method is a method for displaying frames of images with a 4: 3 format and frames of images with a 16: 9 format when playing images, which is presented in the document ETSI TS 101154 Digital Video Broadcasting (DVB); Implementation guidelines for the use of Video and Audio Coding in Broadcasting Applications based on the MPEG-2 Transport Stream.

The disadvantage of the prototype is the consideration of frames of images in 4: 3 format with a non-square image element and the use of a 14: 9 or 16: 9 display format for unification.

The technical result of the proposed method consists in displaying television frames with 4: 3 and 16: 9 formats on one display device without distortion and in highlighting the technological field for alphanumeric display of audio information.

This is achieved in that the method of displaying television frames with 4: 3 and 16: 9 formats is characterized in that according to the proposed method, the raster format of the display device is taken to be 5: 3, and the number of active elements in the raster line horizontally is taken according to the ITU BT recommendation - 709 equal to 1920, and the number of active lines is determined from the ratio 1920 × h / b = 1920 × 3/5 = 1152, where b is the image width, h is the image height, and when displaying a frame with a 16: 9 format, a technological field for display additional information in the lower part of the image, and when displaying a frame with a 4: 3 format, one or two side technological fields are received on the image, while when displaying television images of high definition, the number of active elements of the raster is 768 × 1280, and when displaying a television image of standard definition, the number of active elements the raster should be 576 × 960.

The presented drawings explain the essence of the proposed technical solution.

Figure 1 shows the image display of a widescreen 16: 9 frame with a universal display frame; figure 2 is an example of displaying an image of a conventional frame with a 4: 3 format with a universal display frame.

The proposed method is implemented as follows. Choose the number of active lines in the raster of a high-definition television frame equal to Za = 1152 lines, and the number of elements in a line Na = 1920 with a quadrant image element (pixel) Ke = 1: 1. When displaying a widescreen 16: 9 television frame, 1080 active lines are used top of the raster and 1920 active elements per line. In this case, the technological field contains 72 lines with the number of active elements in the line equal to 1920. A normal frame with a 4: 3 format is displayed with a quadrant image element (pixel) using the number of active lines Za = 1152 and the number of active elements in the line Na = 1536 (see Fig. 1).

Thus, the proposed method for displaying television frames allows one to receive images of television frames with various formats on one display device, that is, the viewer has one universal display device, as well as create alphanumeric display of sound information for the hearing impaired or provide multilingual support for television films for foreign viewers.

Claims (1)

A method of displaying television frames with 4: 3 and 16: 9 formats and a square picture element, characterized in that according to the proposed method, the raster format of the display device is taken to be 5: 3, the number of active elements in the horizontal line of the raster being equal to 1920, and the number active lines 1152, while when displaying a frame with a 16: 9 format, a technological field is obtained for displaying additional information in the lower part of the image, and when displaying a frame with a 4: 3 format on the image, one or two side Tehnological field, while when displaying television images enhanced resolution raster number of active elements equal to 768 × 1280, and when displaying television standard definition image raster number of active elements must be 576 × 960.

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