KR100507881B1 - A bit stream decoder in digital broadcasting receiver system - Google Patents

Abstract

The present invention relates to an electronic communication technology, and more particularly, to a bitstream decoding apparatus of a digital broadcast reception system, and provides a bitstream decoding apparatus of a digital broadcast reception system capable of ensuring accuracy of synchronization in decoding and displaying a video stream. Its purpose is to. The present invention provides a bitstream decoding apparatus of a digital broadcast receiving system, comprising: transport means for parsing an input bitstream; A system time clock (STC), a video presentation time stamp (PTS), and a video decoding time stamp (DTS) are input from the transport means, and according to the STC-DTS value, the skip and wait of a picture during video decoding are determined. Synchronization control means for determining skip and wait of a picture in video display according to the PTS value; Video decoding means for decoding the parsed video stream under control of the synchronization control means; And video display means for outputting a decoded video stream controlled by the synchronization control means.

Description

A bit stream decoder in digital broadcasting receiver system

The present invention relates to electronic communication technology, and more particularly, to a bitstream decoding apparatus of a digital broadcast reception system.

The bitstream coming through the digital broadcast receiving antenna is parsed at the transport stage. At this time, a program clock reference (PCR) for synchronizing the system comes in, which is used to synchronize an internal system time clock (STC). In addition, at the packetized elementary stream (PES) level, a presentation time stamp (PTS) value for each PES of audio and video is received, which means that the present bitstream is actually displayed. Time to make a sound or to emit sound. In addition, the video stream has a decoding time stamp (DTS) because the decoding order and the display order are different when using a B picture for efficient compression.

1 is a block diagram of a bitstream decoder according to the prior art.

The bitstream decoder according to the related art receives a transport unit 10 for parsing an input bitstream, receives a parsed audio stream, an STC and an audio PTS, calculates an STC-PTS value, and decodes a value within a limited range. And an audio decoder 11 for performing audio output, a video decoder 12 for receiving a parsed video stream, an STC and a video PTS / DTS, and determining a STC-PTS (or DTS) value to perform decoding. And a video display unit 13 which is controlled by the video decoder unit 12 to perform actual video output.

That is, in the case of a video stream, the actual display is performed solely under the control of the video decoder unit 12. In the case of synchronizing in such a manner, it is not a big problem because the data size is small in the case of the audio stream, but in the case of the video stream, the video display unit 13 passes through the time when the decoding is performed and the time when the actual display occurs. Time is included.

For example, in the case of a bitstream consisting of I, P, and B pictures, the display of the P picture currently being decoded is performed after all subsequent B pictures are displayed. In this way, the PTS is not synchronized to the actual display time, but the display and decoding decisions are made entirely at the decoding time. Therefore, the accuracy of the synchronization is inferior, especially in a precise system. However, different screens often appear when you run multiple systems simultaneously with the same stream.

The present invention has been proposed to solve the above problems of the prior art, and an object of the present invention is to provide a bitstream decoding apparatus of a digital broadcast receiving system that can ensure the accuracy of synchronization during decoding and display of a video stream. .

In order to achieve the above object, the present invention provides a bitstream decoding apparatus of a digital broadcast receiving system, comprising: transport means for parsing an input bitstream; A system time clock (STC), a video presentation time stamp (PTS), and a video decoding time stamp (DTS) are input from the transport means, and according to the STC-DTS value, the skip and wait of a picture during video decoding are determined. Synchronization control means for determining skip and wait of a picture in video display according to the PTS value; Video decoding means for decoding the parsed video stream under control of the synchronization control means; And video display means for outputting a decoded video stream controlled by the synchronization control means.

In addition, the bitstream decoding apparatus of the digital broadcast reception system of the present invention receives an audio stream parsed from the transport means, the system time clock (STC) and an audio presentation time stamp (PTS), and receives an STC-PTS value. Preferably, the apparatus further comprises audio decoding means for performing audio decoding and output if the calculated range is satisfied.

Preferably, the bitstream decoding apparatus of the digital broadcast receiving system of the present invention further comprises audio decoding means for receiving audio parsed from the transport means and performing audio decoding and output, wherein the synchronization control means, The audio decoding means is controlled according to the STC-PTS value by receiving the system time clock (STC) and the audio presentation time stamp (PTS) from the transport means.

Preferably, the synchronization control means determines skipping and waiting in units of pictures during video display and feeds the result back to the video decoding control.

Hereinafter, preferred embodiments of the present invention will be introduced in order to enable those skilled in the art to more easily carry out the present invention.

2 is a block diagram of a bitstream decoder according to an embodiment of the present invention, which will be described below with reference to the drawing.

The bitstream decoder 200 according to the present embodiment receives the transport unit 20 for parsing the input bitstream, the parsed audio stream, the STC, and the audio PTS, and calculates an STC-PTS value within a limited range. If the value is entered, the audio decoder 21 performs decoding and audio output, the video decoder 22 for decoding the parsed video stream under the control of the synchronization controller 24, and receives the control from the synchronization controller 24. The video display unit 23 for outputting the decoded video stream and the STC and the video PTS / DTS are received from the transport unit 20 to determine skip and wait of the picture during video decoding according to the STC-DTS value. And a synchronization controller 24 for determining skip and waiting of a picture at the time of video output according to the STC-PTS value.

That is, in the present embodiment, the audio stream is subjected to the same decoding / output procedure as before, and the video stream is further provided with a synchronization controller 24 for controlling the video decoder unit 22 and the video display unit 23, respectively. .

The SDRAM frame buffer 210 is controlled by the synchronization controller 24 to store a picture decoded and output by the video decoder 22 and outputs the stored picture to the video display unit 23.

Hereinafter, the operation of the bitstream decoder 200 having the above configuration will be described.

When the video stream enters the video decoder section 22 from the transport section 20, the synchronization control section 24 determines whether to decode the video stream.

3 is a diagram illustrating a processing flow of the DTS controller in the synchronization controller, in which the DTS controller first checks the DTS (30), and the SDTS (= STC-DTS) value of the current picture is smaller than the minimum SDTS value (Dmin). If it is small (31), if it is small, skip is performed until the condition is satisfied, that is, until the SDTS value is smaller than the minimum SDTS value (Dmin) (33), and if it is not small, the SDTS value is the maximum SDTS value ( Greater than Dmax) (32).

As a result of the check, if the SDTS value is larger than the maximum SDTS value Dmax, the apparatus waits until the condition is satisfied (34). If the SDTS value is not larger than the maximum SDTS value Dmax, the decoding of the video stream is performed (35). ).

Here, the maximum value Dmax and the minimum value Dmin of the SDTS, which determine the decoding, have a value satisfying the conditions defined in the MPEG-2 standard. The compressed bitstream includes approximately 4 to 5 pictures. Done. In other words, the picture is skipped and waited within this range, and decoding is first determined through this process.

After performing the decoding process as described above, the video display process is performed.

4 is a diagram illustrating a processing flow of the PTS controller in the synchronization controller, in which the PTS controller first checks the PTS (40), and the SPTS (= STC-PTS) value of the current picture is smaller than the minimum SPTS value (Pmin). If it is small (41), if it is small, it skips by one picture (43). If it is not small, it is checked whether the SPTS value is larger than the maximum SPTS value (Pmax) (42).

As a result of the check, if the SPTS value is greater than the maximum SPTS value Pmax, the standby is performed for one picture (44). If the SPTS value is not greater than the maximum SPTS value Pmax, the display of the video stream is performed (45).

That is, after performing the above-described decoding process, the secondary skip and wait state are controlled through the PTS controller. In other words, since there is a difference in time between decoding and actual display, it is checked to see if the picture satisfies the conditions of the SPTS immediately before the display to correct this. At this time, the maximum value (Pmax) and minimum value (Pmin) of the SPTS is different from the DTS control unit, so that the minimum value, that is, the time difference between the PTS value and the picture implemented at the time of encoding by putting a time difference of about one picture. Makes it possible to match exactly.

The skip and wait states determined by the PTS control unit are not only fed back to determine the decoding state like the DTS control unit, but also control the frame buffer 210 to be currently displayed.

On the other hand, the synchronization control unit 24 to control the audio PTS for fine adjustment of the audio stream can further increase the accuracy of the synchronization.

The present invention described above can efficiently optimize the lip sync by controlling synchronization during video decoding and display, and in particular, it is possible to prevent different screens from appearing when several systems are simultaneously driven with the same stream. To realize high quality digital broadcasting reception system.

1 is a block diagram of a bitstream decoder according to the prior art.

2 is a block diagram of a bitstream decoder according to an embodiment of the present invention.

3 is an exemplary process flow diagram of a DTS controller in a synchronization controller.

4 is an exemplary process flow of the PTS control unit in the synchronization control unit.

* Explanation of symbols for the main parts of the drawings

20: transport unit

21: audio decoder

22: video decoder

23: video display unit

24: synchronization control unit

200: bitstream decoder

210: SDRAM frame buffer

Claims (4)

In the bitstream decoding apparatus of a digital broadcast receiving system, Transport means for parsing the input bitstream; A system time clock (STC), a video presentation time stamp (PTS), and a video decoding time stamp (DTS) are input from the transport means, and according to the STC-DTS value, the skip and wait of a picture during video decoding are determined. Synchronization control means for determining skip and wait of a picture in video display according to the PTS value; Video decoding means for decoding the parsed video stream under control of the synchronization control means; And Video display means for outputting a decoded video stream controlled by the synchronization control means Bitstream decoding apparatus of the digital broadcast receiving system comprising a. The method of claim 1, Audio decoding parsed from the transport means, the system time clock (STC) and the audio presentation time stamp (PTS) are received, and the STC-PTS value is calculated to perform audio decoding and audio decoding if the limited range is satisfied. And a means for decoding the bitstream of a digital broadcast receiving system. The method of claim 1, And audio decoding means for receiving audio parsed from the transport means and performing audio decoding and output. The synchronization control means, And receiving the system time clock (STC) and an audio presentation time stamp (PTS) from the transport means and controlling the audio decoding means according to the STC-PTS value. The method of claim 1, The synchronization control means, And skip and wait in units of one picture during video display, and feed the result back to the video decoding control.