KR100672528B1 - Decoding method of terrestrial DMB audio - Google Patents

Abstract

The present invention is to provide an audio decoding method that can efficiently process the lip sync processing in terrestrial DMB, and to easily access the frame more easily when decoding the compression standard BSAC, Extracting an ES packet signal by performing PES decoding on a TS signal, combining a header having at least one of lip sync time information and an ES start position to a start position of the ES packet, And receiving the combined ES packet signal to perform A / V decoding.

Terrestrial DMB, BSAC, Lip Sync, ES

Description

Decoding method of terrestrial DMB audio signal {decoding method of terrestrial DMB audio}

1 is a diagram showing a PEB packet format used for decoding of terrestrial DMB audio according to the present invention.

2 is a diagram illustrating a structure of an SL packet of a terrestrial DMB in a method of decoding terrestrial DMB audio according to the present invention.

FIG. 3 is a diagram illustrating a format of a header added to an SL packet in FIG. 2.

The present invention relates to an efficient decoding method for terrestrial DMB audio, and more particularly, to a method for indicating the start position of a bit sliced arithmetic coding (BSAC) code used for audio compression and management of time information used for a lip sync. .

Currently, the audio standard supported by terrestrial DMB in Korea is BSAC among MPEG-4 audio standard technology (ISO / IEC 14496-3) established in 1999.

This is a technology that gave some limitations to the ER-BSAC standard of Object ID 22 in ISO / IEC 14496-3 standard.

However, the BSAC does not have a syncword to indicate the start of an audio decoding unit (AU; frame).

In addition, the DMB manages time information by setting a separate sync layer (SL) for lip sync, and the time information used by actual MPEG-4 objects in this SL is Decoding Time Stamp (DTS) and Composition Time (CTS). Have a stamp).

In this case, the SL is transmitted as packet data in a packetized elementary stream (PES) packet using the MPEG-2 transmission method. However, the SL for the time information does not exist because the terrestrial DMB audio uses the MPEG-4 transmission method. It is not.

Accordingly, in the terrestrial DMB, it is difficult to perform independent lip sync processing for each ES file of audio and video when A / V synchronization is performed, and various adjustments are impossible by the user.

In addition, since there is no sync word indicating the start of an audio decoding unit (AU; frame), access to the frame is not easy when decoding, and an additional control device must be driven to solve an error situation. do.

In other words, the compression algorithm used in terrestrial DMB adopts BSAC, and the ES obtained from the decoding of the SL packet contained in the PES packet indicates the first bit of the BSAC. This bit is an 11-bit frame_length. However, since this value is variable and can be changed every frame, it is not easy to find the next frame because from the decoder's point of view, random access is not possible if an error occurs during decoding.

Accordingly, the present invention has been made to solve the above problems, and can efficiently process the lip sync process in terrestrial DMB, and can easily access the frame more easily when decoding the compression standard BSAC Its purpose is to provide a decoding method of.

A feature of the method for decoding terrestrial DMB audio according to the present invention for achieving the above object is extracting an ES packet signal by performing PES decoding on an externally input TS signal, and at the start position of the ES packet. Combining the header having at least one of the lip sync time information and the start position of the ES; and receiving the ES packet signal to which the header is combined, and performing A / V decoding.

Preferably, the header includes an AccessUnitStartFlag value indicating the start of the ES and an AccessUnitEndFlag value indicating the end of the ES.

Preferably, if the AccessUnitStartFlag value is 1 in the header and the AccessUnitEndFlag value is set to 1, this indicates that the SL packet starts and ends first, and if the AccessUnitStartFlag value is 1 and the AccessUnitEndFlag value is set to 0 in the header, If the SL packet starts first and continues to the next SL packet, and the AccessUnitStartFlag value is set to 0 and the AccessUnitEndFlag value is set to 1 in the header, the SL packet is extended from the preceding SL packet so that the SL packet ends. If the AccessUnitStartFlag value is 0 and the AccessUnitEndFlag value is set to 0 in the header, the corresponding SL packet is extended from the preceding SL packet and continues to the next SL packet.

Preferably, the header has at least one of packet start code, stream ID, PTS, OCR, and CTS information.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of embodiments with reference to the accompanying drawings.

A preferred embodiment of a method for decoding terrestrial DMB audio according to the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a PEB packet format used for decoding terrestrial DMB audio according to the present invention.

Although the contents of the SL packet defined in MPEG-4 are larger than those in FIG. 1, considering the limitations in terrestrial DMB, as shown in FIG. 1, the flags of Access Unit Start Flag, Access Unit End Flag, OCR Flag, idle Flag, etc. ) Field, OCR (Object Clock Reference) and Optional Fields.

The OCR region is defined by an OCR flag, and the Optional Fields are applied only when the value of the Access Unit Start Flag is 1.

The Optional Fields include time information DTS and CTS, and there are flags that define the time information.

As described above, the terrestrial DMB transmits Elementary Stream (ES) for audio and video in a PES packet using MPEG-2 transmission.However, unlike conventional MPEG-2, an MPEG-4 is included in a PES packet by including an SL packet. OCR, CTS, DTS of the time information is additionally sent.

2 is a diagram illustrating a structure of an SL packet of a terrestrial DMB in a method of decoding terrestrial DMB audio according to the present invention.

2 (a) to 2 (e), the SL packet of the terrestrial DMB has a structure having four types of access units (AUs).

As shown in FIG. 2 (a), the SL_HEADER is further configured in front of the SL packet to provide start and end information of the ES.

That is, the case where the AccessUnitStartFlag value is 1 indicates the start of the ES, and the case where the AccessUnitEndFlag value is 1 indicates the end of the ES.

Therefore, when the AccessUnitStartFlag value is 1 and the AccessUnitEndFlag value is set to 1 in SL_HEADER as shown in FIG. The end information of the ES is configured at the end to indicate the end of the SL packet.

When the AccessUnitStartFlag value is set to 1 and the AccessUnitEndFlag value is set to 0 in SL_HEADER as shown in FIG. There is no ES information at the end, indicating that the SL packet continues to the next SL packet.

In addition, when the AccessUnitStartFlag value is 0 and the AccessUnitEndFlag value is set to 1 in SL_HEADER as shown in FIG. The end information of the ES is configured at the end to indicate the end of the SL packet.

Lastly, if the AccessUnitStartFlag value is 0 and the AccessUnitEndFlag value is set to 0 in SL_HEADER, as shown in FIG. This indicates that there is no end information of the ES at the end and that the SL packet continues to the next SL packet.

Likewise, when decoding DMB audio, A / V lip sync should be considered like other broadcasting standards. In addition, the time information used when considering the lip synch requires three values of PTS, OCR, and CTS and STC values obtained from PCR.

The PTS is limited in the terrestrial DMB standard to exist only when OCR is present. Since the STC is a system clock of MPEG2, the STC cannot be directly compared with the CTS.

Therefore, in order to correct the CTS value in the situation where the OCR value is given, a value for the difference between the PTS and the OCR should be used as the correction value for the CTS.

For this reason, in order to adjust the lip sync, time information on the PTS, OCR, and CTS must be known in advance during ES decoding.

This time information is added after the packet start code and the stream id value 0x000001FA as shown in FIG. 3 and added to the beginning of the ES.

Each time information is used by allocating 32 ~ 40 bits considering actual 33 bits or byte align.

In this way, by adding a new ES header to the ES (Elementary Stream) for audio and video, independent lip sync is performed for each ES file of audio and video when A / V synchronization is performed. In addition, the user can perform various adjustments even when performing independent lip sync.

In addition, since each ES has time information, A / V synchronization can be performed without additional control even if an error condition occurs.

In addition, since it has time information, buffer control is easy. That is, a situation such as underflow or overflow can be achieved only by decoding the time information of the stream without comparing the size of the buffer. This reduces the amount of buffer checking at the decoder.

In addition, by inserting a new header in the ES packet as shown in FIG. 3, since it plays a role of notifying the start of each frame, it is possible to access (Random Access) to read the desired time zone from the storage device.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the embodiments, but should be defined by the claims.

As described above, the method for decoding terrestrial DMB audio according to the present invention has the following effects.

First, independent lip sync can be performed for each ES file of audio and video, so that various adjustments can be made by the user.

Second, since each ES has time information, A / V synchronization can be achieved without additional control even if an error situation occurs.

Third, it is possible to reduce the work of checking the buffer amount at the decoder.

Fourth, by inserting a new header additionally, since it plays a role of notifying the start of each frame, it is possible to access (Random Access).

Claims (4)

Extracting an ES packet signal by performing PES decoding on an externally input TS signal; Combining a header including lip sync time information, an AccessUnitStartFlag value indicating the start of the ES, and an AccessUnitEndFlag value indicating the end of the ES, to a start position of the ES packet; Receiving A / V decoding by receiving the header-coupled ES packet signal; and a method for decoding terrestrial DMB audio, comprising: delete The method of claim 1, If the AccessUnitStartFlag value is 1 and the AccessUnitEndFlag value is set to 1 in the header, this indicates that the corresponding SL packet starts and ends first. If the AccessUnitStartFlag value is 1 and the AccessUnitEndFlag value is set to 0 in the header, this indicates that the corresponding SL packet starts first and continues to the next SL packet. If the AccessUnitStartFlag value is 0 and the AccessUnitEndFlag value is set to 1 in the header, the corresponding SL packet is extended from the preceding SL packet to indicate that the corresponding SL packet ends. If the AccessUnitStartFlag value is 0 and the AccessUnitEndFlag value is set to 0 in the header, the SL packet is extended from the preceding SL packet and continues to the next SL packet. The method of claim 1, The header includes a packet start code and a stream ID, and includes at least one of PTS, OCR, and CTS information.

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