KR100643990B1 - Method for recording digital data stream and management information - Google Patents

Abstract

According to the present invention, a transmission unit of a received digital data stream is sequentially recorded on a disc recording medium such as a DVD (Digital Versatile Disc) in a predetermined recording size, and digitally generated and recorded to generate management information for searching and managing the recorded transmission unit. A data stream recording and management information generation recording method, comprising: generating header information corresponding to a transmission unit of a received data stream, recording the generated header information adjacent to each corresponding transmission unit, and then transmitting the unit By generating and recording information for managing the number included in the unit recording area, the number of transmission units actually recorded in the unit recording area, such as a unit sector having a predetermined recording size, and the management information for managing the same are not required. Very useful for complete write operation without data padding It would dab.

Transmission unit, unit recording area, DVD, application packet, application header extension information

Description

Method for recording digital data stream and management information

1 schematically shows a general digital data stream recording system,

2 shows a hierarchical diagram of recording units of a general digital data stream;

3 illustrates a configuration of general application header information and application header extension information.

4 illustrates a conventional digital data stream recording process.

5 illustrates recording and configuration of application header information and application header extension information according to the present invention;

6 illustrates a digital data stream recording and management information generation process according to the present invention;

7 illustrates a part of the digital data stream recording and management information generation process according to the present invention;

8 shows a hierarchical diagram of recording units of a digital data stream according to the present invention;

9 illustrates recording and configuration of another application header information and application header extension information according to the present invention;

10 illustrates in detail a part of another digital data stream recording and management information generation process according to the present invention.

※ Explanation of code for main part of drawing

100: set-top box 110: station selection processing unit

120: decoder 130210: communication interface

140,250: control unit 150,260: memory

200: streamer 220: storage stream processing unit

230: recording medium (DVD) 240: read stream processing unit

The present invention sequentially records a transmission unit such as an application packet of a received digital data stream on a disc recording medium such as a DVD (Digital Versatile Disc) in a predetermined recording size, and records management information for searching and managing the recorded transmission unit. A digital data stream recording and management information generation and recording method for generating and recording.

In the conventional analog television broadcasting, a video signal to be transmitted is modulated by AM or FM and transmitted through radio waves or cables. Recently, with the development of digital technologies such as digital image compression and digital modulation and demodulation, the standardization of digital television broadcasting is advancing at a rapid pace, and digitalization based on MPEG (Moving Picture Experts Group) is also used in conventional terrestrial, satellite, and cable broadcasting. Doing.

According to the development of digital video / audio compression technology and digital transmission technology, the digital broadcasting can provide higher quality service than analog service, and can transmit a plurality of broadcast programs in the same bandwidth, and use digital communication media and digital storage media. Has the advantage of increasing interoperability.

In such digital broadcasting, a plurality of broadcast programs encoded on the basis of MPEG are multiplexed and transmitted in the form of a transport stream (TS), which is received by a set top box or the like installed on the receiving side. A plurality of broadcast programs included in the transport stream are demultiplexed so that only one desired broadcast program is selected. The selected broadcast program is decoded by a decoder built into the set-top box to decode the original audio and video signal such as a television. It is delivered to A / V output device.

FIG. 1 schematically illustrates a general digital data stream recording system. The system includes a set top box 100, a communication interface (IEEE 1394), and a streamer 200. The set top box 100 is A plurality of broadcast programs encoded by a system encoder receive a multiplexed transport stream (TS) from a broadcasting station and demultiplex it, which is tuned by the channel processing unit 110 by the controller 140 at the user's request. The streamer 200 decodes the transport stream for the broadcast program by the system decoder 120 and outputs it through an AV set such as a television, or broadcasts a broadcast program tuned at the request of a user through the IEEE1394 communication interface 130 or 210. To record the broadcast program to a recording medium 230, such as a digital video disc (DVD). There.

In addition, the set-top box 100 receives a broadcast program read from the recording medium 230 by the streamer 200 in response to a user's request via the IEEE1394 communication interface 210 or 130 and decodes it in the decoder 120. The broadcast program can be reproduced by outputting to a television set.

As described above, the system for receiving digital broadcast signals and outputting them to an A / V output device such as a television, as well as storing, editing, and playing the received broadcast signals on a storage medium is a system under development. Since the digital data stream recording and management information generation recording method of how to partition and record the digital data stream on the recording medium, and how to manage the partition-recorded digital data stream is not yet standardized, Independent research and development methods for digital data stream recording and management information generation and recording methods are being proposed from related companies.

Hereinafter, the generation and recording method of the proposed digital data stream recording and management information will be described in detail with reference to the accompanying drawings.

First, FIG. 2 shows a hierarchical view of recording units of a general digital data stream. A recording aggregate (SOB) representing a single recording program is composed of a plurality of recording units SOBU. The recording unit SOBU is composed of a plurality of sectors, and the sectors include a plurality of application packets (APs) and header information (HDRS) for the application packets. ). The recording size of the application packet AP is 192 bytes, and the recording size of the sector is 2048 bytes.

Accordingly, as shown in FIG. 2, one unit sector having a recording size of 2048 bytes is a padding area in which a plurality of header information (HDRS), an application packet (AP), and unnecessary data are recorded. The application packet (AP) is partitioned and recorded, and is composed of 4 bytes of time stamps indicating the packet arrival time and 188 bytes of data packets.

3 illustrates a detailed configuration of application header information and application header extension information recorded in the header information (HDRS) area. The application header information is 2048. Information on a plurality of application packets recorded in a unit sector of a byte, and includes a field indicating a version of the header format, a field indicating the number of application packets, and a field AP_NS. The application header extension information is information that is selectively generated and recorded in one-to-one (1: 1) correspondence to each application packet recorded in a unit sector, and is randomly accessed like I-Picture data. Fields indicating a recording start position and a recording end position of a data stream capable of random access (AU_Start: Access Unit Start, A U_End: Access Unit End); And a free area field (Reserved) and a field indicating whether copying is prohibited. The application header extension information corresponds to the number of each application packet recorded in the unit sector with a recording size of 1 byte. Is generated and recorded.

On the other hand, the recently proposed method of recording digital data streams for padding unnecessary data for each recording aggregate (SOB), as shown in Figure 4, the received digital data stream in 2048 byte unit sector without the padding area In order to record sequentially, one application packet is divided and recorded, and the unnecessary sectors are recorded intensively in the unit sectors recorded at the rear end of the SOB or one unit sector finally recorded. For example, FIG. As shown in Fig. 4, the 192 byte application packet is divided into 130 bytes and 62 bytes, so that the last application packet of the M-2 th sector (AP # 10) and the first application packet of the M-1 th sector (AP #). 1), wherein the application header extension information of the M-2 th sector is divided into 130 bytes of the application packet (AP # 10). A total of 10, that is, 10-byte application header extension information is generated and recorded corresponding to each of the 10 application packets including a '0', and '00001010 (= 10)' is recorded in the application packet number (AP_NS) field of the application header information. do.

On the other hand, in the case of the M-1 th sector, the first application packet (AP # 1) divided and recorded into 62 bytes and the ten application packets (AP # 2 to # 11) normally recorded in 192 bytes, and FIG. As a reference, 54 bytes (14 + 14 + 1 + 15) of header information described above and 11 bytes of application header extension information generated and recorded corresponding to 11 application packets in total are recorded, and 2047 bytes (= 62). + 1920 + 54 + 11).

Therefore, in order to match the unit sector recording size of 2048 bytes, the received 192 bytes of application packets must be divided and recorded into 1 byte and 191 bytes, respectively. Since the new 1-byte application header extension information is additionally recorded in the M-1 th sector, the M-1 th sector is partitioned into 2048 byte unit sectors by the additionally recorded one-byte application header extension information.

Accordingly, the 11th application packet and 12 application header extension information and information '00001011 (= 11)' representing the number of the 11 application packets or the number of the 12 application header extension information are included in the M-1 th sector. Information '00001100 (= 12)' is recorded in the application packet number AP_NS.

As described above, in the method of recording a digital data stream using the padding processing method for each recording group, which is recently proposed, in the case where one-byte recording area remains in the unit sector, packet division is required by one-byte remaining recording area. Since the header information in the unit sector and the application packet correspond one-to-one, but are divided and recorded in different areas, the number of application packets actually recorded in one unit sector and the application header which is management information generated and recorded accordingly. There is a problem in that a mismatch occurs between the extended information and the application packet number, and thus there is a problem that the entire recording area of 1 byte cannot be filled.

Therefore, the present invention was created to solve the above problems, and generates header information corresponding to the transmission unit of the received data stream, records the generated header information adjacent to each corresponding transmission unit, and then A new recording method is proposed, in which the transfer unit generates and records information for managing the number contained in a single unit recording area, so that complete recording is performed without padding unnecessary data in a recording area unit such as a unit sector having a predetermined recording size. It is an object of the present invention to provide a digital data stream recording and management information generation recording method.

Digital data stream recording and management information generation recording method according to the present invention for achieving the above object comprises the steps of generating header information corresponding to the transmission unit of the received data stream; And two steps of recording the generated header information adjacent to each corresponding transmission unit.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of a digital data stream recording method according to the present invention will be described in detail below with reference to the accompanying drawings.

First, FIG. 5 shows the recording and configuration of the application header information and the application header extension information according to the present invention, which are recorded and included in the header information (HDRS) area as described above with reference to FIGS. 2 and 3. Application header information is information on a plurality of application packets recorded in a unit sector of 2048 bytes, and a field indicating a version of the header format and a field indicating the number of application packets. (AP_NS) and the like, wherein the application header extension information is information that is generated and recorded as an optional (1) correspondence to each application packet recorded in the unit sector in a one-to-one (1: 1) manner. Represents a recording start position and a recording end position of a data stream capable of random access, such as I-Picture data. DE (AU_Start: Access Unit Start, AU_End: Access Unit End); And a free area field (Reserved) and a field indicating whether copying is prohibited. The application header extension information corresponds to the number of each application packet recorded in the unit sector with a recording size of 1 byte. The generated 1-byte application header extension information is distributed and recorded in the 4-byte timestamp and the 188-byte data packet.

That is, as shown in FIG. 5, one byte of application header extension information is composed of four bytes of timestamp and 188 bytes of data packet, and is distributed in one application packet having a total recording size of 192 bytes. Alternatively, a 193-byte recording unit consisting of 4 bytes of timestamp, 188 bytes of data packet, and 1 byte of application header extension information may be newly defined and recorded as one application packet.

Accordingly, the application packet number field (AP_NS) recorded and included in the application header information includes the number of 192 byte application packets or the one byte application header extension information recorded in one unit sector. Information indicating the number of application packets of 193 bytes is recorded.

Hereinafter, the 1-byte application header extension information is distributed sequentially in an application packet having a recording size of 192 bytes, and sequentially recorded, and information corresponding to the number of sequentially recorded 192-byte application packets, that is, an application of application header information A digital data stream recording and management information generation recording method for generating and recording management information recorded in the packet number field AP_NS will be described in detail with reference to the accompanying drawings.

FIG. 6 illustrates a digital data stream recording and management information generation recording process according to the present invention. In order to sequentially record a received digital data stream in 2048 byte unit sectors without a padding area, one application packet is dividedly recorded. The recording process of the embodiment in which the unnecessary data is intensively recorded in the unit sectors recorded at the rear end of the SOB or the last unit sector recorded at the end of the SOB, is described below. One or more unit sectors included in the whole may be padded.

First, as described above with reference to FIG. 4, in order to record and partition an application packet and management information corresponding to a recording size of 2048 bytes without padding unnecessary data in a unit sector, one application packet is divided and adjacent to each other. 6, the 192-byte application packet includes a 129-byte application packet (AP # 11) to which 1-byte application header extension information is added, and a data packet. It is divided into 63-byte application packets (AP # 1) each consisting of only the last application packet (AP # 11) of the M-2 th sector and the first application packet (AP # 1) of the M-1 th sector. Is recorded.

At this time, as shown in Fig. 7, the M-1 th sector includes a plurality of header information (HDRS) having a recording size of 54 bytes, a first application packet AP1 divided and recorded into 63 bytes, and 192 bytes. 10 application packets AP2 to 11 that are normally recorded are recorded, and 1 byte of application header extension information (AP Header Ext. 2 to 11) is distributed and recorded in each of the 10 application packets AP2 to 11, respectively. Only the application header extension information (AP Header Ext. 1) corresponding to the first application packet (AP1) of the Mth sector, which is the next unit sector, is separately recorded in the remaining 1 byte recording area.

On the other hand, in the application packet number field (AP_NS) recorded in the application header information (Application Header), the number of application packets recorded in the M-1 th unit sector (AP 1, 2 to 11 = 11) or the M The identification value '00001011 (= 11)' corresponding to the number of application header extension information (AP Header Ext. 2 to 11, 1 = 11) recorded in the -1th unit sector is generated and recorded.

That is, in the M-1 th sector, which is a unit sector having 2048 bytes, the first application packet (AP 1) composed of data packets divided into 63 bytes, 4 bytes of time information (Timestamp) and 188 bytes of 2nd to 11th application packets (AP 2 to 11) of 192 bytes composed of data packets, and 11 application header extension information (AP Header Ext. 2 to 11, 1 having a recording size of 1 byte). ) Is divided into one unit sector having a total recording size of 2048 bytes, and the application packet number AP_NS is used to determine the number of application packets or application header extension information recorded in the unit sector. The matching identification information '00001011 (= 11)' is generated and recorded.

Therefore, the application packet and the management information corresponding to the recording size of 2048 bytes are partitioned and recorded and the management information exactly matches the number of recorded application packets without padding unnecessary data in the unit sector. .

On the other hand, as shown in FIG. 8, the 1-byte application header information, 4 bytes of time information, and 188-byte data packet are defined as one application packet, and the digital data stream recording and management information is generated as described above. Even if the recording operation is carried out, the same result, that is, if one byte of recording area remains in the unit sector, there is a mismatch between the number of application packets actually recorded in the unit sector and the application header extension information and the application packet number, which are management information. Can be prevented from occurring.

Hereinafter, another digital data stream recording and management information generation recording method according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 9 illustrates recording and configuration of another application header information and application header extension information according to the present invention, and as described above with reference to FIGS. 3 and 5, included in the header information (HDRS) area. The application header information, which is recorded, is information on a plurality of application packets recorded in a unit sector of 2048 bytes, and includes a field indicating a version of the header format and the number of application packets. It includes a field (AP_NS) indicating, etc., the application header extension information is the information that is generated and recorded (Optional) to correspond to each application packet recorded in the unit sector in a one-to-one (1: 1), The recording start position and the recording end position of a data stream capable of random access such as I-picture data are respectively shown. That field (AU_Start: Access Unit Start, AU_End: Access Unit End); A field indicating a reserved area and a copy prohibition; And identification information (Null_Flag) indicating whether the application header extension information is valid.

That is, in another digital data stream recording and management information generation recording method according to the present invention, one-bit identification information (Null_Flag) indicating whether or not the application header extension information is valid is recorded in each application header extension information. Information about the number of application packets recorded in a unit sector is generated and recorded in the application packet number (AP_NS) field based on the identification information (Null_Flag). The identification information (Null_Flag) and the corresponding application packet number (AP_NS) An information recording operation will be described in detail with reference to FIG. 10 attached below.

FIG. 10 illustrates a part of another digital data stream recording and management information generation process according to the present invention in detail. As described above with reference to FIG. 4, a 2048-byte unit sector of a received digital data stream without a padding area is shown. In order to record sequentially, one application packet is divided and recorded, and the unnecessary sectors are intensively recorded in the unit sectors recorded at the end of the SOB or one unit sector finally recorded. As shown in FIG. 10, an application packet of 192 bytes is divided into 130 bytes and 62 bytes, so that the last application packet (AP # 10) of the M-2 th sector and the first application packet of the M-1 th sector ( AP # 1), respectively, wherein the application header extension information of the M-2 th sector is divided and recorded into 130 bytes of the application. A total of 10, i.e., 10-byte, application header extension information is generated and recorded corresponding to each of the 10 application packets including the packet AP # 10, and in the application packet number (AP_NS) field of the application header information, '00001010 ( = 10) 'is recorded.

On the other hand, in the case of the M-1 th sector, the first application packet (AP # 1) divided and recorded into 62 bytes, the ten application packets (AP # 2 to # 11) normally recorded in 192 bytes, and 54 bytes ( 14 + 14 + 1 + 15) header information and 11 bytes of application header extension information generated and recorded corresponding to 11 application packets are recorded, and 2047 bytes (= 62 + 1920 + 54 + 11) are recorded. It will have a size.

Therefore, in order to match the unit sector recording size of 2048 bytes, it is necessary to separately record the received 192 bytes of application packets into 1 byte and 191 bytes, respectively. Since one byte of application header extension information is additionally recorded in the M-1th sector, the M-1th sector is partitioned into 2048 byte unit sectors by the additionally recorded one byte of application header extension information.

In this case, the identification information (Null_Flag) recorded in the application header extension information of the last 1 byte additionally recorded is set and recorded as an identification value '1b' indicating that the last application header extension information is not valid, 11 application header extension information generated in correspondence with the number of application packets AP # 2 to # 11.

That is, the identification information (Null_Flag) recorded in the 11 application header extension information is set and recorded with an identification value indicating that each application header extension information is valid, '0b', and recorded in the last application header extension information. In the identification information Null_Flag, an identification value '1b' indicating that the last application header extension information is invalid is set and recorded.

Therefore, although 11 application packets and 12 application header extension information are recorded in the M-1 th sector, it is possible to identify that the last application header extension information is generated and recorded simply for padding by the identification information. Information '00001011 (= 11)' indicating the number of application packets is recorded in the application packet number (AP_NS) or information indicating the number of 11 application header extension informations validated by the identification information. 00001011 (= 11) 'is recorded in the application packet number AP_NS.

In this way, when a one-byte recording area remains in the unit sector, an inconsistency occurs between the number of application packets actually recorded in one unit sector and the application header extension information and the application packet number, which are management information generated and recorded accordingly. Can be prevented, and a complete recording operation can be performed without padding unnecessary data.

In the digital data stream recording and management information generation and recording method according to the present invention as described above, the header information such as the generated application header extension information is distributed and recorded in units of transmission units such as application packets, and the predetermined recording is performed in unit sectors. By generating and recording management information for managing the number of transfer units recorded in the unit recording area having a size, the number of transfer units actually recorded in the unit recording area such as a unit sector having a predetermined recording size and the management information for managing the same It is a very useful invention that allows a complete recording operation without unnecessary data padding processing as well as matching.

Claims (4)

Distributing and recording application header extension information in the application packet of the received data stream, respectively; And And recording the number of application packets in which the application header extension information is distributed and recorded in the application packet number field of the application header information. delete delete The method of claim 1, And said application header extension information is 1 byte and distributedly recorded at the head of an application packet of 192 bytes to which 4 bytes of time information is added, respectively.

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