DE19964260B4 - Digital data packet recording procedure involves dividing forwarding data packet among residual area and sector when data packet length is larger than residual area - Google Patents

Abstract

The forwarded data packets of preset unit length are recorded on sectors of recording medium (230), sequentially. The residual area in the sectors are judged whether they are smaller than length of forwarding data packet. The data packet is divided between residual area and sectors and recorded when the residual area is smaller than data packet length. An independent claim is also included for digital data packet recording apparatus.

Description

Territory of invention

The The present invention relates generally to a record carrier for Recording transport stream units of a digital data stream in Current object units of the record carrier with sectors of a specified Size.

at usual analog TV broadcasts video signals are modulated after being modulated by AM or FM the air or transmitted by cable. With the progress of digital technologies in recent times, such as digital image processing or digital modulation / demodulation, is a standardization for digital television broadcasts in rapid progress. Based on the Moving Picture Experts Group (MPEG) format is moving the satellite and cable industry also in the direction of a digital transmission (broadcast).

The digital transmission provides some advantages that the analog counterpart can not deliver. For example can the digital transmission (broadcast) Provide services with greatly improved video / audio quality, several different programs within a specified range, and improved compatibility with digital communication media or digital storage media to offer.

at digital transmission is a variety of programs coded based on the MPEG format, before a transmission multiplexed into a single data stream. The transmitted transport stream is received by an attachment box at the receiver and in the original one Programs are demultiplexed. If a program is demultiplexed Programs selected becomes, becomes the selected one Program decoded by a decoder in the attachment box and original Sound and video signals be won. The recovered sound and video signals can be through output an A / V output device, such as a TV.

1 Fig. 10 is a block diagram of a general digital data stream recording apparatus comprising a top box 100 , a communication interface (IEEE-1394) and a streamer 200 , The attachment box 100 receives transport streams encoded by system encoders and transmitted by a plurality of transmission stations as broadcast, and demultiplexes the received transport streams. Having a system decoder 120 the transport stream of a program to which a selection unit 110 is set, decoded, gives a control unit 140 the decoded transport stream to an A / V output device for a performance, such as a television. The attachment box 100 For example, a program selected by a user through the IEEE-1394 interface to the streamer 200 submit, so that the submitted program through the streamer 200 on a recording medium 230 such as recording a digital video disc.

Requested by a user, the attachment box 100 a through the streamer 200 through the IEEE-1394 communication interface from the recording medium 230 received program, so that the retrieved program can be displayed on a TV, after it through the decoder 120 was decoded.

Around received digital broadcast signals on a recording medium It is necessary to record schemes for organizing the received streams on the recording medium as groups of stream object units to develop and management information for the stream object entities to create. However, no international standard for such schemes is available until today, and so have been various methods by related manufacturers proposed.

One A known method for generating stream object units is known With reference to accompanying drawings.

2 shows the syntax of several digital stream recording units. A stream object (SOB) that is a single recorded program includes a plurality of stream object units, and a stream object unit (SOBU) includes a plurality of sectors. A sector further comprises a plurality of transport stream (TSP) packets and header information (HDRS) related to the transport stream packet.

More accurate said, with reference to the figures, is the size of a transport stream package 192 bytes, the size of the header information (HDRS) is 100 bytes and the size of one Sector is 2048 bytes. A 2048 byte sector is 100 bytes Header information (HDRS), 10 192-byte transport stream packets and 28 Byte fill area, filled with zero data. The 100 byte header information (HDRS) continues to be included a sector header to identify the sector and multiple headers. A transport stream packet includes a 4 byte timestamp representing the packet arrival time and a 188 byte application package.

3 shows a detailed view of the on headers recorded in the header information area (HDRS). The application header includes a plurality of fields designating the header format version (VERSION), the data stream identification code (APPLICATION_ID), the maximum bit-rate transfer rate of the data stream (MAX_BITRATE), the buffer size (SMOOTH_BUF_SZ), the packet arrival / delivery reference clock frequency (TS_REF_CL_FREQ), the length of one Transport stream packets (AP_PKT_LEN), the duration (length) of a transport packet arrival time (TS_LEN), the number of transport stream packets (AP_PKT_Ns), the first transport stream packet of the data stream (START_OF_STR) and the last transport stream packet of the data stream (END_OF_STR). The number 188 indicating that the size of a transport stream packet other than the timestamp is 188 bytes is stored with 2 bytes in the AP_PKT_LEN field and the number 10 indicating that a sector comprises 10 transport stream packets is stored in 1 byte in the AP_PKT_Ns field.

In accordance with the known method of recording digital data streams, a predetermined number of sectors are grouped into a stream object unit (SOBU), and one sector comprises 100 bytes header information (HDRS), 10 192 byte transport stream packets including time stamps and 28 byte padding area in 4 shown.

When a sequence includes a stream object unit (SOBU) 32 sectors 32 28-byte filling areas and therefore the size of the filling areas, which are contained in a stream object unit (SOBU), 886 bytes. Because of the filling area does not comprise usable information, degrades such a recording method the recording efficiency of the recording medium is very high.

The DE 197 19 904 A1 describes a generation of a data sector for a high density hard disk drive. The data sector includes a data sync section for inserting a sync signal for reading information written in the data sector, an ID section for writing ID information for the data sector, a PAD section for separating the ID section and the data section, a data address tag section for Display a data validity, a data write-in area for data of an external device, and an error correction code area.

The DE 195 46 327 describes a transparent recording and reproduction of time-critical digital streams by means of a synchronization of the recorded data streams. Packets are examined for synchronization information and the packet identification of a packet is stored when the synchronization information has been determined.

SUMMARY THE INVENTION

It is an object of the present invention, a method and a To provide apparatus for recording digital data streams, the the size of a Record area filled with null data minimized.

method and apparatus for recording digital data streams in accordance with the present invention include sequential recording of transport stream packets in a sector and recording a Transport stream packets over two sectors, if the size of the remaining Area of a sector smaller than the size of a transport stream unit is.

One another method and apparatus for recording digital streams in accordance with the present invention comprises recording received transport stream packets, checking the Size of the recorded Transport stream packets and grouping the received transport stream packets in stream object units by adding an unrecorded area dependent on from the tested Size information.

SHORT DESCRIPTION THE DRAWINGS

The accompanying drawings, which are attached for a better understanding of the invention, illustrate the preferred embodiments of the invention and, together with the description, serve as an illustration the principles of the present invention.

1 Fig. 12 is a block diagram of a general digital stream recording apparatus;

2 shows a pictorial representation of the syntax of the general digital stream recording units;

3 shows a pictorial representation of a general application header for transport stream units;

4 Fig. 11 is a pictorial representation of sectors and stream object units generated by the known recording method;

5 shows a pictorial representation of Sectors and stream object units generated by the recording method in accordance with the present invention; and

6 shows a pictorial representation of an application header in accordance with the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

For a full one understanding The invention will now be described with reference to preferred embodiments the accompanying drawings.

5 shows the syntax of sectors and stream object units generated by the method of the present invention. The following embodiment will refer to the digital data stream recording apparatus disclosed in US Pat 1 is shown.

Transport stream packets of a digital data stream received through the attachment box 100 and transmitted through the IEEE-1394 communication interface, are passed through a stream recording unit 220 sequentially on the recording medium 230 recorded. When a received transport stream packet is recorded, a control unit checks 250 the streamer 200 whether a 192-byte transport stream packet TSP10 can be added in the sector M-1 in which the preceding transport stream packets (TSP1 ~ TSP9) have been recorded, without exceeding the sector size, 2048 bytes.

When it is determined that the transport stream packet TSP10 can not be added to the sector M-1, the control unit controls 250 the electricity recording unit 220 such that the transport stream packet TSP10 is recorded over two sectors sector M-1 and sector M by dividing the transport stream packet TSP10 into a first and a second part. The size of the first part of the split transport stream packet TSP10 is determined by the difference between the sector size of 2048 bytes and the size of transport stream packets recorded in advance in the sector M-1, and therefore the sector M-1 is complete with transport stream packets without one remaining area filled. The second part of the split transport stream packet TSP10 is recorded in the next sector, sector M.

The received digital data stream is recorded on the recording medium 230 recorded after being buffered. When the sector M-1 is on the recording medium 230 recorded records the control unit 250 the information about the split transport stream packet TSP10 in the application header information. For example, the size of the second part of the transport stream packet TSP10 may be recorded in the COM_SZ field, which is the size of a split transport stream packet. If the second part of the transport stream packet TSP10 has a size of 30 bits, the value '011110' is written into the COM_SZ field. The application header information is recorded on the recording medium 230 recorded with sector M-1.

There Transport stream packets are recorded in a sector without a filling area, can be the position of the first transport stream package, which in a Sector is recorded without being split, change. There now the size of the second Part of the transport stream package covering two sectors, sector M-1 and sector M, the starting position of the first sector, which is recorded in the sector M indicates the position of the first transport stream packets recorded in sector M, without being split, by means of the value of the COM_SZ field, which is contained in the previous sector sector M-1 found become. Instead of recording the size of the second part of a split transport stream packages in the header of the sector in which recorded the first part of the split transport stream package can be recorded in the header of the next sector in which the second part of the transport stream packet is recorded is.

In accordance With the recording scheme, a 2048 byte sector can be a 100 byte Header information (HDRS), 10 192-byte transport stream packets, and one or two split transport streams. If only one split transport stream package, it may be in the lead Be positioned in the area or in the end of the sector.

In In the application header information, the field AP_PKT_Ns shows the number of transport stream packets contained in the associated sector. In the known recording method, the number of transport stream packets is which is contained in a sector, as long as the size of a Transport stream packets not changeable is. In the recording method in accordance with the present However, the invention is the number of transport stream packets that are in a sector is variable.

When the number of transport stream packets included in a sector is counted, the leading bits of the transport stream packets are counted to prevent duplicate counting of split transport stream packets. If a data stream as in 5 is recorded, the number of transport stream packets that are in the sectors sector M-2, Sector M-1 and Sector M are 11, 10 and 4, respectively.

It Assume that a stream object unit contains 32 sectors and that 31 sectors of a stream object unit SOBU # k have been generated so far are. When the 32nd sector of the stream object unit SOBU # k is recorded will check if that is Transport stream package being recorded, the 324th transport stream package is. If so, the remaining area of the stream object unit becomes SOBU # k after an addition of the 324th transport stream packet filled with null data to the size of the stream object unit SOBU # k to be 2048 bytes. In comparison with the known recording method, generates 886 bytes of padding, elevated the recording method in accordance with the present invention the recording efficiency very, because only 128 bytes as filling area be used in a sector.

The A method of recording digital data streams in accordance with the present invention Invention records received transport stream packets over sectors up, depending on the size of the remaining Range of sectors, and null data will only be in the last Sector of each stream object unit inserted, reducing the size of zero Data is minimized and recording efficiency is increased.

The Invention can be applied in other specific forms without to deviate from the idea or necessary features. The present embodiments are therefore illustrative in all their aspects and not restrictive Rather, the scope of the invention is to be considered the attached claims referred to as by the previous description and all changes within the meaning and the equivalence domain the claims are intended therefore, to be included.

Claims (5)

A record carrier containing data that consist of transport stream units, which in several sectors written, each sector having a fixed size, so that at least one transport stream unit is written across two sectors will if the remaining area the first of the two sectors is smaller than the length of the Transport stream unit. record carrier according to claim 1, further comprising information regarding the respective number of transport stream units in each sector are included. record carrier according to claim 2, wherein the respective number by counting the Transport stream units is obtained, the leading bit in the associated sector is included. record carrier according to claim 1, further comprising information regarding the Start position of each first transport stream unit, in each Sector is included. record carrier according to claim 4, wherein the information regarding the starting position is the Size of one rear part of a split, over relates to two sectors written transport stream unit.