KR20020015580A - Method for recording a digital data stream - Google Patents

Abstract

PURPOSE: A method of recording a digital data stream is provided to prevent the search error of a data stream and to minimize the division of empty SOBUs(Stream Object Unit) by agreeing the sum value accumulated by IAPAT(Incremental Application Packet Arrival Time) with the sum value of the actually-counted IAPAT. CONSTITUTION: A method of recording a digital data stream is applied in case of a low bit rate of a transfer packet from a set-top box. Transfer packets received before exceeding the maximum IAPAT of 4096 bits defined by the current size, and plural stuffing packets recorded to fill 32 sectors are divided into a single SOBU(SOBU#n). Then, the maximum IAPAT of 4096 bits are recorded on an entry(IAPAT#n) of a mapping list corresponding to the SOBU. A 32-sector SOBU(SOBU#n+1) simply consisting of stuffing packets, that is, an empty SOBU is divided successively. The other IAPAT except the maximum IAPAT are recorded on an entry(IAPAT#n+1) of the mapping list corresponding to the SOBU. In searching a data stream, a desired recording address of the data stream is searched exactly based on the sum value accumulated by IAPAT.

Description

Method for recording a digital data stream

The present invention provides a time for searching for the recorded digital data stream while partitioning and recording the received digital data stream into a Stream Object Unit (SOBU) on a disc recording medium such as a DVD (Digital Versatile Disc). A method of recording a digital data stream for generating and recording information.

Recently, with the development of digital technologies such as digital image compression and digital modulation and demodulation, the standardization of digital television broadcasting is rapidly progressing, and existing terrestrial, satellite, and cable broadcasting are based on MPEG (Moving Picture Experts Group). It is digitizing.

According to the development of digital video / audio compression technology and digital transmission technology, the digital broadcasting can provide a higher quality broadcasting service than an analog broadcasting signal service, and in particular, can transmit a plurality of broadcasting programs in the same bandwidth, and digital communication media. And an increase in interoperability with digital storage media.

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 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.

As described above, research on a system for receiving a digital broadcast signal and outputting it to an A / V output device such as a television, as well as recording, editing, and reproducing the received broadcast signal on a recording medium has been conducted. After receiving the data stream from the set-top box, the data stream is stored in a streamer such as a DVD recording / playback apparatus through a communication interface such as an IEEE-1394 serial bus, and the stored digital stream is edited and played back. Research into a system capable of reproducing digital audio and video through an A / V output device such as a television by transmitting a communication interface to a set-top box is ongoing.

In such a system, a recording assembly (SOB), which is a recording unit for a digital data stream of a single program, and a recording unit (SOBU), which is a recording unit constituting the recording assembly, are divided and recorded on a recording medium such as a DVD. And how to generate and record the search information for searching and managing the partitioned SOB and SOBU. In particular, the search time selected by the user is particularly desired. There is a demand for a study on how to quickly search for a record data stream corresponding to the data without searching errors.

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

FIG. 1 schematically shows a system to which a conventional method for recording a proposed digital data stream is applied, and FIG. 2 shows a recording and management information generation and recording process of a digital data stream made by the system. The system is composed of a set top box 100, a communication interface (IEEE 1394) and a streamer 200, the set top box 100 is a transmission stream (a broadcast program of a broadcasting station that is encoded and transmitted by a system encoder of a broadcasting station) In response to a request from a user, the controller 140 decodes a transport stream for a broadcast program tuned by the channel processing unit 110 to the system decoder 120 and receives an A / The streamer 200 outputs a broadcast program set through the V set or tuned at the request of a user through the IEEE 1394 communication interface 130 or 210. The streamer 200 allows the streamer 200 to record the broadcast program to a recording medium 230 such as a digital video disc (DVD), and the streamer 200 records the data at the request of the user. The broadcast program recorded in the medium 230 is read out and transmitted to the set-top box 100 through the IEEE 1394 communication interface 210 or 130, and the set-top box 100 is a broadcast program transmitted from the streamer 100. After decoding to the decoder 120, and output to the television so that the broadcast program recorded on the recording medium can be reproduced and output on the television screen.

On the other hand, the control unit 250 of the streamer 200, the data stream transmitted from the set-top box 100 is stored on the recording medium 230 by the storage stream processing unit 220, as shown in Figure 2 In order to control the data to be recorded, each transport packet (TP) in the transmitted data stream is recorded in sector units on a recording medium together with packet arrival time (PAT) information. When the unit sector to be recorded has a predetermined recording size, for example, 32 sectors, the recorded data stream is divided into recording units, and when the recording operation is terminated or stopped by the user, the divided recording units (SOBU) are recorded. ) Into one record set.

In addition, the stream start application packet arrival time (SOB_S_APAT) and the packet arrival time increase amount (IAPAT) of the recording assembly are used to search and manage the SOB and the recording unit SOBU. Management data, such as Application Packet Arrival Time) information, that is, navigation data is generated and recorded, and the management information which is a recording unit and navigation data of the recorded digital data stream will be described below with reference to the accompanying drawings. Same as

First, as shown in FIG. 3, the digital data stream received and recorded from the set-top box 100 includes a transmission packet TP including an application packet and packet arrival time information (PAT or Time Stamp). ; A unit sector composed of the transport packets TP and header information; A recording unit SOBU partitioned and recorded in predetermined sector units, for example, 32 sector units; It is partitioned and recorded into a recording assembly SOB composed of recording units SOBU having temporal continuity, while management information which is navigation data of a recording digital data stream, that is, management information for searching and managing the recording assembly SOB ( As shown in FIG. 4 and FIG. 5, SOBI: SOB Information (SOBI Information) is a mapping list which is management information of the SOBI General Information (SOBI_GI) and the recording unit SOBU constituting the SOB. (MAPL: MAPping List), and the general information SOBI_GI is recorded including the start stream packet arrival time SOB_S_APAT, which is the start position time information of the recording assembly SOB, and the mapping list MAPL. As shown in FIG. 2, the packet arrival time increment amount (IAPAT: Incremental APAT) information, which is a count value (number), counted at a predetermined unit time (X) interval during a recording unit (SOBU) partition time, is shown in FIG. Record it, The search information is used as search information for searching the record set SOB and the record unit SOBU.

Meanwhile, as shown in FIG. 6, the start stream packet arrival time (SOB_S_APAT) information recorded in the record aggregation general information (SOBI_GI) is measured by the streamer 200 according to the MPEG standard. A total of 6 bytes of packet arrival times (PATs) are recorded using a small unit time of dividing (PAT_ext) and a large unit time (PAT_base) of counting 39 bits at 90 Khz, whereas the application packet of FIG. In addition to the start stream packet arrival time (SOB_S_APAT) format, time information (ATS: Application Time Stamp) recorded together with the 32-bit counts up to 27Mhz and counts up to 159 seconds (159 = 232 / 27Mhz). In total, 4 bytes of visual information (ATS) are recorded.

Hereinafter, using the management information and time information of the SOB, the recording unit SOBU, and the transmission packet TP, which are divided and recorded as described above, the method of searching for a recorded digital data stream corresponding to the search request time will be described. For example, it will be described in detail as follows.

First, as shown in FIG. 2, in the case of searching for a data stream corresponding to a user's search request time (ST), that is, the recording position S of the transmission packet TP, the general information on the recording aggregate SOBI_GI Compares the start stream packet arrival time (SOB_S_APAT) information recorded on the < RTI ID = 0.0 &gt; with &lt; / RTI &gt; the search request time (ST) to detect a close start stream packet arrival time (SOB_S_APAT &lt; Cumulatively sum (IAPAT 1 ~ 4) packet arrival time increment information (IAPAT) information of each entry recorded on the mapping list MAPL of the record set SOB # 1 corresponding to the detected start stream packet arrival time SOB_S_APAT. 12) multiplying a predetermined unit time (X) and summing again with the start stream packet arrival time (SOB_S_APAT), wherein the summed time (SOB_S_APAT + (ΣIAPAT (= 12) x X)) is the search request time. Proximity of time not exceeding (ST) (SOB_S_APAT + (ΣIAPAT x X) < = ST), the entry of the mapping list MAPL is found, and the index value of the entry is multiplied by the number of sectors of the recording unit SOBU, for example, 32 sectors, to show the desired recording unit SOBU, that is, shown in FIG. The position of the fifth recording unit SOBU 5 is searched.

Then, from the start position A 'of the searched recording unit SOBU 5, 4 bytes of time information ATS additionally recorded in the transmission packet TP are detected, and the detected time information ATS is The difference time between the time information ATS of the first transmission packet TP of the recording unit SOBU 5 is the difference time between the search request time ST and the summed time SOB_S_APAT + (ΣIAPAT x X). Search for a transport packet TP having time information ATS, which is matched to the start stream packet arrival time SOB_S_APAT and time information ATS of the transport packet TP, In other words, the time information ATS of the detected transmission packet TP is different from the search request time ST and the start stream packet arrival time SOB_S_APAT as described above. = 232 / 27Mhz) at different unit times, not directly related to the search request time (ST) Because of the time information, using the time length of the packet arrival time (PAT) recorded in the recording unit (SOBU 5), the fine search is a transport packet of a desired search positions (S).

On the other hand, the packet arrival time increase amount IPAT information recorded in each entry of the mapping list MAPL is a value counted by 12 bits, for example, as shown in FIG. 7. Since the count is performed using 12 bits from the lower 19 bits to 30 bits among the total 6 byte packet arrival times (PATs) described above, the maximum representable number is 2 ¹² -1 (= 4097). However, the current standard restricts the maximum representable number to 2 ¹² -2 (= 4096), and defines this as the maximum packet arrival time increase (IAPAT _max ) information.

Therefore, in each entry of the mapping list MAPL corresponding to the recording unit SOBU having a predetermined recording size of 32 sectors, the maximum packet arrival time increase amount IAPAT _max information is greater than 2 ¹² -2 (= 4096). Not count value should be recorded, if the input bit rate of the transmission packet (TP) received from the set-top box 100 is a very low low bit rate (for example, the current specification) the maximum increase in packet arrival time (IAPAT _max), as defined in the ^212-2 (4096), even when the count, the input bit rate of the transport packet so enough not divide the recording unit having a recording size of 32 sectors In the low case, the transmission packets received before exceeding the maximum packet arrival time increase and a plurality of stuffing packets additionally recorded to fill 32 sectors are formed into one recording unit (SOBU #n). And, in the entry of the mapping list corresponding to the recording unit, it is recorded in the ^212-2 (4096) up to the packet arrival time increment information (IAPAT _max).

On the other hand, the transmission packet received after transmission is included in the next recording unit (SOBU # n + 1) to be recorded, for a detailed description of the operation, assume a simpler embodiment, and accordingly The following description is made.

First, the maximum packet arrival time increase amount (IAPAT _max ) '2 ¹² -2 (= 4096)' is assumed to be a small number '2 ⁴ -2 (= 14)' and is transmitted from the set-top box 100. When the transmission packet is transmitted and received at a very low low bit rate, for example, as shown in FIG. 8, the packet arrival time increase is 2 ⁴ − which is the maximum packet arrival time increase amount (IAPAT _max ) assumed above. Even when 32 points are not filled at a time point when '15' exceeds 2 (= 14), that is, when time information counted by a predetermined time interval X becomes '16', as described above, the maximum packet Transmission packets (TP) received before the time of arrival increase, 2 ⁴ -2 (= 14), and a number of stuffing packets additionally recorded to fill 32 sectors into one recording unit (SOBU # 1). And the maximum loss in the entry (IAPAT # 1) of the mapping list (MAPL) corresponding to the recording unit (SOBU # 1). Is recorded in the 2 ⁴ 2 (= 14) the arrival time increment (IAPAT _max).

In addition, the transmission packet received at the time when 16 exceeds 2 ⁴ -2 (= 14), which is the maximum packet arrival time increase amount (IAPAT _max ), is recorded in the next recording unit (SOBU # 2). In this case, even when the packet arrival time increase exceeds 2 ⁴ -2 (= 14), which is the maximum packet arrival time increase amount (IAPAT _max ) assumed above, for example, even when it becomes '35' If the 32 sectors cannot be filled, the transmission packet received before exceeding the maximum packet arrival time increase, 2 ⁴ -2 (= 14), and a plurality of stuffing packets additionally recorded to fill the 32 sectors are recorded next. The unit is divided into SOBU # 2, and 2 ⁴ -2 (= 14), which is the maximum packet arrival time increase amount (IAPAT _max ), is added to an entry (IAPAT # 2) of the mapping list (MAPL) corresponding to the recording unit. Will be recorded.

However, the sum value? ∑PAPAT, which is cumulatively calculated by the packet arrival time increment information recorded in the entries IAPAT # 1 and IAPAT # 2 of the mapping list as described above, is the sum of the packet arrival time increments actually counted. When this phenomenon occurs frequently, if the phenomenon occurs frequently, the cumulative sum time becomes shorter than the actual recorded position. Therefore, when the user finds the desired time position, the packet arrival time increase information When searching by, the searcher finds a position far behind the position where the corresponding data is actually recorded, and a search error occurs that prevents the search from the desired recording position.

Therefore, the present invention was created to solve the above problems, and the input bit rate of the transmission packet is very low, until a maximum packet arrival time increase amount (IAPAT _max ) defined in the current standard is counted. Even when the recording unit of the recording size cannot be partitioned, the sum of the cumulatively calculated packet arrival time increments is accumulated by the sum of the packet arrival time increments (IAPAT) information recorded in the entry of the mapping list MAPL, respectively. It is an object of the present invention to provide a method of recording a digital data stream that can be matched with a value, thereby preventing a search error of the data stream and minimizing the partition of the empty recording unit.

1 illustrates a configuration of a typical set top box and a streamer,

2 illustrates a process of recording and searching a general digital data stream.

3 shows a recording hierarchy of a typical digital data stream,

4 and 5 illustrate management information of a general digital data stream.

6 and 7 illustrate a general packet arrival time (PAT) and packet arrival time increment (IAPAT),

8 illustrates an embodiment of a general method of recording a digital data stream;

9 shows an embodiment of a method for recording a digital data stream according to the present invention;

10 and 11 show another embodiment of the method for recording a digital data stream according to the present invention.

※ Explanation of code for main part of drawing

100: set top box (STB) 110: station selection processing unit

120: decoder 130, 210: digital interface

140, 250: control unit 150, 260: memory

200: streamer 220: storage stream processing unit

230: recording medium 240: read stream processing unit

According to an aspect of the present invention, there is provided a method of recording a digital data stream, the method comprising: checking a packet arrival time increase amount while recording a received transmission packet; Dividing one recording unit into transmission packets received before exceeding the maximum packet arrival time increase amount if the checked packet arrival time increase amount exceeds a predetermined maximum packet arrival time increase amount; Recording the maximum packet arrival time increment in an entry of a mapping list corresponding to the partitioned recording unit, and allocating the recording unit without a received transmission packet consecutively to the recording unit; And recording, in the entry of the mapping list corresponding to the recording unit allocated without recording the transmission packet, four steps of recording the increase amount of the checked packet arrival time increase in excess of the maximum packet arrival time increase amount. Features,

In addition, the method for recording a digital data stream according to the present invention comprises the steps of: checking an increase in packet arrival time while recording a received transmission packet; In the case that the checked packet arrival time increase amount exceeds a predetermined maximum packet arrival time increase amount, recording and dividing into one recording unit into transmission packets received before the maximum packet arrival time increase amount is exceeded. ; Recording the maximum packet arrival time increase amount in an entry of a mapping list corresponding to the partitioned recording unit, and obtaining a value obtained by subtracting the maximum packet arrival time increase amount from the confirmed packet arrival time increase amount; Determining the number of recording units to be allocated based on the obtained value without recording the received transmission packet; And if the allocated recording unit exceeds one, the entry of the mapping list corresponding to the recording unit excluding one includes five steps of recording the maximum packet arrival time increase amount.

In addition, the recording method of the digital data stream according to the present invention checks the packet arrival time increase amount while recording the received transmission packet, and the confirmed packet arrival time increase amount exceeds the pre-defined maximum packet arrival time increase amount. If so, the first step of partitioning into one recording unit of the transmission packets received before exceeding the maximum packet arrival time increase; The maximum packet arrival time increment is recorded in an entry of a mapping list corresponding to the partitioned recording unit, and the maximum packet arrival time increment is exceeded according to the remaining packet arrival time increment after subtracting the maximum packet arrival time increment. Recording a transmission packet in a recording unit continuous to the partitioned recording unit; And a third step of recording the entry of the mapping list corresponding to the recording unit recorded in step 2 by adding the stored remaining arrival time increment.

In addition, the recording method of the digital data stream according to the present invention checks the packet arrival time increase amount while recording the received transmission packet, and the confirmed packet arrival time increase amount exceeds the pre-defined maximum packet arrival time increase amount. If the above step, the step of partitioning into one recording unit into the transmission packets received before the maximum packet arrival time increase amount; Recording the maximum packet arrival time increment in the entry of a mapping list corresponding to the partitioned green block unit, and storing the remaining packet arrival time increment after subtracting the maximum packet arrival time increment; And when determining the arrival time increment in the recording unit to determine whether to partition the next recording unit in the partitioned recording unit, determining the addition of the remaining stored packet arrival time increments. do.

Hereinafter, a method of recording a digital data stream according to the present invention will be described in detail with reference to the accompanying drawings.

First, in the method of recording a digital data stream according to the present invention, as described above, when the input bit rate of the transmission packet TP received from the set-top box 100 is a very low low bit rate. This applies to, for example, a predetermined recording size, i.e., a recording size of 32 sectors, even when counting 2 ¹² -2 (= 4096), which is the maximum packet arrival time increment (IAPAT _max ) defined in the current standard. If the input bit rate of the transmission packet is so low that it cannot divide the recording unit with a value, before the maximum packet arrival time increase (IAPAT _max ), which is restricted by the current standard, exceeds 2 ¹² -2 (= 4096). After receiving the transmission packets and a plurality of stuffing packets additionally recorded to fill 32 sectors into one recording unit SOBU #n, an entry of the mapping list corresponding to the recording unit (IAPA) In T #n, 2 ¹² -2 (= 4096), which is the maximum packet arrival time increase information (IAPAT _max ), is recorded.

Then, after successively partitioning a 32 sector size recording unit (SOBU # n + 1) that is composed of only stuffing packets, that is, an empty recording unit, an entry of the mapping list corresponding to the recording unit (IAPAT # n +). In 1), the packet arrival time increase remaining except for the maximum packet arrival time increase is recorded. For a detailed description of the operation, a simpler embodiment is assumed and the embodiments according to the following will be described. same.

First, the maximum packet arrival time increase (IAPAT _max ) '2 ¹² -2 (= 4096)' is assumed to be a small number '2 ⁴ -2 (= 14)' and is transmitted from the set-top box 100. When the transmission packet is transmitted and received at a very low low bit rate, for example, as shown in FIG. 9, the packet arrival time increase is 2 ⁴ -which is the maximum packet arrival time increase amount (IAPAT _max ) assumed above. In the case where 32 sectors are not filled even when the time information becomes '15' exceeding 2 (= 14), that is, when the time information counted by the predetermined time interval X becomes '16', as described above, the maximum packet arrives. A transmission packet (TP) received before the time increment, 2 ⁴ -2 (= 14), and a plurality of stuffing packets additionally recorded to fill 32 sectors are divided into a first recording unit SOBU # 1. And the maximum packet degree in the entry (IAPAT # 1) of the mapping list MAPL corresponding to the recording unit SOBU # 1. Optical illusion increase information (IAPAT _max ) 2 ⁴ -2 (= 14) is recorded.

Then, after successively partitioning the second recording unit SOBU # 2, which is an 32-sized empty recording unit composed only of stuffing packets, the remaining packet arrival time increase amount other than the maximum packet arrival time increase amount, that is, A 32 sector size consisting of only the stuffing packets is '1', which is the remaining packet arrival time increase amount recorded in the entry list IAPAT # 1 corresponding to the previously partitioned first recording unit SOBU # 1. It is recorded in the entry list IAPAT # 2 of the mapping list corresponding to the second recording unit SOBU # 2 of the apparatus.

Thereafter, the transmission packet received when 16 exceeding the maximum packet arrival time increase amount IAPAT _max , which is 2 ⁴ -2 (= 14), is counted and included in the next third recording unit SOBU # 3. In this case, when the packet arrival time increase amount exceeds 2 ⁴ -2 (= 14), which is the maximum packet arrival time increase amount (IAPAT _max ) assumed above, for example, '35' counts. Even if the 32 sectors cannot be filled, the transmission packets received before the maximum packet arrival time increase, 2 ⁴ -2 (= 14), and a plurality of stuffing packets additionally recorded to fill the 32 sectors 2 ⁴ -2 (= 14), which is divided into a third recording unit SOBU # 3 and is the maximum packet arrival time increase amount IAPAT _{max in} the entry IAPAT # 3 of the mapping list MAPL corresponding to the recording unit. ) Will be recorded again.

After successively partitioning the fourth recording unit SOBU # 4, which is an empty recording unit having a size of 32 sectors consisting only of stuffing packets, the remaining packet arrival time increase excluding the maximum packet arrival time increase, ie, A fourth sector having a size of 32 sectors consisting only of stuffing packets is '5', which is recorded in the entry list IAPAT # 3 corresponding to the partitioned third recording unit SOBU # 3, and the remaining packet arrival time increment is increased. The operation of recording the entry list IAPAT # 4 of the mapping list corresponding to the unit SOBU # 4 is performed.

Therefore, the sum value? ∑PAPAT, which is cumulatively calculated by the packet arrival time increment information recorded in the entries (IAPAT # 1 to IAPAT # 4) of the mapping list as described above, is the sum of the packet arrival time increments actually counted. Since the value is the same as '34', the desired recording position is accurately searched when the data stream is searched based on the cumulative calculation calculated by the IAPT information as described above with reference to FIG. You can do it.

Meanwhile, FIG. 10 illustrates an embodiment of a case in which a transmission packet transmitted from the set-top box 100 is transmitted and received at a lower low bit rate, and stuffing packets through the process described above with reference to FIG. 9. The maximum packet arrival time since the packet arrival time increment '1' is recorded in the second recording unit SOBU # 2 having only 32 sectors and the entry list IAPAT # 2 corresponding thereto. The transmission packet received at the time when '15' exceeds the increase amount IAPAT _max 2 ⁴ -2 (= 14), that is, when the time information counted by the predetermined time interval X becomes '16', It is recorded in the third recording unit SOBU # 3, where the packet arrival time increase is 2 ⁴ -2 (= 14), which is the maximum packet arrival time increase (IAPAT _max ) assumed above. If more than twice, for example, even when '48' is counted, 32 If the sector cannot be filled, the transmission packet received before the maximum packet arrival time increase, 2 ⁴ -2 (= 14), and a plurality of stuffing packets additionally recorded to fill the 32 sectors are stored in the third recording unit ( SOBU # 3) and rewrite 2 ⁴ -2 (= 14), which is the maximum packet arrival time increment (IAPAT _max ), into an entry (IAPAT # 3) of the mapping list (MAPL) corresponding to the recording unit. In addition, the remaining packet arrival time increase amount, ie, '18', is checked except the maximum packet arrival time increase amount.

In addition, the fourth recording unit SOBU # 4, which is an empty recording unit having a size of 32 sectors consisting only of stuffing packets, is partitioned, and the maximum packet arrival time is increased in the entry list IAPAT # 4 of the corresponding mapping list. After recording '14', the remaining packets are stored in the fifth recording unit SOBU # 5, which is an empty recording unit having a size of 32 sectors consisting only of stuffing packets, and an entry in the corresponding mapping list (IAPAT # 5). The operation of partitioning and recording the arrival time increment '4' is performed.

Therefore, even in this case, the sum value? ∑PAPAT, which is cumulatively calculated by the packet arrival time increment information recorded in the entries (IAPAT # 1 to IAPAT # 5) of the mapping list, respectively, is the sum of the packet arrival time increments actually counted. Since the value is the same as the value '47', when the data stream is searched based on the sum value accumulated by the packet arrival time increase amount (IAPAT) information as described above with reference to FIG. You will be able to navigate.

Meanwhile, FIG. 11 illustrates another embodiment of a method for recording a digital data stream according to the present invention, in particular an embodiment capable of minimizing the empty recording unit described above, and transmitting from the set-top box 100. When the received packet is transmitted and received at a very low bit rate, for example, the packet arrival time increase exceeds 2 ⁴ -2 (= 14), which is the maximum packet arrival time increase (IAPAT _max ) assumed above. If the 32 sectors cannot be filled even when the time information becomes '15', that is, when the time information counted by the predetermined time interval (X) becomes '16', as described above, the maximum packet arrival time increase amount, 2 ⁴ -2 The transmission packets TP received before (= 14) and a plurality of stuffing packets additionally recorded to fill 32 sectors are partitioned into a first recording unit SOBU # 1, and the recording unit SOBU. Mapping list (M) corresponding to # 1) The entry (IAPAT # 1) of APL), is recorded in the ^24-2 (= 14) up to the packet arrival time increment information (IAPAT _max).

At this time, after temporarily storing '15 -14 = 1 ', the remaining packet arrival time increase amount, which has not been recorded, is 16, which exceeds 2 ⁴ -2 (= 14) which is the maximum packet arrival time increase amount (IAPAT _max ). The transmission packet received at the time of counting is included in the second recording unit SOBU # 2 for recording. The packet arrival time increase counted thereafter is the maximum packet arrival time increase amount (IAPAT _max) assumed above. It is detected whether or not to exceed 2 ⁴ -2 (= 14), which is described as follows.

First, when the time information counted as '27' at the time when another transmission packet is received after the time point 16 is counted, '1' is temporarily added to calculate the packet arrival time increase amount.

That is, the packet arrival time increase amount calculated at the time when 27 is counted becomes '(27-16) + 1 = 12', and finally, it is determined that the maximum packet arrival time increase amount, '14' is not exceeded.

Then, when the transmission packet is received at the time when '48' is counted, the packet arrival time increase calculated at this time is '(48-16) + 1 = 43', and the packet arrival time increase is the maximum packet arrival time. It is determined that the increase amount (IAPAT _max ), 2 ⁴ -2 (= 14), has been exceeded.

Therefore, the transmission packet TPs received before the maximum packet arrival time increase, 2 ⁴ -2 (= 14), and a plurality of stuffing packets additionally recorded to fill 32 sectors are stored in the second storage unit SOBU. 2 ⁴ -2 (= 14), which is the maximum packet arrival time increment information (IAPAT _max ), in the entry IAPAT # 2 of the mapping list MAPL corresponding to the recording unit SOBU # 2. ) Will be recorded.

In addition, the third recording unit SOBU 3, which is an empty recording unit subsequent to the second recording unit, is divided, and the maximum packet arrival time increase amount '14' is added to the entry list IAPAT # 3 of the corresponding mapping list. Will be recorded.

Then, after temporarily storing '5', the remaining packet arrival time increase amount, which is not recorded through the above process, the above operation is repeated.

Therefore, in this case, it is possible to minimize the recording unit having a recording size of 32 sectors, in particular the empty recording unit consisting only of stuffing packets, in which the first, second and third recording units The cumulative calculated value ∑IAPAT calculated by the packet arrival time increment information recorded in each of the corresponding mapping list entries (IAPAT # 1 to IAPAT # 3) is '42' which is the sum of the packet arrival time increments actually counted. Since the same value as in FIG. 2, the desired recording position can be precisely searched when the data stream is searched based on the cumulative value calculated by the IAPT information as described above with reference to FIG. 2. Will be.

As mentioned above, preferred embodiments of the present invention are disclosed for the purpose of illustration, and those skilled in the art can improve and change various other embodiments within the spirit and technical scope of the present invention disclosed in the appended claims below. , Replacement or addition would be possible.

In the method of recording a digital data stream according to the present invention as described above, the input bit rate of the transmission packet is very low, and even when the maximum packet arrival time increase amount (IAPAT _max ) defined in the current standard is counted, the predetermined recording is performed. If it is impossible to partition the recording unit of size, an empty recording unit consisting only of stuffing packets is additionally recorded and divided on an entry of a mapping list (MAPL) corresponding to the recording unit. By recording the remaining packet arrival time increase amount exceeding the maximum packet arrival time increase amount, the sum value accumulated by the packet arrival time increase amount (IAPAT) information recorded in the entry of the mapping list corresponding to the recording unit is actually counted. The record level is searched based on the packet arrival time increment by matching the sum of the arrival time increments. In addition, it is possible to prevent a search error, and to temporarily store remaining packet arrival time increments other than the maximum packet arrival time increment recorded in the mapping list entry corresponding to the recording unit, and calculate the time when the transmission packet is received. It is a very useful invention that the empty recording unit can be minimized by calculating the packet arrival time increase amount, which makes it possible to use and manage the recording capacity and management information of the recording medium more efficiently.

Claims (9)

While checking the packet arrival time increase while recording the received transmission packet, before the maximum packet arrival time increase is exceeded, if the confirmed packet arrival time increase exceeds the pre-defined maximum packet arrival time increase, Partitioning the received transmission packets into one recording unit; The maximum packet arrival time increment is recorded in an entry of a mapping list corresponding to the partitioned recording unit, and the maximum packet arrival time increment is exceeded according to the remaining packet arrival time increment after subtracting the maximum packet arrival time increment. Recording a transmission packet in a recording unit continuous to the partitioned recording unit; And And recording the entry of the mapping list corresponding to the recording unit recorded in step 2 by adding the stored remaining arrival time increments. The method of claim 1, In the second step, when the remaining packet arrival time increase amount exceeds the maximum packet arrival time increase amount, one or more recording units not recording the received transmission packet are allocated and then assigned to the continuous recording unit units in the allocated recording units. And recording a transmission packet that exceeds the maximum packet arrival time increase amount. The method of claim 1, The maximum packet arrival time increment is recorded in the entry of the mapping list corresponding to the recording unit allocated without recording the received transmission packet. The method of claim 3, wherein And a recording unit allocated without recording the received transmission packet, filled with packets having unnecessary data, and recording. The method of claim 1, The maximum packet arrival time increase amount is determined by the size of a field for recording a value obtained by counting a length of a transmission packet reception time of a start and end recorded in one recording unit in a predetermined unit time. How to record a data stream. The method of claim 1, In the second step, the received transmission packet is recorded in one recording unit, and the remaining area fills and records packets having unnecessary data. The method of claim 1, The maximum packet arrival time increment, ^212-2 recording method of a digital data stream, characterized in that (4096). The method of claim 1, The recording unit has a recording size of 32 sectors. While checking the packet arrival time increase while recording the received transmission packet, before the maximum packet arrival time increase is exceeded, if the confirmed packet arrival time increase exceeds the pre-defined maximum packet arrival time increase, Partitioning the received transmission packets into one recording unit; Recording the maximum packet arrival time increment in the entry of a mapping list corresponding to the partitioned green block unit, and storing the remaining packet arrival time increment after subtracting the maximum packet arrival time increment; And And when determining the arrival time increment in the recording unit to determine whether to partition the next recording unit in the partitioned recording unit, three steps of adding the remaining stored packet arrival time increments are included. Method of recording digital data streams.