KR20050021371A - Av data conversion device and method - Google Patents

Abstract

The AV data conversion apparatus of the present invention reads an AV data file 101 in which AV data including video information and audio information is stored, and an authentication file 102 corresponding to the AV data file. Authentication file checking means 11 for confirming correspondence with the authentication file, a plurality of stream conversion means 13 for converting the AV data into a predetermined format, and the plurality of stream conversions in accordance with the contents of the authentication file. Converting means determining means 12 for determining at least one stream converting means for converting the AV data into a predetermined format among the means.

Description

AV Data Converter and Method {AV DATA CONVERSION DEVICE AND METHOD}

The present invention relates to an AV data converting apparatus and method for converting AV data compressed by MPEG or the like into data conforming to the VR standard and recording it on an optical disc.

In an optical disk device such as a DVD-RAM, AV data such as MPEG is recorded according to the Video Recording standard (hereinafter referred to as VR standard), which is a standard for recording AV data. The AV data storage file defined by the VR standard is called a VRO file, and conforms to the MPEG standard. However, since it is assumed to perform operations such as recording, editing, and the like on a disc in real time, some restrictions on the specification are imposed on the MPEG standard. For this reason, not all MPEG files are compatible with VRO files, and in order to record MPEG files that are not compatible with the VR standard as VRO files, data conversion is performed to conform to the VR standard, such as a change in pack size. You need to run

Fig. 19 is a block diagram showing an example of a conventional AV data conversion apparatus for converting and recording AV data such as MPEG into data conforming to the VR standard. In Fig. 19, the AV data converter reads the MPEG format data file 101 before converting it into a VR format data file, converts it into a VR compatible VRO data file 107, and an IFO data file 108. It records on the optical disk 50. The AV data converter includes MPEG demultiplexer 61, video decoding means 91, VR video encoding means 92, audio decoding means 81, VR audio encoding means 82, VR multiplexer 62, and VR. Standard information acquisition means 14 is provided.

The MPEG demultiplexer 61 separates the read MPEG data file into a video elementary stream 601 and an audio elementary stream 602. The video decoding means 91 decodes the video elementary stream 601 into decoded video data 901. The VR video encoding means 92 converts the decoded video data 901 into a VR compatible video stream 902. The audio decoding means 81 decodes the audio elementary stream 602 into decoded audio data 801. The VR audio encoding means 82 converts the decoded audio data 801 into a VR compatible audio stream 802. The VR multiplexer 62 combines the VR compatible video stream 902 and the VR compatible audio stream 802 into a program stream that is compatible with the VR standard, that is, the VR compatible MPEG data 106. The VR standard information acquisition means 14 acquires management information such as a VOBU (Video Object Unit) of the stream required by the VR standard from the VR compatible MPEG data 106. As the VR standard information acquisition means 14, a VR compatible VRO data file 107 and an IFO data file 108 are created and recorded on the optical disk.

The operation of the AV data conversion device configured as described above will be described.

In the AV data converter, when the MPEG data file 101 is read, the MPEG demultiplexer 61 separates the video elementary stream 601 and the audio elementary stream 602. The video elementary stream 601 is input to the video decoding means 91, the decoding process is executed, and converted into decoded video data 901. The decoded video data 901 is input to the VR video encoding means 92 and converted into a VR video elementary stream 902 compatible with the VR standard. On the other hand, the audio elementary stream 602 separated by the MPEG demultiplexer 61 is input to the audio decoding means 81, and decoding processing is executed to convert the decoded audio data 801. The decoded audio data 801 is converted from the VR audio encoding means 82 into a VR audio elementary stream 802 compatible with the VR standard.

The VR video elementary stream 902 and the VR audio elementary stream 802 are converted into compatible MPEG data 106 by the VR multiplexer 62, and the VOBU of the stream obtained by the VR standard information acquisition means 14, for example. The VR compatible VRO data file 107 and the IFO data file 108 are created using the management information.

However, in the conventional AV data device, since the decoding process is performed on all the data of the read MPEG data file, and the encoding process to the VR standard is performed on all the decoded data, the time required for conversion is long. Had a task to do.

In addition, depending on the conditions of the encoding process, the original picture quality and sound quality are not maintained, and there is a problem that information deteriorates.

In addition, decoding and encoding processing is performed even when an MPEG data file contains any abnormality. Therefore, an illegal data file that is not suitable for the VR format is created to create a disc that has a non-standard specification. there was.

1 is a block diagram of an AV data conversion device according to the first embodiment.

Fig. 2 is a block diagram showing an example of an AV data conversion device according to the first embodiment.

3 is a block diagram showing the configuration of the video capture means of FIG.

4 is a flowchart showing the operation of the AV data conversion apparatus according to the first embodiment.

Fig. 5A is a schematic diagram showing an example of information included in the VR compatible authentication file, and Fig. 5B is an explanatory diagram of each step executed by the VR authentication file checking means.

6A is an example of a stream conversion means correspondence table, and (b) is an explanatory diagram of a stream conversion method determination means.

Fig. 7 is a block diagram for explaining the operation of the 0th stream converting means 51;

8 is a block diagram for explaining the operation of the first stream conversion means 13a.

9 is a block diagram for explaining the operation of the second stream conversion means 13b.

10 is a block diagram for explaining the operation of the third stream conversion means 13c.

11 is a block diagram for explaining the operation of the fourth stream conversion means 13d.

FIG. 12 is a detailed block diagram showing an outline of the synchronization shift detection means and audio data amount correction means in FIG.

Fig. 13 is a block diagram for explaining the operation of the fifth stream conversion means 13e.

Fig. 14 is a block diagram for explaining the operation of the sixth stream converting means 13f.

Fig. 15 is a block diagram for explaining the operation of the seventh stream converting means 13g.

Fig. 16 is a block diagram for explaining the operation of the eighth stream converting means 13h.

Fig. 17 is a block diagram of an AV data conversion device according to the second embodiment.

Fig. 18 is a flowchart showing the operation of the AV data conversion device according to the second embodiment.

Fig. 19 is a block diagram of a conventional AV data converter.

It is an object of the present invention to provide an AV data conversion apparatus and method that can reduce the quality and sound quality deterioration at high speed, and can prevent the creation of a noncompliant disc.

In order to achieve the above object, the AV data converting apparatus of the present invention reads an AV data file storing AV data including video information and audio information, and an authentication file corresponding to the AV data file. Authentication file checking means for confirming correspondence with the authentication file;

A plurality of stream converting means for converting the AV data into a predetermined format;

Conversion means determination means for determining at least one stream conversion means for converting the AV data into a predetermined format among the plurality of stream conversion means in accordance with the contents of the authentication file.

Accordingly, by creating an authentication file describing the compatibility level with respect to the VR standard of the AV data file and attaching it to the AV data file, it is possible to easily select a VR compatible stream conversion method of the AV data file. It is also possible to create an authentication file at the same time as creating the AV data file and attach it to the AV data file. In addition, the correspondence between the AV data file and the authentication file is confirmed by the authentication file checking means, and the compatibility with the VR standard is determined by the conversion means determining means in accordance with the compatibility information included in the authentication file, and the corresponding stream converting means. This is determined. In addition, by the determined stream converting means, the re-encoding process is performed only on the data which is not compatible with the VR standard. For this reason, data compatible with the VR standard is not re-encoded, so that the conversion can be performed at a high speed and with little degradation in image quality and sound quality.

In addition, the AV data conversion apparatus of the present invention reads an authentication file including the AV data attribute at the time of creating the AV data file, and the authentication file checking means extracts the AV data attribute which extracts the AV data attribute from the read AV data file. Means, and comparing means for comparing the AV data attribute extracted by the AV data attribute extracting means and the AV data attribute included in the authentication file, wherein the stream converting means is AV only when the comparison result of the comparing means is identical. Convert the data into a predetermined format.

As a result of the comparison in the authentication file confirming means, if it is determined that the AV data file is an invalid AV data file that does not correspond to the authentication file, conversion by the stream converting means is prohibited, thus creating a non-standard disc creation at the initial stage. .

In addition, the AV data converting means of the present invention reads an authentication file including VenderID information that is unique information of the device or software in which the AV data file is created, and the stream converting means determines at least one stream converting means in accordance with the VenderID information. do.

Accordingly, by registering the conversion means optimized for each VenderID in advance to the stream conversion means, it is possible to select the conversion means that is optimal for the AV data in accordance with the VenderID information included in the authentication file. Since compatibility of the AV data file with the VR standard depends on the device or software to be created, it is preferable to set a VenderID for each device or software, and to match the compatibility with the VR standard for each VenderID.

Furthermore, the AV data conversion apparatus of the present invention includes an AV data attribute acquired by the AV data attribute extraction means and a predetermined VenderID corresponding to the AV data attribute when the authentication file cannot be read by the authentication file confirmation means. Create a certificate file.

As a result, even when the authentication file cannot be read, a new authentication file corresponding to the AV data attribute of the AV data file is newly created, so that the conversion process can be performed also on the AV data file in which the authentication file does not exist.

In addition, the AV data converting method of the present invention includes a first step of reading an AV data file storing AV data including video information and audio information, and an authentication file of the AV data file;

A second step of selecting at least one stream conversion method among a plurality of stream conversion methods for converting the AV data into a predetermined format according to contents of the authentication file;

And converting the AV data into a predetermined format by using the selected at least one stream conversion method.

Accordingly, compatibility with the VR standard is determined according to the compatibility information included in the authentication file, and a stream conversion method corresponding to the compatibility information is selected. Therefore, the re-encoding process is performed only on the data that is not compatible with the VR standard, and the data that is compatible with the VR standard is not re-encoded, so that conversion at a high speed and with little degradation in image quality and sound quality can be performed.

The AV data converting method of the present invention further includes a fourth step of checking whether the AV data and the authentication file correspond to each other after the first step and before the second step.

As a result, it is determined that the AV data file is an invalid AV data file that does not correspond to the authentication file, and subsequent stream conversion is stopped, thereby making it possible to avoid creating a non-standard disc in the initial stage.

In addition, the AV data conversion method according to the present invention reads an authentication file including the AV data attribute at the time of creating the AV data file, and the fourth step extracts the AV data attribute at the time of creation from the read AV data file. A fifth step and a sixth step of comparing the AV data property extracted in the fourth step with the AV data property included in the authentication file,

In the third step, the AV data is converted into a predetermined format only when the comparison result in the sixth step matches.

Accordingly, when the comparison result in the fourth step determines that the AV data file is an invalid AV data file that does not correspond to the authentication file, conversion by the stream converting means is prohibited, so that the discrepancy of the disc is excluded from the initial step. do.

In addition, the AV data conversion method of the present invention reads an authentication file including VenderID information that is unique information of the device or software that created the AV data file, and selects the conversion method according to the VenderID information in the second step.

Accordingly, by registering the conversion means optimized for each VenderID in advance to the stream conversion means, it is possible to select a conversion method that is optimal for the AV data according to the VenderID information included in the authentication file.

In addition, the AV data conversion method of the present invention comprises the first step of reading an AV data file in which AV data including video information and audio information is stored;

Extracting AV data attributes from the read AV data file;

A third step of creating an authentication file corresponding to the extracted AV data attribute;

A fourth step of selecting at least one stream conversion method from among a plurality of stream conversion methods for converting the AV data into a predetermined format according to contents of the authentication file;

And converting the AV data into a predetermined format by using the selected at least one stream conversion method.

As a result, even when the authentication file cannot be read, a new authentication file corresponding to the AV data attribute of the AV data file is newly created, so that the conversion process can be performed also on the AV data file in which the authentication file does not exist.

The computer-readable recording medium which records the AV data conversion program according to the present invention records a program for causing a computer to execute each step of the AV data conversion method. As the recording medium, an optical recording medium, a magnetic recording medium, a semiconductor memory device or the like can be used.

The AV data conversion program according to the present invention is an AV data conversion program for causing a computer to execute each step of the AV data conversion method. This AV data conversion program also includes a case where it is transmitted via an electronic communication line such as the Internet.

(Effects of the Invention)

As described above, according to the AV data conversion apparatus of the present invention, decoding and encoding processing are performed only on data that is not compatible with the VR standard according to information such as VenderID included in the authentication file, so that decoding is performed on all data. And a remarkable effect that the conversion can be performed at a higher speed and with less deterioration in image quality and sound quality than a conventional AV data conversion apparatus that performs encoding processing.

In addition, when the information contained in the authentication file is compared with the information contained in the AV data file and the abnormality is detected in the AV data file, the conversion of the data file is stopped. Has an effect.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described with reference to an accompanying drawing. In addition, in each figure, the same code | symbol shows the same component or the same operation | movement and operation | movement.

(Embodiment 1)

1 is a block diagram showing the configuration of an AV data conversion apparatus according to Embodiment 1 of the present invention. In Fig. 1, the AV data conversion apparatus reads an MPEG data file 101 and a VR compatible authentication file 102 corresponding to the MPEG data file 101, and stream converts the VR compatible VRO file 107. And an IFO file 108. The AV data converter includes VR compatible authentication file checking means 11, stream converting method determining means 12, stream converting means 13 including one or more stream converting means, and VR standard information obtaining means 14. Equipped with.

Here, the IFO file is a management information file, which is information about the structure of the recorded MPEG stream (for example, the size or total amount of the GOP as the compression unit, the data amount of one recording data, and the resolution information of the video signal). And the like). In addition, the result of the simple editing according to the VR standard is also included.

Each structural member of the AV data converter will be described. First, the VR compatible authentication file checking means 11 confirms whether or not the MPEG data file 101 is compatible with the VR compatible authentication file 102. The VR compatible authentication file is an authentication file of an MPEG data file existing in pairs with an MPEG data file, and is compatible with the video standard and audio attributes of MPEG data and the VR standard of MPEG data contained in the MPEG data file. This file contains information. Subsequently, the VR compatible authentication file checking means 11 outputs, to the stream converting means 13, the authentication MPEG stream data 103 in which the VR compatibility authentication is confirmed, and the MPEG authentication information acquired from the VR compatible authentication file 102. 104 is outputted to the stream conversion method determination means 12. The stream converting method determining means 12 determines the optimal stream converting means 13 in accordance with the MPEG authentication information 104 and outputs the stream converting means identification information 105. The stream converting means 13 includes a first stream converting means 13a, a second stream converting means 13b, and a third stream converting means 13c each having different stream converting functions. It is selected by the stream converting means identification information 105 of implementing the means. By this stream converting means 13, the authentication MPEG stream data 103 is converted into VR compatible MPEG stream data compatible with the VR standard. The VR standard information acquisition means 14 acquires management information such as VOBU of a stream required by the VR standard from the VR compatible MPEG data, and creates a VR compatible VRO file 107 and an IFO file 108.

Each function of the present invention shown in FIG. 1 is usually realized by a computer program on a personal computer. Fig. 2 is a block diagram showing the configuration of a personal computer 10 embodying the present invention, which includes a CPU 1, a memory 2, an HDD 3, a DVD-RAM drive 4, and a video capture. Means 5 are provided. In the present invention, a computer program recorded in the memory 2 or the hard disk drive 3 is read out and executed by the CPU 1. In addition, although the computer program is normally distributed through a recording medium, it may be distributed through a telecommunication line. The structure of the video capture means 5 is demonstrated using FIG. The video capturing means 5 includes an A / D converter 6, an encoder 7, and a VR compatible authentication file generator 8. When an image is input to the video capturing means 5, it is digitally converted by the A / D converter 6 and MPEG encoded by the encoder 7 to generate an MPEG file 101. On the other hand, in the VR compatible authentication file generation unit 8, a VR compatible authentication file 102 including compatibility information with the VR standard of the MPEG file 101 to be generated is created. Compatibility with the VR standard depends on the characteristics of the encoding unit 7, and this characteristic varies depending on the manufacturer of the encoding unit 7 and the system configuration. Therefore, in this embodiment, the encoding unit is used as this compatibility information. It is assumed that VenderID which is the manufacturer information of 7) is given to the VR compatible authentication file 102. In addition, the VenderID does not necessarily need to match the manufacturer information, but may be a unique ID uniquely determined according to the characteristics of the encoding unit 7. In addition, the encoding unit 7 may be constituted by hardware or software, or may provide a VR compatible authentication file 102 with a preset VenderID for each of the encoding unit 7 or the video capturing means 5. Alternatively, VenderID may be provided in accordance with the output MPEG file 101.

The personal computer 10 obtains the MPEG file 101 and the VR compatible authentication file 102 from the video capturing means 5. Subsequently, the MPEG file 101 is recorded in the memory 2, and the MPEG stream 103 included in the MPEG file 101 on the memory 2 is a VR standard by a program executed by the CPU 1. The DVD-RAM is converted into an MPEG stream 106 compatible with the DVD stream, and the DVD-RAM drive 4 writes the DVD-RAM to create an optical disc 50 of a VR standard. In addition, although this AV converter 10 is provided with the video capture means 5, it is not essential. What is necessary is just to provide the means which can acquire the set of the MPEG file 101 and the VR compatible authentication file 102. FIG. As an example, you may be provided with a connection means to a network. The above AV data conversion method can be executed by obtaining a set of MPEG files 101 and corresponding VR compatible authentication files 102 through a network.

The present invention can also be realized in a DVD recorder or the like having the structure shown in FIG. In this case, the program executed by the CPU 1 may be recorded in the memory 2 or the hard disk drive 3, and the memory 2 is a ROM (Read Only Memory) and a RAM (Random Access Memory). The program may be recorded in the ROM. The ROM may be constituted by a flash memory or the like, and in this case, the program recorded in the flash memory may be rewritten via a telecommunication line or a recording medium.

In addition, the AV data conversion method according to the present invention will be described by dividing each step by using FIG.

(a) The VR compatible authentication file checking means 11 reads the MPEG data file 101 and the VR compatible authentication file 102 (S11).

(b) Next, the VR authentication file confirmation means 11 acquires MPEG authentication information from the read VR compatible authentication file 102 (S12).

(c) Next, according to the contents of the MPEG authentication information, authentication is performed as to whether the MPEG file 101 corresponds to the VR compatible authentication file 102 or not (S13).

(d) If it is determined that the MPEG file 101 and the VR compatible authentication file 102 correspond to each other, the stream conversion method determination means 12 determines from the stream conversion means correspondence table according to the VenderID included in the MPEG authentication information. The stream converting means 13 is selected (S14). For example, when the VenderID is Vender_C, the second stream converting means 13b is selected according to the correspondence table in FIG. 6A, and when the Vender_D is selected, the third stream converting means 13c is selected. Here, when the VenderID included in the MPEG authentication information does not exist in the stream conversion means correspondence table, as shown in Fig. 6B, the processing is stopped.

(e) The selected stream converting means 13 performs a VR conversion process on the MPEG stream data 103 of the MPEG file 101 (S15).

(f) Then, the VR standard information acquisition means 14 acquires management information such as VOBU required by the VR standard from the VR compatible MPEG stream data 106. The VR compatible VRO file 107 and the IFO file 108 are generated (S16).

By each of the above steps, the MPEG file 101 can be output as the VR compatible MPEG stream data 106. The above AV data conversion method can also be executed as a computer program.

In addition, the operation | movement description is demonstrated about the operation | movement of the AV data conversion apparatus in this Embodiment 1, referring each step of FIG.

By the VR compatible authentication file confirming means 11, the MPEG data file 101 and the VR compatible authentication file 102 are read (S11).

Subsequently, according to the contents of the read VR compatible authentication file 102, the VR authentication file checking means 11 performs authentication whether or not the MPEG file 101 corresponds to the VR compatible authentication file 102. (S12, S13).

Here, the detailed operation of the VR authentication file checking means 11 will be described with reference to FIG. As shown in Fig. 5A, the VR compatible authentication file 102 includes, for example, MPEG file information indicating a file name, a file size, and the like, VenderID information indicating which system the MPEG file was created by, It consists of video attribute information indicating information such as video resolution and audio attribute information indicating information such as bit rate of audio. Here, the file information, video attribute information, and audio attribute information are collectively called AV data attributes. 5B is a schematic view for explaining the operation of the VR authentication file checking means 11. The VR authentication file checking means 11 includes an MPEG information obtaining means 21, an MPEG file information comparing means 22, a video attribute information comparing means 23, and an audio attribute information comparing means 24. The MPEG information acquiring means 21 acquires file information, video attribute information, and audio attribute information of the AV data attribute from the MPEG data file. The MPEG file information comparing means 22 determines whether or not file information regarding the MPEG data file, such as the file name, size, date, etc. of the MPEG data file is identical. The video attribute information comparison means 23 determines whether or not the video attribute information such as the resolution of the video matches. The audio attribute information comparison means 24 determines whether or not audio attribute information such as bit rate of audio is identical.

The VR compatible authentication file 102 includes MPEG file information, VenderID information, video attribute information, and audio attribute information at a predetermined position of the file format.

The MPEG information acquisition means 21 acquires MPEG file information, video attribute information, and audio attribute information from the MPEG data file. In the MPEG file information comparing means 22, it is determined whether the MPEG file information acquired from the MPEG data file matches the MEPG file information of the VR compatible authentication file, and if it does not match, the stream conversion process is stopped. In the video attribute information comparing means 23, it is determined whether or not the video attribute information acquired from the MPEG data file matches the video attribute information of the VR compatible authentication file. Otherwise, the stream conversion process is stopped. The audio attribute information comparing means 24 determines whether or not the audio attribute information acquired from the MPEG data file matches the audio attribute information of the VR compatible authentication file (S13). If not, the stream conversion process is terminated. The stream conversion process continues only when all the information matches, and the MPEG authentication information in which the MPEG stream data and the VenderID are stored is output.

The MPEG authentication information output from the VR authentication file confirming means 11 is input to the stream converting method determining means 12. The operation of the stream conversion method determination means 12 will be described with reference to Figs. 6A and 6B.

Fig. 6A is a table showing an example of the stream conversion means correspondence table. The stream conversion means correspondence table is a correspondence table indicating what conversion processing is to be performed corresponding to the VenderID in the VR compatible authentication file. FIG. 6B is a schematic view for explaining the operation of the stream conversion method determination means 12. As shown in FIG. The stream converting method determining means 12 refers to the stream converting means correspondence table 31, and the VenderID comparing means 32 compares the VenderID in the VR compatible authentication file with the VenderID included in the stream converting means correspondence table 31. do.

When MPEG authentication information is input to the stream conversion method determination means 12, the stream conversion means is selected from the stream conversion means correspondence table according to the VenderID included in the MPEG authentication information (S14). For example, according to the correspondence table of Fig. 6A, when the VenderID is Vender_C, the second stream conversion means 13b is selected, and when it is Vender_D, the third stream conversion means 13c is selected. In the case where VenderID is Vender_E, the third stream conversion means 13c and the sixth stream conversion means 13f are selected. In the case of Vender_F, the fourth stream conversion means 13d is selected, and in the case of Vender_G, The fifth stream conversion means 13e is selected, the sixth stream conversion means 13f is selected in the case of Vender_H, the seventh stream conversion means 13g is selected in the case of Vender_I, and the eighth in the case of Vender_J. The stream converting means 13h is selected. Here, when the VenderID included in the MPEG authentication information does not exist in the stream conversion means correspondence table, the processing is stopped as shown in Fig. 6B.

The type of the stream converting means determined by the stream converting method determining means 12 is input to the stream converting means 13. The stream converting means 13 performs the converting process on the authenticated MPEG stream data 103 using the determined stream converting means 13a to 13h (S15). The operation of the stream converting means 13 will be described with reference to FIGS. 7 to 16.

Since the input authentication MPEG stream data 103 is highly compatible with the VR standard, and there is no need for stream conversion, the 0th stream conversion means 51 is selected in the stream conversion means 13 (Fig. 6 ( In the correspondence table of a), VenderID corresponds to Vender_B). In this case, as shown in FIG. 7, the 0th stream conversion means 51 outputs the input authentication MPEG stream data 103 as VR compatible MPEG stream data 106 without performing any conversion.

If the inputted authentication MPEG stream data 103 is compatible with the VR standard at the basic stream level of video and audio, but is not compatible with the VR standard at the multiplexing level, the first stream is converted by the stream converting means 13. The conversion means 13a is selected (corresponding to the case where VenderID is Vender_A in Fig. 6). This first stream conversion means 13a will be described with reference to FIG. 8. The first stream converting means 13a includes an MPEG demultiplexer 61 and a VR multiplexer 62. The MPEG demultiplexer 61 separates the MPEG stream 103 into a video elementary stream 601 and an audio elementary stream 602. The VR multiplexer 62 combines the video elementary stream 601 and the audio elementary stream 602 into VR compatible MPEG stream data 106 of program streams compatible with the VR standard.

In the first stream converting means 13a, input MPEG video stream data is divided into a video elementary stream 601 and an audio elementary stream 602 by the MPEG demultiplexer 61. Subsequently, the VR multiplexer 62 performs conversion according to the VR standard, such as setting the pack size to 2048 bytes, for example, and outputs the VR compatible MPEG stream data 106.

As shown in Fig. 8, the first stream converting means 13a is a decoding process as the converting process when the input MPEG stream data 103 is compatible with the VR standard at the basic stream level of video and audio. And the VR compatible stream data 106 by the multiplexing process without performing the encoding process.

Subsequently, when the inputted authentication MPEG stream data 103 is compatible with the VR standard except for some flags at the basic stream level of video and audio, the second stream conversion is performed among the stream conversion means 13. The means 13b are selected (corresponding to the case where VenderID is Vender_C in Fig. 6). The second stream converting means 13b will be described with reference to FIG. In FIG. 9, the second stream conversion means 13b includes an MPEG demultiplexer 61, a VR multiplexer 62, a video stream correction means 71, and an audio stream correction means 72. The video stream correction means 71 executes correction of the video elementary stream 601 and outputs the corrected video elementary stream 701 corrected to be compatible with the VR standard at the video elementary stream level. The audio stream correction means 72 executes correction of the audio elementary stream 602 and outputs the corrected audio elementary stream 702 corrected to be compatible with the VR standard at the audio elementary stream level.

In the second stream converting means 13b, the input MPEG video stream stream 103 is divided into a video elementary stream 601 and an audio elementary stream 602 by the MPEG demultiplexer 61. Subsequently, some of the flags included in the video elementary stream 601 in the video stream correction means 71 are changed or deleted in accordance with the VR standard, and some of the flags included in the audio elementary stream 602 in the audio stream correction means 72. Flag is changed or deleted according to VR standard. In the VR multiplexer 62, conversion of the structure of the MPEG2 program stream conforming to the VR standard, for example, a pack size of 2048 bytes is performed, and the VR compatible MPEG stream data 106 is output.

The second stream converting means 13b executes the converting process in the case where it is determined that only the values of some flags included in the video and audio of the input MPEG data file are incompatible with the VR standard. For example, for MPEG data determined to be incompatible only in the size of the display resolution, the display included in the video elementary stream divided by the demultiplexer without performing full decoding and full encoding processing. It can be converted into VR compatible stream data simply by updating the data concerning the size of the resolution.

Subsequently, when the inputted authentication MPEG stream data 103 is compatible with the VR standard at the elementary stream level of the video, the third stream converting means 13c is selected in the stream converting means 13 (FIG. 6). VenderID is equivalent to Vender_D). The operation of the third stream conversion means 13c will be described with reference to FIG. In FIG. 10, the third stream converting means 13c includes an MPEG demultiplexer 61, a VR multiplexer 62, an audio decoding means 81, and a VR audio encoding means 82. The audio decoding means 81 decodes the audio elementary stream 602 and outputs the decoded audio data 801. The VR audio encoding means 82 encodes the decoded audio data 801 into the VR audio elementary stream 802 of the VR standard.

In the third stream converting means 13c, the MPEG demultiplexer 61 divides the input authentication MPEG stream data 103 into a video elementary stream 601 and an audio elementary stream 602. The audio elementary stream 602 is then decoded by the audio decoding means 81. The decoded decoded audio data 801 is encoded by the VR audio encoding means 82 into the audio elementary stream 802 of the VR standard. In the VR multiplexer 62, conversion of a program stream of MPEG2 according to the VR standard, for example, a pack size of 2048 bytes or the like is performed, and the VR compatible MPEG stream data 106 is output.

Accordingly, when the input MPEG data file 101 is incompatible with the VR standard only in the audio unit, it can be converted into VR compatible stream data 106 by re-encoding only the audio unit without re-encoding all of them. Can be.

Subsequently, when the inputted authentication MPEG stream data 103 is compatible with the VR standard at the elementary stream level of the video, but there is a possibility that AV synchronization is out of order, the fourth stream converting means 13d in the stream converting means 13 ) Is selected (corresponding to the case where VenderID is Vender_F in the correspondence table in Fig. 6A). The operation of the fourth stream conversion means 13d will be described with reference to FIG. In Fig. 11, the fourth stream converting means 13d includes an MPEG demultiplexer 61, a VR multiplexer 62, an audio decoding means 81, a VR audio encoding means 82, a synchronization shift detecting means 83, and audio. The data amount correcting means 84 is provided. The synchronization shift detecting means 83 compares the time information 803 of the video with the time information 806 of the audio, detects a shift in the playback time between the video and the audio, and corrects the audio data amount indicating the amount of correction of the audio data. Information 804 is output. The audio data amount correcting means 84 increases or decreases the data amount of the decoded audio data 801 in accordance with the correction amount indicated by the audio data amount correction information 804, and outputs the AV synchronization corrected audio data 805. In the AV synchronization correction audio data 805, the data amount of audio is corrected so that video and audio are synchronized.

In the fourth stream converting means 13d, the MPEG video multiplexer 61 divides the input authentication MPEG stream data 103 into a video elementary stream 601 and an audio elementary stream 602. AV synchronization information 803 and 806 including PTS (Presentation Time Stamp) which is time information for synchronous reproduction is output. In the synchronization shift detection means 83, the shift between video and audio is detected in accordance with the AV synchronization information 803 and 806, and the audio data amount correction information 804 is output. The audio data amount correcting means 84 increases or decreases the data amount of the decoded audio data 801 according to the audio data amount correcting information 804, and outputs the AV sync corrected audio data 805 corrected to synchronize with the video. . The AV synchronization corrected audio data 805 is encoded by the VR audio encoding means 82 into the audio elementary stream 802 of the VR standard. The VR multiplexer 62 then performs conversion in accordance with the VR standard, and outputs the VR compatible MPEG stream data 106.

Accordingly, when the input MPEG data file 101 may generate a synchronization shift between audio and video due to audio re-encoding processing, there is no synchronization shift by increasing or decreasing the audio data amount in accordance with the video data amount. Convert to VR compatible data.

This synchronization correction method will be described in detail with reference to FIG. 12 is a detailed block diagram of the synchronization shift detecting means 83 and the audio data amount correcting means 84. As shown in FIG.

(1) The MPEG demultiplexer 61 divides the input authentication MPEG stream data 103 into a video elementary stream 601 and an audio elementary stream 602. At the same time, the AV demultiplexer 61 outputs the AV synchronization information 803 including PTS which is time information for synchronous reproduction of video and audio.

(2) The synchronization shift detecting means 83 obtains the total number of frames (time conversion) of the video as the AV synchronization information 803 (S01).

(3) Next, the first predetermined period of time calculates an average value of the difference between video and audio. After that, it is calculated how much the difference between the video and the audio is shifted from the average value (S02). In addition, the average value of the difference is calculated in the first fixed period because the result differs depending on the execution environment.

(4) Subsequently, it is determined whether the difference of deviation has exceeded a predetermined limit value (S03), and when the limit value is exceeded, the audio data amount correction information 804 is transmitted to the audio data amount correction means 84.

(5) On the other hand, the audio data amount correcting means 84 obtains the decoded audio data 801a from the audio decoding means 81 and at the same time acquires the data amount (time conversion) 806 of the audio (S04). ).

(6) In addition, as described above, the audio data amount correcting means 83 obtains the audio data amount correcting information 804 from the synchronization shift detecting means, and calculates the total amount of the audio data amount to be corrected (S05). .

(7) Next, when the amount of audio data to be corrected to the decoded audio data 801b is not zero, the data amount is gradually increased or decreased within the range of the increase / decrease amount (S06). Incidentally, increasing or decreasing the data at once causes discomfort such as skipping of the sound in the converted data. Therefore, it is preferable to increase or decrease the data little by little. When the data is reduced, the data is sampled every fixed section. When the data is increased, the data amount is gradually increased by copying and adding the previous data every fixed section. The increase / decrease processing is executed until processing is performed for the designated audio data correction information. In addition, with respect to the synchronous correction method described above, an international application PCT / JP02 / 05108 (International Publication No. WO02 / 097817 pamphlet) forms an integral part of the present application specification.

(8) AV synchronization corrected audio data 805 corrected to synchronize with video is output to the VR audio encoding means 82.

(9) In the VR audio encoding means 82, the AV synchronization corrected audio data 805 is encoded into the audio elementary stream 802 of the VR standard.

(10) Finally, in the VR multiplexer 62, conversion according to the VR standard is performed on the video elementary stream 601 and the audio elementary stream 802, and the VR compatible MPEG stream data 106 is output.

Subsequently, when the inputted authentication MPEG stream data 103 is compatible with the VR standard at the audio elementary stream level, but not compatible with the VR standard at the elementary stream level of the video, the stream converting means 13 The fifth stream converting means 13e is selected (corresponding to the case where VenderID is Vender_G in the correspondence table in Fig. 6A). The fifth stream converting means 13e will be described with reference to FIG. In FIG. 13, the fifth stream converting means 13e includes an MPEG demultiplexer 61, a VR multiplexer 62, a video decoding means 91, and a VR video encoding means 92. In FIG. The video decoding means 91 decodes the video elementary stream 601 and outputs the decoded video data 901. The VR video encoding means 92 encodes the decoded video data 901 and outputs the VR video elementary stream 902.

In the fifth stream converting means 13e, the MPEG demultiplexer 61 divides the input authentication MPEG stream data 103 into a video elementary stream and an audio elementary stream 602. The video elementary stream 601 is then decoded by the video decoding means 91. The decoded decoded video data 901 is encoded by the VR video encoding means 92 into the video elementary stream 902 of the VR standard. Then, the VR multiplexer 62 performs conversion in accordance with the VR standard, and outputs the VR compatible MPEG stream data 106.

As a result, when the input MPEG data file is not compatible with the VR standard, only the video part can be converted to VR compatible stream data by re-encoding only the video part without re-encoding all of them.

Subsequently, when the inputted authentication MPEG stream data 103 is compatible with the VR standard at the elementary stream level of audio, but there is a possibility that AV synchronization is out of range, the sixth stream converting means 13f in the stream converting means 13. ) Is selected (corresponding to the case where VenderID is Vender_H in the correspondence table of Fig. 6A). The sixth stream converting means 13f will be described with reference to FIG. In Fig. 14, the sixth stream converting means 13f includes an MPEG demultiplexer 61, a VR multiplexer 62, a video decoding means 91, a VR video encoding means 92, a synchronization shift detecting means 93, The video data amount correcting means 94 is provided. The synchronization shift detecting means 93 compares the time information 903 of the audio with the time information 906 of the video, detects a shift in the playback time between the video and the audio, and corrects the video data amount indicating the correction amount of the video data. Information 904 is output. The video data amount correction means 94 increases or decreases the data amount of the decoded video data in accordance with the correction amount indicated by the video data amount correction information, and outputs the AV synchronous correction video data 905. In the AV synchronization correction video data 905, the amount of video data is corrected so that video and audio are synchronized. The details of the operation of the synchronization shift detecting means 93 and the video data amount correcting means 94 are the same as in the case of the synchronization correction of the audio data, and thus description thereof is omitted.

In the sixth stream converting means 13f, the MPEG demultiplexer 61 divides the input authentication MPEG stream data 103 into a video elementary stream 601 and an audio elementary stream 602. AV synchronization information 903 and 906 including PTS or the like as time information for synchronous reproduction is output. In the synchronization shift detection means 93, a shift between video and audio is detected in accordance with the AV synchronization information 903 and 906, and the video data amount correction information 904 is output. In the video data amount correcting means 94, the data amount of the decoded video data 901 is increased or decreased in accordance with the video data amount correction information 904, and the AV sync corrected video data 905 corrected to be synchronized with the audio is output. . The AV synchronization corrected video data 905 is encoded by the VR video encoding means 92 into the video elementary stream 902 of the VR standard. The VR multiplexer 62 then performs conversion in accordance with the VR standard, and outputs the VR compatible MPEG stream data 106.

Accordingly, when the input MPEG data file may cause a synchronization shift between video and audio due to video re-encoding processing, the amount of video data is increased or decreased to match the amount of audio data to VR compatible data without synchronization shift. I can convert it.

Subsequently, when the inputted authentication MPEG stream data 103 is incompatible with the VR standard at both the elementary stream level of the video and the elementary stream level of the audio, the seventh stream conversion means 13g in the stream conversion means 13 (VenderID corresponds to the case of Vender_I in the correspondence table of Fig. 6A). The seventh stream converting means 13g will be described with reference to FIG. The seventh stream converting means 13g includes an MPEG demultiplexer 61, a VR multiplexer 62, an audio decoding means 81, a VR audio encoding means 82, a video decoding means 91, and a VR video encoding means 92. ). The audio decoding means 81 decodes the audio elementary stream 602 and outputs the decoded audio data 801. The VR audio encoding means 82 encodes the decoded audio data 801 and outputs the VR audio elementary stream 802. The video decoding means 91 decodes the video elementary stream 601 and outputs decoded video data 901. The VR video encoding means 92 encodes the decoded video data 901 and outputs the VR video elementary stream 902.

In the seventh stream converting means 13g, the MPEG demultiplexer 61 divides the input authentication MPEG stream data 103 into a video elementary stream 601 and an audio elementary stream 602. The video elementary stream 601 is then decoded by the video decoding means 91. The audio elementary stream 602 is also decoded by the audio decoding means 81. The decoded decoded video data 901 is encoded by the VR video encoding means 92 into the video elementary stream 902 of the VR standard. The decoded decoded audio data 801 is also encoded by the VR audio encoding means 82 into the audio elementary stream 802 of the VR standard. Then, the VR multiplexer 62 performs conversion in accordance with the VR standard, and outputs the VR compatible MPEG stream data 106.

If the MPEG data file 101 input as described above is incompatible with the VR standard in both the video unit and the audio unit, the video unit and the audio unit can be converted to VR compatible data by performing a re-encoding process.

Subsequently, if the inputted authentication MPEG stream data 103 is not compatible with the VR standard at the elementary stream level of the video or at the elementary stream level of the audio, and there is a possibility that a shift may occur in AV synchronization, the stream converting means 13 The eighth stream conversion means 13h is selected (corresponding to the case where VenderID is Vender_J in the correspondence table in Fig. 6A). The eighth stream converting means 13h will be described with reference to FIG.

In the eighth stream converting means 13h, the inputted authentication MPEG stream data 103 is divided into a video elementary stream 601 and an audio elementary stream 602 by the MPEG demultiplexer 61, and synchronization of video and audio is performed. AV synchronization information 803 including PTS (Presentation Time Stamp) which is time information for reproduction is output.

In the synchronization shift detection means 83, the shift between video and audio is detected in accordance with the AV synchronization information 803, and the audio data amount correction information 804 is output. The audio data amount correcting means 84 increases or decreases the data amount of the decoded audio data 801 according to the audio data amount correcting information 804, and outputs the AV sync corrected audio data 805 corrected to synchronize with the video. . The AV synchronization corrected audio data 805 is encoded by the VR audio encoding means 82 into the audio elementary stream 802 of the VR standard.

On the other hand, the video elementary stream 601 is decoded by the video decoding means 91. The decoded decoded video data 901 is encoded by the VR video encoding means 92 into the video elementary stream 902 of the VR standard. The VR multiplexer 62 then performs conversion in accordance with the VR standard, and outputs the VR compatible MPEG stream data 106.

If the MPEG data file 101 inputted in this way is not compatible with the VR standard in both the video unit and the audio unit, and there is a possibility that synchronization between video and audio may occur, both the video unit and the audio unit are re-encoded. By processing, the amount of audio data can be converted to VR compatible data with no synchronization shift by increasing or decreasing the amount of audio data in accordance with the amount of video data.

In the stream converting means 13, any of the stream converting means 0 to 8 is selected as described above, and the selected stream converting means performs the converting process. In the VR standard information acquisition means 14, management information such as VOBU required by the VR standard is acquired from the VR compatible MPEG stream data 106. Then, a VR compatible VRO file and an IFO file are generated (S16).

In the above example, the stream converting means determining means 12 determines the stream converting means in accordance with the VenderID information. However, the stream converting means in accordance with AV data attributes such as MPEG file information, video information, audio information, and the like. May be determined. In this case, instead of the stream conversion means correspondence table in Fig. 6A, a correspondence table between the AV data attribute and the stream conversion means may be created.

The compatibility with the VR standard of the MPEG file 101 will be described here. MPEG files have various specifications. Thus, an example in which the MPEG file 101 has VR compatibility is given. First, regarding the elementary stream of video, 720 x 480 (720 x 576), 704 x 480 (760 x 576), 352 x 480 (352 x 576), and 352 x 240 for each standard of NTSC (PAL). Only the resolutions of 352 × 288, 544 × 480 (544 × 576), and 480 × 480 (480 × 576) are compatible with the VR standard. Also, only when the bit rate is 9.8 Mbps or less (MPEG2) or 1.856 Mbps or less (MPEG1), it is compatible with the VR standard.

On the other hand, the audio elementary stream is compatible with the VR standard only when the compression is AC3 / MPEG1 / MPEG2 / LPCM. In addition, the sampling frequency is compatible with the VR standard only at 48 kHz. The channel is compatible with the VR standard only in the case of 1ch / 2ch / 3ch / 4ch / 5ch / 6ch / 7ch / 8ch. In addition, the bit rate is 64 kbps / 80 kbps / 96 kbps / 112 kbps / 128 kbps / 160 kbps / 192 kbps / 224 kbps / 256 kps / 320 kbps / 384 kbps / 448 kbps / 768 kbps (LPCM) / 1536 Only kbps (LPCM) is compatible with the VR standard.

In addition, the compatibility with the VR standard of multiplexing will be described. In this case, the pack size is fixed to 2048 bytes, and the VR compatibility condition is that the playback time from the system header to the next system header (VOBU) is 0.4 seconds or more and 1 second or less. In addition, the completion of video / audio data in one VOBU is a condition of VR compatibility. In addition, the bit rate is compatible with the VR standard only when 10.08 Mbps or less.

(Embodiment 2)

Next, the AV data converter according to the second embodiment of the present invention will be described. In Embodiment 1, the description is based on the premise that a VR compatible authentication file corresponding to the MPEG data file to be processed exists. In Embodiment 2, the VR compatible authentication file corresponding to the MPEG data file 101 is described. Processing in the absence of such a description will be described with reference to FIG. 17.

Fig. 17 is a block diagram showing the structure of the AV data conversion device according to the second embodiment of the present invention. In Fig. 17, those having the same reference numerals as those in Fig. 1 have the same functions, and thus detailed description thereof will be omitted. 18 is a flowchart showing the operation of the second embodiment. In FIG. 18, steps having the same reference numerals as in FIG. 4 perform the same operations, and thus detailed descriptions thereof will be omitted.

In FIG. 17, this AV data conversion apparatus is provided with the MPEG information acquisition means 21, the virtual VR compatible authentication file creation means 41, and the VR authentication file confirmation means 42. As shown in FIG. The MPEG information acquisition means 21 acquires file information and attribute information of video or audio from an MPEG data file. The virtual VR compatible authentication file creation means 41 creates a VR compatible authentication file according to the attribute information acquired by the MPEG information acquisition means 21.

The operation of the AV data conversion apparatus according to the second embodiment configured as described above will be described with reference to the flowchart shown in FIG. 18.

First, the MPEG authentication file verification means 42 reads an MPEG file and a VR compatible authentication file corresponding to the MPEG file. In this case, when the VR compatible authentication file exists, the same operation as that in the first embodiment is performed (S22, S23, S13 to S16). If the VR-compatible authentication file cannot be read because the VR-compatible authentication file corresponding to the MPEG file 101 does not exist, the file information such as the file size or the file creation date and time can be read by the MPEG information acquisition means 21, AV data attributes including video attribute information such as video resolution and audio attribute information such as bit rate of audio are acquired (S24).

Subsequently, in addition to the file information, video information, and audio attribute information acquired by the MPEG information acquisition means 21, a virtual VenderID corresponding to the AV data attribute is provided by the virtual VR compatible authentication file creation means 41. The VR compatible authentication file as shown in 5 is created (S25). The virtual VenderID given here is a specially assigned VenderID, for example, Vender_X.

Next, in the stream converting method determining means 12, the stream converting means X is assigned as the stream converting means corresponding to Vender_X (S14). The stream converting means X corresponds to the seventh stream converting means 13g or the eighth stream converting means 13h described in the first embodiment, and re-encoding processing is performed on both video and audio (S15).

In the stream converting means 13, as described in the first embodiment, the stream converting is executed, the VRO file and the IFO file are created by the VR authentication file checking means 14, and the VR standard file is created (S16).

Even in the case where there is only an MPEG data file in this manner, conversion to VR standard data can be performed by virtually creating a VR compatible authentication file.

In addition, the present invention may be implemented as a computer program. In addition, the present invention may be implemented by distributing the program via a telecommunication line or a recording medium.

As mentioned above, although this invention is demonstrated in detail by preferable embodiment, this invention is not limited to these, It is possible that many preferable modifications and corrections are possible within the technical scope of this invention described in the claim. It will be apparent to those skilled in the art.

Claims (12)

An AV data file storing AV data including video information and audio information, and authentication file checking means for reading out an authentication file of the AV data file and confirming whether the AV data file and the authentication file correspond to each other; A plurality of stream converting means for converting the AV data into a predetermined format; And converting means determining means for determining at least one stream converting means for converting the AV data into a predetermined format among the plurality of stream converting means in accordance with the contents of the authentication file. The authentication file according to claim 1, wherein the authentication file includes an AV data attribute at the time of creating the AV data file, The authentication file checking means includes AV data attribute extraction means for extracting AV data attributes from the read AV data file, AV data attributes extracted by the AV data attribute extracting means and AV data attributes included in the authentication file. Comparing means for comparing the And the stream converting means converts the AV data into a predetermined format only when the comparison result of the comparing means matches. The authentication file according to claim 1 or 2, wherein the authentication file includes VenderID information that is unique information of a device or software in which the AV data file is created. And said stream converting means determines at least one stream converting means in accordance with said VenderID information. The AV file attribute according to claim 2, wherein the authentication file confirming means corresponds to an AV data attribute acquired by the AV data attribute extracting means and the AV data attribute when the authentication file corresponding to the AV data file cannot be read. And an authentication file creating means for creating an authentication file including a predetermined VenderID. A first step of reading an AV data file storing AV data including video information and audio information, and an authentication file of the AV data file; A second step of selecting at least one stream conversion method among a plurality of stream conversion methods for converting the AV data into a predetermined format according to contents of the authentication file; And converting the AV data into a predetermined format by using the selected at least one stream converting method. 6. The AV data conversion of claim 5, further comprising a fourth step of checking whether the AV data and the authentication file correspond to each other after the first step and before the second step. Way. The method according to claim 6, wherein the authentication file includes an AV data attribute at the time of creating the AV data file, In the fourth step, a fifth step of extracting an AV data attribute from the read AV data file, and a sixth step of comparing the AV data attribute extracted in the fourth step with the AV data attribute included in the authentication file. Also includes, In the third step, AV data is converted into a predetermined format only when the comparison result in the sixth step is identical. The authentication file according to any one of claims 5 to 7, wherein the authentication file includes VenderID information that is unique information of a device or software that created the AV data file. And in the second step, a conversion method is selected according to the VenderID information. A first step of reading an AV data file storing AV data including video information and audio information; Extracting AV data attributes from the read AV data file; A third step of creating an authentication file corresponding to the extracted AV data attribute; A fourth step of selecting at least one stream conversion method from among a plurality of stream conversion methods for converting the AV data into a predetermined format according to contents of the authentication file; And converting the AV data into a predetermined format by using the selected at least one stream converting method. 10. The method according to claim 9, wherein the authentication file includes predetermined VenderID information corresponding to the extracted AV data attribute, And the fourth step selects a conversion method according to the VenderID information. A first step of reading an AV data file storing AV data including video information and audio information, and an authentication file of the AV data file; A second step of selecting at least one stream conversion method among a plurality of stream conversion methods for converting the AV data into a predetermined format according to contents of the authentication file; And a third step of converting the AV data into a predetermined format using the selected at least one stream conversion method. A computer-readable recording medium having recorded thereon a program for causing a computer to execute each step of the AV data conversion method. . A first step of reading an AV data file storing AV data including video information and audio information, and an authentication file of the AV data file; A second step of selecting at least one stream conversion method among a plurality of stream conversion methods for converting the AV data into a predetermined format according to contents of the authentication file; And a third step of converting said AV data into a predetermined format using said selected at least one stream conversion method.