JP2006140632A - Device, method and program for data rate conversion and information recording medium recording the program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data rate conversion device which is simple in configuration and capable of shortening a processing time required for converting a data rate. <P>SOLUTION: An information recording/reproducing device 100 is equipped with a data rate conversion unit 190 which converts the data rate of TS data, extracts TS packet data as to dynamic images from the TS data, and converts the data rate of dynamic image data which are composed of the extracted TS packet data and in an elementary stream format. The information recording/reproducing device 100 creates the converted TS packet data for constituting dynamic image data whose data rate is converted so as to convert the data rate of the dynamic image data of the TS data recorded in a DVD 10 or an HD 20, and incorporates the created converted TS packet data into the TS data retaining characteristics concerning the data arrangement of each packet data containing the dynamic image data in the TS data. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention belongs to a technical field related to data rate conversion in content data provided through broadcasting or communication such as a television broadcast program.

  In recent years, various techniques for compressing and encoding an enormous amount of information generated in a technique for digitizing content data having moving image data have been proposed, and one of them is digital video and accompanying video. A standard ISO / IEC13818 (commonly known as “MPEG-2” (Moving Picture Expert Group Phase 2)) is known as an encoding system for audio. This MPEG-2 standard is used in public network lines such as the Internet. It is used in a wide range of fields such as communication and television broadcasting represented by BS digital broadcasting.

  On the other hand, when content data distributed according to the MPEG-2 standard is recorded, or when received and transferred to another device, the content data is compressed by securing a recording capacity or a communication band. A technique for converting the rate, that is, converting the data rate of the content data (hereinafter also referred to as rate conversion) is becoming widespread. In addition, this technology is often incorporated as a data rate conversion device that converts the data rate of content data in a receiving device that receives content data, such as a TV receiver or a DVD recorder, or a recording device that records content data. It has become.

  Conventionally, as such a data rate conversion apparatus, moving image data is separated from a transport stream, the data rate of the separated moving image data is converted, and the moving image data converted from the data rate is used as a basis. What is re-multiplexed to a transport stream is known.

  More specifically, this data rate conversion apparatus uses the input MPEG-2 transport stream as a moving picture packet data and a non-reduction target other than the moving picture packet data, that is, a data rate conversion target. The packet data is separated into packet data that is not, and the rate conversion is performed with respect to the data rate of the separated moving image packet data. In addition, this data rate conversion device multiplexes the rate-converted moving image packet data and the non-reduction target packet data to generate a transport stream again, thereby reducing the rate conversion processing time. At the same time, additional information regarding content data such as reproduction control data is inherited by the rate-converted transport stream (for example, Patent Document 1).

The transport stream is bit stream content data in which various data such as moving image data, accompanying audio data, and playback control data for controlling playback of each data are multiplexed in fixed-length packets. Say.
JP 2001-251616 A

  However, in such a conventional data rate conversion apparatus, the rate conversion processing time can be shortened. However, as described above, when the transport stream is generated again, the moving image packet data Since the non-reduction target packet data other than the moving image packet data is multiplexed, the processing time for the multiplexing becomes enormous, and the processing cannot be realized with a simple device configuration.

  In view of the above-described problems, the present invention, as an example, generates not only rate conversion but also a transport stream that is rate-converted with a simple device configuration by reducing the processing time until the generation of the transport stream is completed. An object of the present invention is to provide a data rate conversion apparatus or an information recording / reproducing apparatus capable of performing the above.

  In order to solve the above-described problem, the invention described in claim 1 is a data rate conversion device for content data in which moving image data that has been compression-encoded is multiplexed with other data. Acquisition means for acquiring data, extraction means for extracting data of each packet belonging to the compressed and encoded moving image data from the acquired content data as first moving image packet data, and each of the extracted Packet data for converting the data rate of the moving image data constituted by the first moving image packet data and for constructing moving image data having a data rate different from the data rate of the compressed and encoded moving image data Is generated as second moving image packet data, and the first moving image packet data is extracted. Means for incorporating each of the generated second moving image packet data into the content data from which each of the first moving image packet data has been extracted, while maintaining a relationship regarding reproduction of each packet data in the content data of It has the structure provided with.

  The invention according to claim 7 is a data rate conversion method for content data in which moving image data that has been compression-encoded is multiplexed with other data, and an acquisition step for acquiring the content data; An extraction step of extracting data of each packet belonging to the compressed and encoded moving image data from the acquired content data as first moving image packet data, and each of the extracted first moving image packet data The packet data for converting the data rate of the configured moving image data and constructing the moving image data having a data rate different from the data rate of the compressed and encoded moving image data is converted into the second moving image packet data. And the content data when the first moving image packet data is extracted A step of incorporating each of the generated second moving image packet data into the content data from which each of the first moving image packet data has been extracted, while maintaining characteristics relating to the data arrangement of each packet data. It has the composition which includes.

  The invention according to claim 8 or 9 is a data rate conversion program for content data in which moving image data compressed and encoded by a computer is multiplexed with other data. Acquisition means for acquiring content data; extraction means for extracting data of each packet belonging to the compressed and encoded moving image data from the acquired content data as first moving image packet data; and Packet data for converting the data rate of moving image data constituted by one moving image packet data and constructing moving image data having a data rate different from the data rate of the compressed and encoded moving image data Generation means for generating second moving image packet data, the first moving image Each generated second moving image with respect to the content data from which each of the first moving image packet data has been extracted while maintaining characteristics relating to the data arrangement of each of the packet data in the content data when the packet data is extracted It has a configuration that functions as a built-in means for incorporating image packet data.

  Hereinafter, embodiments of the present application will be described with reference to the drawings.

  In the embodiment described below, information including a hard disk (hereinafter referred to as “HD”) and a DVD (Digital Versatile Disc) drive on which recording and reading of content data including audio data and video data is executed. This is an embodiment in which the data rate conversion device of the present application is applied to a recording / reproducing device.

  In particular, this information recording / reproducing device has a function of communicating with other information communication terminal devices such as personal computers via a communication line, and transfers content data recorded on a DVD or HD to other information communication terminal devices. Regarding the transmission and reception of the content data, the IEEE (Institute of Electrical and Electronic Engineers) 1394 standard (official name is “IEEE Std.1394-1995 IEEE Standard for a High Performance Serial Bus”). ).

  In the following, a broadcast program refers to digital content provided from each broadcast station via a broadcast wave. In an embodiment described below, digital data of the broadcast program (hereinafter referred to as broadcast program data). Will be described.

  First, the overall configuration and outline operation of the information recording / reproducing apparatus will be described with reference to FIG. FIG. 1 is a block diagram showing a schematic configuration of an information recording / reproducing apparatus according to the present application.

  As shown in FIG. 1, the information recording / reproducing apparatus 100 of the present embodiment receives a digital broadcast wave transmitted from each broadcast station, and uses the broadcast wave as content data (hereinafter referred to as TS data) in a transport stream format. The demodulated TS data is recorded on the DVD 10 or HD 20 while maintaining the data format. The information recording / reproducing apparatus 100 is connected to an external device such as a monitor (not shown). When reproducing the content data, the information recording / reproducing apparatus 100 decodes the TS data and uses the decoded content data as a video signal and an audio signal. Output to an external device.

  On the other hand, the information recording / reproducing apparatus 100 transfers TS data recorded on the DVD 10 or HD 20 to another information communication terminal apparatus via a communication line. In particular, when transferring the TS data, the information recording / reproducing apparatus 100 of the present embodiment converts the data rate of the TS data to be transferred in order to secure a communication band in the transmission of the content data, and the data rate is converted. The transmitted TS data is transferred to the information communication terminal device. That is, in this embodiment, the information recording / reproducing apparatus 100 converts the data rate of moving image data included in the TS data, that is, converts the compression rate of moving image data, in order to convert the data rate of TS data. And securing the communication band in data transmission by compressing the amount of TS data to be transferred.

  Specifically, the information recording / reproducing apparatus 100 of this embodiment extracts packet data (hereinafter referred to as TS packet data) in TS data related to moving image data from TS data. Then, the information recording / reproducing apparatus 100 converts the compression rate in the moving image data composed of the extracted TS packet data, that is, the moving image in the elementary stream format composed of the extracted TS packet data. Data rate conversion is performed on data.

  In particular, in this embodiment, the information recording / reproducing apparatus 100 generates TS packet data (hereinafter referred to as “converted TS packet data”) for constructing moving image data in which the data rate is converted, and the generated data. Each converted TS packet data is incorporated into TS data from which TS packet data has been extracted, thereby converting the data rate of moving image data.

  Further, in this embodiment, the information recording apparatus uses the stream data recorded on the DVD 10 or the HD 20 when the generated converted TS packet data is incorporated into the TS data from which the TS packet data is extracted. The converted TS packet data is incorporated into the TS data while maintaining the characteristics regarding the data arrangement of each packet data including moving image data.

  In the following description, TS data in which converted TS packet data is incorporated is referred to as converted TS data, and is described separately from TS data recorded on the DVD 10 or HD 20 (hereinafter simply referred to as TS data). . Details of the data structure of TS data and TS packet data will be described later.

  As shown in FIG. 1, the information recording / reproducing apparatus 100 that performs such an operation receives a broadcast wave via an antenna AT and demodulates it into TS data, and recording control of TS data to be recorded. And a recording / reproduction control unit 120 that performs reproduction control of the recorded TS data, a DVD drive 130 in which the DVD 10 in which content data is recorded is mounted, and an HD drive 140 that has the HD 20 in which TS data is recorded. Have.

  The information recording / reproducing apparatus 100 also includes a decoder 150 that reads TS data from the DVD 10 or HD 20 and decodes the read content data into a predetermined data format when TS data is reproduced. An NTSC converter 160 that converts the converted data into an NTSC signal and outputs it to an external device such as a monitor (not shown), and an OSD processor 170 that performs OSD (On Screen Display) processing on the output video signal. is doing.

  On the other hand, the information recording / reproducing apparatus 100 is connected to the information communication terminal apparatus via a communication line to transmit and receive TS data and other data in order to transfer TS data to another information communication terminal apparatus (not shown). The communication control unit 180 includes a data rate conversion unit 190 that converts the data rate of the TS data when the TS data is transferred.

  The information recording / reproducing apparatus 100 includes an operation unit 200 that performs various setting operations for recording and reproducing content data, a system control unit 210 that controls each unit, and a ROM / RAM 220. Yes.

  Note that the system control unit 210 of the present embodiment is connected to operations and other members via the bus B. In the present embodiment, the information recording / reproducing apparatus 100 transfers the TS data with the converted data rate to another information communication terminal apparatus, but re-records the TS data on the DVD 10 or the HD 20. It is also configured as follows. Furthermore, for example, the TV receiving unit 110 of the present embodiment constitutes an acquisition unit of the present invention, and the data rate conversion unit 190 constitutes an extraction unit, a generation unit, and an incorporation unit of the present invention.

  The TV receiving unit 110 receives a broadcast wave transmitted from each broadcast station via the antenna AT, for example, a broadcast wave in a predetermined digital format such as a BS (Broadcasting Satellite) digital broadcast. Broadcast program data of the selected broadcast program is extracted. For example, when a broadcast wave is transmitted according to the MPEG2 standard, the TV receiving unit 110 converts the broadcast program data of the broadcast program selected by the user from the broadcast wave in which a plurality of broadcast program data is multiplexed into the TS data. Is supposed to be extracted as

  Further, the TV receiving unit 110 is configured to output the extracted TS data, which is broadcast program data desired by the user, to the DVD drive 130 or the HD drive 140 based on the control of the recording control unit.

  Note that the TV receiving unit 110 detects the content management information from the signal wave when content management information for managing content data such as broadcast time and broadcast time is attached to the received broadcast wave. Then, the detected content management information is output to the recording control unit via the bus B. Details of the TS data received by the TV receiving unit 110 will be described later.

  The content management information extracted from the broadcast wave is input to the recording / playback control unit 120 via the bus B. The recording / playback control unit 120 is input under the control of the system control unit 210. TS data output from the TV receiver 110 to the DVD 10 or HD 20 by controlling the DVD drive 130 or the HD drive 140 based on the received content management information or based on an instruction input via the operation unit 200 Are recorded on the DVD 10 or the HD 20.

  The recording / playback control unit 120 controls playback of content data recorded on the DVD 10 or the HD 20 under the control of the system control unit 210, and the content data instructed via the operation unit 200 is controlled. Control for reading from the DVD 10 or HD 20 is performed, and the read content data is output to an external device (not shown) such as a monitor via the decoder 150 and the NTSC converter 160.

  The DVD drive 130 has a structure in which the DVD 10 can be attached and detached, and a drive interface for the DVD 10 that complies with a standard such as ATAPI (AT Attachment Packet Interface). In addition, the DVD drive 130 performs input / output switching related to content data to be recorded on the DVD 10 or content data to be read from the DVD 10, and accompanying recording / reproduction control of the DVD 10 under the control of the system control unit 210. It has become.

  Specifically, the DVD drive 130 records the TS data output from the TV receiving unit 110 on the DVD 10, reads the TS data recorded on the DVD 10 from the DVD 10, and reads the read TS data. The data is output to the decoder 150.

  The HD drive 140 has an HD 20 inside and an HD 20 drive interface compliant with a standard such as ATAPI. Content recorded on the HD 20 under the control of the system control unit 210 is the same as the DVD drive 130. Input / output switching related to data or content data read from the HD 20, and accompanying recording / reproduction control of the HD 20 are performed.

  When the reproduction of the content data recorded on the DVD 10 or HD 20 is executed, the decoder 150 receives TS data that is read from the DVD 10 and the HD 20 and is content data in the transport stream format. Yes. In addition, the decoder 150 separates the input TS data into audio data and video data under the control of the playback control unit, and performs predetermined processing such as decoding processing on each of these data, thereby enabling content Video data and audio data in the data are generated. The decoder 150 outputs the generated video data and audio data to the NTSC converter 160.

  The NTSC conversion unit 160 is inputted with the decoded video data and audio data and the display data generated by the OSD processing unit 170. The NTSC converter 160 converts the input video data and audio data into an NTSC format signal format, and superimposes the input display data on the converted video signal. The NTSC converter 160 outputs the video signal in which the display data is multiplexed and the audio signal in which the signal format is converted to an external device connected via the video signal output terminal T1 and the audio signal output terminal T2. It is like that.

  For example, in the present embodiment, a monitor having a function of amplifying sound is connected as an external device, and a video signal or an audio signal output from NTSC conversion is amplified by the monitor, and , To display.

  Under the control of the system control unit 210, the OSD processing unit 170 generates display data for multiplexing the video signal output to an external device such as character information, and displays the generated character information and the like. Data is output to NTSC conversion.

  The communication control unit 180 is connected to another information communication terminal device (not shown) via a communication line, and transmits TS data recorded on the DVD 10 or HD 20 to the information communication terminal device in a predetermined communication format. It has become.

  Specifically, in the communication control unit 180, when performing processing for transferring TS data recorded on the DVD 10 or HD 20 to an external device (hereinafter referred to as transfer processing), data is transmitted as described later. The converted TS data with the converted rate is input. Further, the communication control unit 180 transfers the TS data whose data format has been converted to the connected information communication terminal device in accordance with the communication method compliant with the IEEE 1394 standard for the input converted TS data. .

  The data rate conversion unit 190 receives TS data recorded on the DVD 10 or HD 20 and subjected to the transfer when TS data transfer processing is performed. The data rate of the input TS data is converted, and the converted TS data, which is the TS data converted from the data rate, is output to the communication control unit 180.

  Specifically, the data rate conversion unit 190 extracts TS packet data for which moving image data should be constructed from the input TS data, and the rate of the moving image data configured by the extracted TS packet data. By performing conversion processing (hereinafter referred to as rate conversion processing), converted TS packet data is generated. Then, the data rate conversion unit 190 incorporates the generated converted TS packet data into the base TS data while maintaining the characteristics regarding the data arrangement of each packet data. That is, processing for reconfiguring TS data (hereinafter referred to as reconfiguration processing) is performed.

  Further, the data rate conversion unit 190 converts the data rate of the TS data recorded on the DVD 10 or the HD 20 and re-records the TS data converted to the data rate on the DVD 10 or the HD 20 as described above. It has become.

  Details of the configuration and operation of the data rate conversion unit 190 in this embodiment will be described later.

  The operation unit 200 includes a remote control device having a number of keys such as various confirmation buttons, selection buttons, and numeric keys, and a light receiving unit that receives a signal transmitted from the remote control device, or various confirmation buttons, selection buttons, and numbers. It is constituted by an operation panel having a large number of keys such as keys. The operation unit 200 is used for various instructions when recording or reproducing TS data, and instructions for transferring TS data recorded on the DVD 10 or HD 20 to other information communication terminal devices. It is like that.

  The system control unit 210 reads out a control program stored in the ROM / RAM 220 and executes each process, and temporarily stores the data being processed in the ROM / RAM 220, whereby TS data is stored in the DVD 10 or HD 20. Other recorded TS data including a recording process for recording, a reproducing process for reproducing TS data from the DVD 10 or the HD 20, and a rate conversion process described later in the TS data recorded on the DVD 10 or the HD 20 Control of processing for transferring to the information communication terminal device (hereinafter referred to as transfer processing) is performed.

  Details of transfer processing including rate conversion processing in the system control unit 210 of the present embodiment will be described later.

  Next, TS data output from the TV receiver 110 of this embodiment will be described with reference to FIGS. 2 and 3.

  2 is an example of the data structure of TS data in MPEG format, and FIG. 3 is an example of the data structure of TS packet data in MPEG format.

  Normally, each image of moving image data in the MPEG system is represented by image data called a picture of an I picture, a B picture, or a P picture, and is encoded into MPEG format data by using a difference from another image with reference to the I picture ( Prediction encoding).

  In this embodiment, TS data, which is data in the MPEG transport stream format, is elementary stream data (see FIG. 2) constructed from only moving image data consisting of I pictures, B pictures, and P pictures. Hereinafter, it is also multiplexed with each elementary data such as audio data and reproduction control data. In particular, the ES data of moving image data is composed of PES (Packetized Element Stream) packet data (hereinafter referred to as PES packet data) P which is cell packet data of the ES data for each picture. The PES packet data P is further composed of TS packet data having a fixed length, and the TS data is composed by multiplexing with other TS packet data such as audio data.

  Specifically, as shown in FIG. 2, this TS data is used to construct information packet data (hereinafter also referred to as I packet data) D10 necessary for reproducing TS data and moving image data. Video packet data D20 and audio packet data D30 for constructing audio data associated with the moving image data. This I packet data D10 constitutes TS data such as video packet data D20. Information for managing the type of TS packet data to be managed by packet identification information (hereinafter also referred to as packet ID).

  In FIG. 2, “I” indicates I packet data, “V” indicates video packet data D20, and “A” indicates video packet data.

  In addition, for each group of ES data in moving image data, for example, in the case of MPEG TS data, for each GOP (Group Of Picture), a sequence header code (hereinafter referred to as a stream header code) that can be recognized on transport stream data. , SHC (Sequence Header Code)) is arranged as reference information serving as a reference in reproducing moving image data.

  On the other hand, as shown in FIG. 3, the video packet data includes a header area A10, a control data area A20 in which various data for controlling each TS packet data is stored, and an additional information area in which additional information is stored. A30 and an actual data area 40 in which actual data such as moving image data is stored.

  This control data area A20 shows unit start display data indicating the start of each picture from the TS packet, identification data for identifying the TS packet data, presence / absence of additional information, and presence / absence of actual data. Additional information control data, counter data for supporting accurate reception of TS packet data, and other information having other information are stored.

  In particular, the unit start display data is an actual data area in the video packet data D20 at the head of the I picture as code data indicating the head of a group of ES data in the moving image data, that is, the head of the I picture in moving image data. 40.

  Also, in TS packet data in each picture, PTS (Presentation Time Stamp) information for managing time of reproduction output of each picture when TS data is reproduced as content data is included in the TS packet data at the head of each picture. And DTS (Decoding Time Stamp) information for managing the time of the decoding time is stored, and in this embodiment, the time information is stored in the actual data based on the unit start display data, as will be described later. It has come to be detected.

  Next, details of the data rate conversion unit 190 in this embodiment will be described with reference to FIGS.

  4 is a diagram for explaining the rate conversion processing in the data rate conversion unit 190 of the present embodiment, and FIG. 5 is a block diagram showing the configuration of the data rate conversion unit 190 in the present embodiment. FIG. 6 is a diagram for explaining TS data reconfiguration processing performed as one of rate conversion processing in the reconfiguration processing unit 196 of the present embodiment.

  As shown in FIG. 4, the data rate conversion unit 190 according to the present embodiment maintains the time information (hereinafter referred to as time information) of the PTS information and the DTS information in the TS data, that is, changes the picture structure. Instead, the video packet data D20 is extracted from the TS data, and the data rate is converted on the ES data constructed by each video packet data D20. The data rate conversion unit 190 reconstructs the TS data based on each time information while returning the converted ES data to the TS packet data.

  2, “I” indicates I packet data, “V” indicates video packet data D20, and “A” indicates video packet data.

The data rate conversion unit 190 of the present embodiment is based on each data configuration of TS data, ES data, and TS packet data as described above.
(1) Recognizing the top of the TS data for each picture at the time of TS data processing reference, that is, as a collection of data when the TS data is reproduced,
(2) identifying video packet data D20 for constructing PES packet data P that is an attribute of TS packet data, that is, data of each picture;
(3) Recognizing time information in the video packet data D20 as a characteristic of TS packet data, that is, time information for managing reproduction of each picture when TS data is reproduced;
(4) Recognizing the data capacity of moving image data carried in the video packet data D20;
(5) Based on the identified data or the recognized information, moving image data constructed with TS packet data is converted into ES data while maintaining time information used when TS data is reproduced as content data. And (6) incorporating the converted ES data into the TS data as TS packet data,
The data rate of moving image data is converted while maintaining the attributes and characteristics of TS data.

  Specifically, as shown in FIG. 5, the data rate conversion unit 190 of the present embodiment detects a data input processing unit 191 that outputs TS data for each TS packet, and the attributes and characteristics of each TS packet data. It has a packet attribute detection unit 192 and a data acquisition unit 193 that extracts and acquires moving image data stored in each TS packet data.

  The data rate conversion unit 190 also includes a data storage unit 194 that stores data necessary for rate conversion of input TS data and moving image data acquired from the TS data, and an acquired moving image. The rate conversion processing unit 195 converts the data rate using the data as ES data, and reconstructs the TS data by disassembling the converted ES data into TS packet data while incorporating the moving image data into the base TS data. A configuration processing unit 196.

  For example, the packet attribute detection unit 192 and the data acquisition unit 193 of the present embodiment constitute the extraction unit of the present invention, and the rate conversion processing unit 195 constitutes the generation unit of the present invention. Also, for example, the stream reconstruction means of this embodiment constitutes the incorporation means of the present invention.

  TS data read from the DVD 10 or HD 20 is input to the data input processing unit 191, and this data input processing unit 191 separates the input TS data on the TS data, that is, The reference information (hereinafter referred to as reference information) is detected, and the detected reference information is output to the system control unit 210 via the bus B.

  Further, the data input processing unit 191 outputs the input TS data to the packet attribute detection unit 192, the data acquisition unit 193, and the data storage unit 194 for each TS packet data.

  Specifically, the data input processing unit 191 of the present embodiment recognizes the input data in the transport stream format in order to control each unit of the data rate conversion unit 190 based on the detected reference information. Possible basic information is detected, and the detected SHC is output to the system control unit 210 with reference to the position of the detected SHC on the TS data.

  For example, in the case of the MPEG format, the data input processing unit 191 of the present embodiment detects the SHC as reference information and uses the SHC as a reference for the processing timing of each unit in the data rate conversion unit 190 as described above. The data is output to the control unit 210.

  On the other hand, the data input processing unit 191 outputs the input TS data to the packet attribute detection unit 192, the data acquisition unit 193, and the data storage unit 194 for each TS packet data. This data input processing is performed in order to hold the input TS data, that is, the TS data before the data rate conversion, in the data storage unit 194 as the TS data before the conversion while maintaining the data format of the TS data. The unit 191 outputs each TS packet data to the data storage unit 194.

  The packet attribute detection unit 192 receives the TS packet data output from the data input processing unit 191 for each TS packet data. The packet attribute detection unit 192 detects whether the input TS packet data is the video packet data D20 by detecting the attribute of the input TS packet data. When the input TS packet data is the video packet data D20, the packet attribute detection unit 192 detects the characteristics of the video packet data D20, and includes attribute information indicating the attribute of the TS packet data. The detected characteristic is output as characteristic information to the data storage unit 194 via the bus B.

  Specifically, the packet attribute detection unit 192 of the present embodiment, based on the attribute of the input TS packet data, the TS packet data in the reproduction control data in which the input TS packet data is included in the TS data, that is, , I packet data D10 or other TS packet data is detected (hereinafter referred to as attribute detection processing), and the data storage unit 194 uses the attribute of the input packet data as attribute information. To output. When the input TS packet data is the I packet data D10, the packet attribute detection unit 192 analyzes the arrangement position on the stream of the video packet data D20 that can be recognized in the control data (hereinafter, data Analysis process).

  For example, as shown in FIG. 3 described above, the packet attribute detection unit 192 of the present embodiment acquires identification data included in TS packet data, and based on the acquired identification data, I packet or other The attribute detection process is performed by identifying the packet. In addition, the packet attribute detection unit 192 of the present embodiment constructs playback control data with the I packet data D10 detected in the attribute detection process, and sets the packet ID of the video packet data D20 that can be managed by the playback control data. The data analysis process to acquire is performed.

  On the other hand, when the input TS packet data is not the I packet data D10, the packet attribute detection unit 192 determines that the input TS packet is a video packet based on the arrangement position of the analyzed video packet data D20. A process for detecting whether or not the data is D20 (hereinafter referred to as a video packet detection process) is performed. The packet attribute detection unit 192 detects the presence / absence of time information of the PTS information and the DTS information based on the unit start display data recorded in the control data area A20 of the TS packet data detected as the video packet data D20. It is supposed to be. In addition, when the input TS packet data is a video packet, the packet attribute detection unit 192 determines that the TS packet based on the additional control information stored in the control data area A20 in the input TS packet data. It is determined whether additional information is stored in the data, and video packet analysis processing for detecting the data capacity of the actual data is performed.

  Also, during this video packet analysis process, when the presence or absence of time information in the input video packet data D20 is detected, the packet attribute detection unit 192 displays the image data held by the TS packet data as the head of each picture. Information that is data (hereinafter referred to as head information) and information on the capacity of detected actual data (hereinafter referred to as capacity information) are output to the data storage unit 194 as characteristic information.

  Normally, in the TS data of the MPEG system, the TS packet data always has a constant data amount, that is, a data amount of 188 bytes, so the data amount of the actual data is converted depending on the presence / absence of additional information. Therefore, the packet attribute detection unit 192 of the present embodiment can detect the data capacity of actual data based on the presence / absence of additional information.

  On the other hand, the packet attribute detection unit 192 includes attributes in the input TS packet data detected based on the above-described attribute detection process, data analysis process, and video packet detection process, I packet data D10, video packet data D20, or The attribute information indicating the type of the audio packet data D30 is output to the data storage unit 194.

  The TS packet data output from the input processing unit is input to the data acquisition unit 193, and this data acquisition unit 193 receives the input TS via the data storage unit 194 as will be described later. Attribute information and characteristic information in packet data are acquired. Further, the data acquisition unit 193 generates data (hereinafter referred to as a partial moving image) of moving image data stored in the actual data area 40 in the video packet data D20 based on the acquired attribute information and characteristic information. Data)), and the extracted partial moving image data is output to the data storage unit 194.

  Specifically, the data acquisition unit 193 acquires attribute information and acquisition information in the input TS packet data under the control of the system control unit 210, and whether or not the input TS packet data is a video packet. Whether or not is determined. In addition, when the input TS packet data is video packet data D20, the data acquisition unit 193 selects one of the moving image data of each picture based on the actual data capacity indicated by the acquired characteristic information. The partial moving image data which is a part is extracted as actual data.

  In the data storage unit 194, for each TS packet data, attribute information and characteristic information in each TS packet data output from the packet attribute detection unit 192, and actual data of each TS packet data output from the data acquisition unit 193 are stored. It is designed to be entered. The data storage unit 194 stores the input attribute information and characteristic information therein for each TS packet data under the control of the system control unit 210, and the moving image data based on the partial moving image data which is actual data. ES data is generated and stored inside. Further, as will be described later, the data storage unit 194 reads the stored ES data when rate conversion is performed, and the rate conversion processing unit 195, the analysis data processing unit, and the reconstruction processing unit 196 are read out. To output.

  On the other hand, in the data storage unit 194, under the control of the system control unit 210, ES data whose data rate is converted (hereinafter referred to as ES data after conversion) and TS data are reconstructed as described later. The converted TS data is inputted, and the inputted converted ES data and converted TS data are stored inside separately from the above-mentioned ES data before conversion and TS data before conversion. It has become. The data storage unit 194 reads out the converted TS data from the inside and outputs it to the communication control unit 180 under the control of the system control unit 210 when transfer processing is performed.

  When a certain amount of ES data is stored in the data storage unit 194 under the control of the system control unit 210, the rate conversion processing unit 195 stores the ES data stored in the data storage unit 194 and the TSs belonging to the element data. The characteristic information of the packet data is read, and the read element information, that is, the data rate of the moving image data is converted while maintaining the read characteristic information. The rate conversion processing unit 195 stores the converted ES data, which is ES data whose data rate has been converted, in the data storage unit 194 again.

  Specifically, the rate conversion processing unit 195 reads the time information while maintaining the time information every time unit start display data is detected during the rate conversion process under the control of the system control unit 210. Quantize scale conversion is performed to reduce the number of bits in the quantization step when data compression is performed on the output element data.

  At this time, the rate conversion processing unit 195 does not change the time information of the PTS and the DTS, that is, while prohibiting the conversion of the data rate as the picture data in which the data in which the ES data is constructed is different, The data rate is converted for each picture, and converted ES data in which the data rate is converted is generated.

  In the present embodiment, the rate conversion processing unit 195 performs rate conversion processing for each group of data, for example, one GOP, and by detecting basic information, for example, SHC, A break for each GOP is detected, and ES data is rate-converted.

  The reconfiguration processing unit 196 reconfigures TS data whose data rate has been converted based on the converted ES data stored in the data storage unit 194 and the TS data before conversion. The converted TS data, which is the converted TS data, is stored in the data storage unit 194.

  Specifically, as shown in FIG. 6, the reconstruction processing unit 196 generates a group of converted TS packet data and stores it in the data storage unit 194. The base TS data corresponding to the batch subject to rate conversion is read from the data storage unit 194 for each TS packet data, and whether or not the read TS packet data is the video packet data D20. It comes to detect.

  In addition, when the read TS packet data is the video packet data D20, the reconstruction processing unit 196 reads the converted ES data corresponding to the batch from the data storage unit 194 and reads the data. The converted TS packet data is incorporated into a predetermined position on the original TS data while the ES data is divided into converted TS packet data.

  At this time, the reconstruction processing unit 196 sequentially divides the converted ES data read from the data storage unit 194 into TS packet data having a predetermined fixed length, and uses the divided TS packet data as the base TS data. The time information of the video packet data D20 is incorporated at the same position, that is, the video packet data D20 in the base TS data is replaced with converted TS packet data having the same time information.

  However, the reconstruction processing unit 196 performs TS packet data incorporation on a picture-by-picture basis. The TS data before conversion and the TS data after conversion are the heads of each picture data. The position of the TS packet data on the stream data is not changed. For this reason, the reconstruction processing unit 196 incorporates empty TS packet data when there is no TS packet data to be incorporated even when the video packet data D20 is detected in the original TS data. Yes. In addition, the reconstruction processing unit 196, when the moving image data in the converted ES data cannot be replaced with the entire fixed-length TS packet data, that is, when there is no data amount that satisfies the TS packet data. Performs stuffing processing to fill in portions other than moving image data to be embedded with empty data.

  On the other hand, when the read TS packet data is packet data other than the video packet data D20, the reconfiguration processing unit 196 holds the TS packet data as it is.

  As described above, the reconfiguration processing unit 196 according to the present embodiment sequentially converts the converted TS packet data into the original TS data and generates the converted TS data, and the generated converted TS data. Data is stored in the data storage unit 194.

  Note that the reconfiguration processing unit 196 of the present embodiment incorporates empty packets or performs stuffing processing, and reconfigured TS data such as rewriting a cyclic counter for correcting communication error of packet data. Each data necessary for the data structure is corrected.

  2, “I” indicates I packet data, “V” indicates video packet data D20, and “A” indicates video packet data.

  Next, transfer processing including rate conversion processing of the system control unit 210 in the present embodiment will be described with reference to FIG.

  FIG. 7 is a flowchart showing the transfer processing operation of the system control unit 210 in the present embodiment.

  In this operation, it is assumed that after the transfer process is started, rate conversion processing is performed on the TS data, and the converted TS data is sequentially transferred to another information communication terminal device. In this operation, it is assumed that TS data is already recorded on the HD 20 and that the TS data recorded on the HD 20 is transferred to another information communication terminal device connected by a communication line. In the following description, MPEG-type TS data will be used.

  First, when the user operates the operation unit 200 to instruct to transfer TS data recorded in the HD 20 to another information communication terminal device, the system control unit 210 detects the instruction (step S111). Then, the communication control unit 180 is controlled to connect to another information communication terminal device via the communication line (step S112).

  Next, when the system control unit 210 receives information indicating that transfer from another information communication terminal device is possible via the communication control unit 180 (step S113), the system control unit 210 includes the HD drive 140 and the data rate conversion unit. 190 is controlled and the following rate conversion processing is performed.

  First, the system control unit 210 determines whether basic information in the TS data input to the data input processing unit 191 has been detected (step S114). At this time, when the basic information is detected by the data input processing unit 191, the system control unit 210 proceeds to the processing of step 115. For example, when the TS data is MPEG format TS data, the data input processing unit 191 of the present embodiment detects SHC as reference information as described above.

  The system control unit 210 causes the data input processing unit 191 to repeat the process of step S115 until the basic information is detected by the data input processing unit 191.

  Next, when the data input processing unit 191 detects basic information in the process of step S114, the system control unit 210 sends one TS packet data subsequent to the basic information to the data input processing unit 191 as a packet attribute detection unit 192, The data acquisition part 193 and the data storage part 194 are made to output (step S115).

  At this time, the data storage unit 194 sequentially stores the input one TS packet data as the base TS data.

  Next, the system control unit 210 sends an attribute detection process, a data analysis process, a video packet detection process, and a video packet analysis process (hereinafter, these processes) to the packet attribute detection unit 192 for the input TS packet data. Collectively referred to as packet processing) (step S116).

  At this time, as will be described later, the packet attribute detection unit 192 stores, in the data storage unit 194, attribute information detected in each process of packet processing, and characteristic information including head information and capacity information. Details of the packet processing in step S117 in the packet attribute detection unit 192 in this embodiment will be described later.

  Next, the system control unit 210 causes the data acquisition unit 193 to store the partial moving image stored in the video packet data D20 based on the attribute information and the characteristic information in one TS packet data output from the data input processing unit 191. Data is extracted, and the extracted partial moving image data is output to the data storage unit 194 (step S117).

  Specifically, the data acquisition unit 193 acquires attribute information and acquisition information in the input TS packet data, and determines whether the input TS packet data is a video packet. Then, when the input TS packet data is video packet data D20, the data acquisition unit 193 selects one of the moving image data of each picture based on the actual data capacity indicated by the acquired characteristic information. Partial moving image data, which is a part, is extracted as actual data.

  Next, when the partial moving image data is input, the data storage unit 194 generates and stores ES data in the partial moving image data (step S118).

  Next, the system control unit 210 causes the data input processing unit 191 to detect the presence or absence of the next TS packet data (step S119), and if the data input processing unit 191 determines that there is no next packet data, the step The process proceeds to S122.

  On the other hand, when the data input processing unit 191 determines in step S119 that the next TS ticket data is present, the system control unit 210 determines whether or not the next data is basic information in the data input processing unit 191. (Step S120).

  Next, when the basic information is detected by the data input processing unit 191 in the process of step S120, the system control unit 210 stores the moving image stored in the data storage unit 194 in the rate conversion processing unit 195 in the above-described operation. One GOP ES data in the image data is read out, converted ES data is generated (step S121), and the process proceeds to step S115.

  At this time, the rate conversion processing unit stores the generated post-conversion ES data in the data storage unit 194.

  Next, in the process of step S119, when the data input processing unit 191 determines that there is no next packet data, the system control unit 210 generates post-conversion ES data in the rate conversion processing unit 195 as in step S121. In addition, the reconstruction processing unit 196 reads the converted ES data of each GOP stored in the data storage unit 194 in the above-described operation, and the TS data based on the converted ES data of each GOP and the original TS data Is reconstructed, that is, converted TS data is generated (step S122).

  In the present embodiment, the reconstruction processing unit 196 stores the reconstructed TS data in the data storage unit 194. Details of the TS data reconstruction process in the data rate conversion unit 190 in step S122 will be described later.

  Finally, the system control unit 210 reads the TS data from the data storage unit 194 to the communication control unit 180 for each collection of ES data in the moving image data, for example, for each GOP in the case of MPEG TS data. And output to another information communication terminal device via the communication line (step S123).

  Next, packet processing of the packet attribute detection unit 192 in the transfer processing of the present embodiment will be described using FIG.

  FIG. 8 is a flowchart showing the packet processing operation of the packet attribute detection unit 192 in the transfer processing of this embodiment. Further, as described above, this operation is executed for each TS packet data.

  First, when one TS packet data is input, the packet attribute detection unit 192 performs attribute detection processing of the TS packet data, and detects whether or not the input packet data is I packet data D10 ( Step S211).

  For example, as shown in FIG. 3 described above, the packet attribute detection unit 192 of the present embodiment acquires identification data included in TS packet data, and based on the acquired identification data, I packet data D10 or other Attribute detection processing is performed by identifying the packet data.

  When the packet attribute detection unit 192 makes the determination, the attribute information of the input one TS packet data is stored in the data storage unit 194.

  Next, when the packet attribute detection unit 192 determines in step S211 that the packet attribute detection unit 192 is the I packet data D10, the packet attribute detection unit 192 uses the I packet data D10 together with the other I packet data D10. Data analysis processing for analyzing the arrangement position on the stream of the video packet data D20 that can be recognized in the constructed reproduction control data is performed (step S212), and this operation is terminated.

  For example, the packet attribute detection unit 192 of the present embodiment constructs playback control data with the I packet data D10 detected in the attribute detection process, and sets the packet ID of the video packet data D20 that can be managed by the playback control data. Perform the data analysis process to obtain.

  Note that, when the I packet data D10 is insufficient and analysis processing cannot be performed, the packet attribute detection unit 192 ends this operation while holding the data in the I packet.

  On the other hand, when the packet attribute detection unit 192 determines that it is not the I packet data D10, the packet attribute detection unit 192 performs a video packet detection process (step S213), and the video packet data analyzed in the process of step S212. Based on the arrangement position of D20, it is determined whether or not the input TS packet is video packet data D20 (step S214).

  Next, in step S214, when the packet attribute detection unit 192 determines that the input one TS packet data is not the video packet data D20, the packet attribute detection unit 192 determines that the input one TS packet data. Is stored in the data storage unit 194 (step S215), and this operation is terminated.

  On the other hand, in the process of step S214, when the packet attribute detection unit 192 determines that one input TS packet data is the video packet data D20, the packet attribute detection unit 192 performs the video packet analysis process (step S216). And the presence / absence of time information is detected, the presence / absence of additional information is detected, the attribute information and the head information and capacity information are stored as characteristic information in the data storage unit 194 (step S217), and this operation is terminated. .

  Next, the reconfiguration process of the system control unit 210 in the transfer process of this embodiment will be described with reference to FIG.

  FIG. 9 is a flowchart showing the operation of the reconfiguration processing of the reconfiguration processing unit 196 in the transfer processing of this embodiment. Further, this process will be described using MPEG TS data as described above.

  First, when the system control unit 210 instructs the reconfiguration processing unit 196 to start the reconfiguration processing (step S311), the reconfiguration processing unit 196 stores the target TS data of the target from the data storage unit 194. When the TS packet data belonging to the head in the GOP or the process is performed after the process of step S320, the TS packet data next to the TS packet data read last time is read (step S312).

  Next, the reconstruction processing unit 196 detects whether or not the read TS packet data is video packet data D20 (step S313). Specifically, the reconfiguration processing unit 196 acquires attribute information in the read TS packet data by analyzing the TS packet data, and the read TS based on the acquired attribute information. It is detected whether the packet data is video packet data D20.

  At this time, when the reconstruction processing unit 196 determines that the read TS packet data is not the video packet data D20 in the process of step S313, the reconstruction processing unit 196 proceeds to the process of step S318. .

  On the other hand, in the process of step S313, when the reconstruction processing unit 196 determines that the read TS packet data is the video packet data D20, the reconstruction processing unit 196 has not yet read the data storage unit 194. It is determined whether there is converted ES data that has not been issued (step S314).

  Next, in the process of step S314, when the reconstruction processing unit 196 determines that there is converted ES data that has not yet been read in the data storage unit 194, the reconstruction processing unit 196 has read It is determined whether the TS packet data to be incorporated based on the presence / absence of unit start data in the TS packet data is a picture different from the picture to which the TS packet data generated in the previous process of step S316 belongs (step S316). S315). In the process of step S315, the reconstruction processing unit 196 has unit start data, that is, the TS packet data to be incorporated is different from the picture to which the TS packet data generated in the previous process of step S317 belongs. If it is determined that the picture is a picture, the reconstruction processing unit 196 proceeds to the process of step S318.

  On the other hand, when the reconstruction processing unit 196 determines that there is no unit start data in the process of step S315, the reconstruction processing unit 196 uses the converted ES data that has not yet been read, It is determined whether TS packet data can be generated (step S316).

  Next, in the process of step S316, when the reconstruction processing unit 196 determines that one TS packet data can be generated from the converted ES data that has not yet been read, the reconstruction processing unit 196 Generates one TS packet data from the converted ES data that has not yet been read (step S317).

  Next, in the process of step S316, when the reconstruction processing unit 196 determines that one TS packet data cannot be generated from the converted ES data that has not yet been read from the data storage unit 194, the reconfiguration processing unit 196 The configuration processing unit 196 reads the converted ES data and performs stuffing processing to generate one TS packet data (step S318).

  On the other hand, when the reconstruction processing unit 196 determines that there is no converted ES data that has not yet been read in the data storage unit 194 in the process of step S313, or ES data that has not been read yet is the previous step. If it is determined that the TS packet data generated in S316 is different from the picture to which the TS packet data belongs, one TS packet data is generated from the empty data (step S319).

  Next, the reconstruction processing unit 196 incorporates the converted TS packet data generated at the position on the original TS data where the video packet data D20 detected in the process of step S313 was arranged (step S320).

  At this time, the reconfiguration processing unit 196 corrects each data that requires the reconfigured TS data in terms of the data structure, such as rewriting a cyclic counter for correcting the communication error of the packet data.

  Next, the reconstruction processing unit 196 determines whether there is TS packet data next to the target base TS data stored in the data storage unit 194 (step S321), and the reconstruction processing unit 196 is targeted. When it is determined that there is no TS packet data next to the GOP in the original TS data, this operation is terminated.

  On the other hand, in the process of step S320, when the reconstruction processing unit 196 determines that there is TS packet data next to the target base TS data, the reconstruction processing unit 196 reads the target data from the data storage unit 194. In order to read out TS packet data next to the original TS data, the process proceeds to step S312.

  As described above, according to the present embodiment, the information recording / reproducing apparatus 100 is an information recording / reproducing apparatus 100 for TS data in which moving image data that has been compression-encoded is multiplexed with other data in a fixed-length packet. A data input processing unit 191 that acquires TS data, a packet attribute detection unit 192 that extracts each TS packet data belonging to moving image data compressed and encoded from the acquired TS data as TS packet data before conversion, and data acquisition The video data having a data rate different from the data rate of the moving image data that is compressed and encoded by converting the data rate of the moving image data configured by the unit 193 and each extracted TS packet data before conversion Rate conversion processing for generating TS packet data for construction as converted TS packet data 195 and the pre-conversion TS data from which each pre-conversion TS packet data is extracted while maintaining the characteristics regarding the data arrangement of each TS packet data in the pre-conversion TS data when the pre-conversion TS packet data is extracted A reconstruction processing unit 196 that incorporates each converted TS packet data generated instead of the pre-conversion TS packet data.

  With this configuration, the information recording / reproducing apparatus 100 according to the present embodiment extracts the pre-conversion TS packet data from the acquired TS data, and the data rate of moving image data configured by each extracted pre-conversion TS packet data And TS packet data for constructing moving image data having a data rate different from the data rate of the compressed and encoded moving image data is generated as converted TS packet data. Then, the information recording / reproducing apparatus 100 extracts each pre-conversion TS packet data while maintaining the characteristics regarding the data arrangement of each TS packet data in the pre-conversion TS data when the pre-conversion TS packet data is extracted. Each post-conversion TS packet data generated in place of the pre-conversion TS packet data is incorporated into the pre-conversion TS data.

  Therefore, the information recording / reproducing apparatus 100 of the present embodiment can convert the data rate of moving image data while maintaining the characteristics relating to the data arrangement of each TS packet data in the TS data before conversion. Compared with the case where the data rate of moving image data is converted without maintaining the characteristics relating to the data arrangement of the data, the processing time required for the conversion of the data rate can be shortened. In addition, since the information recording / reproducing apparatus 100 according to the present embodiment recombines the TS data with the original data only when the TS data is reconstructed, the data rate can be converted with a simple configuration. .

  Also, in the information recording / reproducing apparatus 100 according to the present embodiment, the rate conversion processing unit 195 has a decoding time when the moving image data that has been compression-encoded is decoded or a reproduction time when it is decoded and reproduced. The data array is generated when each converted TS packet data is generated while maintaining at least one of the times, and the reconstruction processing unit 196 incorporates each converted TS packet data generated for the TS data. As a characteristic relating to the above, each of the generated converted TS packet data is incorporated while maintaining at least one time information of a decoding time (DTS) or a reproduction time (PTS).

  With this configuration, the information recording / reproducing apparatus 100 according to the present embodiment has at least one of the decoding time when the compressed and encoded moving image data is decoded and the reproduction time when the decoded and reproduced data is reproduced. When the converted TS packet data is generated and the converted TS packet data generated for the TS data is incorporated, the decoding time (DTS) or the reproduction time is a characteristic regarding the data arrangement. The generated converted TS packet data is incorporated while maintaining at least one of the time information of (PTS).

  Therefore, the information recording / reproducing apparatus 100 according to the present embodiment can convert the data rate of the moving image data while maintaining the time information regarding the data arrangement of each TS packet data in the TS data before conversion. The moving image data whose data rate has been converted can be incorporated into the base TS data.

  In addition, the information recording / reproducing apparatus 100 according to the present embodiment includes pre-conversion TS packet data having information on at least one of decoding time (DTS) and reproduction time (PTS) in moving image data, and information on the time. When there is first packet data that does not have the converted TS packet data, the reconstruction processing unit 196 has at least one of the decoding time (DTS) and the reproduction time (PTS) in the moving image data. Is incorporated in the packet position in the TS data where the pre-conversion TS packet data having at least one of the decoding time (DTS) and the reproduction time (PTS) of the same time is arranged. .

  With this configuration, the information recording / reproducing apparatus 100 according to the present embodiment has at least one of the decoding time when the compressed and encoded moving image data is decoded and the reproduction time when the decoded and reproduced data is reproduced. When the converted TS packet data is generated and the converted TS packet data generated for the TS data is incorporated, the decoding time (DTS) or the reproduction time is a characteristic regarding the data arrangement. The generated converted TS packet data is incorporated while maintaining at least one of the time information of (PTS).

  Therefore, the information recording / reproducing apparatus 100 according to the present embodiment can convert the data rate of the moving image data while maintaining the time information regarding the data arrangement of each TS packet data in the TS data before conversion. The moving image data whose data rate has been converted can be incorporated into the base TS data.

  In addition, the information recording / reproducing apparatus 100 according to the present embodiment is configured so that when the reconstruction processing unit 196 incorporates each converted TS packet data generated for the TS data, the attribute of each packet data that constructs the TS data, Each of the generated converted TS packet data is incorporated while maintaining at least one of the characteristics of the arrangement position and the arrangement order.

  With this configuration, the information recording / reproducing apparatus 100 according to the present embodiment, when incorporating each converted TS packet data generated for the TS data, has attributes, arrangement positions, and arrangement orders of the packet data constituting the TS data. Each converted TS packet data is incorporated while maintaining at least one of the following characteristics.

  Therefore, the information recording / reproducing apparatus 100 according to the present embodiment converts the data rate of the moving image data while maintaining the TS data characteristics relating to the attribute, the arrangement, or the arrangement order of each TS packet data in the TS data before the conversion. be able to.

  Further, in the information recording / reproducing apparatus 100 of the present embodiment, the reconstruction processing unit 196 maintains each characteristic of the TS packet data in the other data multiplexed in the TS data, while maintaining the characteristics regarding the data arrangement. It has a configuration for incorporating the subsequent TS packet data.

  Therefore, the information recording / reproducing apparatus 100 according to the present embodiment can convert the data rate of the moving image data while maintaining the time information regarding the data arrangement of each TS packet data in the TS data before conversion. The moving image data whose data rate has been converted can be incorporated into the base TS data.

  In this embodiment, the packet attribute detection unit 192 detects that each time information of the PTS information and the DTS information is stored in the actual data by detecting the unit start display data. For example, in the case of MPEG TS data, since PES packet data P is constructed for each picture, code data indicating the head of PES packet data P (hereinafter referred to as PES start) is included in the control data of TS packet data. Therefore, the packet attribute detection unit 192 according to the present embodiment detects the PES start code as code data indicating the head (hereinafter referred to as head data), thereby detecting the PTS information and the DTS. The presence or absence of time information of information may be detected. At this time, the start code “000001E0” of the PES packet data P is detected.

  In the present embodiment, the reconstruction processing unit 196 also converts the converted TS packet data generated from the converted ES data when the converted ES data is incorporated into the base TS data for each picture in the reconstruction process. From the beginning of the picture, the TS data is incorporated into the original TS data and the empty data is incorporated into the TS packet data behind each picture, but the empty data is incorporated at a predetermined timing, The data may not be concentrated on the TS data.

  In this case, the reconstruction processing unit 196 calculates the ratio of the data amount of each picture based on the picture size of each picture before conversion, that is, the data amount of each picture and the picture size of each picture after conversion. Then, based on the calculated ratio, a pattern for assigning the converted TS packet data, which is the divided TS packet data, to the TS data before conversion is set. Then, the converted TS packet data is incorporated based on the set pattern.

  In the present embodiment, the information recording / reproducing apparatus 100 described above performs transfer processing including rate conversion processing. However, as described above, the information recording / reproducing apparatus 100 having the DVD drive 130 or the HD drive 140 includes a computer, the DVD 10 or the HD 20 stores the program for performing the above-described transfer processing, and the computer reads the program. A transfer process similar to that described above may be performed.

  In addition, the information recording / reproducing apparatus 100 according to the present embodiment is configured to transfer the converted TS data whose data rate has been converted by the communication method established in IEEE 1394 to other information communication terminal apparatuses. Of course, the converted TS data may be transferred to another information communication terminal device by another communication method.

It is a block diagram which shows the structure of the information recording / reproducing apparatus in one Embodiment which concerns on this application. It is an example of the data structure in the TS data of the MPEG format in one embodiment. It is an example of the data structure of the TS packet data of the MPEG format in one Embodiment. It is a figure for demonstrating the rate conversion process in the data rate conversion part of one Embodiment. It is a block diagram which shows the structure of the data rate conversion part in one Embodiment. It is a figure for demonstrating the reconstruction process of TS data performed as one of the rate conversion processes in the reconstruction process part of one Embodiment. It is a flowchart which shows the operation | movement of the transfer process of the system control part in one Embodiment. It is a flowchart which shows the operation | movement of the packet process of the packet attribute detection part in the transfer process of one Embodiment. It is a flowchart which shows the operation | movement of the reconstruction process of the reconstruction process part in the transfer process of one Embodiment.

Explanation of symbols

10 ... DVD
20… HD
DESCRIPTION OF SYMBOLS 100 ... Information recording / reproducing apparatus 110 ... TV receiving part 120 ... Recording / reproducing control part 130 ... DVD drive 140 ... HD drive 150 ... Decoder 160 ... NTSC conversion part 170 ... OSD processing part 180 ... Communication control part 190 ... Data rate conversion part 191 Data input processing unit 192 Packet attribute detection unit 193 Data acquisition unit 194 Data storage unit 195 Rate conversion processing unit 196 Reconfiguration processing unit 200 Operation unit 210 System control unit 220 ROM / RAM

Claims (9)

A data rate conversion device for content data in which moving image data that has been compression-encoded is multiplexed together with other data,
Obtaining means for obtaining the content data;
Extraction means for extracting data of each packet belonging to the compressed and encoded moving image data from the acquired content data as first moving image packet data;
A data rate of moving image data constituted by each of the extracted first moving image packet data is converted, and moving image data having a data rate different from the data rate of the compressed and encoded moving image data is constructed. Generating means for generating packet data for performing as second moving image packet data;
The generated content data is extracted with respect to the content data from which each of the first moving image packet data is extracted, while maintaining a relationship regarding reproduction of each packet data in the content data when the first moving image packet data is extracted. Means for incorporating each second video packet data;
A data rate conversion apparatus comprising: The data rate conversion apparatus according to claim 1, wherein
The generating means maintains at least one of a decoding time when the compressed and encoded moving image data is decoded or a reproduction time when the moving image data is decoded and reproduced, and Generating second moving image packet data;
When the incorporation means incorporates each of the generated second moving image packet data into the content data, while maintaining at least one of the decoding time and the reproduction time as the relation regarding the reproduction, A data rate conversion device incorporating each of the generated second moving image packet data. The data rate conversion device according to claim 2, wherein
When there is the first moving image packet data having information on at least one of decoding time and reproduction time in the moving image data and the first packet data not having information on the time,
The incorporation means converts the second moving image packet data having at least one of the decoding time and the reproduction time in the moving image data into at least one of the decoding time and the reproduction time at the same time. A data rate conversion apparatus comprising: a packet position in the content data where the first moving image packet data including In the data rate conversion device according to any one of claims 1 to 3,
When the incorporation means incorporates the generated second moving image packet data into the content data, at least one of the attribute, the arrangement position, and the arrangement order of the packet data constructing the content data A data rate conversion device, wherein each of the generated second moving image packet data is incorporated while maintaining characteristics. In the data rate conversion device according to any one of claims 1 to 4,
Data in which the embedding unit incorporates each of the generated second moving image packet data while maintaining characteristics regarding the data arrangement of the packet data in the other data multiplexed in the content data Rate conversion device. In the data rate conversion device according to any one of claims 1 to 5,
When the compressed and encoded moving image data is MPEG (Moving Picture Experts Group) moving image data, and the content data is bit stream format data,
The data rate conversion apparatus, wherein the extraction unit, the generation unit, and the incorporation unit handle the data of each packet constructing the data in the bitstream format as each packet data. A data rate conversion method for content data in which moving image data that has been compression-encoded is multiplexed with other data,
An acquisition step of acquiring the content data;
An extraction step of extracting data of each packet belonging to the compressed and encoded moving image data as the first moving image packet data from the acquired content data;
A data rate of moving image data constituted by each of the extracted first moving image packet data is converted, and moving image data having a data rate different from the data rate of the compressed and encoded moving image data is constructed. A generating step of generating packet data for performing as second moving image packet data;
The first moving image packet data is generated with respect to the content data from which each of the first moving image packet data is extracted, while maintaining the characteristics relating to the data arrangement of each packet data in the content data when the first moving image packet data is extracted. A step of incorporating each second moving image packet data,
A data rate conversion method comprising: A data rate conversion program for content data in which moving image data compressed and encoded by a computer is multiplexed with other data,
The computer,
Obtaining means for obtaining the content data;
Extraction means for extracting data of each packet belonging to the compressed and encoded moving image data from the acquired content data as first moving image packet data;
A data rate of moving image data constituted by each of the extracted first moving image packet data is converted, and moving image data having a data rate different from the data rate of the compressed and encoded moving image data is constructed. Generating means for generating packet data for performing as second moving image packet data;
The first moving image packet data is generated with respect to the content data from which each of the first moving image packet data is extracted, while maintaining the characteristics relating to the data arrangement of each packet data in the content data when the first moving image packet data is extracted. Incorporating means for incorporating each second video packet data
A data rate conversion program characterized by functioning as   9. An information recording medium in which the data rate conversion program according to claim 8 is recorded in a computer-readable manner.

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