JP3846671B2 - Multimedia storage device and multimedia transmission device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multimedia storage device, and a method for recording / reproducing digital moving images such as digital broadcasting, a control method by time designation, a method for artificially stopping / resuming live broadcasting, a program name, and the like It relates to data association. Hereinafter, “moving image” represents a mixed image of video and audio, and “video” and “sound” represent visual video and audio as hearing, respectively.
[0002]
[Prior art]
FIG. 7 shows a moving picture storage / playback method using a conventional PC (Personal Computer), for example, 61 indicates a PC main body, 62 drives a driver for a decoding board and a driver for a coding board, and is stored in a file. Is an application program for transferring the data to the decoding board or file the data output from the encoding board, 65 is a decoding board, 63 is a monitor for outputting video, 66 is an encoding board, Reference numeral 64 denotes an input means for inputting a moving image analog signal such as a VTR (Video Tape Recorder) device to the encoding board, and 67 denotes a video storage means such as a hard disk.
[0003]
FIG. 8 shows a method for recording / playback on a home VTR. 71 indicates a VTR main body, 72 is a control module for performing playback, stop, and recording on a tape by a switch for performing playback, stop, etc. Yes, 73 is a video output means, which indicates a terminal connected to a television or the like, 74 is an input means and corresponds to an external signal input or tuner, 75 is a television for displaying a video, 76 is a video A video tape is a typical example of a recording medium that is a storage means for recording signals.
[0004]
FIG. 9 shows a method of viewing a television broadcast on a home television, 81 shows a television main body, 82 is a control module for changing a channel selected by a tuner by a switch for changing the channel, etc. 83 Is a display means such as a cathode ray tube for displaying a moving image, and 84 is a moving image input means, which corresponds to an external signal input terminal or a tuner.
[0005]
Next, the operation will be described.
In the moving image storage on the PC 61, a video signal is input to the encoding board 66 by the input unit 64 of the moving image signal, and the moving image data encoded by the encoding board 66 is stored in a disk or the like as it is by the application program 62. The moving image data stored in the device 67 and encoded by the application program 62 is read from the storage means 67 at the time of reproduction, and the encoded data is sequentially stored in the decoding board 65 according to the decoding status of the decoding board 65 built in the computer. It is only transferred, and the inside of the encoded moving image data is not changed. The decoding board 65 displays data decoded as a moving image.
[0006]
In the video storage in the VTR, the video input by the input unit 74 is recorded by operating the control module 72 in accordance with an instruction such as a user's switch operation, and the video is recorded in the storage unit 76. The moving image recorded in the storage unit 76 is played by operating the control module 72 in accordance with a user's instruction such as a switch operation, and the moving image recorded in the storage unit 76 is played back. Display video on.
The TV receives a TV broadcast by a tuner or displays a moving image obtained by the input means 84 by the input from the VTR on the switching display means 83 by the control module 82.
[0007]
[Problems to be solved by the invention]
Conventionally, moving images that have been recorded on a computer are mainly a single moving image that consists of video and audio, and since the encoded data is recorded as it is, it is not necessary to reproduce the desired video and audio. Data such as NULL packets inserted for decoding synchronization and other information packets that are not directly required for decoding are recorded at the same time, so finite storage means are wasted for unnecessary data. Therefore, it is necessary to eliminate this waste and to efficiently use storage means such as a nonvolatile memory device.
[0008]
In addition, video handled by a computer generally has a low transfer rate that can be displayed on a computer, and when handling a multiplexed video, it is generally not separated and set according to the setting in the decoding device. There is a problem in that it is necessary to determine which multimedia data is to be decoded, and it is impossible to separate multiplexed moving images in real time.
[0009]
When this apparatus is viewed as a VTR, a conventional VTR is generally configured to selectively execute recording or playback, and cannot perform both at the same time. That is, it is impossible to perform a combined operation such as playing a live broadcast while playing back the beginning of the moving image being recorded. Therefore, the VTR is used for such purposes as recording the television broadcast in order to be absent during the broadcast time of the television program to be viewed, or recording the back program because two programs to be viewed are broadcast in the same time zone. Also, since there is only one program that can be recorded simultaneously by one VTR, there is a problem that when there are two programs to be recorded in the same time period, the user must select one of them.
Further, when this apparatus is viewed as a television, there is a problem that the conventional television cannot replay a scene that the user wants to see again or misses in a currently broadcast program.
[0010]
The present invention has been made to solve the above-described problems. Multimedia data including a wideband moving image such as a plurality of encoded HDTV (High Definition TV) images transmitted in a multiplexed manner is provided. Simultaneously accumulate as separate videos (simultaneous recording of programs of different channels broadcasted in the same time zone), or simultaneously play back videos while accumulating them (lagging behind the program start time and broadcasting the program) Can be viewed from the beginning of the program), and a method for efficiently using the non-volatile storage device is solved, and a method for correlating the byte position of the video data with the playback time is solved. Thus, it is an object of the present invention to further improve the convenience for the user by making it possible to specify the playback position according to the time.
[0011]
[Means for Solving the Problems]
This invention An input unit for inputting multimedia data multiplexed in packet units, a control unit for selecting and outputting a predetermined packet from the input multimedia data, and an accumulating unit for storing the output packet. It is a thing. Here, in the claims, “output” means that the selected packet is transmitted from the control means to the storage means, and “send” means that the control means sends out the data extracted from the storage means to the outside. .
[0012]
In addition, this invention Is a control that extracts a predetermined packet from the multimedia data, selects a packet in which audio or video data is stored, and extracts only text or still image actual data from a packet in which text or still image is stored. Means are provided.
[0013]
In addition, this invention The control means for copying the control information indicating the storage state of the multiplexed packet for each set of related packets, and collecting the packets for each set of related packets, and the set of the related packets Each has a storage means for storing the collected packets.
[0014]
In addition, this invention Comprises control means for selecting a predetermined packet from multimedia data multiplexed in packet units, deleting a packet that has not been selected, and adding deletion information of the deleted packet to the selected packet for output. Is.
[0015]
In addition, this invention Is provided with a control means for inputting a packet having a time axis such as video data and audio data from the packet stored in the storage means, and inserting and sending a NULL packet at the deleted packet position. .
[0016]
In addition, this invention Is provided with control means for selecting and sending a predetermined packet from the packets stored in the storage means.
[0017]
In addition, this invention Includes a control unit that selects and outputs the predetermined packet, and inputs and sends out the packet already stored in the storage unit during storage.
[0018]
In addition, this invention Is provided with control means for adding the accumulated time of the packet to the selected packet and outputting it.
[0019]
In addition, this invention Obtains the reproduction start position based on the accumulation time of the packet accumulated in the accumulation means and the reproduction start time designated by the user, and inputs and transmits the packet from the reproduction start position from the accumulation means. Control means are provided.
[0020]
In addition, this invention Outputs the total accumulation time of the accumulated data for each set of related packets and accumulates it in the accumulation means, obtains the reproduction start position from the reproduction start time designated by the user and the total accumulation time, Control means for inputting a packet from the start position from the storage means and sending it out is provided.
[0021]
In addition, this invention Outputs the related information including the storage time and storage position of the selected packet at a predetermined interval and stores it in the storage means, and determines the playback start position from the playback start time specified by the user and the related information. The control means for obtaining and transmitting the packet from the reproduction start position is provided.
[0022]
In addition, this invention Outputs the accumulated time and accumulated byte size of the packet accumulated in the accumulating means at predetermined intervals and accumulates them in the accumulating means, and inputs the packets already accumulated during accumulation in the accumulating means, And a control means for obtaining a reproduction start position on the basis of the reproduction start time specified by the above, the accumulation time, and the accumulated byte size, and inputting and transmitting a packet from the reproduction start position from the accumulation means. .
[0023]
In addition, this invention Obtains the position of the packet at the time when a predetermined operation is performed by the user from the packets already accumulated during the accumulation of the packet in the accumulation means, and at the time when the predetermined operation by the user is performed. Control means for inputting the packet from the storage means and sending it out from the position of the packet is provided.
[0024]
In addition, this invention Is provided with control means for outputting a packet of the switched channel to the storage means when a channel switching operation is performed by the user while packets of a predetermined channel are being stored in the storage means.
[0025]
In addition, this invention Includes a control unit that determines whether or not the stored packet is necessary at predetermined time intervals based on the access frequency or creation date and time of the packet stored in the storage unit, and deletes unnecessary packets.
[0026]
In addition, this invention Is provided with control means for resuming transmission from a packet at a position going back from the stop position to a predetermined time when the transmission is stopped during transmission of the packet stored in the storage means and then restarted. .
[0027]
In addition, this invention Is a storage means for storing program information including a program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer or a broadcast date and time of the set of stored packets, and the program information is input. And a control means for extracting a program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer or a broadcast date and time of a predetermined packet set.
[0028]
In addition, this invention Is provided with control means for identifying a predetermined program by specifying an abstract program such as a program genre, and automatically starting accumulation of a set of packets corresponding to the content of the predetermined program at a predetermined time. is there.
[0029]
In addition, this invention Is a control means for monitoring the electronic program guide included in the digital broadcast and enabling recording of the program reserved for recording by changing the information of the program already reserved for recording when the program organization is changed. It is equipped with.
[0030]
In addition, this invention Is provided with a control means for always recording a preset regularly broadcasted program every time.
[0031]
In addition, this invention When storing a set of packets corresponding to the new contents of a predetermined program, the set of packets corresponding to the old contents of the predetermined program is discarded to prevent the storage medium from being enlarged or unable to be stored. The control means is provided.
[0032]
In addition, this invention Is a control means for deciding a recording medium for storing packets from a recording medium such as a hard disk, a DVD (Digital Versatile Disc) or a tape according to an instruction from a user or attribute information of a packet to be stored. It is provided.
[0033]
In addition, this invention Is further In order to determine the media to store packets from the built-in devices and devices on the network, based on the instructions from the user and the attribute information of the packets to be stored, as well as the network-connected recording media Control means are provided.
[0034]
In addition, this invention Is further When storing several related packet sets on a regular basis, the oldest packet set among the packet sets corresponding to the contents of the program not being viewed is stored in a high-performance recording medium. Other packet sets are provided with control means for storing in a recording medium that is less expensive than a high-performance recording medium.
[0035]
In addition, this invention Is further Of the set of packets corresponding to the contents of the program that is not viewed, the oldest set of packets exists on a high-performance recording medium, and the other set of packets is recorded on a cheaper recording medium than the high-performance recording medium. When a packet set corresponding to the contents of a program that has not been viewed in the existing state is reproduced and playback is started, the next packet set to be viewed is recorded on a high-performance recording medium. Control means for copying is provided.
[0036]
In addition, this invention Includes a control means for repeatedly executing reproduction and skipping by repeatedly transmitting a predetermined amount of accumulated packets at predetermined intervals.
[0037]
This invention Is further, Control means having a program information search function is provided in order to send out only those that match search keywords such as program title, performer, program genre, broadcast date and time from the stored program information.
[0038]
In addition, this invention Is a storage means for storing program information including a program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer or a broadcast date and time of the set of stored packets, and the program information is input. And a control means for extracting the program identification number, channel number, recording time (accumulation time), program name, program genre, performer or broadcast date and time of a predetermined packet set as predetermined graphic information.
[0039]
In addition, this invention Is further, Control means that has a program information search function to send out only those that match the search keyword such as program title, performer, program genre, broadcast date and time from the stored program information, and retrieves the search result as predetermined graphic information It is equipped with.
[0040]
DETAILED DESCRIPTION OF THE INVENTION
Embodiment 1 FIG.
The input board of this embodiment (an input board is an example of input means) has the following functions.
(1) Input multimedia data multiplexed in packet units.
The stream control program has the following functions. Here, the stream control program is an example of a control unit.
(1) Select and output a predetermined packet from the input multimedia data.
(2) A predetermined packet is extracted from the multimedia data, a packet storing audio or video data is selected, and only text or still image actual data is extracted from a packet storing text or still image.
(3) A predetermined packet is selected from the multimedia data multiplexed in packet units, a packet not selected is deleted, and this deletion information is added and output.
(4) A packet having a time axis, such as video data or audio data, is input from the packet stored in the storage device, and a NULL packet is inserted at the deleted packet position and transmitted.
The storage device has the following functions. Here, the storage device is an example of storage means.
(1) Accumulate output packets.
The following description is based on the drawings.
[0041]
FIG. 1 is a block diagram of a multimedia storage device according to the present invention.
In the figure, thick lines indicate hardware, broken lines indicate software, 1 is a computer, 2 is software for controlling the function of the computer as a multimedia storage device, and an application or external I / O such as RS232C or LAN This is a stream control program for receiving a command from / F and performing transmission / reception control of moving image data by the command. Reference numeral 3 denotes a decoding device, and reference numeral 4 denotes a moving image data output device for outputting moving image data, such as an encoding device or a multiplexing device, which may be built in the computer or externally attached.
[0042]
Reference numerals 5 and 6 respectively denote an output board and an input board for sending the encoded video data to the decoding device or taking them into the computer according to the transfer rate. In the figure, the input and output are separate boards. It may also serve as input / output. Reference numeral 7 denotes an application for sending a command to the stream control program 2. The command reception I / F of the stream control program 2 may be provided on the multimedia storage device as described above, another I / F may be provided, or both may be provided side by side. Reference numeral 8 denotes an external communication board for performing communication with the outside such as RS232C or LAN. If this external communication board has sufficient transfer capability, it can be shared with the input board and output board shown in 5 and 6. An example of such a board is an IEEE 1394 board. In this way, it is also possible to control the multimedia storage device from the outside by using a part for transmitting a command to the stream control program 2 as an external computer or hardware dedicated to command transmission.
[0043]
Reference numeral 9 denotes storage means for storing received moving images, which is a non-volatile storage device represented by an HDD (Hard Disc Drive). The storage device 9 may be an HDD, or a CD-ROM, a DVD, an MO (Magneto-Optical Disc), or the like as long as it has a speed capable of inputting and outputting a wideband moving image. In particular, there is no need to be able to write, and a removable recording medium can be installed here and used as a read-only storage device. The connection quantity and type are not particularly limited. Furthermore, the multimedia storage device according to the present invention may exist as a computer separately from the monitor, or may be incorporated entirely in the monitor.
[0044]
FIG. 2 shows only the first moving image from moving image data in which two moving images, a first moving image composed of video A and audio A and a second moving image composed of video B and audio B, are multiplexed. It is the figure which showed the packet constitution at the time of accumulating and reproducing | regenerating (in the figure A and B represent the image | video A and B, and the sound A and B represent the audio | voice A and B. Hereinafter, it is the same also in FIG. is there.). This represents, for example, an operation of recording only 1-channel programs out of 1-channel and 3-channel television broadcasts being multiplexed and sent. Here, one unit of packet means each of “movie A”, “sound A”, “PMT”, etc. shown in FIG.
[0045]
Next, the operation will be described with reference to the flowchart of FIG.
First, the video data multiplexed in units of packets generated in the video data output device 4 in the format shown in the input data 21 of FIG. 2 is input to the stream control program 2 via the video input board 6. (Step S1).
[0046]
An instruction to start accumulation is given from the user via the application 7 or the outside via the external communication board 8 (step S2). When an instruction is received, it is input to the stream control program 2 via the command transmission / reception I / F. When the stream control program 2 stores the input data in the storage unit 9, the stream control program 2 acquires one packet from the data of the input data 21 (step S3), determines whether the packet is a required packet (step S4), and the required moving image A The number of packets deleted so far, the data is added to and written in the packet or each packet, the packet is stored, and the number of deleted packets is reset to 0 (step S6). .
[0047]
If it is unnecessary video B data, that is, video B and audio B packets and a NULL packet, this packet is not accumulated, and 1 is added to the number of deleted packets (step S5). The operation from step S3 to step S6 is continued until an instruction indicating the end of storage is issued (step S7), and when the storage end instruction is issued, the storage is completed (step S8). The packet in which the deletion information is written in step S6 may be a packet before or after the deleted packet, but in the present embodiment, the packet is written in the subsequent packet. Among the packets of the accumulated data 22 shown in FIG. 2, the packet surrounded by a circle has deletion information other than 0, the movie A has three packets, and the PAT has information obtained by deleting two packets.
[0048]
When the user issues an instruction to reproduce the moving image A (step S9), the stream control program 2 sequentially reads each packet of the accumulated data 22 (step S10), and the packet recorded in the deletion information of each packet. A number of NULL packets are inserted (step 11), and then the acquired packet is output (step 12). By repeating the operations from step 10 to step 12 until there is no unoutput data (step 13), the accumulated data can be output in the form of the output data 23, and the same timing as the input data 21 is reached. Packets (PAT, PMT, movie A, sound A) necessary for reproducing one moving image can be transmitted. In the present embodiment, it is described that all the data accumulated in step S13 is output, but it is also possible to stop at any place by a stop command from the user.
[0049]
As described above, according to the present embodiment, data necessary for storage is selected by, for example, PID (Packet Identification) in MPEG2-TS, so that data to be stored is compared with input data. Further compression is possible. In addition, at the time of reproduction, a moving image can be reproduced at the same timing as the input data by sequentially transmitting packets while inserting a NULL packet according to the deletion information. Furthermore, the data to be multiplexed is not limited to moving images, and any multimedia data can be considered. In this case, there is no problem with playback synchronization, so it is selected to extract only the necessary part without writing deletion information. It ’s fine. As multimedia data, in addition to video and audio, binary data such as television program guides, still images, texts, and databases can be considered. Therefore, a program guide or the like can be created by using the accumulated data.
[0050]
Embodiment 2. FIG.
In the first embodiment, the moving image to be stored is determined as the first moving image, and unnecessary data is deleted and the deletion information is left in the stored data. However, when two moving images are to be recorded at the same time. In some cases, it may not be possible to run multiple recording programs at the same time due to computer performance limitations. In this embodiment, a moving image accumulation method when two moving images are recorded simultaneously will be described.
[0051]
The control means of this embodiment has the following functions.
(1) A predetermined packet is extracted from multimedia data, a packet storing audio or video data is selected, and only text or still image actual data is extracted from a packet storing text or still image.
(2) A predetermined packet is selected from the packets stored in the storage device and transmitted. The following description is based on the drawings.
[0052]
FIG. 4 is a diagram showing a packet configuration in the case where two moving images are simultaneously stored in the input data 31 and reproduced. The stored data 32 is an instruction to store the first moving image and the second moving image, that is, the video A, the audio A, the video B, the audio B, the management packet PAT (Programmable Association Table), and the PMT (Programmable Map Table). It is. In the accumulated data 32, a portion surrounded by a circle indicates a packet having deletion information. Here, it seems that the compression ratio is small by deleting only the NULL packet, but in fact there may be other video and other multimedia data multiplexed in addition to the first video and the second video, Further, it can be compressed and stored.
[0053]
When only the packets of the first moving image or the second moving image are transmitted from the accumulated data to the decoding device 3 in the format of the output data 33 or the output data 34, unnecessary packets at the time of accumulation are deleted. On the contrary, only necessary packets are selected and transmitted. A packet that has not been selected may be transmitted by being replaced with a NULL packet for synchronization.
[0054]
As described above, according to the present embodiment, the first moving image and the second moving image are stored in a multiplexed state, and it is possible to select which moving image is to be reproduced during reproduction. It is also possible to divide the first moving image and the second moving image after accumulation as separate data strings by using the multiplexed accumulated data as an input. That is, even when the number of recording programs that can be operated simultaneously is limited due to the ability of the computer, a plurality of programs can be recorded regardless of the limitation. Also, since PAT, PMT, etc. can be used in common, the disk capacity can be reduced by that amount compared to storing the first moving image and the second moving image separately.
[0055]
Embodiment 3 FIG.
In the first and second embodiments, unnecessary data is deleted and deletion information is left in the stored data to generate only one stored data. In the present embodiment, multiplexed data is stored. A case where data are stored while being separated simultaneously will be described.
[0056]
The control means of this embodiment has the following functions.
(1) For each set of related packets, the control information indicating the storage state of the multiplexed packet is copied, the packets are collected for each set of related packets, and the storage device stores each set of related packets. The collected packets are accumulated. Here, the combination of packets refers to a combination of a plurality of packets, and includes, for example, input data 21 and accumulated data 22 shown in FIG. In addition, a set of related packets refers to a set of packets that constitute one moving image (including the case of representing the contents of one program), video, audio, and the like by combining with each other. For example, in FIG. 2, if the picture A and the sound A represent the contents of a program, and the picture B and the sound B represent the contents of another program, the input data 21 is not a set of related packets. On the other hand, the accumulated data 22 is a set of related packets. Furthermore, the control information refers to information for applying a predetermined operation to the target so as to suit the purpose. Specifically, it refers to information for enabling reproduction or the like of moving image data divided in packet units.
The following description is based on the drawings.
[0057]
FIG. 5 shows an accumulation method in such a case, and is a packet configuration diagram in the case of accumulating three accumulated data 42, 43, 44 simultaneously with the input data 41. The accumulated data 42 is an instruction to accumulate the first moving image, that is, the video A and the audio A, and the management packets PAT and PMT, and the accumulated data 43 is the second moving image, that is, the video B, the audio B, and the management packet. The PAT and the PMT are instructed to be accumulated, and the accumulated data 44 is an instruction to accumulate the audio A that is only the audio of the first moving image and the management packets PAT and PMT. In the accumulated data 42, 43, 44, the portion surrounded by a circle indicates a packet having deletion information.
[0058]
The PAT and PMT, which are packets common to the accumulated data 42, 43, and 44, are duplicated and accumulated as accumulated data. The voice A packet that is common only to the accumulated data 42 and 44 is duplicated and accumulated in two. In this way, each stored data that is used in common can be duplicated, so that each stored data can be played back independently. However, other accumulated data is not affected.
[0059]
This is because, in the case of taking the form of storing while being multiplexed as described in the second embodiment, for example, when the first moving picture and the second moving picture are multiplexed and stored, only the first moving picture is unnecessary. Even if the second moving image is necessary, the accumulated data cannot be made unnecessary, and the disk capacity corresponding to the first moving image is wasted until the second moving image becomes unnecessary. To prevent.
[0060]
As described above, according to the present embodiment, the multiplexed first moving image and second moving image can be separated and accumulated simultaneously. Since each piece of stored data is independent, it is only necessary to delete the corresponding stored data if each video is no longer needed, and the stored data can be uniquely associated with the program name, making management easier. .
[0061]
Embodiment 4 FIG.
In the first, second, and third embodiments, the target moving image or the like is stored and reproduced by reducing the disk capacity. If all input data packets are stored, it is possible to accurately specify the playback location from the transfer rate by specifying the playback time from the beginning of the stored data. However, unnecessary packets are deleted, so playback is accurate. Jump playback with a specified start time is not possible.
Therefore, an embodiment relating to a method of associating the byte position from the head of the accumulated data with the time for the accumulated data having a time axis such as a moving image will be described. It is assumed that a time stamp is provided in addition to the deletion information when the accumulated data is generated in the first, second, and third embodiments, and the accumulation time is stamped on all packets.
[0062]
The control means of this embodiment has the following functions.
(1) The packet accumulation time is added to the selected packet and output.
(2) A reproduction start position is obtained based on the accumulation time of the packet accumulated in the storage device and the reproduction start time designated by the user, and a packet from this position is input from the storage device and transmitted. Here, the accumulation time refers to the time at which the selected packet is accumulated.
This embodiment will be described below.
[0063]
First, the time stamp of the first packet of accumulated data is confirmed and the time is stored. Next, the time stamps of the accumulated data are sequentially scanned, the time difference between the scanned time stamp and the head packet is calculated, and the time from the head of the data is known. This makes it possible to determine the byte position with respect to the correctly specified reproduction start time (relative time from the beginning of the accumulated data). If all the packets are confirmed, the scanning time may be longer. However, if the target position is very long depending on the designated reproduction start time and the current position, scanning is performed every 1000 packets, for example. The time can be shortened by further scanning, for example, by scanning 100 packets or 10 packets each time the position of is approaching.
[0064]
Embodiment 5 FIG.
In the fourth embodiment, the time position specified in the packet or by the time stamp added to the packet is found. In this embodiment, there is no additional information such as the time stamp, and the total accumulation is performed as the file attribute. The time position is found by recording the time.
[0065]
The control means of this embodiment has the following functions.
(1) Select and output a predetermined packet, and input and transmit the packet accumulated so far during accumulation in the storage device.
(2) The total accumulation time of the accumulated data is output for each set of related packets and accumulated in the storage device, and the reproduction start position is obtained from the reproduction start time and the total accumulation time designated by the user, and this reproduction start is started. The packet from the position is input from the storage device and transmitted.
(3) Output related information including the storage time and storage position of the selected packet at a predetermined interval and store it in the storage device, and obtain a playback start position from the playback start time and the related information specified by the user, A packet from the reproduction start position is transmitted. Here, the total accumulation time refers to the time difference between the accumulation start time and accumulation end time of accumulated data. The related information refers to information including information on the packet storage time and storage position.
This embodiment will be described below.
[0066]
First, the accumulation start time is stored at the time of accumulation, and then the accumulation end time is stored at the end of accumulation. The total accumulation time is calculated from the difference between the two and stored as one piece of attribute information of accumulated data. The total accumulated byte size of the accumulated data is already stored by the file system or the like.
Because it is the same accumulated data, the ratio of the specified time to the total accumulated time is the same as the byte position of the specified time relative to the total accumulated byte size.
Byte position to be calculated = specified time / total storage time * total storage byte size
It becomes possible to calculate by. As a result, the byte position with respect to the specified time can be obtained immediately, so that the read position of the stored data can be matched with the calculated byte position.
[0067]
The multimedia storage device can play back simultaneously with the storage, but in order to associate the time position with the byte position according to the present embodiment, the storage byte size up to that point is required. However, there are cases where the accumulated performance up to that point cannot be accurately grasped due to the delay in the writing process of the OS and the influence that the file size cannot be determined until the closing process is performed. Therefore, during accumulation in the stream control program 2, the previous accumulation time and accumulated byte size are stored for each buffer unit to be accumulated, and the above calculation formula is used as the total accumulated time and total accumulated byte size. Fit to find the byte position.
When accuracy is required in this embodiment, after calculating the byte position according to this embodiment, a more accurate time position can be obtained by scanning the packet time stamp as in the fourth embodiment. Can be found.
[0068]
Embodiment 6 FIG.
In the fifth embodiment, the time position is calculated and found by recording the total accumulation time as the file attribute. In this embodiment, the time and byte position are used as an index for each unit as an attribute. The case where it does is shown.
[0069]
The control means of this embodiment has the following functions.
(1) The accumulated time and accumulated byte size of the accumulated packet are output at predetermined intervals and accumulated in the storage device, and the reproduction start position is determined from the reproduction start time, accumulation time and accumulated byte size specified by the user. The packet from this reproduction start position is transmitted.
This embodiment will be described below.
[0070]
First, at the time of accumulation, the accumulation time from the accumulation start time to the measurement time and the accumulation byte size are associated with each other and stored as index information of accumulated data. In this way, it is possible to easily find the nearest place when the relative time from the head of the accumulated data is designated. Also in this embodiment, if more accuracy is required, the time stamp is stored in all packets, the byte position of the closest time is found by the index information, and then the time stamp of the packet is scanned to obtain an accurate Get position. Here, the accumulation time refers to the time difference between the accumulation time of one packet and the accumulation time of another packet. The accumulated byte size refers to the amount of accumulated data accumulated during the accumulation time.
[0071]
The unit time may be in seconds so that it is easy for humans to understand. However, the unit time may be in accordance with the compression method of moving image data. For example, MPEG has a moving image playback / editing unit called GOP (Group of Pictures), and the head of the GOP can be identified by a flag inside the packet. If this flag is scanned at the time of accumulation, the reproduction is started from the byte position obtained by the index information at the time of reproduction, so that the influence of the reproduction delay of the decoding device can be reduced. There is an advantage that can be easily.
[0072]
Embodiment 7 FIG.
An embodiment in which operations such as replaying, stopping, and restarting a live broadcast moving image are performed using the accumulation method according to the above embodiment and the reproduction start position finding method by specifying a time will be described.
[0073]
The control means of this embodiment has the following functions.
(1) The position of the packet at the time when a predetermined operation by the user is performed is obtained from the packets already accumulated during packet accumulation in the storage device, and the packet from this position is input from the storage device and transmitted. .
(2) When a channel switching operation is performed by the user while a packet of a predetermined channel is stored in the storage device, the packet of the switched channel is output to the storage device.
(3) Based on the access frequency or creation date and time of the packet stored in the storage device, the necessity of the stored packet is determined at predetermined time intervals, and unnecessary packets are deleted.
(4) Accumulate program information including program identification number, channel number, recording time (accumulation time), program name, program genre, performer or broadcast date and time of the set of accumulated packets, and the stream control program stores the program information. A program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer, or a broadcast date and time of a predetermined packet set are input.
This embodiment will be described below.
[0074]
When the user selects a live broadcast (current broadcast) program, the currently broadcast program is displayed on the monitor. With this user program selection as a trigger, the multimedia storage device automatically starts storing the corresponding program. For example, when a user stops a program that is currently being viewed with a remote controller or the like, the multimedia storage device executes playback for the currently stored program, specifying the current total storage time as the playback start time, and Execute. As a result, the currently viewed program is replaced with the reproduction of the stored data currently being recorded, and the screen is stopped. During this time, accumulation continues and programs currently being broadcast are accumulated in the storage device.
[0075]
When the user resumes playback, the multimedia storage device executes playback and can continue to view the stopped moving image. Actually, there is a time difference from the current broadcast, but the user can continue to feel that the current broadcast is being viewed. For example, there are generally many scenes where you have to sit down on the telephone or toilet while watching a drama that is currently being broadcast, but in this embodiment you can stop the current broadcast when viewed from the user There is an effect, and the program you want to watch can be watched to the end.
[0076]
In this way, the user's operation is not consciously switched between the current broadcast and playback screens, but is automatically performed within the multimedia storage device. Therefore, in order to perform automatic recording, the finite disc capacity is gradually pressed. Therefore, the stored data automatically recorded by the multimedia storage device needs to be automatically deleted when there is a risk of squeezing the disk capacity. The priority to be deleted is determined by a) access frequency (when the viewer last viewed), b) creation date and time, c) lock designation by the user, or the like. In this way, after being automatically stored and used, it is automatically deleted, so that the user can perform a pseudo-live broadcast operation with little awareness of the disk capacity, and computer knowledge is reduced. Realize a multimedia storage device that can be easily used without it.
[0077]
In digital broadcasting, a method of managing program contents and broadcast time by an ID called EventID is generally used. Therefore, the event ID of the program currently being viewed, the channel number of the broadcasting station, and the name of the stored data that has started to be stored are managed, and the table of the currently recorded Event ID, the program name corresponding to the channel number, the broadcast time, and the like are stored on the hard disk. It is always stored in a non-volatile storage device such as, and the stored data stored in the multimedia storage device can be taken out as program information such as channel number, program name, broadcast date and time, storage time, etc. that can be easily understood by users. .
Thus, from the viewpoint of the user, it can be viewed as an index such as a program name or a broadcast time, and it becomes possible to easily perform selection for reproducing stored data, deletion of unnecessary stored data, and the like.
[0078]
Here, when the accumulated data increases, it is difficult to search for a desired program from these. Therefore, program information can be searched with an arbitrary keyword. As a result, even if the program information becomes enormous, only desired program information can be extracted by limiting the program information to be extracted by the user specifying keywords such as broadcast date, channel, and program name. .
[0079]
When retrieving the program information, basically, it is assumed that one or more program information related to each accumulated data is retrieved simultaneously. The display format for displaying these pieces of information is left to the display device. This method is therefore very common. As a usage form of the multimedia storage device, connection with a device such as a receiver that receives a broadcast stream is assumed, and the receiver generally does not have many graphic functions. Therefore, in order to reduce the load on the receiver, a function for converting to graphic information to be displayed on the television screen is provided in the storage means or the control means, and means for extracting the program information as graphic information is provided. As a result, the receiver need only have a display function, and it is not necessary to convert the extracted program information.
[0080]
Embodiment 8 FIG.
According to the seventh embodiment, when operations such as reproduction, stop, and restart of stored data are repeated, the flow of packets is temporarily stopped and the continuity of moving image data is lost. May freeze until error recovery. As a result, a situation occurs in which the user cannot view the moving image corresponding to the time from when the data transmission from the multimedia storage device to the decoding device is resumed until the moving image is actually displayed on the screen. An embodiment for mitigating this situation and enabling at least a user to view all moving images of stored data will be described.
[0081]
The control means of this embodiment has the following functions.
(1) When the transmission is stopped during the transmission of the packet stored in the storage means and the transmission is resumed after that, the transmission is resumed from the packet at the position going back from the stop position to a predetermined time.
This embodiment will be described below.
[0082]
FIG. 6 shows the case where the transfer of video data is interrupted and the data transfer is performed by the conventional method when a decoding device that takes several seconds from when the data transfer is resumed until the video is actually displayed on the screen is used. This shows the conventional method 51 when it is performed and the present method 52 which is a case of retransmitting data to such an extent that an error of the decoding device can be recovered by this embodiment.
[0083]
In the conventional method 51, when the data transfer is stopped by the user's operation, the data transfer is restarted from the data immediately after the stop when the data transfer is restarted next. I can't see it. In order to see this, the user has to reset the playback start position in consideration of error recovery of the decoding apparatus and perform playback.
[0084]
On the other hand, in the method 52 of the present application, when data transfer is stopped by the user's operation, the multimedia storage device automatically returns the playback restart position to a position sufficient to recover from the error of the decoding device. It becomes possible to resume watching as a continuation of the video that has been seen so far without being conscious. A position (time) sufficient for recovery from the error of the decoding device is stored in advance in a non-volatile storage area such as a hard disk of the multimedia storage device.
As a result, as is often practiced in television broadcasts, there is an effect of maintaining the sensuous continuity of the program viewed from the user by replaying the video immediately before the CM after the CM.
[0085]
Embodiment 9 FIG.
In the previous embodiments, it was assumed that the recording was started and stopped by the user's operation. However, in the present embodiment, the automatic recording is performed in pursuit of the convenience of the user. The form is shown.
[0086]
The control means of this embodiment has the following functions.
(1) A program detail information search function for specifying a program from a program title designated by a user and searching for an identifier of a broadcast time or a set of packets.
(2) A function that constantly analyzes broadcast program information and detects any changes in program organization
(3) Functions for identifying various types of storage media connected to the multimedia storage device and monitoring information such as the remaining capacity of the recording media
Hereinafter, an embodiment of the present system will be described.
[0087]
Conventionally, for example, in a home VTR device, the recording reservation has a simple structure in which recording time is designated in advance, and recording starts when the VTR device reaches that time. Currently, there is a method of inputting a code called G code, but this is also only for specifying the channel and recording time based on the code number, and the change after completion of recording reservation is performed manually by the user. In addition, there is a problem that, if the broadcast time is changed, the reservation time must be changed accordingly.
[0088]
On the other hand, in the present application system, abstract and sensory keywords such as a program title, a program genre, and a performer are designated. Based on the keyword, the multimedia storage device searches for one or more programs from the electronic program guide and makes a recording reservation. At this time, one or more reservation candidates retrieved by the multimedia storage device can be displayed to the user, and means for the user to select interactively is also conceivable.
The recording control of the recording reservation is started several seconds before the recording start time, and the subsequent recording processing is the same as the contents described in the first, second, and third embodiments.
[0089]
In actual television broadcasting, the broadcast time of a reserved program may be changed by extending the broadcast time of a baseball broadcast or inserting an emergency special program. The multimedia storage device always monitors the current electronic program guide, finds a program that has changed from the previous one, searches whether the program is reserved for recording, and if it is reserved, Reflect the change information. In the reserved recording of the multimedia storage device, the reserved recording information is stored in the memory or the nonvolatile storage device until the recording control is started. By changing this information, the start time of the recording control is changed. As a result, the program can be recorded deterministically.
[0090]
Next, a function that automatically records the latest program according to the user's designation and deletes old moving images, which should be called automatic update, will be described. This function automatically updates programs for which the latest information is meaningful to the user, such as weather forecasts and news, and past videos can be specified by specifying other than the latest ones, or other than the latest ones and the past two broadcasts. Is automatically deleted. When applying to a series drama, there are various methods for deleting such as “delete when viewing is completed”.
This automatic update function combines the functions of automatically recognizing periodic recording from the genre of “news” and “weather” and automatically deleting it according to the setting conditions. To avoid falling short of. Therefore, the multimedia storage device can always deterministically record the latest news and weather.
[0091]
From the viewpoint of user convenience, this function has an effect that the user can watch at a time convenient to the user without being influenced by the broadcast time.
[0092]
Embodiment 10 FIG.
Although the first embodiment has been described with reference to FIG. 1 as a basic configuration, a configuration as illustrated in FIG. 10 may be considered as a configuration using a network.
In the present embodiment, an example of a method for determining a storage destination when various types of storage devices are built in or mounted on a network will be described.
[0093]
In FIG. 10, 1 to 8 are equivalent to the description of the same reference numerals in FIG. 10 is a network cable for connecting the external communication board 8 to other devices, 11 is a storage device on the network, and this storage device is the same type as 9 in FIG. Can be considered. Reference numeral 12 denotes a high-speed random access storage device such as a hard disk.
[0094]
The control means of this embodiment has the following functions in addition to the control means of the first embodiment.
(1) Function for identifying various types of storage media connected to the multimedia storage device and monitoring information such as the remaining capacity of the recording medium and the load on the network line
Hereinafter, an embodiment of the present system will be described.
[0095]
FIG. 11 is a diagram showing an embodiment of the optimum accumulation form. Reference numeral 111 denotes a high-performance, high-performance storage device, such as a hard disk device, which plays back simultaneously with recording or has a fast response speed during playback. Reference numeral 112 denotes a storage device having a recording medium that is inexpensive and removable, although the response speed during reproduction is inferior to that of 111. Reference numeral 113 denotes a cable for connecting 111 and 112. In the case of being built-in, it is connected by a SCSI cable or the like inside the multimedia storage device, and in the case of network connection, it is connected by a network cable indicated by 10 in FIG. It is what.
[0096]
Now, the moving images managed as the multimedia storage device are all the moving images stored in both, and the reason why the moving images are stored in such a form will be described. The latest news and the latest weather are as described in the ninth embodiment, and the latest news is always available for viewing at any time. In addition, since past news may include contents that cannot be viewed in the latest news, as shown in FIG. 112, it is stored in an inexpensive recording medium.
In addition, attribute information indicating the state of viewing or not listening is automatically added to each moving image.
[0097]
For programs that are important for the continuity of the movie, such as a program in which the entire story development is not understood unless the continuous drama is recorded continuously every week, for example, only the oldest unviewed movie is placed on the hard disk. If you have recorded 5 broadcasts so far, if you have watched up to 2 times, only the 3rd drama to be watched next is placed on a hard disk that can be watched immediately, and the videos broadcast in other weeks The data is stored in the storage device indicated by 112 such as a tape or a DVD. At this time, with respect to dramas and the like where continuity is important, attribute information indicating watching or untrialized is automatically set. This not only enhances the response performance and hard disk usage efficiency when playback is performed, but also records the necessary programs on the hard disk, reducing the capacity of the built-in hard disk and making the device cheaper. it can.
In addition, since the DVD device is random access, it can be used in the same way as a hard disk. However, there is a condition that it is preferable to use a hard disk for high-definition video such as HDTV in terms of performance. Even in such a condition, the multimedia storage device can automatically discriminate by managing the performance of each device.
[0098]
Furthermore, the moving image may be stored in a storage device connected via a network as shown in FIG. In this case, it takes time to store moving images in a storage device with a heavy network load. However, the multimedia apparatus according to the tenth embodiment has a function of monitoring information about the load on the network. Therefore, when a moving image is stored in a storage device connected via a network, it is possible to select a storage device connected to a line with a small load and store the moving image in consideration of the load on the network line.
[0099]
Next, an example in which the drama 3 is reproduced in the state shown in FIG. 11 accumulated in the example at the time of recording will be described with reference to FIG. FIG. 12 shows a state after watching the drama 3 in the state of FIG. 11, where 121 is the same as 111, 122 is the same as 112, and 123 is the same as 113.
It is assumed that the drama program is continuously recorded every week and has already been recorded up to the fifth time, and the current state is the state of FIG. Now, when the third viewing is started, the next video to be viewed is drama 4, so multimedia storage automatically starts reading the fourth drama from the tape device to the hard disk device, and the next drama Prepare for viewing. When the viewing of the third drama ends, the attribute information is changed to “viewed” and then deleted from the hard disk. If it is necessary to store for a long time at the request of the user and it does not exist on the tape or DVD, the video on the hard disk is deleted after copying to an inexpensive device such as tape or DVD.
[0100]
According to this embodiment, the capacity of a relatively expensive storage device such as a hard disk can be reduced. Even in the storage example of FIG. 11 described in the present embodiment, if there is one hour of broadcasting per drama, if all are stored on the hard disk, a capacity of 5 hours is required. For example, a hard disk device needs only one hour. In this way, movies that are expected to be viewed in the future are capable of being realized by using a high-performance storage device such as a hard disk (multiple playback, instantaneous access, instantaneous playback position movement, instantaneous cueing, etc. for the same movie). By assigning only to the storage capacity, the cost for the storage capacity of the entire multimedia storage device can be reduced, and it can also be carried to another device.
[0101]
Embodiment 11 FIG.
With conventional VTRs, when you check the recorded content, you can check all the recorded content by fast-forward playback, rewind playback, etc., or check by skipping fast-forwarding, rewinding and playback repeatedly. It is common to do.
In the present embodiment, an example will be described with respect to a method of repeating reproduction and skipping when confirming the contents of a recorded moving image.
[0102]
FIG. 13 will be described. This figure shows one stored packet set, ie one recorded video. Among these, the blank portion indicated by 131 is skipped, and only the three portions 132 indicated by oblique lines are continuously reproduced.
In the conventional VTR, it is necessary to fast-forward the tape in order to skip over the part that is not seen, and it takes much time. In addition, as the number of operations increases, the number of times the switch button is pressed increases, and the number of times increases as the length of the entire moving image increases. The multimedia storage device is mainly a high-performance storage device such as a hard disk. Using this feature, reproduction and jumping are repeated using a preset time by one operation or a program index indicating a characteristic part of the program.
As a result, the time for confirming the contents of the program is drastically improved, and troubles such as button operations are not required, so that convenience for the user is improved.
[0103]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
[0104]
This invention Then, by selecting and outputting a predetermined packet from multimedia data multiplexed in units of input packets, and storing the output packets, the stored data can be further compressed compared to the input data. it can.
[0105]
In addition, this invention Then, by extracting a predetermined packet from multimedia data, selecting a packet storing audio or video data, and extracting only actual data of text or still image from a packet storing text or still image , Can retrieve the necessary data.
[0106]
In addition, this invention Then, for each set of related packets, the control information indicating the storage state of the multiplexed packet is copied, the packets are collected for each set of related packets, and for each set of related packets, By accumulating the collected packets, a plurality of related data can be separated and accumulated simultaneously.
[0107]
In addition, this invention Then, by selecting a predetermined packet from the multimedia data multiplexed on a packet basis, deleting the unselected packet, adding the deletion information of this deleted packet, and outputting it, it accumulates compared to the input data Data to be compressed can be further compressed.
[0108]
In addition, this invention Then, a packet having a time axis such as video data and audio data is input from the packet stored in the storage means, and a NULL packet is inserted into the deleted packet position and transmitted, so that the same transmission timing as input is performed. Can be output.
[0109]
In addition, this invention Then, by selecting and transmitting a predetermined packet from the packets stored in the storage means, it is possible to select and transmit only the arbitrarily designated packet from the stored data.
[0110]
In addition, this invention Then, by selecting and outputting a predetermined packet and inputting and sending out a packet already accumulated during accumulation in the accumulation means, accumulation up to the present without waiting for the end of recording as in the case of a conventional VTR device. Data can be played back.
[0111]
In addition, this invention Then, the accumulated time of this packet is added to the selected packet.
Output, the accumulation time of an arbitrary packet can be recognized.
[0112]
In addition, this invention Then, the reproduction start position is obtained based on the accumulation time of the packet accumulated in the accumulation means and the reproduction start time designated by the user, and the packet from this position is input from the accumulation means and transmitted. The playback start position can be specified.
[0113]
In addition, this invention Then, for each set of related packets, the total accumulation time of the accumulated data is output and accumulated in the accumulation means, and the reproduction start position is obtained from the reproduction start time designated by the user and the total accumulation time. By inputting the packet from the position from the storage means and sending it out, the reproduction start position can be designated at random and at high speed.
[0114]
In addition, this invention Then, the related information including the packet recording time and the storage position is output at a predetermined interval and stored in the storage means, and the playback start position is obtained from the playback start time specified by the user and the related information, and this playback is performed. Since the packet from the start position is transmitted, the playback start position can be specified at a high speed randomly and at a relative time from the beginning of the file.
[0115]
In addition, this invention Then, the accumulation time and accumulated byte size of the packet accumulated in the accumulation means are output at a predetermined interval and accumulated in the accumulation means, and the packet already accumulated during accumulation is input to the accumulation means, Since the reproduction start position is obtained based on the designated reproduction start time, the accumulation time, and the accumulated byte size, the reproduction start position can be designated even during the accumulation.
[0116]
In addition, this invention Then, the position of the packet at the time when a predetermined operation by the user is performed is obtained from the packets already accumulated during the packet accumulation in the accumulation means, and the packet from this position is input from the accumulation means and transmitted. As a result, it is possible to instantaneously replace the video output on the monitor with the reproduced video, and perform operations on the pseudo live broadcast such as stopping, restarting, and replaying the live broadcast.
[0117]
In addition, this invention Then, when the channel switching operation is performed by the user while the packet of the predetermined channel is being stored in the storage unit, the packet output on the monitor is reproduced by outputting the packet of the switched channel to the storage unit. You can instantly replace it with video and perform operations on pseudo live broadcasts such as stopping, restarting, and replaying live broadcasts.
[0118]
In addition, this invention Then, based on the access frequency or creation date and time of the packet stored in the storage means, it is determined whether or not the stored packet is necessary at a predetermined time interval, and unnecessary packets are deleted to automatically eliminate the storage failure due to insufficient disk capacity To do.
[0119]
In addition, this invention Then, during the transmission of the packet stored in the storage means, when this transmission is stopped and then restarted, it is stored on the monitor by restarting the transmission from the packet back to the predetermined time from the stop position. All videos can be viewed without omission.
[0120]
In addition, this invention Then, by accumulating program information including the program identification number, channel number, recording time (accumulation time), program name, program genre, performer or broadcast date and time of the set of accumulated packets, and extracting these program information The program information can be managed by a display method that can be understood by the user.
[0121]
In addition, this invention In the past, operations that used to know the existence of a program by means of newspapers and magazines and reserved recordings were automatically performed according to abstract designations such as serial dramas and names of performers without knowing the existence of the program in advance. Recording reservations can be made.
[0122]
In addition, this invention This guarantees that a program once reserved for recording will always be recorded by changing the contents of the recording reservation following the program change when the broadcast time of the program reserved for recording is changed. is there.
[0123]
In addition, this invention Can watch the latest news and weather forecast at any time according to the convenience of the viewer by automatically recording the latest program, such as news and weather forecast, which is mainly valuable for the latest information Is possible.
[0124]
In addition, this invention Is further, The automatically recorded moving image can prevent the recording device from becoming full. For example, the automatic update always leaves only the latest one generation in the recording device, or leaves the past three times in the recording device. Even if the video is recorded by normal recording or recording reservation, it can be deleted or not can be specified by the user's specification, so that even if the user does not delete it explicitly using the delete function The automatic deletion function of the invention enables periodic batch deletion.
[0125]
In addition, this invention Judges whether it is necessary to be able to play immediately depending on the type of video, user preferences, continuity of the stored video, etc., and which recording medium to use among the devices built in the multimedia storage device By determining, the price of the recording medium with respect to the unit capacity occupied by the moving image is reduced.
[0126]
In addition, this invention Determines whether it needs to be immediately playable depending on the type of video, user preferences, continuity of the stored video, etc., and the device built in the multimedia storage device and the storage device connected to the network By deciding which recording medium to use, the price of the recording medium with respect to the unit capacity occupied by the moving image is reduced, and the price of the apparatus is reduced by minimizing the storage device built in the multimedia storage device By connecting storage devices on the network, it is possible to easily increase the storage devices that can be used in the multimedia storage device.
[0127]
In addition, this invention When recording all the series of dramas, record the dramas of the week to be watched on a recording medium that can be played immediately, and record the videos of other weeks on other recording media. Thus, a limited high-performance recording medium is efficiently used.
[0128]
In addition, this invention When a drama of the week to be watched is recorded that is recorded on a recording medium that can be played back immediately, the next video that is recorded on another recording medium is played back at the same time as the playback. Copy to a possible recording medium. As a result, from the user's perspective, when playing a series of dramas in sequence, it is possible to provide a function equivalent to being recorded on a recording medium that can be played back immediately, all at a lower cost. it can.
[0129]
In addition, this invention Is further, Whether or not the content of the program can be grasped and watched earlier by allowing the user to jump through the contents, such as when recording reservations are made at the discretion of the multimedia storage device, or programs that the user has recorded for trial The convenience of the viewer is dramatically improved compared to the conventional case.
[0130]
Also in this invention The user designates keywords such as a program identification number, channel number, recording time (accumulation time), program name, program genre, performer or broadcast date and time, and displays only the search results. As a result, the displayed content becomes a part rather than the entire multimedia storage device, so that the user can find the target recorded program sooner, especially when the number of recorded videos increases. .
[0131]
In addition, this invention Then, the program information including the program identification number, channel number, recording time (accumulation time), program name, program genre, performer or broadcast date and time of the set of accumulated packets is accumulated, and these program information is converted into graphic information. It can be taken out. Thereby, it is not necessary for the receiver to analyze the program information, and the cost of the receiver can be reduced.
[0132]
In addition, this invention Allows users to specify keywords such as program identification number, channel number, recording time (accumulation time), program name, program genre, performer, broadcast date and time, and retrieve only the search results as graphic information And Even with an inexpensive receiver having no program information analysis function, the search function of the multimedia storage device can be used.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a multimedia storage device according to a first embodiment.
FIG. 2 is a packet configuration diagram when accumulating and reproducing a moving image in the first embodiment.
FIG. 3 is a flowchart for explaining the operation of the multimedia storage device in the first embodiment.
FIG. 4 is a packet configuration diagram when accumulating and reproducing moving images in the second embodiment.
FIG. 5 is a packet configuration diagram when accumulating and reproducing a moving image in the third embodiment.
6 is an explanatory diagram of a re-transmission operation of moving image data whose transmission has been stopped in Embodiment 8. FIG.
FIG. 7 shows a moving image storage apparatus in a conventional PC.
FIG. 8 shows a moving image storage apparatus in a conventional VTR.
FIG. 9 is a conventional home television.
10 is a block diagram of a multimedia storage device in Embodiment 10. FIG.
FIG. 11 shows an example of a storage form according to the tenth embodiment.
12 shows an example of an operation during reproduction in Embodiment 10. FIG.
FIG. 13 is a conceptual diagram of interlaced playback in the eleventh embodiment.
[Explanation of symbols]
1 Computer, 2 Stream control program, 3 Decoding device, 4 Video data output device, 5 Output board, 6 Input board, 7 Application, 8 External communication board, 9 Storage device, 10 Network cable, 11 Network storage device, 12 High-speed random access storage device.

Claims (20)

Input means for inputting multimedia data multiplexed in packet units, control means for selecting and outputting a predetermined packet from the input multimedia data, and storage means for storing the output packet,
The control means copies control information indicating the storage state of multiplexed packets for each set of related packets, collects the packets for each set of related packets, and the storage means stores the related information. A multimedia storage device that stores the collected packets for each set of packets to be processed. The control means adds the accumulated time of the packet to the selected packet and outputs it,
The accumulation means accumulates the packet with the accumulation time output from the control means,
The control means obtains the reproduction start position based on the accumulation time of the packet accumulated in the accumulation means and the reproduction start time designated by the user, and inputs the packet from the reproduction start position from the accumulation means. The multimedia storage device according to claim 1, wherein the multimedia storage device transmits the data. The control means outputs the total accumulation time of the accumulated data for each set of related packets and accumulates it in the accumulation means, and obtains the reproduction start position from the reproduction start time designated by the user and the total accumulation time. 2. A multimedia storage apparatus according to claim 1, wherein a packet from the reproduction start position is input from said storage means and transmitted. The control means outputs the related information including the storage time and storage position of the selected packet at a predetermined interval and stores it in the storage means, and reproduces it from the reproduction start time designated by the user and the related information. 2. The multimedia storage apparatus according to claim 1 , wherein a start position is obtained and a packet from the reproduction start position is transmitted. The control means outputs the accumulated time and accumulated byte size of the packet accumulated in the accumulating means at predetermined intervals and accumulates them in the accumulating means, and inputs the packets already accumulated during accumulation to the accumulating means. The reproduction start position is obtained based on the reproduction start time designated by the user, the accumulation time, and the accumulated byte size, and packets from the reproduction start position are input from the accumulation means and transmitted. The multimedia storage device according to claim 1 . The control means obtains the position of the packet at the time when a predetermined operation is performed by the user from the packets already accumulated during the accumulation of the packet in the accumulation means, and the predetermined operation by the user is performed. 2. The multimedia storage device according to claim 1, wherein the packet is input from the storage means and transmitted from the position of the packet at the time point. 2. The control unit according to claim 1, wherein when a channel switching operation is performed by a user while a packet of a predetermined channel is stored in the storage unit, a packet of the switched channel is output to the storage unit. multimedia storage device. The control unit determines the necessity of the stored packets at predetermined time intervals based on the access frequency or the creation date of the packets accumulated in said storage means, according to claim 1, characterized in that to remove unwanted packets multimedia storage device. The control means sends out the packet stored in the storage means, and when the transmission is stopped during the transmission of the packet stored in the storage means and then restarted, the position goes back from the stop position to a predetermined time. 2. The multimedia storage device according to claim 1 , wherein transmission is resumed from the packet of the first . The accumulation means accumulates program information including a program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer, or a broadcast date and time of a set of accumulated packets,
Said control means, said program information input set of program identification number of a given packet, channel number, Duration (storage time), program name, program genre, claims, characterized in that retrieving the cast or broadcast date Item 5. The multimedia storage device according to Item 1 . The control means monitors a program schedule called an electronic program guide (EPG) included in the digital broadcast, and changes the program information already reserved for recording when the program organization is changed. 2. The multimedia storage device according to claim 1 , wherein a program can be recorded. The control means always outputs a set of packets corresponding to the contents of the predetermined program to the storage means, and outputs the set of packets corresponding to the new contents of the predetermined program to the storage means when the storage means is stored. 2. The multimedia storage device according to claim 1, wherein a set of packets corresponding to old contents of the predetermined program stored in the means is deleted. The storage means comprises a randomly accessible recording medium such as a hard disk and a removable recording medium such as a DVD or tape,
The control means is one of user preference information set in a predetermined format and continuity of program contents from a randomly accessible recording medium such as a hard disk and a removable recording medium such as a DVD or a tape. 2. The multimedia storage device according to claim 1, wherein a recording medium for outputting a packet is determined on the condition of the above factor. The storage means includes a recording medium connected to the control means via a network,
14. The multimedia storage device according to claim 13, wherein the control means determines a recording medium that can access a recording medium existing via a network and outputs a packet on the condition of a factor of a network load. . The control means identifies at least one of the type and performance of a device having a storable recording medium, and a used recording medium, and is viewed when periodically outputting a set of related packets to the storage means. If the oldest set of packets corresponding to the contents of a program that has not been recorded is stored on a high-performance recording medium such as a hard disk so that it can be viewed immediately, the set of packets to be stored will be 15. The multimedia storage device according to claim 13, wherein the storage is performed on a recording medium that is less expensive than a high-performance recording medium. The control means identifies at least one of the type and performance of a device having a storable recording medium, and a used recording medium, and a hard disk or the like among a set of packets corresponding to the contents of a program that is not currently being viewed When viewing the oldest set of packets stored in a high-performance recording medium, packets corresponding to the content of the next program to be viewed stored in a recording medium that is less expensive than a high-performance recording medium such as a hard disk 16. The multimedia storage device according to claim 15, wherein the set is copied to a high-performance recording medium. The control means has a program information search function, and sends program information that matches a search keyword such as a program title, performer, program genre, and broadcast date from the program information stored by the storage means. The multimedia storage device according to claim 10. The accumulation means accumulates program information including a program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer, or a broadcast date and time of a set of accumulated packets,
The control means inputs the program information and takes out a program identification number, a channel number, a recording time (accumulation time), a program name, a program genre, a performer, or a broadcast date and time of a predetermined packet set as predetermined graphic information. The multimedia storage device according to claim 1 . The control means has a program information search function, and sends program information that matches a search keyword such as a program title, performer, program genre, and broadcast date as predetermined graphic information from the program information stored by the storage means. The multimedia storage device according to claim 18, wherein: Input means for inputting multimedia data multiplexed in packet units, and control means for selecting and outputting a predetermined packet from the input multimedia data;
The control means gathers the packets for each set of related packets, adds packet control information included in the input multimedia data, and transmits the packet for each set of related packets.
A multimedia sending device characterized by the above.

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