JP2003101547A - Image data distributing device and method for distributing compressed image data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an image data distributing device and a method for distributing compressed image data capable of sending image data digitally recorded at a high bit rate to remote reproduction devices through various versatile means of wireless communication. SOLUTION: A control unit 11 compares a bit rate A of compressed image data in a program to be reproduced obtained by an image acquisition process unit 13 with a wireless communication bandwidth B of a wireless communication means connecting an image data distributing device and an image reproduction means 20. If the bit rate A is higher than the wireless communication bandwidth B, the control unit 11 determines to down-convert the compressed image data of the image program (z) for reproduction, and sets an optimum encoding bit rate for an encoder 15.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video distribution device for distributing compressed video data stored in a video recording device via a wireless network, and a compressed video data distribution method.

[0002]

2. Description of the Related Art Conventionally, when transmitting video data digitally recorded at a high bit rate to another reproducing apparatus, IEEE
It was transmitted using high-speed communication means such as E1394.

However, this kind, IEEE1394
There is a problem that high-speed communication means such as etc. is difficult to apply when the destination is remote because it is accompanied by cable wiring.If you try to use wireless communication means instead of cable wiring, open it. In the general-purpose wireless communication means used, since the data transmission band is narrow and high-density data cannot be transmitted, it is necessary to use a specific communication line with a wide data transmission band. There was a problem.
Furthermore, when wireless communication means is used, due to changes in the wireless communication environment due to other wireless communication or the use of radio wave generation equipment,
The usable data transmission band may change sequentially,
There is also a problem that reliability is poor in reliably transmitting video data.

[0004]

As described above, in the prior art, when transmitting digitally recorded video data at a high bit rate to another reproducing apparatus, a high speed communication means such as IEEE 1394 accompanied by cable wiring is used instead. When the wireless communication means is used, the data communication band is narrow in the open general-purpose wireless communication means and high-density data cannot be transmitted. Therefore, a specific communication line with a wide data transmission band is used. However, there is a problem in that the versatility is poor, and there is a problem in reliability.

The present invention has been made in view of the above circumstances,
To provide a video distribution device and a compressed video data distribution method capable of reliably transmitting video data digitally recorded at a high bit rate to a remote reproduction device by using various wireless communication means having high versatility. To aim.

[0006]

According to the present invention, the compressed video data stored in the recording means is once converted into non-compressed video information, and the non-compressed video information is compressed at a compression rate according to the transmission band of the wireless network for transmission. Having a means to convert it to compressed video data again and send it to the wireless network, it is possible to send compressed video data even if the transmission band of the wireless network is lower than the bit rate of the compressed video data to be transferred. It is characterized by having done.

Further, the present invention comprises means for reconverting the compressed video data stored in the recording means at a data compression rate according to the transmission band of the wireless network to be used, and then transmitting the data to the wireless network. , Which realizes a transmission function of video data with high transmission efficiency according to the transmission band of the wireless network used.

Further, even when compressed video data is transmitted using a wireless network, there is provided means for variably controlling the compression rate (encoding bit rate) of the video data according to the variation of the wireless transmission band. It is characterized in that compressed video data that can be always reproduced can be transmitted even if the wireless transmission band changes.

That is, the present invention relates to a video distribution apparatus for distributing compressed video data stored in a video recording apparatus via a wireless network, in which the compressed video data distributed via the wireless network per unit time. Recording bit rate detecting means for detecting the amount of data, communication band detecting means for detecting the data transferable amount per unit time on the wireless network when distributing the compressed video data, and the recording bit rate. Compressed video data to be distributed based on the data amount per unit time of the compressed video data detected by the detection means and the data transferable amount per unit time on the wireless network detected by the communication band detection means. Compression control means for determining the compression level of, and non-compressed compressed video data distributed via the wireless network. A decoder for converting into image information, an encoder for converting uncompressed video information output from the decoder into compressed video data according to the compression level determined by the compression control means, and compressed video data output from the encoder And a video transmission means for transmitting to the network.

Further, the present invention is a video distribution device for distributing compressed video data stored in a video recording device via a wireless network, wherein the compressed video data distributed via the wireless network per unit time. Recording bit rate detecting means for detecting the amount of data, communication band detecting means for detecting the data transferable amount per unit time on the wireless network when distributing the compressed video data, and the recording bit rate. Compressed video data to be distributed based on the data amount per unit time of the compressed video data detected by the detection means and the data transferable amount per unit time on the wireless network detected by the communication band detection means. Compression control means for deciding whether or not to down-convert, and compressed video distributed via the wireless network. A decoder and an encoder to down-convert in accordance with the determination of the compression control unit data,
And a video transmission unit for transmitting the compressed video data output from the encoder to the wireless network.

Further, the present invention is a video distribution apparatus for distributing compressed video data stored in a video recording apparatus via a wireless network, wherein the compressed video data is distributed on the wireless network. Communication band detecting means for detecting a data transferable amount per unit time, a decoder for converting compressed video data distributed via the wireless network into non-compressed video information, and non-compressed video information output from the decoder An encoder for converting the compressed video data, compression control means for variably controlling the encoding bit rate of the encoder according to the data transferable amount per unit time on the wireless network detected by the communication band detection means, The compressed video data output from the encoder is transmitted to the wireless network. Characterized by comprising a transmission unit.

Further, in the above video distribution apparatus, the present invention monitors or transmits the wireless communication band of the wireless network while transmitting the compressed video data output from the encoder to the wireless network. It is characterized in that it is provided with means for variably controlling the data compression rate of the encoder according to the variation of the wireless communication band of the wireless network by detecting at the start or intermittently.

Further, the present invention is a method of delivering compressed video data, wherein when delivering compressed video data stored in a recording means via a wireless network, the data amount of the compressed video data per unit time. , And the amount of data transferable per unit time on the wireless network is acquired, and the compression level after decompressing the compressed video data to be distributed is determined based on the acquired information, and It is characterized in that the compressed video data is compressed according to the determined compression level and transmitted to the network.

Further, the present invention is a method for delivering compressed video data, wherein the amount of compressed video data per unit time when the compressed video data stored in the recording means is delivered via a wireless network. , And the data transferable amount per unit time on the wireless network is acquired, and the data amount per unit time of the compressed video data exceeds the data transferable amount per unit time on the wireless network. In this case, the compressed video data to be distributed is down-converted and transmitted to the wireless network.

Further, the present invention is a method of delivering compressed video data, wherein when delivering the compressed video data stored in the recording means via a wireless network, a unit of time per unit time on the wireless network is used. Acquiring a data transferable amount, re-converting the compressed video data to be distributed at the encoding bit rate according to the acquired data transferable amount per unit time on the wireless network, and transmitting to the wireless network. Characterize.

Further, the present invention is a method for delivering compressed video data, wherein the compressed video data stored in the recording means is once converted into non-compressed video information, then converted into compressed video data again, and the compressed video data is transferred to the wireless network. When transmitting the compressed video data to the wireless network, the wireless communication band of the wireless network is checked, and the uncompressed video is transmitted according to the change of the wireless communication band of the wireless network. It is characterized by variably controlling a data compression rate when converting information into compressed video data.

By having the above-described compressed video data distribution function of the present invention, compressed video data can be transmitted even when the transmission band of the wireless network is lower than the bit rate of the video data to be transferred. it can. Further, it is possible to realize a video data transmission function having a high transmission efficiency according to the transmission band of the wireless network used. Furthermore,
Compressed video data that can always be reproduced can be transmitted even if the wireless transmission band changes. As a result, the video data digitally recorded at a high bit rate can be reliably transmitted to a remote playback device by using various wireless communication means having high versatility.

[0018]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram showing a configuration of a video distribution apparatus according to an embodiment of the present invention. In the figure, 10 is a video distribution apparatus according to the present invention, 20 is the video distribution apparatus 10 and a wireless network 30. It is a video reproducing device connected via.

In response to the request from the video reproduction device 20, the video distribution device 10 distributes the recorded compressed video data to the video reproduction device 20 via the wireless network 30. The video reproduction device 20 requests the video distribution device 10 to distribute video data, acquires compressed video data from the video distribution device 10 via the wireless network 30, and converts (decodes) the compressed video data into uncompressed video information. Process) and play.

In the video distribution device 10, the control unit 1
Reference numeral 1 controls the entire apparatus, and the video reproduction apparatus 20
It controls each part until the compressed video data according to the received request is converted into the compressed video data having a bit rate within the data transmission band of the wireless network 30 and transmitted to the wireless network 30.

The video recording unit 12 records and stores the digitized compressed video data (moving image data). HDDs, DVDs, etc. are generally considered as recording media, but the present invention is not limited to these media. The video source is not limited to analog or digital, and the recorded video that is digitized is handled, and the method for digitizing is not particularly limited.

Under the control of the control unit 11, the video acquisition processing unit 13 acquires (reads out) the video (compressed video data) to be reproduced by the video reproduction device 20 from the video recording unit 12, and the compressed video data. Is sent to the decoder 14 for once being converted into uncompressed video information.

Under the control of the control unit 11, the decoder 14 inputs the compressed video data acquired by the video acquisition processing unit 13 from the video recording unit 12, and encodes (encodes) the video itself. ) Decoding (decoding processing) the compressed video data according to the method, and sending the decoded non-compressed video information to the encoder 15.

Under the control of the control unit 11, the encoder 15 receives the uncompressed video information received from the decoder 14 in the control unit 1.
The encoded video data is encoded at the bit rate specified by 1, and the encoded compressed video data is sent to the transmission / reception processing unit 16.

Under the control of the control unit 11, the transmission / reception processing unit 16 sequentially packetizes the compressed video data encoded by the encoder 15 and sends it to the wireless communication processing unit 17. Also, it receives an instruction (request) sent from the external video reproduction device 20 via the wireless communication processing unit 17, and sends this instruction to the control unit 11.

The wireless communication processing unit 17 is a transmission / reception processing unit 16.
The compressed video data packetized by is transmitted to the video reproduction device 20 via the wireless network 30. Further, it receives the instruction sent from the video reproduction device 20 and sends it to the transmission / reception processing unit 16.

The band acquisition processing unit 18 is a radio communication processing unit 1.
7 to detect the wireless communication band (data transmission band) on the communication interface between the wireless network 30 and
The control unit 11 is notified of the wireless communication band. To give a specific example, for example, the connected wireless communication method is “Bl
If it is “Bluetooth”, the wireless communication band is “1M
bps ”and returns“ IEEE 802.11b ”(wireless L
AN), the wireless communication band is "11 Mbps"
return it.

FIG. 2 is a flow chart showing a procedure for distributing compressed video data according to the first embodiment of the present invention, which is executed under the control of the control unit 11.

Hereinafter, referring to FIG. 2, the controller 11 will be described.
The distribution processing operation of compressed video data executed under the control of 1 will be described.

Here, a plurality of video programs are stored in advance in the video recording unit 12 as compressed video data in a predetermined compression (encoding) format (encoding method) for each title (x, y, z, ...). I shall. As a specific example, for example, a video signal (NTSC) of a video program acquired from a television tuner or the like is input to an encoder 15 as shown by a chain double-dashed line in FIG. 1 and compressed by a predetermined encoding method, By recording in the video recording unit 12 for each title (x, y, z, ...), the compressed video data of the provided program is stored in the video recording unit 12 as a distribution target.

When the user having the video reproduction apparatus 20 wants to acquire and reproduce the video program of the title z from the video distribution apparatus 10, the user of the video distribution apparatus 1 issues a program instruction request of the title z.
Go to 0. The program reproduction instruction request of the title z is received by the wireless communication processing unit 17 of the video distribution device 10 via the wireless network 30 and accepted by the control unit 11 via the transmission / reception processing unit 16.

When the control section 11 receives a program reproduction instruction request for the title z from the video reproduction apparatus 20 (step S in FIG. 2).
11), check the recording bit rate (A) of the compressed video data in the reproduction instruction program (step S12 in FIG. 2),
Subsequently, the band acquisition processing unit 18 acquires the wireless communication band (B) in the wireless communication means on the wireless network 30 which is currently connected to the video reproduction device 20. The information on the wireless communication band (B) is, for example, “bp” indicating the data transferable amount per unit time, as described above.
s ".

Next, the control unit 11 sets the recording bit rate (A) of the compressed video data in the reproduction instruction program and the wireless communication band (B) in the wireless communication means for connecting the video reproducing apparatus 20. Are compared (step S14 in FIG. 2), and if the recording bit rate (A) of the compressed video data is higher than the wireless communication band (B), it is decided to down-convert and reproduce the compressed video data of the video program z. To do. Specifically, the video acquisition processing unit 13 is instructed to acquire the compressed video data of the video program z, the decoder 14 is instructed to decode, the encoder 15 is instructed to encode at a specified bit rate, and the transmission / reception processing unit 16 is compressed. A video data transmission instruction is given (step S15 in FIG. 2).

According to these instructions, the image acquisition processing unit 13
Acquires the compressed video data of the video program z from the video recording unit 12, and the compressed video data acquired by the video acquisition processing unit 13 by the decoder 14 is converted into non-compressed video information (for example, NTSC signal).
And the encoder 15 compresses (encodes) the information output from the decoder 14 at a specified bit rate (encoding bit rate) instructed by the controller 11, and the transmission / reception processor 16 outputs the information from the encoder 15. Then, the wireless communication processing unit 17 transmits the compressed video data of the video program z packet-processed by the transmission / reception processing unit 16 to the wireless network 30 (steps S16 and S17 in FIG. 2).

In this way, the video program information instructed by the video reproduction device 20 is compressed according to the communication capability of the wireless communication means connecting the video distribution device 10 and the video reproduction device 20, and distributed to the video reproduction device 20. To be done. Thereby, even when the bit rate of the compressed video data recorded in the video recording unit 12 is larger than the communication band of the wireless communication means with the video reproduction device 20 which receives the compressed video data, the instruction is given. The compressed video data of the video program can be down-converted and wirelessly transmitted to the video reproduction device 20, and the user receives and views the video program digitally recorded at a high bit rate using a general-purpose wireless communication means. It becomes possible. That is, on the side of the video reproduction device 20 that receives the provision of the video program from the video distribution device 10 (the distribution destination from the viewpoint of the video distribution device 10), the video reproduction device 2 concerned.
Even if 0 has only a narrow band wireless communication means, the video distribution device 1 according to the above-described embodiment of the present invention.
It is possible to wirelessly connect to 0 and watch any video program.

In the above embodiment, the video recording unit 1
Only when the compressed video data stored in 2 is started to be distributed, the recording bit rate (A) of the compressed video data in the reproduction instruction program and the wireless communication band in the wireless communication means for connecting the video reproduction device 20 ( Compare with B),
The example of the processing of performing the down-conversion reproduction when the recording bit rate (A) of the compressed video data is higher than the wireless communication band (B) has been described. However, in addition to this, a predetermined interval may be set during the delivery of the compressed video data. It is also possible to deliver the compressed video data while executing the same processing as above and checking the state of the wireless communication band (B) each time. Further, in the above-described processing during the delivery of compressed video data, when the recording bit rate (A) of the compressed video data is higher than the wireless communication band (B), the compressed video data is simply down-converted at a constant encoding bit rate. Instead of doing
It is also possible to provide a plurality of levels of encoding bit rates, select an optimal (most advantageous) level encoding bit rate according to the value of the comparison result, and set it to the encoder 15 each time. .

Next, a second embodiment of the present invention will be described.
In the second embodiment, as shown in FIG. 1, when compressed video data is distributed from the video distribution device 10 to the video reproduction device 20, fluctuations in the wireless communication band occur in the wireless communication means on the wireless network 30. Even if it occurs, the wireless transmission guarantee function of the compressed video data is realized so that the compressed video data can always be continuously wirelessly transmitted.

As described above, the wireless communication environment may change sequentially due to other wireless communication or the use of radio wave generating equipment. In such a case, in the second embodiment of the present invention, during the distribution (wireless transmission) of the compressed video data, the band acquisition processing unit 18 always (sequentially) performs the video distribution device 10.
The wireless communication band of the wireless communication means connecting between the video reproduction device 20 and the video reproduction device 20 is monitored, and the state is notified to the control unit 11. An example of specific processing in this case will be described with reference to the flowchart shown in FIG.

The video reproducing device 20 looks at whether or not the packet of the compressed video data distributed from the video distributing device 10 is correctly received, and the reception state of the packet is sent to the video distributing device 10 via the wireless network 30. sending. This response process itself is executed even in a normal wireless communication protocol.

The wireless communication processing unit 17 of the video distribution device 10
When receiving the information indicating the reception state of the packet transmitted from the video reproduction device 20, the information is transmitted to the transmission / reception processing unit 16, and the transmission / reception processing unit 16 passes the information to the band acquisition processing unit 18. Whenever the band acquisition processing unit 18 receives the information indicating the packet reception state, the band acquisition processing unit 18 notifies the control unit 11 of the packet reception state each time.

When the control unit 11 receives the notification of the packet reception state from the band acquisition processing unit 18 (step S2 in FIG. 3).
1) Recognize that state, and do not change the encoding bit rate instructed to the encoder 15 when the packet is normally received (step S in FIG. 3).
22), when the state in which the packet is not normally received continues for the set number of times, the encoding bit rate instructed to the encoder 15 is changed and the encoding bit rate of the encoder 15 is lowered by one level (step S23 in FIG. 3). By changing the encoding bit rate, if packets are received correctly after that,
Transfer the packet at the changed encoding bit rate, return the encoding bit rate to the original value after a lapse of a predetermined time, and then monitor the packet reception status again, and perform the above process during the packet transfer period of the compressed video data. Repeat over.

By having such a processing function, even when the wireless communication band changes sequentially due to other wireless communication or the use of radio wave generating equipment, the bit rate optimum for the wireless communication band at that time is obtained. The compressed video data can be transmitted, and the user can continuously view the video program regardless of the change (decrease) in the wireless communication band.

The processing function of the second embodiment described above can be realized independently, but an apparatus having both the processing function of the second embodiment described above and the first embodiment described above can also be realized.

[0045]

As described above in detail, according to the present invention, it is possible to reliably transmit video data digitally recorded at a high bit rate to a remote reproducing device by using various wireless communication means having high versatility. It is possible to provide a video delivery device and a delivery method of compressed video data capable of performing.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a video distribution device according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a procedure of delivering compressed video data according to the first embodiment of the present invention.

FIG. 3 is a flowchart showing a procedure of delivering compressed video data according to the second embodiment of the present invention.

[Explanation of symbols]

10 ... Video distribution device 11 ... Control unit 12 ... Video recording section 13 ... Image acquisition processing unit 14 ... Decoder 15 ... Encoder 16 ... Transmission / reception processing unit 17 ... Wireless communication processing unit 18 ... Band acquisition processing unit 20 ... Video playback device 30 ... Wireless network

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Takeyuki Kobayashi             70 Yanagicho, Saiwai-ku, Kawasaki City, Kanagawa Prefecture             Toshiba Yanagimachi Office (72) Inventor Tatsuya Hayama             70 Yanagicho, Saiwai-ku, Kawasaki City, Kanagawa Prefecture             Toshiba Yanagimachi Office F-term (reference) 5C056 FA01 HA04                 5C059 KK25 KK34 LA02 LB05 PP04                       RA04 RB02 RB10 SS06 SS13                       TA57 TA60 TC37 UA02 UA09                 5C064 BA07 BB05 BC10 BC18 BC23                       BD02 BD08                 5K033 AA07 BA13 BA15 CB06 CC04                       DA17 DB09 DB10 DB16

Claims (10)

[Claims] 1. A video distribution device for distributing compressed video data stored in a video recording device via a wireless network, wherein the data amount of the compressed video data distributed via the wireless network per unit time is Recording bit rate detecting means for detecting, communication band detecting means for detecting a data transferable amount per unit time on the wireless network when delivering the compressed video data, and detecting by the recording bit rate detecting means Based on the data amount of the compressed video data per unit time and the data transferable amount per unit time on the wireless network detected by the communication band detecting means, the compression level of the compressed video data to be distributed is determined. The compression control means for determining and converting the compressed video data distributed via the wireless network into non-compressed video information. A decoder for converting the uncompressed video information output from the decoder into compressed video data according to the compression level determined by the compression control means; and transmitting the compressed video data output from the encoder to the network. A video distribution device comprising a video transmission means. 2. In a video distribution device for distributing compressed video data stored in a video recording device via a wireless network, the data amount of the compressed video data distributed via the wireless network per unit time is Recording bit rate detecting means for detecting, communication band detecting means for detecting a data transferable amount per unit time on the wireless network when delivering the compressed video data, and detecting by the recording bit rate detecting means The compressed video data to be distributed is down-converted based on the data amount of the compressed video data per unit time and the data transferable amount per unit time on the wireless network detected by the communication band detection unit. Compression control means for determining whether or not the compressed video data to be distributed via the wireless network. A decoder and an encoder to down-convert in accordance with the determination of the compression control unit, video distribution device being characterized in that includes the video transmission means for transmitting the compressed video data output from the encoder to the wireless network. 3. A video distribution device for distributing compressed video data stored in a video recording device via a wireless network, wherein the compressed video data is distributed per unit time on the wireless network. Communication band detection means for detecting a data transferable amount, a decoder for converting compressed video data distributed via the wireless network into non-compressed video information, and uncompressed video information output from the decoder for compressed video data And an encoder for converting to, according to the data transferable amount per unit time on the wireless network detected by the communication band detection means,
A video distribution device comprising: a compression control unit that variably controls an encoding bit rate of the encoder; and a video transmission unit that transmits the compressed video data output from the encoder to the wireless network. 4. The compression control means, while transmitting the compressed video data output from the encoder to the wireless network, monitors the wireless communication band of the wireless network to determine the wireless communication band of the wireless network. 3. The video distribution apparatus according to claim 1 or 2, further comprising means for variably controlling the data compression rate of the encoder according to the fluctuation of the above. 5. The video distribution apparatus according to claim 1, wherein the compression control means functions only at the start of transmission of transmitting the compressed video data output from the encoder to the wireless network. 6. The compression control means functions intermittently while transmitting the compressed video data output from the encoder to the wireless network.
Alternatively, the video distribution device described in 2. 7. When distributing the compressed video data accumulated in the recording means via a wireless network, the data amount of the compressed video data per unit time and the data per unit time on the wireless network. After obtaining the transferable amount, decompressing the compressed video data to be distributed based on the obtained information, determine the compression level when compressing again, and compress the video data according to the determined compression level. Is transmitted to the network, and a compressed video data distribution method is provided. 8. When the compressed video data stored in the recording means is distributed via a wireless network, the data amount of the compressed video data per unit time and the data per unit time on the wireless network. When the transferable amount is acquired and the data amount per unit time of the compressed video data exceeds the data transferable amount per unit time on the wireless network, the compressed video data to be delivered is down-converted. A method for delivering compressed video data, comprising transmitting the compressed video data to the wireless network. 9. The compressed video data to be distributed, when the compressed video data stored in the recording means is distributed via a wireless network, by acquiring the data transferable amount per unit time on the wireless network. Is re-converted at an encoding bit rate according to the acquired data transferable amount per unit time on the wireless network and transmitted to the wireless network. 10. A means for converting the compressed video data stored in the recording means into non-compressed video data once, converting it again into compressed video data and transmitting it to the wireless network, wherein the compressed video data is wirelessly transmitted. When transmitting to the network, the wireless communication band of the wireless network is checked, and the data compression rate at the time of converting the uncompressed video data into the compressed video data according to the variation of the wireless communication band of the wireless network. A compressed video data distribution method characterized by variable control.