JP2007288370A - Video/audio signal processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video/audio signal processor capable of distributing compressed and encoded video signals and audio signals in accordance with performances and desired image and tone qualities of distribution systems. <P>SOLUTION: The video/audio signal processor includes a plurality of video signal encoding means (CODEC) 104 and 105 for compressing and encoding video signals by different compression rates or compression algorithms, a plurality of audio signal encoding means (CODEC) 109 and 110 for compressing and encoding audio signals by different compression rates or compression algorithms, a control means (108), and a distribution means 112 for distribution to a distribution destination. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

The present invention relates to a video / audio signal processing apparatus for compressing and transmitting or distributing a video signal (video signal) and an audio signal (audio signal).
In particular, the present invention relates to a video / audio signal processing apparatus capable of encoding one type of video signal and audio signal at different compression rates and distributing a video / audio signal encoded at a desired compression rate.

  In a network camera, a video server, etc., a video signal (or image signal, video signal) and an audio signal (or audio signal) output from a video camera device, video recording / playback device (VTR device), etc. Distribution from a server to one or a plurality of request destinations (clients or customers) is performed.

As such a video / audio signal compression encoding / distribution technique, a server compresses a video signal and an audio signal at a single compression rate (compression algorithm), and a plurality of data compressed by multicast or broadcast are compressed. Has been delivered to clients.
In this technique, data having the same image quality, the same image size, and the same sound quality is distributed to a plurality of clients. Therefore, for example, the following problems are encountered.

For a client having a high-quality image / sound playback device, such compressed video signals and audio signals are played back, and the video and sound of the original performance of the device are not played back. The audio signal is not satisfactory.
On the other hand, when a video signal and an audio signal compressed at a very low compression rate are distributed in the server, it becomes a burden for a distribution system that distributes such a large amount of data. In some cases, some distribution systems are not suitable for distributing data with such a low compression rate. In addition, for a client having an image / sound reproduction device that does not conform to such a compression rate, useless compressed data is received.

Various proposals have been made to overcome the above distribution problems.
For example, Patent Literature 1 compresses the same image data at different compression rates, measures the transmission speed of the communication circuit, and sends the image data compressed at a compression rate suitable for the measured transmission speed to the communication circuit. Disclosure.

  Patent Document 2 discloses a technique for transmitting video data according to the application and purpose. For example, for image data that can be used for editing after demodulation, the input image data is recorded once and then compressed and encoded at a low compression rate to generate a transmission signal with a non-real-time transmission rate. To do. On the other hand, image data such as live sports broadcasts is compressed and encoded at a high compression rate, and the data compressed and encoded in real time is transmitted via, for example, an artificial satellite line.

  On the other hand, a technique has also been proposed in which compression algorithms are switched in order to satisfy the distribution performance when data distribution is performed by compressing and encoding with a plurality of different compression algorithms for image data and audio data.

JP 2003-244698 A JP-A-8-237651

  The technique described in Patent Document 1 needs to measure the speed of the transmission line, and the apparatus configuration is complicated.

  The technique described in Patent Document 2 is processed in accordance with the contents of image data in a distribution source (server), and is not processing according to the distribution route and / or the situation of the client (customer). Therefore, for example, it cannot be said that the technique can be applied to clients having various situations and requests.

  The technology that switches the compression algorithm to satisfy the distribution performance when the data is distributed by compressing the image data and the sound data with a plurality of different compression algorithms, it is necessary to switch the compression algorithm to satisfy the distribution performance However, there is a problem in that data with high image quality and high sound quality may not be delivered reliably.

SUMMARY OF THE INVENTION In order to overcome the above-described problems, an object of the present invention is to provide a video / audio signal processing apparatus capable of distributing a compression-coded video signal and an audio signal having a distribution system performance and a desired image quality / sound quality desired by a client. To do.
The present invention also provides a video / audio signal processing apparatus capable of distributing uncompressed video signals and / or audio signals.

  According to the present invention, a plurality of video signal encoding means for compressing and encoding a video signal with different compression rates or compression algorithms, and a plurality of audio signal encoding for compressing and encoding an audio signal with different compression rates or compression algorithms The same uncompressed video signal is input to the plurality of video signal encoding means according to the distribution request and compressed at the same timing, and the same uncompressed audio signal is input to the plurality of audio signal encoding means. And a video / audio signal processing apparatus comprising: a control unit that performs compression encoding at the same timing; and a distribution unit that distributes the compression encoded video signal and the compression encoded audio signal to a requested distribution destination. Is provided.

  According to the present invention, it is possible to distribute a video signal compressed with a compression rate or compression algorithm requested by a distribution source and a compressed audio signal, or an uncompressed video signal and an uncompressed audio signal.

  The video / audio signal processing apparatus of the present invention does not require complicated switching processing.

  A preferred embodiment of a video / audio signal processing apparatus of the present invention will be described with reference to the accompanying drawings.

First Embodiment FIG. 1 is a block diagram of a video / audio signal processing apparatus according to a first embodiment of the present invention.
The video / audio signal processing apparatus 100 includes first and second video signal CODEC (Coder / Decoder) units 104 and 105, a control processing unit 108, and first and second audio signal CODEC units. 109, 110.
In the present embodiment, two first and second video signal CODEC units 104 and 105 and two first and second audio signal CODEC units 109 and 110 are provided.
The first and second video signal CODEC units 104 and 105 respectively compress and encode video data at different compression rates. The video signal CODEC units 104 and 105 can perform compression encoding of video data and reverse decoding / decompression processing. In this embodiment, compression encoding is a target.
The first and second audio signal CODEC units 109 and 110 also compress and encode audio signals at different compression rates. The audio signal CODEC units 109 and 110 can perform compression and encoding of the audio signal and the reverse decoding / decompression process when outputting audio from the speaker 160.
For illustration, an example in which two first and second video signal CODEC units 104 and 105 and two first and second audio signal CODEC units 109 and 110 are provided is shown. Thus, it is possible to provide a video signal CODEC unit and an audio signal CODEC unit that perform compression encoding at three or more different compression rates.

The video / audio signal processing apparatus 100 further includes a demultiplexer 101, a video / memory control / interface unit 102, a control processing unit 108, an audio signal / interface unit 111, and a bus interface unit 112.
The video / audio signal processing apparatus 100 also includes a video memory unit 120, a system memory unit 130, and an ADC / DAC unit 140.
The control processing unit 108 controls compression encoding processing, distribution processing, and the like in the video / audio signal processing apparatus 100. The control processing unit 108 can be realized by a computer, for example.
The video memory unit 120 stores the original video signal S101V.
The system memory unit 130 stores a program of the control processing unit 108, various data used for processing performed by the video / audio signal processing apparatus 100, parameters, and the like.

In the video / audio signal processing apparatus 100, the first bus 107 includes a control processing unit 108, first and second audio signal CODEC units 109 and 110, first and second video signal CODEC units 104 and 105, The interface unit 112 and the system memory unit 130 are interconnected.
The second bus 106 connects the demultiplexer 101, the video / memory control / interface unit 102, the first and second video signal CODEC units 104 and 105, and the video memory unit 120.
The third bus 114 connects the demultiplexer 101, the first and second audio signal CODEC units 109 and 110, the audio signal / interface unit 111, and the audio memory unit 130.

The demultiplexer 101 separates the original video / audio signal S10 output from the video camera device 10 into a video signal and an audio signal, outputs the original video signal S101V to the second bus 106, and outputs the original audio signal S101A to the third signal. Output to the bus 114.
In this example, the video camera device 10 that outputs a video signal and an audio signal in real time is illustrated as the original video / audio signal S10. However, the original video / audio signal S10 is not limited to the video camera device 10. Of course, the source video / audio signal or the bit stream that can be provided by the VTR device is not limited to this example as long as the source can provide the original video / audio signal.

The video memory control / interface unit 102 causes the video memory unit 120 to store the original video signal S101V output to the second bus 106 under the control of the control processing unit 108.
The video memory control / interface unit 102 also reads the original video signal S101V stored in the video memory unit 120 to the second bus 106 under the control of the control processing unit 108, and the first video signal CODEC unit 104. Are input to the second video signal CODEC unit 105, and the CODEC units 104 and 105 perform compression encoding at different compression rates (compression algorithms). The compressed and encoded video data, that is, the first compressed video signal S104V and the second compressed video signal S105V are output to the first bus 107 and distributed via the bus interface unit 112.
As a compression algorithm performed by the first video signal CODEC unit 104 and the second video signal CODEC unit 105, for example, an MPEG algorithm suitable for encoding a moving image can be applied.

The ADC / DAC unit 140 converts the analog audio signal from the microphone 150 into a digital audio signal.
Further, the ADC / DAC unit 140 converts the digital audio signal output from the first audio signal CODEC unit 109 or the second audio signal CODEC unit 110 into an analog audio signal via the audio signal / interface unit 111 and converts the digital audio signal to the speaker 160. Output to.

The original audio signal S101A output from the demultiplexer 101 to the third bus 114 or the audio signal from the microphone 150 has different compression rates in the first audio signal CODEC unit 109 and the second audio signal CODEC unit 110, or After being compressed and encoded by the compression algorithm, the first compressed audio signal S109A and the second compressed audio signal S110A are output to the first bus 107 and can be distributed via the bus interface unit 112.
As the compression algorithm performed by the first audio signal CODEC unit 109 and the second audio signal CODEC unit 110, for example, an adaptive differential pulse code modulation (ADPCM) algorithm can be applied.

  The control processing unit 108 inputs the above-described data in the video / audio signal processing apparatus 100, compresses and encodes the video signal and the audio signal, and further transmits to a device external to the video / audio signal processing apparatus 100, such as the PC device 20. Control processing of the operation for the distribution of.

The bus interface unit 112 is a part that distributes the compression-coded video signal and audio signal to the outside.
In the present embodiment illustrated in FIG. 1, the bus interface unit 112 includes a first distribution system 201 including a MAC unit 17, a PHY unit 18, a LAN 19, and a PC device 20, a MAC unit 21, a PHY unit 22, The compressed video signal and the audio signal are distributed to the second distribution system 202 configured by the WAN 23, the PC device 24, or the PC device 25.

The operation of the operation video / audio signal processing apparatus 100 will be described.
(1) Data Storage Under the control of the control processing unit 108, the original video / audio signal S10 from the video camera device 10 is separated into the original video signal S101V and the original audio signal S101A by the demultiplexer 101, and the second bus 106 and the third bus 114.
The original video signal S101V is stored in the video memory unit 120 under the control of the video / memory control / interface unit 102. The original audio signal S101A can be stored in, for example, the system memory unit 130, or, as illustrated in FIG. 3, the audio memory unit 135 can be provided and the original audio signal S101A can be stored in the audio memory unit 135.
The original video signal S101V is a video signal before compression. Similarly, the original audio signal S101A is an audio signal before compression.

(2) Delivery request reception to compression processing For example, the PC device 20 of the first delivery system 201 and the PC device 24 of the second delivery system 202 simultaneously requested delivery of video signals and audio signals with different compression rates. At this time, the control processing unit 108 receives these requests and performs the following control processing for distributing the desired compression-coded video signal and audio signal to the distribution request destination, the PC device 20 and the PC device 24.
The control processing unit 108 reads out the original video signal S101V from the video memory unit 120 to the video / memory control / interface unit 102 and outputs the original video signal S101V read out to the second bus 106 to the first video signal. The CODEC unit 104 and the second video signal CODEC unit 105 are controlled so as to simultaneously perform compression processing at different compression rates.
Similarly, the control processing unit 108 converts the audio data collected by the microphone 150 into a digital signal by the ADC / DAC unit 140, and outputs the digital signal to the third bus 114 via the audio signal / interface unit 111. The signal CODEC unit 109 and the second audio signal CODEC unit 110 are controlled to perform compression processing simultaneously at different compression rates. Alternatively, the control processing unit 108 performs compression processing on the original audio signal S101A output to the third bus 114 at the same time with different compression rates in the first audio signal CODEC unit 109 and the second audio signal CODEC unit 110. Can be controlled.
As described above, the first compressed video signal S104V and the second compressed video signal S105V, and the first compressed audio signal S109A and the second compressed audio signal S110A are output to the first bus 107.

(3) Distribution The bus interface unit 112 is transmitted to the PC device 20 via the first distribution system 201 and / or PC via the second distribution system 202 under the control of the control processing unit 108. The video signal and audio signal of the desired compression encoding are distributed to the device 24, respectively.
The compression-encoded video signal and audio signal distributed to the first distribution system 201 are distributed to the requesting PC device 20 via the MAC unit 17, the PHY unit 18, and the LAN 19.
Similarly, the compression-encoded video signal and audio signal distributed to the second distribution system 202 are distributed to the requesting PC device 24 via the MAC unit 21, the PHY unit 22, and the WAN 23.

The PC device 20 and the PC device 24 can distribute a video signal and an audio signal having a compression rate desired by the PC device 20 and the PC device 24.
The PC device 20 and the PC device 24 are registered in advance with data indicating the distribution performance of the distribution system used by themselves, that is, the first distribution system 201 and the second distribution system 202. When requesting the distribution to the processing apparatus 100, the distribution is requested under conditions that satisfy the registered distribution performance. Therefore, the compression-encoded video signal and audio signal distributed from the video / audio signal processing apparatus 100 do not cause a problem due to the limitation of the distribution system.

  The compression-encoded video signal and audio signal distributed to the PC device 20 and the compression-encoded video signal and audio signal distributed to the PC device 24 may have the same compression rate or different compression rates.

For example, in the case of distribution through the LAN 19 in the first distribution system 201, the compression rate is lower than that in the case of distribution through the WAN 23 in the second distribution system 202. Audio signals can be distributed.
For example, when distributing through the LAN 19 in the first distribution system 201, the second video signal CODEC unit 105 distributes a video signal compressed and encoded at a low compression rate, and distributes it through the WAN 23 of the second distribution system 202. The first video signal CODEC unit 104 can distribute a video signal that has been compression-encoded at a high compression rate. Similarly, when distributing the sound collected (collected and recorded) by the microphone 150, when distributing through the LAN 19, for example, an audio signal compressed and encoded at a low compression rate in the first audio signal CODEC unit 109 is distributed. When distributing through the WAN 23, for example, the second audio signal CODEC unit 110 distributes an audio signal that has been compression-encoded at a high compression rate.

  As described above, according to the present embodiment, the video / audio signal processing apparatus 100 is the request destination, for example, the first distribution system 201 including the PC apparatus 20 and the LAN 19, or the WAN 23 and the PC apparatus 24 / PC apparatus. The video signal and the audio signal compressed and encoded by the compression rate or the compression algorithm according to the performance and demand of the second distribution system 202 including 25 can be distributed simultaneously or at a desired timing.

Second Embodiment A video / audio signal processing apparatus according to a second embodiment of the present invention will be described with reference to FIG.
The video / audio signal processing apparatus 100 illustrated in FIG. 2 is the same as the video / audio signal processing apparatus 100 illustrated in FIG.
In FIG. 2, a third distribution system 203 including a hard disk device 30 having a large storage capacity is connected instead of the first distribution system 201 in FIG. 1.
A fourth distribution system 204 having a LAN 19 or WAN 23 is connected.

In FIG. 2, when distributing to the fourth distribution system 204 having the LAN 19 or the WAN 23, the video signal compressed and encoded by the first video signal CODEC unit 104 is distributed and distributed to the third distribution system 203 having the hard disk device 30. In this case, the video signal compressed and encoded by the second video signal CODEC unit 105 is distributed.
Or the reverse may be sufficient.
Also in this embodiment, the first video signal CODEC unit 104 and the second video signal CODEC unit 105 compress and encode the original video signal S101V read from the video memory unit 120 at the same timing.

For example, when distributing the audio signal of the microphone 150 or when distributing to the fourth distribution system 204 having the LAN 19 or the WAN 23, the audio signal compressed and encoded by the first audio signal CODEC unit 109 is distributed to the hard disk device 30. When recording a compressed and encoded audio signal, the audio signal compressed and encoded by the second audio signal CODEC unit 110 is distributed.
Or the reverse may be sufficient.
Also in the present embodiment, the first audio signal CODEC unit 109 and the second audio signal CODEC unit 110 compress and encode the audio signal collected by the microphone 150 at the same timing.

Third Embodiment In the above-described embodiment, the video signal is distributed by compressing and encoding the original video signal S101V stored in the video memory unit 120, and the audio signal is distributed from the microphone 150. The case of distributing signals was described.
However, in the present embodiment, the audio signal distribution is not limited to the audio signal distribution from the microphone 150, but can also be distributed in a compression-coded manner with the original audio signal S101A constituting the original video / audio signal S10. .
In this case, an audio memory control / interface unit 103 and an audio memory unit 135 are provided and connected to the third bus 114.

Similar to the video memory control / interface unit 102, the audio / memory control / interface unit 103 is separated by the demultiplexer 101 and output to the third bus 114 under the control of the control processing unit 108. Is recorded in the audio memory unit 135.
The audio / memory control / interface unit 103 records the original audio signal S101A on the third bus 114 and records it in the first bus 114 under the control of the control processing unit 108 according to the distribution request. The signals are input to the signal CODEC unit 109 and the second audio signal CODEC unit 110. The first audio signal CODEC unit 109 and the second audio signal CODEC unit 110 compress the encoded original audio signal S101A with the respective compression ratios or compression algorithms, and use the first bus 107 via the first bus 107. Output to the interface unit 112.

  A delivery method to the first delivery system 201 and the like in the bus interface unit 112 is the same as that in the above embodiment.

Fourth Embodiment The first to third embodiments describe a case where the original video signal S101V and / or the audio signal collected by the microphone 150 is compressed and encoded and distributed to a distribution system such as the first distribution system 201. However, uncompressed data that is not compressed can also be distributed.
In this case, for example, the video memory control / interface unit 102 outputs the original video signal S101V read from the video memory unit 120 to the first bus 107 and outputs it to the bus interface unit 112.
Similarly, when the audio signal collected by the microphone 150 is distributed without being compressed, it does not pass through the first audio signal CODEC unit 109 and the second audio signal CODEC unit 110, or the first audio signal CODEC unit 109 and the second audio signal The audio signal CODEC unit 110 outputs the signal to the first bus 107 without being compressed, and outputs it to the bus interface unit 112.
The delivery method in the bus interface unit 112 is basically the same for both compressed data and uncompressed data.

As described above, according to the present embodiment, a compression-encoded video signal and audio signal requested by the client can be distributed.
The client side requesting the distribution can receive the desired compressed / uncompressed video signal and audio signal by requesting the distribution according to its own conditions and requests.

  More specifically, according to the present embodiment, since a plurality of image and audio compression algorithms are used, it is possible to distribute video signals and audio signals with image quality and sound quality according to transmission performance such as LAN and WAN. By receiving these data, the performance as a monitoring system on the client side is improved. As a result, for example, the recording efficiency and performance for DVR are improved.

  In addition, a compression-encoded video signal that is simultaneously output from the first video signal CODEC unit 104 and the second video signal CODEC unit 105 and distributed and distributed, a first audio signal CODEC unit 109, and a second audio signal CODEC unit 110 are provided. For the purpose of receiving and monitoring the audio signal that is delivered in a concatenated and output at the same time from the client side, use low-quality and low-quality sound data, and use it for recording and storage. By using high-quality sound data, it becomes possible to confirm necessary scenes and missed scenes more precisely.

  In the distribution system illustrated above, the compressed encoded data is distributed to the WAN 23, the compressed encoded data received on the client side (PC device 24) is decompressed and monitored, and the hard disk device or the like is displayed in the state of the compressed encoded data. Save to record. On the other hand, uncompressed data is distributed to the LAN 19 in the first distribution system 201, received by the client side (PC device 20), and used as uncompressed data in a high image quality and high sound quality state or while arbitrarily compressing data. Various applications such as monitoring and recording and storage are possible.

  When the remote recording is performed while the data that is higher in image quality and higher sound quality than the compression-encoded data distributed to the WAN 23 is distributed to the LAN 19, monitored locally, and recorded and stored, and remotely monitored by the WAN 23 In addition, when a necessary scene is overlooked, a recorded and saved image, or when a detailed image cannot be discriminated at the time of reproduction, a necessary data portion distributed and recorded on the LAN 19 is extracted and transmitted to the WAN 23. And the performance as a monitoring system is improved.

  According to the present embodiment, it is possible to utilize in accordance with the needs of clients requesting distribution.

  The embodiments of the present invention are not limited to the above-described embodiments, and various modifications can be made.

FIG. 1 is a configuration diagram of a video / audio signal processing apparatus according to a first embodiment of the present invention. FIG. 2 is a block diagram of the video / audio signal processing apparatus according to the second embodiment of the present invention. FIG. 3 is a block diagram of the video / audio signal processing apparatus according to the third embodiment of the present invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Video camera apparatus S10 ... Original video / audio signal 201 ... 1st delivery system
17 ... MAC unit, 18 ... PHY unit, 19 ... LAN, 20 ... PC device 202 ... second distribution system
DESCRIPTION OF SYMBOLS 21 ... MAC part, 22 ... PHY part, 23 ... WA, 24, 25 ... PC apparatus 100 ... Video / audio signal processing apparatus 100
101 ... demultiplexer,
S101V: Original video signal, S101A: Original audio signal
102: Video memory control interface unit
103. Audio memory control interface unit
104, 105 ... Video signal CODEC section
106, 107, 114 ... bus
108: Control processing unit
109, 110: Audio signal CODEC section
111 ... Audio signal / interface
112 ... Bus interface part
120: Video memory unit, 130: System memory unit
135 ... Audio memory unit, 140 ... ADC / DAC unit,
150 ... Microphone, 160 ... Speaker

Claims (5)

A plurality of video signal encoding means for compressing and encoding the video signal at different compression rates or compression algorithms;
A plurality of audio signal encoding means for compressing and encoding an audio signal with different compression rates or compression algorithms;
In response to a distribution request, the same uncompressed video signal is input to the plurality of video signal encoding means, compressed and encoded at the same timing, and the same uncompressed audio signal is input to the plurality of audio signal encoding means. Control means for compression encoding at timing;
A delivery means for delivering the compression-encoded video signal and the compression-encoded audio signal to a requested delivery destination;
Video / audio signal processing device. Further comprising memory means for pre-recording the uncompressed video signal;
In response to the distribution request, the control means inputs an uncompressed video signal read from the memory means to the plurality of video signal encoding means.
The video / audio signal processing apparatus according to claim 1. A means for inputting an audio signal from the audio recording means;
The control means inputs the same uncompressed audio signal to the plurality of audio signal encoding means for the audio signal from the audio recording means in response to the distribution request;
The video / audio signal processing apparatus according to claim 1. Second memory means for recording an audio signal associated with the uncompressed video signal;
In response to the distribution request, the control means inputs an uncompressed audio signal read from the second memory means to the plurality of audio signal encoding means.
The video / audio signal processing apparatus according to claim 1. A distribution system is connected to the distribution means;
The video / audio signal processing apparatus according to claim 1.

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