JP2003163897A - Contents transmission method, contents transmitter, contents transmission program, contents reception control method, contents reception controller, contents reception control program, and contents time control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a contents transmission method, contents transmitter, contents transmission program, contents reception control method, contents reception controller, contents reception control program, and contents time control system that can completely correct an error in a transmission time between a plurality of streams caused when streams of a plurality of contents are transmitted to a network of a connection-less type or a connection type and a receiver side receives the streams. <P>SOLUTION: The contents time control system 1 is provided with a time multiplexer 3 and an output time controller 5, the time multiplexer 3 uses a multiplexer section to multiplex reference time information generated by a reference time information generating section with contents, and transmits the result as a time information multiplexed stream, and the output time controller 5 uses a fixed delay section and a time control section to receive the stream and controls output time of the contents on the basis of the reference time information. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a content transmitting method, a content transmitting apparatus, a content transmitting program, a content receiving control method, and a content receiving method for streaming a plurality of content streams to a connectionless or connection type network such as the Internet. The present invention relates to a control device, a content reception control program, and a content time control system.

[0002]

2. Description of the Related Art Conventionally, in network streaming in which streams (plural streams) of a plurality of contents (especially video contents) are transmitted to a connectionless network (for example, by an IP protocol such as the Internet), and streaming is performed on the receiving side. In some cases, an error occurs in the transmission time between multiple streams on the receiving side. As a function to correct this transmission time error,
For example, in the MPEG system used in digital broadcasting, STC (System Time Closure) is used.
The display time correction information for correcting the time at which a plurality of streams are displayed based on k) is TS (Transport).
There is a standard regarding a function (display time correction function) included in Stream.

[0003]

However, in the conventional network streaming, since the request for correcting the error in the transmission time between a plurality of streams rarely occurs from the receiving side, the display time correction function described as an example is provided. However, it does not have a function that can correct a large error in transmission time between multiple streams generated in the network. Therefore, when a large error occurs in the transmission time, the conventional display time correction function or the like cannot completely correct the error in the transmission time.

Further, when there are a plurality of transmitting sides (when the transmitting points among a plurality of streams are different), the communication state of the network is not constant until the stream reaches the receiving side from each transmitting point (of the connectionless network). Characteristics), so there may be a large error in the transmission time of each stream. With the conventional display time correction function, etc.,
There is a problem that it is not possible to completely correct the error in the transmission time between the streams transmitted from each transmission side.

Therefore, an object of the present invention is to solve the problems of the above-mentioned conventional techniques, and to transmit a plurality of streams of contents to a connectionless network and to transmit the streams between the plurality of streams at the receiving side. It is an object of the present invention to provide a content transmission method, a content transmission device, a content transmission program and a content reception control method, a content reception control device, a content reception control program, and a content time control system, which can completely correct the error.

[0006]

In order to achieve the above-mentioned object, the present invention has the following constitution. The content transmission method according to claim 1, wherein the content transmission method is a method for transmitting a plurality of contents as a stream to a connectionless or connection-type network, and time information regarding a time when the plurality of contents are transmitted as a stream. A time information multiplexed content generating step of multiplexing each item with each content to generate time information multiplexed content, and a time information multiplexed stream transmitting the time information multiplexed content generated in this time information multiplexed content generation step as a stream And a transmitting step.

According to this method, first, in the time information multiplexed content generating step, the time information multiplexed content in which the time information is multiplexed with the transmitted content is generated. Then, in the time information multiplexed stream transmitting step, the generated time information multiplexed content is transmitted as a time information multiplexed stream. The connectionless network is a network that does not perform negotiation for setting a communication path with the network before starting communication between the transmitting side and the receiving side. The time information corresponds to synchronization information that serves as a reference for each packet when the content is streamed. A stream corresponds to a coded data string.

The content transmitting apparatus according to claim 2 is a content transmitting apparatus for transmitting a plurality of contents as a stream to a connectionless type or connection type network, and means for measuring time, and the content. Content input means for inputting the content, content storage means for storing the content input by the content input means, and time information based on the output time when the content obtained by the time counting means is transmitted as a stream for each content. Time information multiplexed content generating means for generating multiplexed time information multiplexed content, time information multiplexed stream transmitting means for transmitting the time information multiplexed content generated by this time information multiplexed content generation means as a stream, To have And it features.

According to this structure, first, the content is input by the content input means and stored in the storage means. Then, the output time when transmitting the content stored in the storage means as a stream is obtained by the time measuring means, and the time information based on this output time is multiplexed on the content by the time information multiplexed content generating means. Then, the time information multiplexed stream transmitting means transmits the generated time information multiplexed content as a time information multiplexed stream. The time when the content is input by the content input means (content input time) is measured by the time measuring means, the content input time is stored in the storage means, and time information is obtained based on the content input time. The time information multiplexed content generation means may generate time information multiplexed content in which the time information is multiplexed with the content.

The content transmitting apparatus according to a third aspect is the content transmitting apparatus according to the second aspect, wherein the time information multiplexed content generating means is set to a specific scanning line forming a frame included in each content. It is characterized in that the time information is multiplexed.

According to this structure, the time information multiplexed content generation means multiplexes the time information on the scanning lines forming the frame included in each content. In other words, by multiplexing the time information on this scan line,
On the side that receives the time information multiplexed stream, since one time information is multiplexed in one frame, it can be seen that the frame is also switched when one time information is changed to another time information. Therefore, the content obtained by decoding the stream can be controlled in units of at least one frame. Further, it is preferable that the time information is multiplexed on the uppermost scanning line of the frame, that is, the effective screen. A frame is an effective screen for a few seconds to a few tens of seconds, and is the minimum unit of the time axis that constitutes the content. The scanning line corresponds to the trajectory of the electron beam that draws the frame.

According to a fourth aspect of the present invention, there is provided the content transmission device according to the second aspect, wherein the time information multiplexed content generation means embeds the time information as a digital watermark in each content for multiplexing. It is characterized by doing.

According to this structure, time information is embedded in each content as a digital watermark and multiplexed by the time information multiplexed content generation means. The digital watermark is a technique of embedding special information (time information in this case) in the content without affecting the quality of the content (video content, audio content) itself.

Further, a content transmission program according to a fifth aspect of the present invention is characterized in that a device for transmitting a plurality of contents as a stream to a connectionless type or connection type network functions as the following means. That is, the means for causing the device to function is a clock means for clocking time, a content input means for inputting the content, a content storage means for storing the content input by the content input means,
Time information multiplexed content generation means for generating time information multiplexed content by multiplexing time information based on the output time when the content obtained by the time counting means is transmitted as a stream, and time information multiplexed content generation A time information multiplexed stream transmitting means for transmitting the time information multiplexed content generated by the means as a stream.

According to this structure, first, the content is input by the content input means and stored in the storage means. Then, the output time when transmitting the content stored in the storage means as a stream is obtained by the time measuring means, and the time information based on this output time is multiplexed on the content by the time information multiplexed content generating means. Then, the time information multiplexed stream transmitting means transmits the generated time information multiplexed content as a time information multiplexed stream.

Further, in the content reception control method according to the present invention, a time information multiplexed stream in which a plurality of time information multiplexed contents in which time information is multiplexed is streamed is transmitted via a connectionless type or connection type network. A content reception control method for receiving and controlling an output time of content included in the stream, comprising a time information multiplexed stream receiving step of receiving the plurality of time information multiplexed streams, and the time information multiplexed A content time information separation step of separating the content and time information contained in the stream received in the stream reception step, a storage step of storing the content and time information separated in the content time information separation step, and this storage step Time information stored in Based on, characterized in that it comprises a and a content output control step of controlling the output of the content.

According to this method, first, in the time information multiplexed stream receiving step, the time information multiplexed stream is received, in the content time information separating step, the content and time information are separated, and in the storing step, the content and time are separated. Information is stored. Then, in the content output control step, the output of the content is controlled based on the stored time information. In other words, if the time information is multiplexed on the transmission side according to the output unit of the content, the transmission time of the stream that may occur due to the characteristics of the connectionless network based on this time information. The error can be corrected when the stream is output as the content.

Further, the content reception control apparatus according to the seventh aspect of the invention provides a time information multiplexed stream in which a plurality of time information multiplexed contents in which time information is multiplexed is streamed via a connectionless type or connection type network. A content reception control device for receiving and controlling the output time of content included in the stream, the time information multiplexed stream receiving means for receiving the plurality of time information multiplexed streams, and the time information multiplexed Content time information separating means for separating the content and time information contained in the stream received by the stream receiving means, storage means for storing the content and time information separated by the content time information separating means, and this storing means The content based on the time information stored in Characterized in that it comprises a content output control means for controlling the output.

According to this structure, first, the time information multiplexed stream receiving means receives the time information multiplexed stream, the content time information separating means separates the content and the time information, and the storage means stores the content and the time. Information is stored. Then, the content output control means controls the output of the content based on the stored time information.

The content reception control device according to claim 8 is the content reception control device according to claim 7, wherein the time information is multiplexed on a specific scanning line forming a frame included in the content. In addition, the content time information separating means is provided with time information extracting means for extracting the time information from the specific scanning line. According to this structure, the time information extraction means extracts the time information multiplexed on the specific scanning line forming the frame included in the content.

The content reception control device according to claim 9 is the content reception control device according to claim 7, wherein the time information is embedded in the content as a digital watermark and multiplexed, The time information separating means is provided with a time information acquiring means for acquiring the time information from the digital watermark. According to this configuration, the time information acquisition means
The time information embedded in the content as a digital watermark is acquired.

A content receiving program according to a tenth aspect of the invention receives a time information multiplexed stream in which a plurality of time information multiplexed contents in which time information is multiplexed is streamed on a connectionless type or connection type network, The device for controlling the output time of the content included in the stream is caused to function as the following means. That is, the means for causing the device to function is a time information multiplexed stream receiving means for receiving the plurality of time information multiplexed streams, content and time information included in the stream received by the time information multiplexed stream receiving means. Content time information separation means for separating the content, storage means for storing the content and time information separated by the content time information separation means, and output of the content is controlled based on the specific time information stored by the storage means Content output control means.

According to this structure, first, the time information multiplexed stream receiving means receives the time information multiplexed stream, the content time information separating means separates the content and the time information, and the storage means stores the content and the time. Information is stored. Then, the content output control means controls the output of the content based on the stored time information.

Still further, the content time control system according to claim 11 is a connectionless type or a connection as a time information multiplexed stream in which a plurality of time information multiplexed contents obtained by multiplexing time information on a plurality of contents are streamed. Content transmission device for transmitting to a type network, a content reception control device for receiving the transmitted time information multiplexed stream, and controlling the output time of the content included in the stream,
In the content time control system, the content transmission device includes: a time measuring means for measuring time, a content input means for inputting the content, and a content storing means for storing the content input by the content input means. A time information multiplexed content generation means for generating time information multiplexed content by multiplexing time information based on the output time when the content obtained by the time counting means is transmitted as a stream, and the time information multiplexed Time information multiplexed stream transmitting means for transmitting the time information multiplexed content generated by the content generation means as a time information multiplexed stream, wherein the content reception control device receives the plurality of time information multiplexed streams Time information multiplexed stream reception Means, a content time information separating means for separating the time information and the content included in the time information multiplexed stream received by the time information multiplexed stream receiving means, and the content separated by the content time information separating means, It is characterized by comprising storage means for storing time information, and content output control means for controlling the output of the content based on the specific time information stored in the storage means.

According to this structure, in the content transmission device, first, the content is input by the content input means and stored in the storage means. Then, the output time when transmitting the content stored in the storage means as a stream is obtained by the time measuring means, and the time information based on this output time is multiplexed on the content by the time information multiplexed content generating means. Then, the time information multiplexed stream transmitting means transmits the generated time information multiplexed content as a time information multiplexed stream. Then, in the content reception control device, first,
The time information multiplexed stream receiving means receives the time information multiplexed stream, the content time information separating means separates the content and the time information, and the storage means stores the content and the time information. Then, in the content output control means, based on the time information stored,
Content output is controlled.

[0026]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described in detail below with reference to the drawings. (Outline of Content Time Control System) FIG. 1 shows the overall configuration of the content time control system. As shown in FIG. 1, the content time control system 1 includes a time information multiplexing device 3 and an output time control device 5.

The content time control system 1 receives these streams (a plurality of streams) when a plurality of contents are transmitted as streams to the connectionless network such as the Internet from the time information multiplexing device 3 on the transmitting side. This is a system in which the output time control device 5 on the receiving side can correct the error in the transmission time between a plurality of streams and output the content.

The time information multiplexing device 3 multiplexes the time information with each input content (input 0 to input N) and transmits it as a time information multiplexed stream to the connectionless network (network 0 to network N). To do. The time information corresponds to synchronization information that serves as a reference for each packet when the content is streamed, and serves as synchronization information between streams (which can be referred to as transmission time error correction information). In this embodiment, as will be described later, time information is added to each content as a scanning line forming a frame included in the content or as a digital watermark.
The time information multiplexing device 3 corresponds to the content transmission device described in the claims.

The output time control device 5 extracts time information from each stream of the time information multiplexed stream transmitted from the time information multiplexing device 3, and uses one of the extracted time information as a reference to extract each content. Accurately control the output time (completely synchronized) for each content (output 0 to 0)
The output N) is output. The output time control device 5 corresponds to the content reception control device described in the claims.

Now, the configuration of the time information multiplexing device 3 (including an explanation of an example of the standard time information multiplexing format) and the configuration of the output time control device 5 will be described, and then the time information multiplexing device 3 will be described. Operation, operation of the output time control device 5 will be described, and further an embodiment of the content time control system 1 will be described.
Finally, the effects of this embodiment will be summarized.

(Structure of Time Information Multiplexing Device [Content Transmitting Device]) FIG. 2 shows a block diagram of the time information multiplexing device 3. As shown in FIG. 3, the time information multiplexing device 3
Is a reference time information generation unit 7, a storage unit 9, and a multiplexing unit 1.
1 and.

The reference time information generating section 7 is provided with a time measuring means for measuring the time, and generates the reference time information based on the time measured by the time measuring means. This reference time information is multiplexed with a plurality of contents (input 0 to input N) input by the multiplexing unit 11, and when the output time control device 5 on the receiving side outputs a plurality of contents. In addition, it is a standard for unifying the output times of these plural contents. This reference time information is the same if the content to be associated, for example, the content is a video content and one frame (the minimum unit on the time axis of the video content) included in this video content ( Reference time information based on the same time) is multiplexed on any scanning line (specific scanning line) forming one frame.

The storage unit 9 is composed of a large-capacity hard disk or the like, and temporarily stores the input contents. Further, the relation between the reference time information generated by the reference time information generating unit 7 and the contents multiplexed by each multiplexing unit 11 is stored as a reference time information content relation table (not shown).

The multiplexing unit 11 multiplexes the reference time information generated by the reference time information generation unit 7 with each input content (input 0 to input N) and outputs the time information multiplexed stream (output 0 to output). N). The multiplexing unit 11 includes a frame scanning line multiplexing unit (not shown) and a digital watermark embedding multiplexing unit (not shown) for multiplexing the reference time information with the content.

The frame scanning line multiplexing means multiplexes the reference time information on a specific scanning line of a frame which is the minimum unit constituting the content (video content). In this embodiment, the reference time information is the top scanning line (Top Scanning Lin) of the frame.
e: called TSL).

The digital watermark embedding / multiplexing means generates the reference time information as a digital watermark (invisible digital watermark for video contents, and inaudible digital watermark for audio contents) and embeds it in the contents. Is to be multiplexed. The two frame scanning line multiplexing means and the digital watermark embedding multiplexing means are arbitrarily selected by the user of the time multiplexing device 3. The time multiplexing device 3 is provided with content input means (not shown).

(Example of Reference Time Information Multiplexing Format by Time Information Multiplexing Device) Here, the frame scanning line multiplexing means provided in the multiplexing unit 11 of the time multiplexing device 3 causes the reference time to be added to the video content. An example in which information is multiplexed will be described. FIG. 3 shows that the frame scan line multiplexing means
FIG. 4 is a schematic diagram showing a case where the reference time information is multiplexed with the video content. As shown in FIG. 3, the uppermost scanning line of the frame (the other scanning line which is the minimum unit on the time axis of the video content The reference time information is multiplexed in a thicker pattern than that in FIG.

As described above, if one piece of reference time information is multiplexed on one frame, a plurality of streams from the time information multiplexing device 3 are received on the receiving side by the content reception control device via the connectionless network. 5, even if a large error occurs in the transmission time due to the characteristics of the connectionless network, the content reception control device 5 causes a large error between the frames of the content when outputting the content. It can be adjusted and the transmission time error can be completely corrected.

(Configuration of Output Time Control Device [Content Reception Control Device]) Next, the configuration of the output time control device 5 (content reception control device) will be described with reference to FIGS. 4 and 5. As shown in FIG. 4, the output time control device 5 includes a fixed delay unit 13, a time control unit 15, and a reference time information detection unit 1.
7 and 7.

The fixed delay unit 13 receives the time information multiplexed stream in which the reference time information is multiplexed by the time information multiplexing device 3 on the transmission side, decodes this stream, and then, converts the stream into the content and the reference time information. The output time control device 5 separates and sets a reference for outputting a plurality of contents (content serving as a reference for the output time) based on the reference time information. That is, the time information multiplexed stream received by the fixed delay unit 13 is
In order to match the output with each content output from the time control unit 15, when the content is output from the fixed delay unit 13, it is fixedly delayed.

The time control unit 15 receives the time information multiplexed stream in which the reference time information is multiplexed by the time information multiplexing device 3 on the transmitting side, and the reference time information detection unit 17 is also provided.
It receives the reference time information sent from, and controls the output time of the content included in the time information multiplexed stream based on the reference time information. Details of the time control unit 15 will be described later.

The reference time information detecting section 17 includes a fixed delay section 1.
The content and the reference time information separated in 3 are received, only the reference time information is detected from the received content and the reference time information, and the detected reference time information is sent to each time control unit 15. . That is, the reference time information detected by the reference time information detection unit 17 becomes the reference (output time) when outputting the content from the output time control device 5.

FIG. 5 is a block diagram showing the configuration of the time control unit 15. As shown in FIG. 5, the time control unit 1
The control unit 5 includes a control unit 19, a time information detection unit 21, a variable delay unit 23, and a storage unit 25. The control unit 19
It controls the time control 15, and includes the reference time information detected by the reference time information detection unit 17 and the time information detection unit 21.
It compares the time information detected in step S3, sends a control signal to the variable delay section 23, and controls the output time of the content output from the variable delay section 23.

The time information detector 21 detects time information from the time information multiplexed stream (which may be decoded) input to the time controller 15. The time information detected by the time information detecting unit 21 is also
Strictly speaking, it is the reference time information multiplexed by the time multiplexing device 3 on the transmission side, but the time information transmitted via the connectionless network, the reference time information being multiplexed. Since an error in transmission time occurs in any of the multiplexed streams, it is described as "time information" for convenience.

The variable delay unit 23 receives the time information multiplexed stream, sequentially (or appropriately) decodes the time information multiplexed stream, stores it in the storage unit 25 as contents, and controls it from the control unit 19. In accordance with the signal, the content stored in the storage unit 25 is output. That is, the time information multiplexed stream input to the variable delay unit 23 is based on the reference time information multiplexed on the time information multiplexed stream input to the fixed delay unit 13, that is, at the same time, that is, the transmission time error. Is completely corrected (delayed), and is output as content from the output time control device 5. Therefore, the variable delay unit 23
Can be said to variably delay the output of the content.

The storage unit 25 stores the content and the time information which have been delayed by the variable delay unit 23 and have been subjected to the delay processing. Here, a supplementary description will be given of the correspondence relationship between the respective constituents of the output time control device 5 and the constituents described in the claims (related to the content reception control device). The combination of the fixed delay unit 13 and the time control unit 15 (variable delay unit 23) corresponds to the time information multiplexed stream receiving means, and the fixed delay unit 13 and the reference time information detection unit 17 are provided.
And the combination of the time control unit 15 and the time information detection unit 21 corresponds to the content time information separation unit, the storage unit 25 corresponds to the storage unit, and the fixed delay unit 13 and the time control unit 15 (control unit 19, variable). The combination with the delay unit 23) corresponds to the content output control means.

Further, the reference time information detecting section 17 and the time information detecting section 21 include time information extracting means (not shown),
A time information acquisition means is provided. The time information extraction means extracts the time information multiplexed on a specific scanning line forming a frame included in the content. The time information acquisition means acquires the time information when the time information is embedded in the content as a digital watermark.

(Operation of Time Information Multiplexing Device [Content Transmitting Device]) Next, the operation of the time information multiplexing device 3 (content transmitting device) will be described with reference to the flowchart shown in FIG. 6 (also in FIG. 2). See as appropriate). First, a plurality of contents (input 0 to input N) are input to the time information multiplexing device 3 (S1). The input content is stored in the storage unit 9 (content storage unit) (S2).

Then, the multiplexing unit 11 determines whether or not the multiplexing means for the reference time information is set (S).
3). When the multiplexing unit 11 does not determine that the multiplexing unit for the reference time information is set (No), the multiplexing unit is displayed on the display unit (not shown) provided in the time information multiplexing device 3. The multiplexing means is presented, and the user of the device 3 selects the presented multiplexing means and sets the multiplexing means (S4). When the multiplexing unit 11 determines that the reference time information multiplexing means is set (Yes)
On the display unit (not shown) provided in the time information multiplexing apparatus 3, the multiplexing means (in this embodiment, frame scanning line multiplexing, digital watermark embedding multiplexing) is displayed, and The user is prompted to confirm the multiplexing means (S
5).

Next, the reference time information generation unit 7 generates reference time information based on the time (predicted time) when each content is transmitted (S6). The reference time information generated by the reference time information generation unit 7 is used by each multiplexing unit 1
Each multiplexing unit 11 that has been sent to No. 1 and has received this reference time information multiplexes the reference time information with the content stored in the storage unit 9 by the set multiplexing means (S7). Further, the multiplexing unit 11 encodes the time information multiplexed content obtained by multiplexing the time information into the time information multiplexed stream (S8). The multiplexing unit 11 of the time information multiplexing device 3 encodes the time information multiplexed content into the time information multiplexed stream, but depending on the input content, this encoding may be performed externally. Good. Then, the multiplexing unit 11 outputs (transmits) the time information multiplexed stream to the connectionless network (S9).

(Operation of Output Time Control Device [Content Reception Control Device]) Next, referring to the flowchart shown in FIG. 7, the output time control device 5 (content reception control device)
The operation will be described (see also FIGS. 4 and 5 as appropriate). First, the fixed delay unit 13 and the time control unit 15 of the output time control device 5 perform time information multiplexed stream (input 0 to input N).
Is received (S11). One fixed delay unit 13 decodes the received time information multiplexed stream, separates the decoded time information multiplexed content into content and reference time information, and sends them to the reference time information detection unit 17 ( S12). Then, the reference time information detection unit 17 detects only the reference time information from the signal in which the content and the reference time information are mixed, and the reference time information is sent (output) to the time control unit 15 (S13). .

The time control unit 15 that has received the time information multiplexed stream in S11 is the time that is multiplexed in the time information multiplexed stream by the time information detection unit 21 provided in this time control unit 15. The information is detected and sent to the control unit 19 (S14). Then, the control unit 19 detects the reference time information sent from the reference time information detection unit 17,
The time information sent from the time information detection unit 21 is compared, and the control signal is output to the variable delay unit 23 (S15).

The control signal adjusts the output time of the content output from the variable delay section 23 based on the result of comparison between the reference time information and the time information. For example, reference time information and time information, these 2
If the same output time is described in two pieces of information, a simultaneous output signal (a type of control signal) that controls the variable delay unit 23 to output at the same time as the content output from the fixed delay unit 13 ) Is output. Conversely, if the same output time is not described in the reference time information and the time information, these two pieces of information, the variable delay unit 23
On the other hand, an output postponement signal (control signal) for controlling not to output the content is output, and until the time information in which the same output time as the output time described in the reference time information is obtained is obtained, The content is held in the storage unit 25.

On the other hand, the variable delay unit 2 of the time control unit 15
In 3, the time information multiplexed stream is appropriately decoded and stored as content in the storage unit 25 (S16), and the content is output based on the received control signal (S1).
7).

(Embodiment of Content Time Control System [Stereoscopic Video Network Transmission System]) Next, as an embodiment to which the content time control system 1 described above is applied, a stereoscopic video network transmission system will be described with reference to FIG. Explain. FIG. 8 is a block diagram of a stereoscopic video network transmission system. As shown in FIG. 8, the stereoscopic video network transmission system captures a subject and outputs it as a stereoscopic video (stereoscopic video stream) to a connectionless network (Internet, etc.) and the stereoscopic video (stereoscopic video). It is composed of a receiving site capable of receiving a video stream) and reproducing and displaying a stereoscopic video.

This stereoscopic video network transmission system uses the content time control system 1 incorporated therein,
Two pieces of image data obtained by separately capturing an object with the two image pickup cameras are sent from the sending site to the receiving site via the connectionless network, and at the receiving site, the error in the transmission time of the two received image data is detected. It is a system that can reproduce stereoscopic images by completely correcting it.

The sending site is the imaging camera 27 (27a,
27b) and CCU (Camera Control)
Unit: camera control unit) 29 (29a, 29)
b), the time multiplexing device 3, and the MPEG-E31 (31
a, 31b) and TS / IP conversion PC 33 (33a, 33)
b) and the sending side network router 35.

The image pickup camera 27 (27a, 27b) is for picking up an image of an object (not shown), landscape, etc.
The distance between the lens portions of each of these two imaging cameras 27 is set so as to approximate the distance between the human eyes.
When an image of a subject is picked up by the image pickup camera 27 set at such an interval and the picked-up image of the subject is played back by two video playback units (projectors or the like), when a person actually sees the object It is possible to reproduce the stereoscopic effect (due to binocular parallax) that can be perceived as.

The CCU 29 (29a, 29b) plays a role of synchronizing the image pickup data picked up by the image pickup camera 27 (27a, 27b) to the time multiplexing device 3. MPEG-E31 (31a, 31b)
Is for encoding image data in the MPEG format.

TS / IP conversion PC 33 (33a, 33)
b) is a transport stream (TS) which is an internet protocol IP (Internet Protocol).
col) is a personal computer (PC) that converts the packet into a packet based on col). Sending side network router 3
Reference numeral 5 is connected to the TS / IP conversion PC 33 (33a, 33b) and performs packet relay processing with the network.

These configurations, that is, the image pickup camera 2
7, CCU 29, time multiplexer 3, MPEG-E3
1, the TS / IP conversion PC 33 and the sending side network router 35 share the common (same) in the time multiplexing device 3 with respect to the imaging data imaged by the two imaging cameras 27a and 27b at this sending site. Of the reference time information is multiplexed, and the time information multiplexed imaging data in which the reference time information is multiplexed is encoded by MPEG-E31,
In the TS / IP conversion PC 33, it is sent from the sending side network router 35 to the network as an IP packetized time information multiplexed imaging stream.

The receiving site includes a receiving side network router 37 and an IP / TS conversion PC 39 (39a, 39a).
b), the MPEG-D 41 (41a, 41b), the output time control device 5, and the projector 43 (43a, 43).
b) and a video screen 45. The receiving side network router 37 performs a packet relay process between the network and the IP / TS conversion PC 39 (39a, 39b).

IP / TS conversion PC 39 (39a, 39)
b) is a personal computer PC for converting a packet sent from the receiving side network router 37 into a transport stream. MPEG-D41
(41a, 41b) is the MPEG of the sending side sending site
-E31 (31a, 31b) is for decoding (decoding: decoding) image pickup data encoded in the MPEG format.

The projector 43 (43a, 43b) is
The image data decoded by the MPEG-D 41 (41a, 41b) is reproduced. The video screen 45 is
The image pickup data reproduced by the projector 43 (43a, 43b) is displayed, and a stereoscopic image is reproduced from these image pickup data.

These configurations, that is, the receiving side network router 37, the IP / TS conversion PC 39 (39a, 3a)
9b), MPEG-D 41 (41a, 41b), output time control device 5, projector 43 (43a, 43b),
At the receiving site, the time information multiplexed imaging stream sent from the sending site on the sending side is received by the receiving side network router 37 by the video screen 45. Next, the IP / TS conversion PC 39 (39a,
39b), the packetized time information multiplexed imaging stream is streamed, and this time information multiplexed imaging stream is decoded by MPEG-D41 (41a, 41b) to be time information multiplexed imaging data. . Then, the output time of the time information multiplexed imaged data is controlled by the output time control device 5 (the error of the transmission time is corrected), and the projector 43 (43a, 43a).
b), and is displayed as a stereoscopic image on the video screen 45.

This embodiment has the following effects. In a connectionless network such as the Internet, the availability of network resources is not negotiated with the network as compared to a connection network such as a telephone call, so the communication state between transmission and reception is not constant. By using the content time control system 1 (time information multiplexing device 3, output time control device 5) described in this embodiment for such a connectionless network, a plurality of streams can be transmitted from the device on the transmission side. When transmitted, it is possible to completely correct the error in the transmission time between a plurality of streams that occurs in the device on the receiving side, and to perform stable streaming.

In the time information multiplexing device 3, content is input by the content input means (not shown) and stored in the storage section 9. Then, the reference information generation unit 7 obtains the output time when the content stored in the storage unit 9 is transmitted as a stream, and the reference time information based on this output time is multiplexed on the content by the multiplexing unit 11. It Then, the multiplexing unit 11 transmits the generated time information multiplexed content as a time information multiplexed stream.

Then, in the output time control device 5 which receives this time information multiplexed stream, the fixed time delay unit 13 and the time control unit 15 receive the time information multiplexed stream, and the reference time information detection unit 17 and the time information are received. Detector 21
With, the reference time information (time information) is obtained, and the storage unit 25 stores the content and time information. Then, the control unit 19 and the variable delay unit 23 match (control) the output of the content with the content output from the fixed delay unit 13 based on the stored time information.

Therefore, the error in the transmission time between a plurality of streams, which is caused by the characteristics of the connectionless network, can be corrected based on the reference time information (time information), and the output time of the content can be controlled. You can

In the time information multiplexing device 3, the frame scanning line multiplexing means of the multiplexing unit 11 multiplexes the reference time information with the scanning lines forming the frames included in each content. In the output time control device 5 that has received this time information multiplexed stream, the time information extracting means (not shown) extracts the time information. According to this, since the time information is multiplexed in the scanning line, one time information is multiplexed in one frame, and therefore, the frame is also switched when one time information is changed to another time information. I understand that Therefore, the content obtained by decoding the stream can be controlled in units of at least one frame.

In the time information multiplexing device 3, the reference time information is embedded in each content as a digital watermark and multiplexed by the digital watermark embedding means of the multiplexing unit 11. In the output time control device 5 that has received the time information multiplexed stream in which the reference time information is multiplexed as a digital watermark, the time information acquisition means (not shown) displays the time information embedded as a digital watermark in the content. get. According to this, since the time information is embedded in each content as a digital watermark and multiplexed, if the digital watermark is changed for each frame, one time information is embedded as a digital watermark in one frame. It can be seen that the frames are switched at the time when one time information is changed to another time information because of being multiplexed. Therefore, the content obtained by decoding the stream can be controlled in units of at least one frame.

The content time control system 1 is
This is particularly effective for a connectionless network in which the delay time difference between a plurality of streams fluctuates, but is also effective for a connection type network in which the delay time difference is fixed. That is, it is not necessary to manually correct the fixed delay time difference occurring in the network, and the correction (adjustment) of the fixed delay time difference can be fully automated.

The present invention has been described above based on the embodiment, but the present invention is not limited to this. It is also possible to regard the processing of each component of the time multiplex device 3 (content transmission device) and the output time control device 5 (content reception control device) as a content transmission method and a content reception control method that are regarded as each process (step). is there. In this case, the same effects as those of the time multiplexing device 3 and the output time control device 5 can be obtained.

A program (content transmission program, content reception control program) in which each component of the time multiplexing device 3 (content transmission device) and the output time control device 5 (content reception control device) is described in a general-purpose computer language. Can also be considered. Also in this case, the same effects as those of the time multiplexing device 3 and the output time control device 5 can be obtained. Further, these programs can be stored in a storage medium and distributed or distributed.

[0075]

According to the invention described in claim 1, the time information multiplexed content generated in the time information multiplexed content generating step and the time information multiplexed stream transmitting step is transmitted as a time information multiplexed stream. . For this reason, on the receiving side that has received the time information multiplexed stream, it is possible to completely correct the error in the transmission time between a plurality of streams, which occurs during streaming, based on the multiplexed time information.

According to the second aspect of the invention, the clocking means,
The time information multiplexed content generation means and the time information multiplexed stream transmission means treat the content input by the content input means as time information multiplexed content and transmit it as a time information multiplexed stream. For this reason,
On the receiving side that has received the time information multiplexed stream, it is possible to completely correct the error in the transmission time between a plurality of streams, which occurs during streaming, based on the multiplexed time information.

According to the third aspect of the present invention, the time information multiplexed content generation means multiplexes the time information on the scanning lines forming the frame included in each content. Therefore, the receiving side receiving the time information multiplexed stream can control the content decoded from the time information multiplexed stream in units of at least one frame based on the time information being multiplexed. .

According to the fourth aspect of the present invention, time information is embedded in each content as a digital watermark and multiplexed by the time information multiplexed content generation means. For example, if the digital watermark is changed for each frame, on the receiving side that receives the time information multiplexed stream,
The content obtained by decoding the time information multiplexed stream can be controlled in units of at least one frame based on the multiplexed time information (digital watermark).

According to the invention described in claim 5, in the content transmission program, the content input by the content input means is time information multiplexed by the time measuring means, the time information multiplexed content generating means, and the time information multiplexed stream transmitting means. And is transmitted as a time information multiplexed stream. For this reason, on the receiving side that has received the time information multiplexed stream, it is possible to completely correct the error in the transmission time between a plurality of streams, which occurs during streaming, based on the multiplexed time information.

According to the invention described in claim 6, the content and time information are obtained in the time information multiplexed stream receiving step and the content time information separating step, and the output of the content is controlled in the content output control step. Therefore, based on the time information multiplexed in the received time information multiplexed stream,
It is possible to completely correct an error in transmission time between a plurality of streams when streaming.

According to the seventh aspect of the invention, the time information multiplexed stream receiving means and the content time information separating means obtain the content and time information, and the content output control means controls the output of the content. Therefore, based on the time information multiplexed in the received time information multiplexed stream, it is possible to completely correct the error in the transmission time between a plurality of streams that occurs during streaming.

According to the invention described in claim 8, the time information extracting means extracts the time information multiplexed on a specific scanning line forming a frame included in the content. Based on the extracted time information, it is possible to completely correct the error in the transmission time between a plurality of streams that occurs during streaming.

According to the ninth aspect of the invention, the time information acquisition means acquires the time information embedded in the content as a digital watermark. Based on the acquired time information, it is possible to completely correct the error in the transmission time between a plurality of streams that occurs during streaming.

According to the tenth aspect of the invention, in the content reception control program, the time information multiplexed stream receiving means and the content time information separating means are:
The content and time information is obtained, and the content output control means controls the output of the content. Therefore, based on the time information multiplexed in the received time information multiplexed stream, it is possible to completely correct the error in the transmission time between a plurality of streams that occurs during streaming.

According to the invention described in claim 11, in the content transmission device, the content input means, the clock means,
The input content is converted into time information multiplexed content by the time information multiplexed content generation means and the time information multiplexed stream transmission means, and is transmitted as a time information multiplexed stream. Then, in the content reception control device, the time information multiplexed stream receiving means and the content time information separating means separate the content and the time information, and the storing means stores the content and the time information.
The content output control means controls the output of the content based on the stored time information. For this reason,
In this system, the content transmission device on the transmission side transmits the time information multiplexed stream multiplexed on the content, and the content reception control device on the reception side transmits the time information multiplexed on the received time information multiplexed stream. On the basis of the above, it is possible to completely correct the error in the transmission time between multiple streams that occurs when streaming.

[Brief description of drawings]

FIG. 1 is a diagram showing an overall configuration of a content time control system according to an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a time information multiplexing device.

FIG. 3 is a diagram illustrating an example of a reference time information multiplexing format.

FIG. 4 is a block diagram showing a configuration of an output time control device.

FIG. 5 is a block diagram showing a configuration of a time control unit.

FIG. 6 is a flowchart illustrating the operation of the time information multiplexing device.

FIG. 7 is a flowchart illustrating the operation of the output time control device.

FIG. 8 is a block diagram of a stereoscopic video network transmission system which is an embodiment including a content time control system.

[Explanation of symbols]

1 Content time control system 3 Time Multiplexing Device (Content Transmission Device) 5 Output time control device (contents reception control device) 7 Reference time information generator 9, 25 Storage 11 Multiplexing unit 13 Fixed delay part 15 Time controller 17 Reference time information detector 19 Control unit 21 Time information detector 23 Variable delay unit

Continued front page    (72) Inventor Makoto Yamamoto             1-10-11 Kinuta, Setagaya-ku, Tokyo, Japan             Broadcasting Association Broadcast Technology Institute F-term (reference) 5C063 AA01 AB03 AB05 AC01 AC05                       AC10 CA23 CA36 DA03 DA07                       DA13 DB09                 5C064 BA07 BB10 BC18 BC23 BD01                       BD08 BD09    (54) [Title of Invention] Content transmission method, content transmission device, content transmission program, and content reception system                     Control method, content reception control device, content reception control program, and content time control                     system

Claims (11)

[Claims] 1. A content transmission method for transmitting a plurality of contents as a stream to a connectionless-type or connection-type network, wherein time information regarding the time when the plurality of contents are transmitted as a stream is multiplexed with each content. A time information multiplexed content generation step of generating the time information multiplexed content, and a time information multiplexed stream transmission step of transmitting the time information multiplexed content generated in this time information multiplexed content generation step as a stream. A method for transmitting content, comprising: 2. A content transmission device for transmitting a plurality of contents as a stream to a connectionless type or connection type network, and a time measuring means for measuring time, a content input means for inputting the content, and this content. Content storage means for storing the content input by the input means, and time information based on the output time when the content obtained by the time counting means is transmitted as a stream is multiplexed with each content to generate time information multiplexed content. A content transmission device comprising: time information multiplexed content generation means; and time information multiplexed stream transmission means for transmitting the time information multiplexed content generated by this time information multiplexed content generation means as a stream. . 3. The content transmitting apparatus according to claim 2, wherein the time information multiplexed content generation means multiplexes the time information on a specific scanning line forming a frame included in each content. . 4. The content transmitting apparatus according to claim 2, wherein the time information multiplexed content generation means embeds the time information as an electronic watermark in each content and multiplexes them. 5. A device for transmitting a plurality of contents as a stream to a connectionless-type or connection-type network, a timekeeping unit for timekeeping, a content inputting unit for inputting the contents, and a content inputting unit for inputting the contents. Content storage means for storing content, time information multiplexed content generation means for multiplexing time information based on output time when the content obtained by the time counting means is transmitted as a stream with each content to generate time information multiplexed content A content transmission program, which functions as time information multiplexed stream transmitting means for transmitting the time information multiplexed content generated by the time information multiplexed content generating means as a stream. 6. A content included in a stream received by a time information multiplexed stream in which a plurality of time information multiplexed contents in which time information is multiplexed is streamed through a connectionless type or connection type network. A time information multiplexed stream receiving step of receiving the plurality of time information multiplexed streams, and a stream received in the time information multiplexed stream receiving step. Based on the content time information separating step for separating the content information and the time information, the storing step for storing the content and time information separated in the content time information separating step, and the specific time information stored in the storing step. , Control the output of the content Content reception control method comprising: the content output control step that, a. 7. A content included in a stream of time information multiplexed, which is streamed with a plurality of time information multiplexed content, is received via a connectionless-type or connection-type network, and is included in the stream. A time information multiplexed stream receiving means for receiving the plurality of time information multiplexed streams, and a stream received by the time information multiplexed stream receiving means. Content time information separating means for separating the content information and time information, storage means for storing the content and time information separated by the content time information separating means, and Content output control means for controlling the output of the content,
A content reception control device comprising: 8. The time information is multiplexed on a specific scanning line forming a frame included in the content, and the content time information separating means extracts the time information from the specific scanning line. 8. The content reception control device according to claim 7, further comprising time information extraction means for performing the time information extraction. 9. The time information is embedded in the content as a digital watermark and multiplexed, and the content time information separating means includes a time information acquiring means for acquiring the time information from the digital watermark. The content reception control device according to claim 7, wherein the content reception control device is provided. 10. A connectionless or connection-type network receives a time information multiplexed stream in which a plurality of time information multiplexed contents in which time information is multiplexed is streamed, and the content included in the stream is output. An apparatus for controlling time, a time information multiplexed stream receiving means for receiving the plurality of time information multiplexed streams, and a content and time information separated in a stream received by the time information multiplexed stream receiving means. Content time information separating means, storage means for storing the content and time information separated by the content time information separating means, based on the specific time information stored by the storing means,
A content reception control program that functions as content output control means for controlling the output of the content. 11. A content transmission device for transmitting to a connectionless type or connection type network as a time information multiplexed stream in which a plurality of time information multiplexed contents obtained by multiplexing time information on a plurality of contents is streamed, A content reception control device that receives the time-multiplexed stream and controls the output time of the content included in the stream, wherein the content transmission device measures the time. Based on an output time when the content obtained by the time counting means is transmitted as a stream, a content inputting means for inputting the content, a content storing means for storing the content input by the content inputting means, Time information Time information multiplexed content generation means for multiplexing time information multiplexed content with content and time information multiplexed for transmitting the time information multiplexed content generated by this time information multiplexed content generation means as a time information multiplexed stream And a time information multiplex stream receiving unit that receives the plurality of time information multiplex streams, and time information multiplex received by the time information multiplex stream receiving unit. A content time information separating means for separating the content and time information contained in the stream, a storage means for storing the content and time information separated by the content time information separating means, and a specific storage section for storing the content and time information. Based on the time information,
A content time control system, comprising: content output control means for controlling output of the content.