KR20160023437A - Time synchronization system and method thereof - Google Patents

Abstract

Disclosed are a time synchronization system, and a method thereof. Herein, the time synchronization system comprises: a first video server for processing audio data and video data, which are received through multiple channels, by a sample time unit, and setting an its own sample time as a reference sample time for time synchronization; one or more second video servers for correcting the own sample time with respect to a sample time of the first video server; and a control server connected to the first video server and the second video servers, requesting and receiving the sample time of the first video server from the first video server, and transmitting the sample time of the first video server to the second video servers.

Description

[0001] TIME SYNCHRONIZATION SYSTEM AND METHOD THEREOF [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a time synchronization system and a method thereof, and more particularly, to a time synchronization technique of a content frame including audio and video input and output in multiple channels in a broadcasting system.

Typically, audio or video data shot through a plurality of cameras in a broadcast system is transmitted to a video server using a real time transmission protocol. The video server then synchronizes the audio or video data based on the sample time.

It is necessary to accurately record and reproduce time-synchronized contents when inputting and outputting multi-channel video including two or more channels including 3DTV. That is, time synchronization of audio or video data is required.

However, there is a problem that a frame error occurs due to a time asynchronization problem because the transmission delay time of each channel is different from each other in the external control of serial communication and network.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a system and method for performing time synchronization by correcting a sample time of each video server based on a sample time of a reference video server arbitrarily designated among a plurality of video servers.

According to one aspect of the present invention, a time synchronization system processes audio data and video data received over multiple channels in units of sample time, and outputs a first video signal having its sample time set as a reference sample time for time synchronization A server, one or more second video servers that correct their sample times based on the sample time of the first video server, and one or more second video servers connected to the first video server and the one or more second video servers, And sending a sample time of the first video server to the one or more second video servers.

Wherein the control server comprises:

Requesting the first video server and the one or more second video servers to save a current sample time, receiving a stored current sample time from the first video server and setting the reference sample time to the first video server, To the one or more second video servers.

Wherein the synchronization control unit comprises:

Receive the next genlock time from the first video server and request the current sample time storage before the next genlock time comes.

Wherein the synchronization control unit comprises:

Requesting and receiving a sample time from the first video server, transmitting a control command including the received sample time to the one or more second video servers,

Wherein the at least one second video server comprises:

The difference value between the stored current sample time and the reference sample time is calculated and the difference value is added to the sample time included in the control instruction to perform the control instruction at the calculated final sample time.

The first video server and the one or more second video servers,

The local time received from the control server can be set as a server reference time.

Wherein the first video server and the second video server,

An input unit for receiving the audio data and the video data through a plurality of channels, a control unit connected to the control server through a network, receiving a control command, a reference sample time from the control server, and transmitting a sample time of the audio data and the video data to the control server An output unit for outputting time-synchronized audio data and video data, a synchronization control unit for correcting the own sample time based on the reference sample time and performing the time synchronization with the corrected sample time, And a video server controller for synchronizing and encoding the received audio data and the video data on a frame basis, storing the encoded data, and outputting the encoded data to the output unit according to a sample time.

According to another aspect of the present invention, there is provided a method of synchronizing time of two or more video servers, wherein a control server controlling the two or more video servers receives a current sample time from a first video server designated as a reference server Setting the current sample time to a reference sample time, transmitting the reference sample time to the video servers including the first video server, and transmitting the reference sample time to the video servers, including the first video server, And transmitting the control command to the control unit,

The video servers including the first video server may perform the control command in units of sample times corrected based on the reference sample time.

Prior to the step of obtaining the current sample time,

Transmitting the local time to the video servers including the first video server, and setting the local time to the server reference time.

Prior to transmitting the control command,

Requesting and receiving a current sample time from the first video server,

Wherein the transmitting the control command comprises:

Transmitting a control command including the current sample time,

The video servers including the first video server may perform the control command at a final sample time corrected using the current sample time included in the control command.

Between the step of setting the server reference time and the step of acquiring the current sample time,

Receiving the next genlock time from the first video server, and setting the control command transmission time before the next genlock time comes.

According to another aspect of the present invention, there is provided a method of synchronizing time of two or more video servers, the method comprising: receiving a reference sample time from a control server connected to the two or more video servers; Correcting its own sample time on the basis of the corrected sample time, and performing the control command received from the control server at the corrected sample time.

Before the step of receiving the reference sample time,

Further comprising the step of storing a current sample time in response to a request from the control server,

Wherein the correcting comprises:

Calculating a difference value between the stored current sample time and the reference sample time, and calculating a final sample time by summing the sample time included in the control instruction and the difference value.

Before the step of receiving the reference sample time,

And transmitting the stored current sample time to the control server at the request of the control server.

Before the step of receiving the reference sample time,

When the power is applied, it may further include initializing the sample time based on the genlock signal.

Before the step of receiving the reference sample time,

Receiving a local time from the control server, and setting a server time based on the local time.

According to the embodiment of the present invention, it is possible to minimize the frame error by solving the time asynchrony problem due to the transmission delay time per line when the multi-channel is externally controlled by the serial communication and the network.

1 shows a time synchronization system according to an embodiment of the present invention.
2 is a block diagram showing a detailed configuration of the control server of FIG.
3 is a block diagram showing a detailed configuration of the video server of FIG.
4 (a) and 4 (b) are flowcharts illustrating a time synchronization method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Also, the terms of " part ", "... module" in the description mean units for processing at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

Hereinafter, a time synchronization system and a method thereof according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 shows a time synchronization system according to an embodiment of the present invention, FIG. 2 is a block diagram showing the detailed configuration of the control server of FIG. 1, and FIG. 3 is a block diagram showing a detailed configuration of the video server of FIG.

Referring to FIG. 1, the time synchronization system implements time synchronization between contents for recording and playback in a multi-channel video input / output of two or more channels. At this time, the contents include video data and audio data.

Here, the time synchronization system includes a control server 100, a plurality of video servers 200, and a synchronization signal generator 300.

The control server 100 is connected to a plurality of video servers 200. The control server 100 controls a plurality of video servers 200, transmits control commands, and transmits local time. The control server 100 may include a synchronization control unit 110 and a communication unit 130, as shown in FIG.

Referring to FIG. 2, the synchronization control unit 110 synchronizes the sample time of the first video server 201, which is designated as a reference server, in order to synchronize time synchronization among the plurality of video servers 200, that is, To the reference sample time. And synchronizes the remaining servers other than the reference server, that is, one or more (n) second video servers 203, at the reference sample time.

Here, the sample time refers to the number of frames generated according to the video frame rate after power is applied.

The communication unit 130 is connected to a plurality of video servers 200 and transmits and receives data including a sample time and a control command. At this time, the plurality of video servers 200 may be connected by wire communication or wireless communication.

Referring again to FIG. 1, a plurality of video servers 200 receives a genlock signal from a synchronization signal generator 300. That is, a plurality of video servers 200 share a genlock signal with each other.

At this time, the plurality of video servers 200 include multi-channels and record and reproduce the contents acquired through the multi-channels. The plurality of video servers 200 provide a designated video or audio in response to a request from a client terminal (not shown). Here, the client terminal (not shown) may include a set-top box or a digital TV.

A plurality of video servers 200 execute control commands received from the control server 100 at sample time intervals. However, each video server 200 has a different sample time. The video data received through the multiple channels of each video server 200 must be synchronized with each other. For this purpose, the sample times of the video servers 200 must be synchronized with each other. Here, the synchronization of the sample time is defined as time synchronization.

3, the plurality of video servers 200 includes an input unit 210, a communication unit 220, an output unit 230, a storage unit 250, a video server control unit 270, and a synchronization control unit 290 do.

The input unit 210 receives one or more channel signals. The one or more channel signals may include video data photographed via a plurality of broadcaster cameras (not shown).

The communication unit 220 is connected to the control server 100 through a network (not shown), receives a control command and a reference sample time from the control server 100, and transmits the control command and the reference sample time to the synchronization control unit 290. The synchronization control unit 290 receives the sample time and transfers the sample time to the control server 100.

The output unit 230 outputs the processed video data through the video server control unit 270. The storage unit 250 stores the video data under the control of the video server control unit 270. That is, the video server controller 270 can store video data shot by a plurality of broadcasting company cameras (not shown).

The video server control unit 270 records and reproduces a time-synchronized content frame by the synchronization control unit 290. [

The video server control unit 270 synchronizes and encodes audio and video data input through the input unit 210 on a frame basis, and then stores the encoded audio and video data in the storage unit 250.

The video server control unit 270 reads the files stored in the storage unit 250 and outputs the files through the output unit 230 according to the sample time.

The synchronization control unit 290 sets the server time according to the local time received from the control server 100. [ After correcting the sample time based on the reference sample time received from the control server 100, time synchronization of the audio frame and the video frame is performed in accordance with the sample time, and the result is output to the video server controller 270.

At this time, the synchronization control unit 290 operates differently depending on whether the video server 200 is the first video server 201 or the one or more second video servers 203.

The synchronization control unit 290 transmits its own sample time to the control server 100 when the video server 200 operates as the first video server 201. [ These sample times are set to reference sample times.

The synchronization control unit 290 receives the reference sample time from the control server 100 when the video server 200 operates as one or more second video servers 203. [ And corrects its sample time based on the reference sample time.

Referring again to FIG. 1, the synchronization signal generator 300 transmits a genlock signal to a plurality of video servers 200. A plurality of devices used in a broadcasting system must be synchronized with a reference signal for synthesizing a video signal, which is called a genlock signal.

The time synchronization method will be described based on the contents described so far.

4 (a) and 4 (b) are flowcharts illustrating a time synchronization method according to an embodiment of the present invention.

At this time, the video server 200 is divided into a first video server 201 that operates as a reference server and a plurality of second video servers 203 that are other servers than the reference server. The same components as those described in Figs. 1 to 3 will be described using the same reference numerals.

Referring to FIG. 4A, when the power is applied (S101), the synchronization control unit 290 of the first video server 201 sets its own sample time based on the genlock signal received from the synchronization signal generator 300 (S103).

The synchronization control unit 290 of the plurality of second video servers 203 also initializes its own sample time based on the genlock signal received from the synchronization signal generator 300 in step S107 when power is applied in step S105.

Here, since the time when the power is applied differs in each of the video servers 201 and 203, a difference in sample time also occurs. Therefore, the sample time of the remaining video servers 203 is synchronized based on the sample time of the first video server 201 which is the reference server.

The synchronization control unit 101 of the control server 100 transmits its own local time to each of the video servers 201 and 203 (S109 and S111). Then, each of the video servers 201 and 203 sets the respective server times at the local time of the control server 100 (S113 and S115).

The synchronization control unit 101 of the control server 100 requests the first video server 201 designated as the reference server for the next genlock time in step S117 and receives it in step S119. Here, the first video server 201 designated as the reference server is arbitrarily selected from the plurality of video servers 201 and 203. For example, the control server 100 may randomly select among a plurality of video servers, or may select a video server designated by the operator.

And the next genlock time is the next period of the genlock signal received periodically.

The synchronization control unit 101 of the control server 100 sets a command transmission time point based on the next genlock time of the first video server 201 (S121). In step S123, the video server 201 and the video server 203 are requested to store a sample time at a set time point. Then, each of the video servers 201, 203 stores its current sample time (S127, S129).

The synchronization control unit 101 of the control server 100 requests the first video server 201 for the sample time stored in the first video server 201 in step S131 and receives the sample time in step S133.

The synchronization control unit 101 of the control server 100 sets the sample time of the first video server 201 received in step S133 as the reference sample time (S135). Then, the reference sample time is transmitted to the video servers 201 and 203 (S137 and S139).

Then, the synchronization control unit 290 of the first video server 201 calculates the difference value between the reference sample time and the stored sample time (S141). At this time, since the first video server 201 is the reference server, the difference value becomes zero.

In addition, the synchronization controller 290 of the second video server 203 calculates the difference value between the reference sample time and the stored sample time (S143). At this time, the difference values of each of the one or more second video servers 203 may be different from each other.

Then, the synchronization control unit 101 of the control server 100 requests the first video server 201 for the sample time (S145) and receives the sample time (S147).

Then, the synchronization control unit 101 of the control server 100 transmits a control command including the received sample time to each of the video servers 201 and 203 (S143 and S145).

The synchronization control unit 290 of the first video server 201 calculates the final sample time by summing the sample time received in step S143 and the difference calculated in step S141 (S147). Then, the video server controller 270 of the first video server 201 executes a control command based on the final sample time (S149).

The synchronization control unit 290 of the second video server 203 calculates the final sample time by summing the sample time received in step S145 and the difference calculated in step S143 (S151). Then, the video server controller 270 of the second video server 203 executes the control command based on the final sample time (S153).

The embodiments of the present invention described above are not implemented only by the apparatus and method, but may be implemented through a program for realizing the function corresponding to the configuration of the embodiment of the present invention or a recording medium on which the program is recorded.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (15)

A first video server for processing audio data and video data received through the multiple channels in a sample time unit and setting a sample time of the audio data and the video data received as a reference sample time for time synchronization,
One or more second video servers for correcting their sample times based on a sample time of the first video server, and
Wherein the first video server is connected to the first video server and the one or more second video servers and requests and receives a sample time of the first video server from the first video server, 2 control server to transmit to video server
/ RTI > The method according to claim 1,
Wherein the control server comprises:
Requesting the first video server and the one or more second video servers to save a current sample time, receiving a stored current sample time from the first video server and setting the reference sample time to the first video server, A second video server,
/ RTI > 3. The method of claim 2,
Wherein the synchronization control unit comprises:
Receive a next genlock time from the first video server and request the current sample time storage before the next genlock time arrives. The method of claim 3,
Wherein the synchronization control unit comprises:
Requesting and receiving a sample time from the first video server, transmitting a control command including the received sample time to the one or more second video servers,
Wherein the at least one second video server comprises:
Calculating a difference value between the stored current sample time and the reference sample time, and summing the difference value with the sample time included in the control instruction to perform the control instruction at the calculated final sample time. 5. The method of claim 4,
The first video server and the one or more second video servers,
And sets the local time received from the control server as a server reference time. 5. The method of claim 4,
Wherein the first video server and the second video server,
An input unit for receiving the audio data and the video data through a plurality of channels,
A communication unit connected to the control server through a network, receiving a control command, a reference sample time from the control server, and transmitting the sample time to the control server,
An output unit for outputting time-synchronized audio data and video data,
A synchronization controller for correcting its own sample time based on the reference sample time and performing the time synchronization with a corrected sample time,
A video server controller for synchronizing and encoding the audio data and the video data received from the input unit on a frame-by-frame basis, storing the encoded data, and outputting the encoded data to the output unit in accordance with a sample time,
/ RTI > CLAIMS 1. A method of synchronizing time of two or more video servers,
Obtaining a current sample time from a first video server designated as a reference server by a control server controlling the two or more video servers,
Setting the current sample time to a reference sample time,
Transmitting the reference sample time to the video servers including the first video server, and
Transmitting a control command to the video servers, including the first video server,
Wherein the video servers, including the first video server, perform the control command in units of sample times corrected based on the reference sample time. 8. The method of claim 7,
Prior to the step of obtaining the current sample time,
Transmitting the local time to the video servers including the first video server and setting the local time to a server reference time
Lt; / RTI > 8. The method of claim 7,
Prior to transmitting the control command,
Requesting and receiving a current sample time from the first video server,
Wherein the transmitting the control command comprises:
Transmitting a control command including the current sample time,
Wherein the video servers, including the first video server, perform the control command at a final sample time corrected using a current sample time included in the control command. 10. The method of claim 9,
Between the step of setting the server reference time and the step of acquiring the current sample time,
Receiving a next genlock time from the first video server, and
Setting the control command transmission time point before the next genlock time comes
Lt; / RTI > CLAIMS 1. A method of synchronizing time of two or more video servers,
Receiving a reference sample time from a control server coupled to the at least two video servers,
Correcting its own sample time based on the reference sample time, and
Performing a control command received from the control server at a corrected sample time
/ RTI > 12. The method of claim 11,
Before the step of receiving the reference sample time,
Further comprising the step of storing a current sample time in response to a request from the control server,
Wherein the correcting comprises:
Calculating a difference value between the stored current sample time and the reference sample time, and
Calculating a final sample time by summing the sample time included in the control command and the difference value
/ RTI > 12. The method of claim 11,
Before the step of receiving the reference sample time,
Transmitting the stored current sample time to the control server at the request of the control server
Lt; / RTI > 12. The method of claim 11,
Before the step of receiving the reference sample time,
When the power is applied, initializing the sample time based on the genlock signal
Lt; / RTI > 12. The method of claim 11,
Before the step of receiving the reference sample time,
Receiving a local time from the control server, and
Setting a server time based on the local time
Lt; / RTI >

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