KR101352768B1 - Video frame synchronization method and apparatus among video players - Google Patents

Abstract

The disclosed technique relates to an apparatus and method for synchronizing video frames among video playback devices, comprising: a slave video playback device allowed to detect a master vertical synchronization signal transmitted from a master video playback device; allowing the slave video playback device to determine whether the section of the master vertical synchronization signal corresponds to that of a vertical synchronization signal of the slave video playback device using a timer value included in the master vertical synchronization signal; allowing the slave video playback device to detect a presentation time stamp (PTS) included in master vertical synchronization signal; and if the section of the master vertical synchronization signal corresponds to that of the vertical synchronization signal of the slave video playback device, allowing the slave video playback device to synchronize video frames reproduced by the master video playback device using the PTS and reproduce the video frames. Thus, it is possible to promptly detect whether video frames are synchronized among a plurality of video playback devices to reproduce the synchronized video frames at low costs and with high efficiency. [Reference numerals] (110) Detect a vertical synchronization signal; (120) Determine a vertical synchronization signal; (130) Determine whether the sections of the vertical synchronization signals match; (140) Detect a PTS; (150) Synchronize video frames; (AA) Start; (BB) End

Description

Video Frame Synchronization Method and Apparatus Among Video Players and Method {Video Frame Synchronization Method And Apparatus Among Video Players}

The disclosed technology relates to an apparatus and method for synchronizing image frames between image reproducing apparatuses, and more particularly, but to a method and apparatus for providing synchronization for image frames reproduced in a plurality of image reproducing apparatuses without being limited thereto.

As digital technology advances, digital images in various formats are generated and stored. In such an environment, a user can play and display various digital images as described above when desired through a multimedia player. For example, a user can play back images using a computer, an optical disc player, a set top box, a game machine, and a digital player device.

Such devices may be included in one piece or may be separate. In addition, several video reproducing apparatuses may be directly connected or selectively connected through a distributor. However, when the image reproducing apparatus is implemented in this manner, the user's request can be satisfied, but there is a problem of controlling each apparatus independently. In addition, the inconvenience and cost of controlling each device also occurred.

As a related art for a method and apparatus for synchronizing image frames in a plurality of image reproducing apparatuses, Korean Patent Publication No. 10-2012-0001268 (name of the invention: a method for synchronizing a frame between a multi-vision system and an image reproducing apparatus).

The disclosed technology provides a method and apparatus for synchronizing and reproducing image frames between a plurality of image reproducing apparatuses.

In order to achieve the above technical problem, a first aspect of the disclosed technology is to detect a master vertical synchronizing signal transmitted by a master image reproducing apparatus in a slave image reproducing apparatus, and a timer value included in the master vertical synchronizing signal in the slave image reproducing apparatus. Determining whether the interval of the master vertical synchronization signal matches the vertical synchronization signal interval of the slave video reproducing apparatus by itself, detecting the PTS (Presentation Time Stamp) included in the master vertical synchronization signal in the slave video reproducing apparatus; If the interval of the master vertical synchronization signal coincides with the interval of the vertical synchronization signal of the slave video playback device, the slave video playback device synchronizes to the video frame played by the master video playback device using PTS, and reproduces the video frame. In the video playback device comprising a It is to provide a video frame synchronization method.

In order to achieve the above technical problem, a second aspect of the disclosed technology includes a master image reproducing apparatus for transmitting a master vertical synchronizing signal, and a slave image reproducing apparatus for detecting a timer value and a presentation time stamp (PTS) included in the master vertical synchronizing signal. And the slave video reproducing apparatus determines whether the section of the master vertical sync signal matches the section of the vertical sync signal by using the timer value, and if the section of the master vertical sync signal matches the section of the vertical sync signal of the master, The present invention provides a video frame synchronization device that synchronizes to a video frame reproduced by a master video reproducing apparatus using a PTS (Presentation Time Stamp), and between video reproducing apparatuses for reproducing the video frame.

Embodiments of the disclosed technique may have effects that include the following advantages. It should be understood, however, that the scope of the disclosed technology is not to be construed as limited thereby, since the embodiments of the disclosed technology are not meant to include all such embodiments.

According to an embodiment of the disclosed technology, in reproducing an image frame using a plurality of image reproducing apparatus, regardless of the number of connected image reproducing apparatuses, it is possible to quickly detect a skew of synchronization and to immediately deal with an effect of synchronizing images. do. In addition, compared to other conventional synchronization apparatuses and methods, the cost and time required for synchronization are reduced, thereby providing an effect of efficiently operating an image reproducing apparatus.

1 is a flowchart illustrating an image frame synchronization method in an image reproducing apparatus according to an embodiment of the disclosed technology.
2 is a block diagram of an image frame synchronization device in an image reproducing apparatus according to an embodiment of the disclosed technology.
FIG. 3 is a diagram of a plurality of image reproducing apparatuses using vertical synchronization signals to reproduce image frames in an embodiment of the disclosed technology.
FIG. 4 is a diagram for determining whether or not to coincide with a section of a vertical synchronization signal in an embodiment of the disclosed technology.
5 is a diagram illustrating the steps required to synchronize image frames according to an embodiment of the disclosed technology.

The description of the disclosed technique is merely an example for structural or functional explanation and the scope of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas.

Meanwhile, the meaning of the terms described in the present application should be understood as follows.

Terms such as “first” and “second” are intended to distinguish one component from another component, and the scope of rights should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" to another element, it may be directly connected to the other element, but there may be other elements in between. On the other hand, when an element is referred to as being "directly connected" to another element, it should be understood that there are no other elements in between. On the other hand, other expressions describing the relationship between the components, such as "between" and "immediately between" or "neighboring to" and "directly neighboring", should be interpreted as well.

Singular expressions should be understood to include plural expressions unless the context clearly indicates otherwise, and terms such as "include" or "have" refer to features, numbers, steps, operations, components, parts, or parts thereof described. It is to be understood that the combination is intended to be present, but not to exclude in advance the possibility of the presence or addition of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

Each step may take place differently from the stated order unless explicitly stated in a specific order in the context. That is, each step may occur in the same order as described, may be performed substantially concurrently, or may be performed in reverse order.

All terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which the disclosed technology belongs, unless otherwise defined. Terms such as those defined in commonly used dictionaries should be interpreted to be consistent with the meanings in the context of the relevant art and can not be interpreted as having ideal or overly formal meaning unless explicitly defined in the present application .

1 is a flowchart illustrating an image frame synchronization method in an image reproducing apparatus according to an embodiment of the disclosed technology. Referring to FIG. 1, a method of synchronizing image frames in an image reproducing apparatus includes detecting a vertical synchronizing signal 110, determining a timer value included in the vertical synchronizing signal 120, and matching a section of the vertical synchronizing signal. Determining whether or not (130), detecting a PTS (Presentation Time Stamp) included in the vertical synchronization signal 140, and synchronizing the image frame to be reproduced by the video playback device (150). Hereinafter, the technical features performed in each step will be described in detail.

In step 110, the slave video reproducing apparatus detects a vertical synchronization signal transmitted from the master video reproducing apparatus. For the detailed description of the disclosed technology, hereinafter, the vertical synchronization signal transmitted by the master video reproducing apparatus is called a master vertical synchronization signal. The master image reproducing apparatus means one image reproducing apparatus for transmitting data among a plurality of image reproducing apparatuses. The slave video reproducing apparatus means a plurality of video reproducing apparatuses other than the master video reproducing apparatus, which receive data from the master video reproducing apparatus.

On the other hand, the master video playback device and the slave video playback device are connected to each other. Here, "connected" means that the master video playback device and the slave video playback device are directly connected to each other or through an additional device. For example, the master video reproducing apparatus and the slave video reproducing apparatus may be directly connected in a cascade. As another example, the master video playback device and the slave video playback device may be connected to each other using an additional device such as a distributor. A series connection and a connection using a splitter will be described later with reference to FIG. 2.

In addition, the master video reproducing apparatus and the slave video reproducing apparatus are connected to the network as well as the physical connection between the hardware. For example, the master video playback device and the slave video playback device may be connected to each other via a network cable. Therefore, since there is a physical connection between the hardware and a network connection, it is possible to provide synchronization between video playback devices.

As such, the master video reproducing apparatus transmits data to the slave video reproducing apparatus connected directly or indirectly. In this case, the data is used for synchronizing the image to be played back. That is, the data includes a vertical synchronization signal and an image frame.

In step 120, the timer value included in the master vertical synchronization signal is determined. The master vertical synchronization signal includes a timer value and a presentation time stamp (PTS). In step 120, the timer value is first described, and the PTS will be described later through the following steps.

The timer value is used to determine the interval of the master vertical synchronization signal. The slave video reproducing apparatus calculates the number of sections of the master vertical synchronization signal transmitted from the master video reproducing apparatus using the timer value. For example, the timer value may be to reproduce a reference clock of 27 MHz. This timer value is transmitted together each time the master video reproducing apparatus transmits the master vertical synchronization signal to the slave video reproducing apparatus.

In operation 130, the slave video reproducing apparatus determines whether the section of the master vertical synchronizing signal is identical to the section of the slave video reproducing apparatus itself using the timer value included in the master vertical synchronizing signal. Step 130 is divided into two cases. In the first case, the two sections described above coincide, and in the second case, the two sections described above coincide. If the slave video reproducing apparatus determines that the section of the vertical sync signal of the slave device matches the section of the received master vertical sync signal, the slave video reproducing apparatus synchronizes the video frame using the PTS included in the master vertical sync signal. .

On the other hand, if the slave video reproducing apparatus determines that the section of its vertical synchronization signal does not match that of the received master vertical synchronizing signal, the slave video reproducing apparatus drops the data received from the master video reproducing apparatus. do.

In operation 140, the slave video reproducing apparatus detects the PTS. In the disclosed technology, PTS refers to a kind of time stamp indicating a playing time of a screening and a voice for synchronizing video and audio in a conventional MPEG system. The PTS is included in the master vertical sync signal transmitted by the master video reproducing apparatus.

In step 150, image frames are synchronized. The master image reproducing apparatus and the slave image reproducing apparatus can reproduce a part of one image with each other. When the image is reproduced in this manner, it is necessary for each image reproducing apparatus to reproduce the same image frame at the same time to synchronize the image frame. If synchronization is not performed on the images played by the respective image reproducing apparatuses, the reproduced images may be inconsistent or crosstalk may occur, causing a user to see the images.

In order to solve this problem, the disclosed technology is based on a video frame played by the master video player, and slave video player devices connected to the master video player are synchronized to play the video frame played by the master video player. In performing the synchronization, the slave video reproducing apparatus uses the PTS detected in step 140. PTS is a kind of time stamp. The PTS is transmitted through a network cable connected between the master video playback device and the slave video playback device. Therefore, by using such a PTS, it is possible to distinguish which video frame is reproduced by the master video reproducing apparatus.

Meanwhile, one embodiment of the disclosed technology uses a method of adjusting the speed of the STC as well as using the PTS as a method for providing synchronization between video playback devices. The system time clock (STC) is a reference clock generated by the transmitter. That is, it means a reference clock generated in the master video reproducing apparatus. In the slave video reproducing apparatus on the receiving side, the master video reproducing apparatus adjusts the speed of its own STC in accordance with the generated STC. For example, the slave video reproducing apparatus may adjust its reference clock to the clock of the STC generated by the master video reproducing apparatus.

2 is a block diagram of an image frame synchronization device in an image reproducing apparatus according to an embodiment of the disclosed technology. 2A is a diagram for transmitting a master vertical synchronization signal to a plurality of slave video reproducing apparatuses directly connected to a master video reproducing apparatus. 2B is a diagram for transmitting a master vertical synchronization signal to a plurality of slave video reproducing apparatuses using a divider. Referring to FIGS. 2A and 2B, an embodiment of the disclosed technology may be directly connected to a plurality of slave video playback devices by using a connection device such as a distributor or a single video playback device. It can be seen that it is possible to be connected. Of course, it will be understood by those skilled in the art that a plurality of slave video reproducing apparatuses may be connected in series or in parallel with the master video reproducing apparatus. Hereinafter, for the detailed description according to the disclosed technology, each of FIG. 2 (a) and FIG. 2 (b) will be described separately.

Referring back to FIG. 2A, the master video playback device and the slave video playback device each include a screen. The master video reproducing apparatus transmits a master vertical synchronization signal to the directly connected slave video reproducing apparatus. The slave video reproducing apparatus receives a master vertical synchronization signal transmitted by the master video reproducing apparatus.

Meanwhile, the slave video reproducing apparatus has its own vertical sync signal before receiving the master vertical sync signal. However, since the vertical synchronization signal of the slave video reproducing apparatus is not yet synchronized, it is different from the master vertical synchronization signal. For example, the vertical sync signal of the slave video reproducing apparatus may be faster or slower than the master vertical sync signal. Therefore, the slave video reproducing apparatus adjusts its own vertical synchronization signal using the received master vertical synchronization signal. Adjusting, for example, discards its own vertical sync signal and replaces it with the received master vertical sync signal, or calculates a difference value between the master vertical sync signal and its vertical sync signal and converts its vertical sync signal by this difference value. It may be correcting.

Meanwhile, FIG. 2A illustrates a method in which one master video reproducing apparatus transmits its master vertical synchronization signal to all the plurality of slave video reproducing apparatuses. Referring to FIG. 2A, the master vertical synchronization signal is connected to at least one slave video reproducing apparatus in a cascade manner. Of course, the serial method here is merely an embodiment of a connection method that may be employed between the master video playback device and the at least one slave video playback device, and does not have an expanded meaning. In this manner, the plurality of slave video reproducing apparatuses can receive the same master vertical synchronizing signal almost simultaneously.

In FIG. 2B, the master video reproducing apparatus transmits a master vertical synchronization signal to the plurality of slave video reproducing apparatuses using a divider. Unlike the method of FIG. 2A, it is also possible to use a connection device such as a dispenser in one embodiment of the disclosed technology. In the case of (a) of FIG. 2, a delay may occur when the master video reproducing apparatus transmits its vertical synchronization signal to the slave video reproducing apparatuses. Therefore, it is preferable to also provide a method of using a distributor as in FIG. 2 (b) together with the method of FIG. 2 (a).

FIG. 3 is a diagram of a plurality of image reproducing apparatuses using vertical synchronization signals to reproduce image frames in an embodiment of the disclosed technology. Referring to FIG. 3, a master vertical synchronization signal is transmitted to t2, t3 to tn starting from t1 to the master video reproducing apparatus. The slave video reproducing apparatus also has its own vertical synchronizing signal and synchronizes its vertical synchronizing signal with the master vertical synchronizing signal. That is, synchronization between the image frames to be reproduced is provided by synchronizing the vertical synchronization signals with each other.

However, in this process, it is possible for a plurality of slave video reproducing apparatuses to synchronize their own vertical synchronization signals according to the master vertical synchronization signal, but it is not known to which time the vertical synchronization signal is synchronized. . In this case, the vertical synchronization signal may be synchronized but the synchronization of the video frame reproduced by the master video reproducing apparatus may not be performed. Therefore, in one embodiment of the disclosed technology, in synchronizing the master vertical synchronization signal using the method illustrated in FIG. 4, it is determined whether the vertical synchronization signal matches.

FIG. 4 is a diagram for determining whether or not to coincide with a section of a vertical synchronization signal in an embodiment of the disclosed technology. Referring to FIG. 4, in one embodiment of the disclosed technique, it is possible to determine whether the synchronized vertical synchronization signal is valid. That is, the slave video reproducing apparatus may compare the section of the master vertical synchronizing signal received from the master video reproducing apparatus with the section of its vertical synchronizing signal.

In FIG. 4, Vsync means a timer value in one vertical synchronization signal section. In order to help the understanding of the disclosed technology, a value of 150 is used as a timer in one example. t1, t2, t3, and tn denote vertical sync signals for each section. And Master is a master video playback device, SlaveA and SlaveB are a plurality of slave video playback devices. Of course, in an embodiment of the disclosed technology, the number of slave video reproducing apparatuses is not limited to SlaveA and SlaveB, and SlaveA and SlaveB are merely examples for detailed description of an embodiment of the disclosed technology. Those of ordinary skill in the art will understand.

 As shown in Fig. 4, if the master vertical synchronizing signal transmitted from the master video reproducing apparatus is M_t1, the slave video reproducing apparatus SlaveA determines whether or not its vertical synchronizing signal SA_t1 coincides with M_t1. The other slave video player SlaveB also determines whether its vertical synchronization signal SB_t1 matches or does not match M_t1. Meanwhile, in the slave image reproducing apparatus performing the process of determining whether the sections of the vertical synchronization signals coincide with each other, the slave image reproducing apparatus uses each Vsync as a timer value. The timer value is a value for reproducing the 27 MHz reference clock as previously hoped. The method of determining the section of the vertical synchronization signal using the timer value follows the following procedure.

Before synchronization, each video player has a different value. However, after starting playback of the video frame in the master video playback device, calculate the difference between the 27MHz timer value (for example, M_t1 and SA_t1) for the first vertical sync signal and each vertical sync signal during playback. It will have a uniform value as a multiple of Vsync. For example, nVsync, the nth timer value, is obtained by subtracting M_t1 from M_t (n + 1), which is a timer value included in the master vertical synchronization signal of the master video reproducing apparatus. This value is eventually a multiple of Vsync. Accordingly, each slave video reproducing apparatus may determine whether the section of the master vertical synchronization signal synchronized with the vertical synchronization signal of the slave video is identical.

On the other hand, after the above process, if it is determined that the slave video reproducing apparatus matches the vertical sync signal and its own vertical sync signal, the video played by the master video playback device using the PTS included in the master vertical sync signal The difference between the frame and the video frame played by the slave video playback device is calculated. On the other hand, if it is determined that the slave video reproducing apparatus is inconsistent with its vertical sync signal and the master vertical sync signal, it drops data. A process of calculating the difference value of the image frame will be described in detail with reference to FIG. 5 below.

5 is a diagram illustrating the steps required to synchronize image frames according to an embodiment of the disclosed technology. Referring to FIG. 5, it can be seen that the master video reproducing apparatus transmits a timer value and a PTS value to the plurality of slave video reproducing apparatuses at a time point 1 ms after each vertical synchronization signal is transmitted. The transmission of the timer value and the PTS at a time point of 1 ms is for transmitting the value of the stabilized signal interval to the plurality of slave video reproducing apparatuses.

On the other hand, each slave video playback device, after synchronizing the vertical synchronization signal, confirms the stable interval and receives the timer value and PTS from the master video playback device. At this time, if the slave video reproducing apparatus determines that the sections of the vertical synchronization signal match, the difference value between the PTS received from the master video reproducing apparatus and its own PTS is calculated. That is, each slave video player calculates a frame difference using its PTS value and the PTS value of the master video player. Of course, if the slave video reproducing apparatus determines that the sections of the vertical synchronization signal do not match, the process of calculating the frame difference using the PTS values is omitted, and the received data is dropped.

An apparatus and a method for synchronizing image frames between image reproducing apparatuses according to embodiments of the disclosed technology have been described with reference to the exemplary embodiments shown in the drawings for clarity of understanding, but these are merely exemplary, and those skilled in the art It will be appreciated that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the disclosed technology should be defined by the appended claims.

110: vertical sync signal detection 120: vertical sync signal discrimination
130: Determine whether the vertical synchronization signal match 140: PTS detection
150: video frame synchronization

Claims (14)

Detecting a master vertical synchronization signal transmitted from the master image reproducing apparatus in the slave image reproducing apparatus;
Determining, by the slave video reproducing apparatus, whether the section of the master vertical synchronizing signal matches the vertical synchronizing signal section of the slave video reproducing apparatus using the timer value included in the master vertical synchronizing signal;
Detecting a PTS (Presentation Time Stamp) included in the master vertical synchronization signal in the slave image reproducing apparatus; And
If the period of the master vertical synchronization signal coincides with the period of the vertical synchronization signal of the slave video reproducing apparatus itself, the slave video reproducing apparatus is synchronized to the video frame reproduced by the master video reproducing apparatus using the PTS, Including playing the video frame,
The master video reproducing apparatus broadcasts the timer value and the PTS included in the master vertical synchronizing signal to a subnet of the slave video reproducing apparatus.
Reproducing the image frame,
If the interval of the master vertical synchronization signal coincides with the interval of the vertical synchronization signal of the slave video reproducing apparatus, adjusting the speed of the system time clock (STC) of the slave video reproducing apparatus according to the PTS. Method of synchronizing video frames in video player. The method of claim 1, wherein the determining of the match is as follows.
And dropping the master vertical synchronizing signal when the slave image reproducing apparatus is inconsistent with the section of the master vertical synchronizing signal and the section of the vertical synchronizing signal of the slave image reproducing apparatus itself. Frame sync method. The apparatus of claim 1, wherein the slave video reproducing apparatus comprises:
The video frame synchronization method between the video playback device connected in series or in parallel with the master video playback device. The apparatus of claim 1, wherein the slave video reproducing apparatus comprises:
An image frame synchronization method between an image reproducing apparatus including a plurality of image reproducing apparatuses. The method of claim 1, wherein the timer value,
A video frame synchronization method between video playback devices including a counter value of 27 MHz. delete delete An apparatus for synchronizing image frames reproduced by a plurality of image reproducing apparatuses,
A master video reproducing apparatus for transmitting a master vertical synchronization signal; And
A slave image reproducing apparatus for detecting a timer value and a presentation time stamp (PTS) included in the master vertical synchronization signal;
The slave video reproducing apparatus determines whether or not the section of the master vertical sync signal coincides with the vertical sync signal section of the master by using the timer value. If there is a match, the PTS (synchronization time stamp) is synchronized to an image frame reproduced by the master image reproducing apparatus, and the image frame is reproduced.
The master video reproducing apparatus broadcasts the timer value and the PTS included in the master vertical synchronization signal to a subnet of the slave video reproducing apparatus.
The slave video reproducing apparatus speeds up the speed of the system time clock (STC) of the slave video reproducing apparatus according to the PTS when the period of the master vertical synchronizing signal coincides with the vertical synchronizing signal of the slave video reproducing apparatus. Image frame synchronization device between the video playback device comprising the step of adjusting. The apparatus of claim 8, wherein the slave video reproducing apparatus comprises:
And a video frame synchronization device for dropping the master vertical sync signal when the section of the master vertical sync signal does not match the section of the own vertical sync signal. The apparatus of claim 8, wherein the slave video reproducing apparatus comprises:
Image frame synchronization device between the image playback device connected in series or in parallel with the master video playback device. The apparatus of claim 8, wherein the slave video reproducing apparatus comprises:
An apparatus for synchronizing video frames between video playback devices including a plurality of video playback devices. The method of claim 8, wherein the timer value,
Video frame synchronization device between video playback device including a counter value of 27MHz. delete delete

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