KR101196452B1 - Apparatus and method for transfering bitstream - Google Patents

Abstract

An apparatus for transmitting a bitstream includes: an encoder for encoding a video data to generate a bitstream of a base layer and one or more enhancement layers, a transmitter for transmitting a frame of the bitstream to a receiver, a receiver for receiving a response signal corresponding to the frame, and a base layer. And a controller which selects one of the one or more enhancement layers according to the response signal and controls the transmitter to transmit the frame of the selected layer.

Description

Bitstream transmission apparatus and method {APPARATUS AND METHOD FOR TRANSFERING BITSTREAM}

The present invention relates to data transmission, and more particularly, to a method of transmitting a bitstream encoded by a scalable video coding method.

Recently, based on the rapid development of information and communication technology, the application system that handles a variety of image information has been greatly expanded. In other words, it is recognized that free use of video information is natural without being restricted by time and place such as web browsing, UCC, or portable video communication by DMB broadcasting or wireless Internet. Therefore, much research is being conducted on the standardization of H.264 / SVC codec, which is a new standard for promoting free use of image information in various channel environments.

The purpose of H.264 / SVC standardization is to enable encoding and decoding of high quality video bitstreams having one or more bitstreams while maintaining the same image quality and decoder complexity as conventional H.264 / AVC. H.264 / SVC generates a scalable bitstream composed of one base layer and several enhancement layers to provide a bitstream suitable for spatial resolution and channel bandwidth of various display devices. It supports temporal, spatial, quality, and scalable features that combine these features. The biggest feature of H.264 / SVC standardization is the application of a method that digests the system complexity of the decoder while maximizing the coding efficiency. This makes it possible to handle various quality images without a significant increase in the hardware cost of the decoder.

In this case, since H.264 / SVC can restore high quality images based on the base layer, the data of the base layer is more important than the data of other enhancement layers. In other words, the base layer affects all other enhancement layers, so it is important data that determines the performance of the entire system. Therefore, data transmission of the base layer needs to be transmitted in a highly reliable manner.

In order to view the video image of the uppermost layer, the user must receive data of both the base layer and all enhancement layers, and can receive an image of improved quality through source decoding based on the data of the base layer. If the reception of the data of the base layer fails because the channel is not in good condition while transmitting the first few frames of the bitstream by the above-described method, the channel is in good condition later. Cannot be restored.

In addition, since the high quality image can be reconstructed based on the base layer, the base layer data has more important information than the data of other enhancement layers. Errors in the base layer data are important data that determine the performance of the overall system because they affect all other enhancement layers. Therefore, the base layer should be transmitted with high reliability. In H.264 / SVC, the base layer contains the most critical data, and the enhancement layer includes data of relatively less importance as the layer increases. Therefore, there is a need for a method of transmitting data in accordance with an appropriate channel situation in order to transmit H.264 / SVC data.

The present invention is to provide a bitstream transmission method that can increase the reliability by reducing the error of a layer of high importance when transmitting the bitstream.

According to an aspect of the present invention, the encoding unit for encoding the video data to generate a bitstream of the base layer and at least one enhancement layer; A transmitter for transmitting the frame of the bitstream to a receiver; A receiver which receives a response signal corresponding to the frame; A bitstream transmission apparatus including a control unit for selecting one of a base layer and at least one enhancement layer according to the response signal and controlling the transmitter to transmit a frame of the selected layer is provided.

The transmitter may additionally transmit a pilot symbol corresponding to the frame to a receiver.

The response signal may be a response signal corresponding to the SINR measured when the pilot symbol is received at the receiving side.

The controller may control the transmitter to transmit a frame of a layer corresponding to the response signal among the base layer and one or more enhancement layers.

The response signal may include an SINR corresponding to the pilot symbol.

The controller may control the transmitter to transmit a frame of a layer corresponding to a range to which the SINR belongs among a plurality of specified ranges.

A method for transmitting a bitstream by a bitstream transmission apparatus, the method comprising: generating a bitstream of a base layer and at least one enhancement layer by encoding video data; Transmitting a frame of the bitstream corresponding to the base layer to a receiving end; Receiving a response signal corresponding to the frame; Selecting one of a base layer and at least one enhancement layer according to the response signal; And transmitting a frame of the selected layer.

In the transmitting of the frame of the bitstream to a receiving end, a pilot symbol may be added to a frame corresponding to the frame and transmitted.

The response signal may be a response signal corresponding to the SINR measured when the pilot symbol is received at the receiving side.

The selecting of the layer according to the response signal may include selecting a frame of a layer corresponding to the response signal from the base layer and one or more enhancement layers.

The response signal may include an SINR corresponding to the pilot symbol.

The selecting of the layer according to the response signal may include selecting a layer corresponding to a range to which the SINR belongs among a plurality of specified ranges.

According to an embodiment of the present invention, the base layer is transmitted when the channel is in good condition, thereby increasing reliability, thereby improving system performance.

According to an embodiment of the present invention, since the enhancement layer is transmitted in consideration of the channel situation according to the importance of each layer, the performance of the system can be further improved.

1 is a block diagram illustrating a bitstream transmission system.
2 conceptually illustrates a bitstream to be transmitted by a bitstream transmission apparatus;
3 is a flowchart illustrating a process of encoding video data by a bitstream transmitting apparatus according to a first embodiment of the present invention and transmitting the encoded video data to the bitstream receiving apparatus.
4 is a diagram illustrating a bitstream transmitted and a response signal received by a bitstream transmission apparatus according to a first embodiment of the present invention.
5 is a flowchart illustrating a process of encoding video data by a bitstream transmission apparatus according to a second embodiment of the present invention and transmitting the encoded video data to the bitstream receiving apparatus.

The present invention may be variously modified and have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail with reference to the accompanying drawings. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Further, in the present specification, when one component is referred to as "transmitting a signal" to another component, the one component may be directly connected to the other component to transmit a signal, but there is a particular opposite description. It is to be understood that unless otherwise, the signal may be transmitted in the intermediary with another component.

1 is a block diagram illustrating a bitstream transmission system.

Hereinafter, a bitstream transmission system according to a first embodiment of the present invention will be described with reference to FIG. 1.

Referring to FIG. 1, a bitstream transmission system includes a bitstream transmission apparatus 101 and a bitstream reception apparatus 105.

The bitstream transmission apparatus 101 generates a bitstream of a base layer and an enhancement layer by encoding video data to be transmitted. The bitstream transmitter 101 modulates a frame of the base layer and transmits the modulated frame to the bitstream receiver 105. At this time, the bitstream transmission apparatus 101 additionally transmits a pilot symbol having a predetermined size and phase together with the frame. Thereafter, the bitstream transmitting apparatus 101 receives a response signal corresponding to the frame of the base layer from the bitstream receiving apparatus 105. At this time, the bitstream transmission apparatus 101 may receive a different response signal according to the reception state of the previously transmitted frame. For example, when the bitstream receiving apparatus 105 normally receives the previously transmitted frame, the bitstream transmitting apparatus 101 may receive an ACK response signal indicating normal reception of the frame. In addition, the bitstream transmission apparatus 101 may receive a NACK response signal indicating abnormal reception when a frame is not normally received by the bitstream reception apparatus 105. There may be a plurality of NACK response signals, such as NACK1, NACK2, and so on, depending on the reception state of the corresponding frame. One NACK response signal is matched to each enhancement layer. This will be described in detail later with reference to FIG. 4. The bitstream transmission apparatus 101 transmits the frame of any one layer of the base layer and the plurality of enhancement layers to the bitstream receiving apparatus 105 according to the response signal.

The bitstream receiving apparatus 105 stores the frames received from the bitstream transmitting apparatus 101, and after completing the reception of all the frames of each layer, combines them to generate the video data. At this time, the bitstream receiving apparatus 105 transmits a response signal corresponding to the signal state at the time of receiving each frame from the bitstream transmitting apparatus 101 to the bitstream transmitting apparatus 101. That is, the bitstream receiving apparatus 105 checks a pilot symbol received with each frame, measures a signal to interference plus noise ratio (SINR), and generates a response signal corresponding to the SINR. The bitstream is transmitted to the apparatus 101 for transmission. For example, the bitstream receiving apparatus 105 generates a response signal (any one of an ACK and a NACK response signal) corresponding to a range to which the measured SINR belongs among a plurality of predetermined ranges, and transmits the result to the bitstream transmitting apparatus 101. send.

The bitstream transmission apparatus 101 may be a server that encodes video data and transmits a bitstream for each layer, and the bitstream reception apparatus 105 may be a terminal that receives and reproduces a bitstream from a server.

Hereinafter, the bitstream transmission apparatus 101 will be described in detail for each component.

The bitstream transmission apparatus 101 includes an encoder 110, a transmitter 120, a receiver 130, and a controller 140.

The encoder 110 encodes the video data received from the outside to generate a bitstream of the base layer and one or more enhancement layers. The encoder 110 transmits the frame of the encoded bitstream corresponding to any one of the base layer and the plurality of enhancement layers to the transmitter 120 under the control of the controller 140.

The transmitter 120 transmits a signal modulated to transmit the frame received from the encoder 110 to a predetermined channel to the bitstream receiver 105. At this time, the transmitter 120 additionally transmits a pilot symbol having a predetermined size and phase together with the frame.

The receiver 130 receives the response signal received from the bitstream receiver 105.

When the receiver 130 receives the response signal, the controller 140 checks the corresponding response signal to determine whether the previously transmitted frame is normally received by the bitstream receiving apparatus 105. The controller 140 determines a frame to be transmitted later as a frame of a base layer or an enhancement layer according to whether the previously transmitted frame is normally received, and controls the encoder 110 to transmit a frame of the selected layer to the transmitter 120. . Hereinafter, referring to FIGS. 2 to 4, the control unit 140 of the bitstream transmission apparatus 101 according to the first embodiment of the present invention transmits the encoding unit 110 to transmit the frame to the transmission unit 120 according to the reception level. The process of control will be described in detail.

Hereinafter, a bitstream transmission system according to a second embodiment of the present invention will be described with reference to FIG. 1. Since the components constituting the bitstream transmission system according to the second embodiment to be described below are different from those of the bitstream transmission system according to the first embodiment, detailed descriptions of the same functions will be omitted.

Referring to FIG. 1, a bitstream transmission system according to a second embodiment of the present invention includes a bitstream transmission apparatus 101 and a bitstream reception apparatus 105.

The bitstream transmission apparatus 101 generates a bitstream of a base layer and one or more enhancement layers by encoding video data to be transmitted. The bitstream transmission apparatus 101 modulates the frame and the pilot symbol of the base layer and transmits the modulated frame and the pilot symbol to the bitstream reception apparatus 105. Thereafter, the bitstream transmission apparatus 101 receives an SINR corresponding to the transmitted pilot symbol from the bitstream reception apparatus 105. The bitstream transmitter 101 transmits one frame of the base layer and the enhancement layer to the bitstream receiver 105 according to the received SINR.

The bitstream receiving apparatus 105 stores the frames received from the bitstream transmitting apparatus 101, and after completing the reception of all the frames of each layer, combines them to generate the video data. At this time, the bitstream receiving apparatus 105 checks the pilot symbol received with the frame, measures the SINR, and transmits a response signal including the SINR to the bitstream transmitting apparatus 101.

Hereinafter, the bitstream transmission apparatus 101 will be described in detail for each component.

The bitstream transmission apparatus 101 includes an encoder 110, a transmitter 120, a receiver 130, and a controller 140.

The receiver 130 receives a response signal received from the bitstream receiver 105 and detects an SINR corresponding to a frame previously transmitted from the received signal.

When receiving the reception level, the controller 140 checks the SINR and checks whether the previously transmitted frame is normally received by the bitstream receiving apparatus 105. The controller 140 determines that a frame to be transmitted later is a frame of a base layer or an enhancement layer according to whether a previously transmitted frame is normally received, and controls the encoder 110 to transmit a frame of the selected layer to the transmitter 120. . Hereinafter, a process of controlling the encoder 110 to transmit the frame to the transmitter 120 according to the reception level by the controller 140 of the bitstream transmission apparatus 101 according to the second embodiment of the present invention with reference to FIG. 5. Will be described in detail.

2 is a diagram conceptually illustrating a bitstream to be transmitted by a bitstream transmission apparatus. Hereinafter, the encoding unit 110 of the bitstream transmission apparatus 101 is assumed to generate a bitstream of one base layer and two enhancement layers by encoding video data, but the encoding scheme of the encoding unit 110 is described. The number of enhancement layers may vary.

Referring to FIG. 2, the encoding unit 110 of the bitstream transmission apparatus 101 receives and encodes video data to generate a bitstream of a base layer and a bitstream corresponding to two enhancement layers. Although the bitstreams constituting the base layer and the enhancement layer may vary according to the encoding method of the video data and the encoding unit 110, for clarity, the base layer encoded by the encoding unit 110 as shown in FIG. The bitstream comprises frames BL1, BL2 and BL3, the bitstream of the first enhancement layer comprises frames EL11, EL12, EL13, EL14, and the bitstream of the second enhancement layer comprises frames EL21, EL22 and EL23, EL24 and It is assumed that it includes EL25.

When the bitstream transmitting apparatus 101 normally receives all the frames in the bitstream receiving apparatus 105 while transmitting the bitstream due to the good state of the channel transmitting the bitstream, the bitstream transmitting apparatus 101 selects each frame in the order illustrated in FIG. Can transmit However, when the state of the channel becomes worse while transmitting a bitstream belonging to the base layer, the bitstream transmission apparatus 101 stops transmitting the bitstream of the base layer, and transmits the bitstream of the enhancement layer to transmit the bitstream of the base layer. Errors in transmission can be reduced. That is, the bitstream transmission apparatus 101 transmits the bitstream of the base layer when the channel state is normal, and transmits the bitstream of the enhancement layer when the channel state is abnormal.

In addition, in transmitting the bitstream of the enhancement layer, the bitstream transmission apparatus 101 confirms the level of the response signal according to the reception level included in the response signal received from the bitstream reception apparatus 102 and the level of the response signal. Select the enhancement layer accordingly. The bitstream transmission apparatus 101 transmits the bitstream of the selected enhancement layer.

Hereinafter, a process of transmitting a bitstream of a base layer or an enhancement layer according to channel conditions will be described in detail with reference to FIG. 3.

3 is a flowchart illustrating a process of encoding video data by a bitstream transmission apparatus according to a first embodiment of the present invention and transmitting the encoded video data to the bitstream receiving apparatus. Hereinafter, when the configuration unit of the bitstream transmission apparatus 101 operates to transmit the bitstream, the subject will be collectively described as the bitstream transmission apparatus 101 for clarity.

Referring to FIG. 3, in operation 310, the bitstream transmission apparatus 101 receives video data from the outside.

In operation 320, the bitstream transmission apparatus 101 encodes the video data received in operation 310 to generate a bitstream of a base layer and one or more enhancement layers.

In operation 330, the bitstream transmission apparatus 101 transmits the first frame of the base layer.

In operation 340, the bitstream transmission apparatus 101 receives a response signal corresponding to the frame transmitted in operation 330 from the bitstream reception apparatus 105.

In operation 350, the bitstream transmission apparatus 101 determines whether the frame is normally received by checking the response signal. For example, when the response signal is the ACK response signal, the bitstream transmission apparatus 101 may determine whether the frame has been successfully received.

If the frame is not normally received, in step 360, the bitstream transmission apparatus 101 transmits a frame of any one of the enhancement layers according to the response signal. For example, when the response signal is NACK1, the bitstream transmission apparatus 101 transmits a frame of a layer corresponding to NACK1.

If the frame is normally received, the bitstream transmission apparatus 101 transmits the frame of the base layer to the bitstream reception apparatus 105 in step 370.

The processes of steps 350 to 370 described above may be repeated until all the frames of the base layer are transmitted.

After all frames of the base layer have been transmitted, when the frame is normally received, the bitstream transmission apparatus 101 transmits the frame of the layer having the highest priority among the layers in which the frame to be transmitted is transmitted to the bitstream reception apparatus 105. do.

Hereinafter, a process of transmitting the bitstream described above with reference to FIG. 2 will be described in detail with reference to FIG. 4.

4 is a diagram illustrating a bitstream transmitted and a response signal received by a bitstream transmission apparatus according to a first embodiment of the present invention. At this time, ACK (BLn) is a response signal indicating that the frame BLn was received normally, NACK1 (BLn), NACK2 (BLn) is a response signal indicating that the frame BLn was not normally received. In addition, NACK1 (BLn) means a response signal having a better signal state than NACK2 (BLn) when receiving the corresponding frame BLn. That is, the bitstream receiving apparatus 105 sends an ACK (BLn) as a response signal to the bitstream transmitting apparatus 101 when the signal strength is normal over the first reference value which is a specified value when the frame BLn is received from the bitstream transmitting apparatus. send. The bitstream receiver 105 receives the NACK1 (BLn) as a response signal when the signal strength falls within a specified range (a range below the first reference value and above the second reference value) when the frame is received. To send). The bitstream receiving apparatus 105 transmits NACK2 (BLn) to the bitstream transmitting apparatus 101 as a response signal when the signal hour is less than the second reference value, which is a designated value when the frame is received. At this time, the base layer is matched to the ACK response signal, and one enhancement layer is matched to each NACK response signal.

Hereinafter, a process of transmitting a frame of a bitstream for each layer will be described with reference to FIG. 4.

The bitstream transmitting apparatus 101 transmits the frame BL1 of the base layer to the bitstream receiving apparatus 105. At this time, since the bitstream transmission apparatus 101 does not receive any response signal while transmitting BL1, the bitstream transmission apparatus 101 may directly transmit BL2. The bitstream transmission apparatus 101 receives the response signal NACK1 (BL1) while transmitting the BL2. The bitstream transmission apparatus 101 transmits the frame EL11 of the first enhancement layer to the bitstream reception apparatus 105 as the response signal is NACK1 (BL1). Subsequently, the bitstream transmission apparatus 101 transmits EL12, the next frame of the first enhancement layer, to the bitstream reception apparatus 105 as the response signal receives NACK1 (BL2). After receiving the response signal NACK2 EL11, the bitstream transmission apparatus 101 transmits the EL21, which is a frame of the second enhancement layer, to the bitstream reception apparatus 105. Subsequently, upon receiving the ACK EL12, the bitstream transmission apparatus 101 transmits BL1 of the base layer, which has not been well received in a previous transmission attempt. The bitstream transmission apparatus 101 transmits BL2 of the base layer according to the reception of the ACK EL21. The bitstream transmission apparatus 101 transmits BL3 in response to receiving the ACK BL1. The bitstream transmission apparatus 101 receives the ACK (BL2) and bitstreams the EL13, which is the next frame of the first enhancement layer having the highest priority among the enhancement layers because there are no more frames of the base layer. Transmit to 105. Then, the bitstream transmitting apparatus 101 transmits the next frame EL14 of the first enhancement layer to the bitstream receiving apparatus 105 as the response signal ACK BL3 is received. Since transmission of all frames of the base layer and the first enhancement layer has been completed, the bitstream transmission apparatus 101 continuously transmits the frames of the second enhancement layer regardless of the response signal.

5 is a flowchart illustrating a process of encoding video data by a bitstream transmission apparatus according to a second embodiment of the present invention and transmitting the encoded video data to the bitstream receiving apparatus.

Referring to FIG. 5, in operation 510, the bitstream transmission apparatus 101 receives video data from the outside.

In operation 520, the bitstream transmission apparatus 101 encodes the video data received in operation 510 to generate a bitstream of a base layer and a plurality of enhancement layers.

In operation 530, the bitstream transmission apparatus 101 transmits the first frame of the base layer.

In operation 540, the bitstream transmission apparatus 101 receives a response signal for a previously transmitted frame. At this time, the response signal includes an SINR corresponding to the first frame.

In operation 550, the bitstream transmission apparatus 101 selects a layer to be transmitted later according to a range to which the SINR included in the response signal belongs among a plurality of predetermined SINR ranges. For example, in the bitstream transmission apparatus 101, a range above the first reference value, a range above the second reference value and below the first reference value, and a range below the second reference value are preset, and the bitstream transmission device 101 may have a response signal. If the SINR included in the value is equal to or greater than the first reference value, a layer corresponding to a range greater than or equal to the first reference value is selected as a layer to be transmitted later.

In operation 560, the bitstream transmission apparatus 101 transmits the frame of the layer selected in operation 550.

In operation 570, the bitstream transmission apparatus 101 checks whether all frames of all layers have been transmitted.

When all the frames have been transmitted, the bitstream transmission apparatus 101 ends the bitstream transmission process.

If there is a frame that has not been transmitted, the bitstream transmission apparatus 101 repeats the process from step 540.

The above-described bitstream transmission apparatus transmits data of the base layer when the channel is most favorable, so that the data can have a very high reliability.

So far I looked at the center of the embodiment for the present invention. Many embodiments other than the above-described embodiments are within the claims of the present invention. Those skilled in the art will appreciate that the present invention can be implemented in a modified form without departing from the essential features of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation. The scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the scope will be construed as being included in the present invention.

Claims (12)

An encoding unit for encoding video data to generate a bitstream of a base layer and at least one enhancement layer;
A transmitter for transmitting the frame of the bitstream to a bitstream receiving apparatus;
A receiver which receives a response signal corresponding to the frame;
A control unit which selects any one of a base layer and at least one enhancement layer according to the response signal and controls the transmitter to transmit a frame of the selected layer;
Including but not limited to:
The transmitter additionally transmits a pilot symbol corresponding to the frame to the bitstream receiving apparatus.
The response signal is a bitstream transmission apparatus, characterized in that the response signal corresponding to the signal to interference plus noise ratio (SINR) measured when the pilot symbol is received at the bitstream receiving apparatus.
delete delete The method according to claim 1,
And the controller controls the transmitter to transmit a frame of a layer corresponding to the response signal among the base layer and one or more enhancement layers.
An encoding unit for encoding video data to generate a bitstream of a base layer and at least one enhancement layer;
A transmitter for transmitting the frame of the bitstream to a bitstream receiving apparatus;
A receiver which receives a response signal corresponding to the frame;
A control unit which selects any one of a base layer and at least one enhancement layer according to the response signal and controls the transmitter to transmit a frame of the selected layer;
Including but not limited to:
The transmitter additionally transmits a pilot symbol corresponding to the frame to the bitstream receiving apparatus.
And wherein the response signal includes a Signal to Interference plus Noise Ratio (SINR) corresponding to the pilot symbol.
6. The method of claim 5,
And the control unit controls the transmitter to transmit a frame of a layer corresponding to a range to which a signal to interference plus noise ratio (SINR) among a plurality of specified ranges belongs. .
In the method for transmitting a bitstream by the bitstream transmission apparatus,
Encoding video data to generate a bitstream of a base layer and one or more enhancement layers;
Transmitting a frame of the bitstream corresponding to the base layer to a bitstream receiving apparatus;
Receiving a response signal corresponding to the frame;
Selecting one of a base layer and at least one enhancement layer according to the response signal;
Transmitting a frame of the selected layer
Including but not limited to:
The step of transmitting the frame of the bitstream to the bitstream receiving apparatus is to add a pilot symbol to the frame corresponding to the frame and transmit.
The response signal is a bitstream transmission method, characterized in that the response signal corresponding to the signal to interference plus noise ratio (SINR) measured when the pilot symbol is received at the bitstream receiving apparatus.
delete delete The method of claim 7, wherein
The step of selecting the layer according to the response signal
And selecting a frame of a layer corresponding to the response signal among the base layer and one or more enhancement layers.
In the method for transmitting a bitstream by the bitstream transmission apparatus,
Encoding video data to generate a bitstream of a base layer and one or more enhancement layers;
Transmitting a frame of the bitstream corresponding to the base layer to a bitstream receiving apparatus;
Receiving a response signal corresponding to the frame;
Selecting one of a base layer and at least one enhancement layer according to the response signal; And
Transmitting a frame of the selected layer
Including but not limited to:
The step of transmitting the frame of the bitstream to the bitstream receiving apparatus is to add a pilot symbol to the frame corresponding to the frame and transmit.
The response signal includes a signal to interference plus noise ratio (SINR) corresponding to the pilot symbol, characterized in that the bitstream transmission method.
12. The method of claim 11,
The step of selecting the layer according to the response signal
And selecting a layer corresponding to the signal to interference plus noise ratio (SINR) range among a plurality of specified ranges.

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