KR100923865B1 - Distributed video coding apparatus and method using spatial down and up sampling - Google Patents

Abstract

The present invention relates to a video codec, and more particularly, to a distributed video codec device and a method using spatial reduction and enlargement which can easily decode an image at a receiving end by transmitting the image in time and space.

The present invention includes reducing the input image, encoding the reduced image, decoding the encoded image, and enlarging the decoded image.

Description

DISTRIBUTED VIDEO CODING APPARATUS AND METHOD USING SPATIAL DOWN AND UP SAMPLING}

The present invention relates to a video codec, and more particularly, to a distributed video codec device and a method using spatial reduction and enlargement which can easily decode an image at a receiving end by transmitting the image in time and space.

The present invention is derived from the research conducted as part of the IT growth engine technology development project of the Ministry of Information and Communication and the Ministry of Information and Communication Research and Development. [Task Management Number: 2005-S-103-03, Title: Ubiquitous Content in Integrated Convergence Environment] Service technology development].

Recently, a distributed video coding technique for efficient video coding has been attracting much attention due to the rapid increase of moving image content.

1 is a block diagram showing the configuration of a conventional Wyner-ziv distributed video codec.

Referring to FIG. 1, a conventional Wyner-ziv distributed video codec device includes a coding unit and a decoder.

The transmitter 110 of the conventional video codec device 100 includes an image separator 111 for separating an input image into a Wyner-ziv frame and a key frame, a quantizer 112 for quantizing the Wyner-ziv frame, and the quantization. And a Slepian-Wolf encoder 113 for encoding the received signal, and an intra encoder 114 for encoding the key frame.

Meanwhile, the receiver 120 compares the intra decoder 122 to decode the encoded key frame, the Slepian-Wolf decoder 121 to decode the encoded signal, and compares the decoded key frame with the Wyner-ziv frame. The motion compensator 123 interpolates the frame through the motion compensation, and the distortion compensator 124 reconstructs the interpolated frame to the minimum error.

The operation of the conventional Wyner-ziv video codec device 100 configured as shown in FIG. 1 is as follows.

First, the image separator 110 of the transmitter 110 visually separates an input image into a Wyner-ziv frame and a key frame.

The quantization unit 112 quantizes the Wyner-ziv frame, and the Slepian-Wolf encoder 113 converts the quantized Wyner-ziv frame into Turbo-code or Low Density Parity Check (LDPC). After encoding by the method, only the parity is transmitted to the decoder 120.

The intra encoder 114 encodes the key frame and transmits the key frame to the receiver 120 through a side channel.

Thereafter, the intra decoder 122 of the receiver 120 decodes the encoded key frame, and the Slepian-Wolf decoder 121 decodes the encoded Wyner-ziv frame.

In this case, the motion compensator 123 interpolates the decoded key frame and the Wyner-ziv frame to perform motion interpolation.

Then, the distortion compensator 124 compensates the image distortion to the minimum through the interpolated image, so that the distortion-compensated image is output.

Such a conventional Wyner-ziv video codec device is designed to operate with a very small amount of computation in the decoder while a large amount of computation is required in the coding unit.

However, in the conventional video reduction, the intra coder has a very small amount of calculation compared to the inter coder, but it has a large amount of calculation compared to the turbo code of the wyner-ziv encoder. For example, it takes 2.1 ms to calculate the parity of one frame, while intra coding takes about 300 ms.

Therefore, the conventional codec device still has a problem in that a large amount of calculation is required for intra encoding of the decoder.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art as described above, and an object of the present invention is to provide a video codec method and a transceiver capable of simplifying a calculation for encoding in a video codec device.

In order to achieve the above object and to solve the problems of the prior art, the transmitter of the video codec device of the present invention, and the image separation unit for separating the input image in time, Wyner-ziv frame or key frame; And a first encoder to transmit parity by encoding the Wyner-ziv frame, a down sampler to spatially reduce the key frame, and a second encoder to encode and transmit the spatially reduced key frame. Upsampling and motion compensation for the key frame are performed in the decoding apparatus.

In addition, the receiver of the video codec apparatus of the present invention includes a first decoder for decoding a received image, a second decoder for receiving and decoding a spatially reduced image, and a first decoder for decoding an image decoded by the second decoder. And an upsampler that enlarges the resolution of the image level decoded by the decoder, and a distortion compensator that compensates for the distortion by comparing the image decoded by the first decoder with the enlarged image.

In addition, the video codec method of the present invention includes reducing the input image, encoding the reduced image, decoding the encoded image, and enlarging the decoded image.

Additional features and advantages of the present invention will become apparent from the following detailed description of the embodiments of the present invention, which is to be accorded the limitations of the present invention, although the invention is illustrated by the limited embodiments and drawings. The scope of the present invention is not limited to these embodiments, which can be variously modified and modified by those skilled in the art. Accordingly, the invention idea should be construed only by the claims set forth below, and all equivalent or equivalent modifications thereof should be construed as falling within the scope of the invention idea.

According to the present invention, since the decoding calculation amount is reduced by receiving a time and spatially reduced image, there is an effect of preventing the system from deteriorating.

Hereinafter, a distributed video codec apparatus and method using spatial reduction and enlargement according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

 The principle of the present invention is to reduce the amount of calculation by the square of the down sampling ratio by down sampling the key frame image under the assumption that the decoding calculation amount of the receiver in the distributed video codec device is proportional to the size of the image.

That is, when the transmitter encodes and transmits the down-sampled input image, the receiver decodes and upsamples the image.

In addition, in the detailed description of the present invention, coding and encoding, decoding and decoding have the same meaning.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram illustrating a distributed video codec device using spatial reduction and enlargement according to an embodiment of the present invention.

Referring to FIG. 2, a video codec apparatus according to an exemplary embodiment of the present invention includes a transmitter and a receiver.

The transmitter 210 of the video codec apparatus 200 according to an exemplary embodiment of the present invention may include an image separator 211 for separating an input image into a Wyner-ziv frame and a key frame, and a quantizer for quantizing the Wyner-ziv frame ( 212), a Slepian-Wolf encoder 213 for encoding the quantized signal, a down sampler 214 for reducing the key frame image to an arbitrary ratio, and a legacy encoder for encoding the down sampled frame ( 215, and a display unit 216 for previewing the down-sampled image.

Meanwhile, the receiver 220 includes a legacy decoder 222 for decoding the down-sampled and encoded key frame, an upsampler 223 for upsampling the decoded key frame, and a Slepian-Wolf for decoding the encoded signal. And a decoder 221 and a distortion compensator 224 configured to compare the upsampled key frame and the Wyner-ziv frame and reconstruct the minimum error.

The operation of the distributed video codec device 200 using spatial reduction and enlargement according to an embodiment of the present invention, configured as shown in FIG. 2, is as follows.

First, the image separator 211 of the transmitter 210 visually separates an input image into a Wyner-ziv frame and a key frame.

The quantization unit 212 quantizes the Wyner-ziv frame, and the Slepian-Wolf encoder 213 converts the quantized Wyner-ziv frame into Turbo-code or Low Density Parity Check (LDPC). After encoding by the method, only the parity is transmitted to the receiver 220.

The down sampler 214 reduces the key frame by an arbitrary ratio, which means that the reduction reduces the resolution.

Thereafter, the legacy encoder 215 encodes the key frame and transmits the key frame to the receiver 220 through a side channel.

In this case, the image reduced by the down sampler 214 may be confirmed in advance by the display unit 216.

Preferably, the display unit 216 is a monitor made of, for example, an LCD or a CCD mounted on a small digital camera or camcorder.

Then, the legacy decoder 222 of the receiver 220 decodes the encoded key frame, and the Slepian-Wolf decoder 221 decodes the encoded Wyner-ziv frame.

Then, the upsampler 223 restores the decoded key frame to the same resolution as the Wyner-ziv frame.

That is, the upsampler 223 enlarges the downsampler 214 of the transmitter 210 by upsampling the resolution of the downscaled image.

Therefore, the upsampled key frame is recovered to the key frame separated by the image separator 211.

The distortion compensator 224 compares the recovered key frame with the Wyner-ziv frame to compensate for the minimum image distortion and outputs the image with the distortion compensated.

3 is a block diagram illustrating a distributed video codec device using spatial reduction and enlargement according to another embodiment of the present invention.

Referring to FIG. 3, a video codec apparatus according to another embodiment of the present invention includes a transmitter and a receiver.

The transmitter has the same configuration and operation as the transmitter shown in FIG.

However, the receiver of FIG. 3 compares the down sampler 325 which receives and downsamples an image signal outputted with distortion compensation, and compares the down sampled signal with the down sampling signal received by the legacy decoder 321. By including the motion compensator 336 to improve the quality of the output image has the difference.

4 is a flowchart illustrating a distributed video codec method using spatial reduction and enlargement according to an embodiment of the present invention.

Referring to FIG. 4, the order of a distributed codec method according to an embodiment of the present invention is as follows.

First, the image is reduced in time and space (S 410).

That is, the input image is temporally separated into a key frame and a Wyner-ziv frame, and the key frame is down-sampled to reduce the resolution of the image.

Thereafter, the reduced image is encoded (S420).

The Wyner-ziv frame is quantized and encoded, and the down-sampled key frame is legacy encoded and transmitted.

Then, the received encoded image is decoded (S430).

The encoded Wyner-ziv frame is Slepian-Wolf decoded, and the down-sampled key frame is legacy decoded.

Finally, the decoded key frame is upsampled and enlarged (S430).

That is, the key frame is upsampled and enlarged at the same resolution as the decoded Wyner-ziv frame.

As described above, although the present invention has been described with reference to the limited embodiments and the drawings, the present invention is not limited to the above embodiments, and those skilled in the art to which the present invention pertains various modifications and variations from such descriptions. This is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

1 is a block diagram showing the configuration of a conventional Wyner-ziv distributed video codec.

2 is a block diagram illustrating a distributed video codec device using spatial reduction and enlargement according to an embodiment of the present invention.

3 is a block diagram illustrating a distributed video codec device using spatial reduction and enlargement according to another embodiment of the present invention.

4 is a flowchart illustrating a distributed video codec method using spatial reduction and enlargement according to an embodiment of the present invention.

Claims (12)

An image separator for separating an input image in time, and separating the input image into a Wyner-ziv frame or a key frame; A first encoder which encodes the Wyner-ziv frame and transmits only parity to a decoding device; A down sampler for spatially reducing the key frame; And A second encoder which encodes the spatially reduced key frame and transmits the encoded key frame to a decoding apparatus; Upsampling and motion compensation for the key frame is performed in a decoding apparatus. delete delete The method of claim 1, wherein the spatial reduction Distributed video coding apparatus using spatial reduction and magnification, characterized by downsampling to reduce resolution. A first decoder configured to decode the Wyner-ziv frame among images transmitted from a coding apparatus after being encoded after being separated into a Wyner-ziv frame or a key frame; A second decoder configured to decode the key frame, wherein the key frame is encoded after being spatially reduced in the coding apparatus; An upsampler for enlarging the key frame decoded by the second decoder to a resolution equal to the Wyner-ziv frame decoded by the first decoder; A distortion compensator configured to compensate for the distortion by comparing the Wyner-ziv frame decoded by the first decoder with the enlarged key frame; A reception down sampler which reduces an image output from the distortion compensator; And A motion compensator comparing the output image of the received down sampler with the output image of the first decoder, compensating for the motion, and transmitting the motion to the upsampler. Distributed video decoding apparatus using spatial reduction and enlargement, characterized in that it comprises a. delete Separating the input image in time, and separating the input image into a Wyner-ziv frame or a key frame; Quantizing and encoding the Wyner-ziv frame and transmitting only parity to a decoding device; And After spatially reducing the key frame, encoding and transmitting the spatially reduced key frame to a decoding apparatus; Upsampling and motion compensation for the key frame are performed in a decoding apparatus. delete delete 8. The method of claim 7, wherein said spatially reducing A distributed video coding method using spatial reduction and magnification, characterized by downsampling to reduce resolution. Decoding the Wyner-ziv frame from an image transmitted from a coding apparatus after being encoded after being separated into a Wyner-ziv frame or a key frame; Decoding the key frame, wherein the key frame is coded after being spatially reduced in the coding apparatus; Enlarging the decrypted key frame to a resolution equal to the decrypted Wyner-ziv frame level; Compensating for the distortion of the decoded Wyner-ziv frame by comparing the decoded Wyner-ziv frame with the enlarged key frame; And Reducing the distortion-compensated Wyner-ziv frame and compensating for the motion Distributed video decoding method using spatial reduction and enlargement, characterized in that it comprises a. delete

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