KR20010073665A - Apparatus and method of controlling time code modification and rate buffer level for low-delay video communication - Google Patents

Abstract

PURPOSE: An apparatus and a method for adjusting moving picture time code and rate control buffer level are provided to prevent initial delay time generated in coding a first picture from being accumulated to the next picture during video communication. CONSTITUTION: A coding part(22) codes an input first picture within a screen and codes initial delay time generated when the first picture is coded in accordance with a rate control signal so that the initial delay time isn't accumulated to the next picture. The coded picture is stored in a buffer(23). A rate controller(24) generates the rate control signal, and calculates the number of pictures to be interlaced from the pictures stored in the buffer(23). A time code generator(25) generates the time code of the next picture in accordance with the number of pictures to be interlaced calculated in the rate controller.

Description

Apparatus and method of controlling time code modification and rate buffer level for low-delay video communication

The present invention provides an initial delay that occurs when encoding video for low delay video communication during a video call such as video telephony and video conferencing in a video communication system such as the next generation mobile communication system (IMT-2000). The present invention relates to a video time code and rate control buffer level adjusting device and a method for preventing time from accumulating until the next video, and a computer readable recording medium storing a program for realizing the same.

1 is an explanatory diagram showing a relationship between an initial delay time and a delay time of a subsequent image according to a conventional method.

As shown in FIG. 1, when performing video encoding for video communication, the initial delay time generated during the first video encoding accumulates until the next video, thereby increasing the delay time between terminals (to be described in detail later). There was a problem.

The present invention has been made to solve the above problems, video encoding for low-delay video communication during video calls, such as video telephony and video conferencing in a video communication system such as the next generation mobile communication system (IMT-2000) Is a video time code and rate control buffer level adjusting device and method for preventing the initial delay time generated during the first video encoding from being accumulated until the next video, and a computer-readable recording recording the program for realizing the same. The purpose is to provide a medium.

1 is an explanatory diagram showing a relationship between an initial delay time and a delay time of a subsequent image according to a conventional method;

2 is a block diagram of an embodiment of a video time code and rate control buffer level adjusting device for low delay video communication according to the present invention;

3 is a flowchart illustrating a method for adjusting video time code and rate control buffer level for low delay video communication according to the present invention;

4 is a diagram illustrating an example of a relationship between an initial delay time and a delay time between subsequent images according to an embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings

21: Image input unit 12: In-screen / inter-screen encoder

23 buffer 24 rate control

25: time code generator

In order to achieve the above object, the present invention provides an apparatus for low latency communication in a bidirectional video communication environment, wherein an initial delay time generated during encoding of the first video according to a rate control signal is next Encoding means for encoding not to accumulate up to an image; Storage means for storing an image encoded by the encoding means; Rate control means for generating the rate control signal and calculating the number of images to be skipped among the images stored in the storage means; And a time code generating means for generating a time code of a subsequent video according to the number of skipped images calculated by the rate control means and informing the encoding means so that the subsequent video can be encoded between screens. It is done.

In addition, the present invention provides a video time code and rate control buffer level adjusting method for low delay video communication in a video communication system, comprising: a first step of intra-picture encoding a first input image; A second step of calculating a number of images to be skipped and a time code to be used for subsequent image encoding from the amount of bits generated during the encoding; And a third step of inter-coding the subsequent image using the calculated time code.

In addition, the present invention provides a video communication system having a processor, a function of intra-screen encoding the first video input; Calculating a number of images to be skipped and a time code to be used for subsequent image encoding from the amount of bits generated during the encoding; And a computer-readable recording medium having recorded thereon a program for realizing a function of inter-screen encoding a subsequent image using the calculated time code.

According to the present invention, when video encoding is performed under an environment in which delay time between terminals is short, such as a bidirectional video communication environment, the initial delay time generated during the first video encoding is not accumulated until the next video by adjusting the video time code and rate control buffer level. By doing so, delay time between terminals can be reduced.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a diagram illustrating an embodiment of a video time code and rate control buffer level adjusting device for low delay video communication according to the present invention.

As shown in FIG. 2, the video time code and rate control buffer level adjusting device for low delay video communication according to the present invention is a device for low delay communication in a bidirectional video communication environment. In-screen / inter-picture encoder 22 and in-screen / inter-picture encoder 22 which encode in-screen and encode so that the initial delay time generated during the first video encoding according to the rate control signal does not accumulate until the next video. A buffer 23 for storing the encoded image, a rate control signal for generating a rate control signal, a rate controller 24 for calculating the number of skipped images among the images stored in the buffer 23, and an intra / inter picture encoder The time code of the subsequent video is generated and notified to the intra-screen / inter-picture encoder 22 according to the number of skipped images calculated by the rate controller 24 so that the subsequent video can be encoded between the screens. And a generator (25).

According to the present invention having the above-described configuration, the initial delay time generated during the first video encoding is performed by adjusting the video time code and rate control buffer level in the video time code and rate control buffer level control apparatus for low delay video communication according to the present invention. The method of not accumulating even the image will be described in more detail.

First, the first image input through the image input unit 21 is encoded in the screen by the intra / inter-picture encoder 22 and stored in the buffer 23. Thereafter, the rate controller 24 calculates the number of images to be skipped from the encoder buffer level, and the time code generator 25 generates a time code of a subsequent image according to the number of images to be skipped to generate an intra-picture / inter-picture encoder. Tell (22). Here, the number of skipped images F _{skip by the} rate controller 24 is calculated as in Equation (1).

In Equation 1, B _initial is the number of bits used for the first image encoding, B _f is B / F, B is the bit rate allocated to the image encoding, F is the encoded frame rate, and B _M is the first image. Maximum buffer level for subsequent images, Is the smallest integer not less than x.

The time code generator 25 changes the time code as shown in Equation 2 using F _skip calculated from Equation 1, and transfers the time code to the intra / inter picture encoder 22.

T _m (i) = T ₀ (iF _skip ), i> F _skip

In Equation 2, T _m (i) denotes a changed time code of the i-th image, and T ₀ (i) denotes a time code before changing of the i-th image.

3 is a flowchart illustrating a method of adjusting a video time code and a rate control buffer level for low delay video communication according to the present invention.

As shown in FIG. 3, the video time code and rate control buffer level adjusting method for low delay video communication according to the present invention first encodes the first video that is encoded in the picture by the intra / inter picture encoder 22. (301).

Then, the rate controller 24 calculates the number of images to be skipped from the bit amount generated in the first image encoding, and the time code generator 25 calculates a time code to be used for subsequent image encoding (302).

Finally, the subsequent video to be encoded between the pictures is encoded using the time code changed in the intra / inter picture encoder 22 (22).

As described above, according to the present invention, the initial delay time generated during the first video encoding is not accumulated until the next video by adjusting the video time code and the rate control buffer level.

4 is a diagram illustrating an example of a relationship between an initial delay time and a delay time between subsequent images according to an embodiment of the present invention.

In order to facilitate understanding of the present invention, first, when the conventional method is encoded through FIG. 1, the relationship between the initial delay time and the delay time between subsequent images will be described.

In FIG. 1, B _M does not perform encoding if the current buffer level is equal to or greater than this value as a criterion for determining whether to encode the next video. L denotes a delay time for transmitting data from the encoder buffer to the decoder buffer.

The first image is encoded in the screen, and the subsequent images are inter-screen encoded. In general, since the bit generation amount of the image encoded in the screen is several times larger than the bit generation amount of the image encoded in the screen, as shown in FIG. 1. After encoding the first image, it waits until the buffer level drops below B _M before encoding the subsequent image.

The decoding side accumulates the received data in the buffer until it reaches a predetermined level (VBV_occupancy), and then starts decoding the first image. And the time code of the video is T ₀ so that the time code of the next picture T ₃ the decoding side decodes the T ₃ in the next fifty by the time allocated for T _1, T ₂ decoding. In this case, the propagation delay times δ ₀ of the first image and the propagation delay times δ ₁ , δ ₂ of the subsequent images are the same.

However, in the case of encoding according to the present embodiment, a result as shown in FIG. 4 can be obtained.

When the time code of the subsequent video is encoded by changing the time code of the first video using Equation 1 and Equation 2, since the time code of the first video is T ₀ and the time code of the next video is T ₁ , the decoding side After decoding the first image, the next image is decoded without rest. In this case, the decoder buffer level is reduced by F _skip ㆍ R _f than before the time code change, and the delay time between terminals is reduced by F _skip ㆍ T _f from the initial delay time δ ₀ . Where T _f is given by 1 / F.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

In the present invention as described above, when performing video encoding for low delay video communication, by adjusting the video time code and rate control buffer level, the initial delay time generated during the first video encoding is not accumulated until the next video terminal There is an effect of reducing the inter-delay time, in particular can be effectively used in a video communication environment that requires a short terminal delay time, such as in IMT-2000 two-way video communication environment.

Claims (7)

An apparatus for low latency communication in a two-way video communication environment, Encoding means for encoding the first input image into the screen and encoding the initial delay time generated when encoding the first image according to the rate control signal so as not to accumulate until the next image; Storage means for storing an image encoded by the encoding means; Rate control means for generating the rate control signal and calculating the number of images to be skipped among the images stored in the storage means; Time code generation means for generating a time code of a subsequent video according to the number of skipped images calculated by the rate control means and informing the encoding means so that the subsequent video can be encoded between screens by the encoding means; Video time code and rate control buffer level control device for low-delay video communication comprising a. The method of claim 1, The process of calculating the number of images to skip in the rate control means, A video time code and rate control buffer level adjusting device for low delay video communication, which is calculated by the following equation. Where B _initial is the number of bits used for the first video encoding, B _f is the B / F, B is the bit rate assigned to video encoding, F is the encoded frame rate, and B _M is the maximum for subsequent pictures except the first video. The buffer level, and Is the smallest integer not less than x) The method according to claim 1 or 2, The process of generating the time code of the subsequent video in the time code generating means, A video time code and rate control buffer level adjusting device for low delay video communication, which is generated by the following equation. T _m (i) = T ₀ (iF _skip ), i> F _skip Where T _m (i) is the changed timecode of the i-th image, and T ₀ (i) is the timecode before the change of the i-th image) A video time code and rate control buffer level control method for low delay video communication in a video communication system, A first step of intra coding the first image to be input; A second step of calculating a number of images to be skipped and a time code to be used for subsequent image encoding from the amount of bits generated during the encoding; And A third step of inter-screen encoding a subsequent image using the calculated time code Video time code and rate control buffer level adjustment method for low-delay video communication comprising a. The method of claim 4, wherein In the calculating of the number of skipped images in the second step, A video time code and rate control buffer level adjustment method for low delay video communication, which is calculated by the following equation. Where B _initial is the number of bits used for the first video encoding, B _f is the B / F, B is the bit rate assigned to video encoding, F is the encoding frame rate, and B _M is the maximum for subsequent pictures except the first video. The buffer level, and Is the smallest integer not less than x) The method according to claim 4 or 5, The process of calculating the time code of the subsequent image of the second step, A video time code and rate control buffer level adjustment method for low delay video communication, which is calculated by the following equation. T _m (i) = T ₀ (iF _skip ), i> F _skip Where T _m (i) is the changed timecode of the i-th image, and T ₀ (i) is the timecode before the change of the i-th image) In a video communication system having a processor, A function of intra coding the first input image; Calculating a number of images to be skipped and a time code to be used for subsequent image encoding from the amount of bits generated during the encoding; And A function of inter-screen encoding a subsequent image using the calculated time code A computer-readable recording medium having recorded thereon a program for realizing this.