KR20050038096A - Frame buffer controller for multi-channel mpeg image compress installation - Google Patents

Abstract

The present invention provides a video multiplexer in front of an mpeg compressor for supporting multiple channels in a video compression environment in which an inter frame compression is performed by an MPEG (Motion Picture Expert Group) compressor. In order to provide multiple MPEG video compression devices that can improve MPEG video compression efficiency by rearranging frame video by channel and providing each channel video frame to two or more consecutive MPEG video compressors, Provides a multiple MPEG video compression device that installs a frame buffer controller between the decoder and the MPEG compressor, and stores the video re-arrangement procedure that sequentially arranges the input frame image in the multiple buffer memory for each channel and stores multiple frame images for each channel. Memory buffer and multiple stored per channel Provides a frame buffer controller including a channel-specific image continuous output procedure that sequentially outputs frame images in units of two or more frames, and arranges frame images two-dimensionally in a buffer memory in a frame buffer controller, and the memory rows for each channel are sequentially or It is to provide a frame buffer controller that is arranged in reverse order.

Description

Multi-MPEG image compression device and frame buffer controller for same {Frame buffer controller for Multi-channel MPEG image compress installation}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multiple MPEG video compression apparatus, a compression method thereof, and a frame buffer controller. The present invention relates to a high compression ratio when a multi-channel frame video is compressed by an MPEG video compressor.

In case of storing or transmitting camera image, image compression method is used to reduce the amount of data. There are many video compression methods, but the video compression method called MPEG (Motion Picture Expert Group) compares the previous video with the current video in the video frame and extracts the image block of the changed part to increase the compression efficiency. That's the way. In the MPEG video compression method, when the images of front and rear frames are different, intra-frame compression is performed on all the images. In this case, the amount of compressed data is increased. However, if there is a change in part of the image, for example, the background remains the same but the image of the object is changed (if the camera is also monitored, the background remains the same but some images are changed when a person or object moves). Since only the information of (Motion Detection) is compressed and the amount of compressed data is reduced (Inter Frame compression), data storage and transmission efficiency can be improved. MPEG video compression includes MPEG-1, MPEG-2, and MPEG-4, and H.263 and H.264 are adopted as international standards as similar video compression methods.

In this case, the important fact is that if the result of compressing and restoring the same image is the same, the method of compressing the data with a smaller amount of data is an efficient compression method. Detection) MPEG video compression is a very efficient video compression method.

However, if multiple channel videos are sequentially input and compressed into a single MPEG video compressor, the previous video and the current video are always different. Therefore, the video compression rate is very low, and the MPEG video compression compresses the video by detecting only moving video. The efficiency of the law cannot be expected.

The present invention provides a multi-channel video multiplexer sequentially supplying a multi-channel video in an image compression environment in which an inter frame compression is performed in a motion picture expert group (MPEG) compressor. Even if the frame image is rearranged by channel and two or more one channel image frame is continuously provided to the MPEG image compressor to provide a multiple MPEG image compression device and its compression method that can improve the MPEG image compression efficiency. The present invention aims to provide a multiple MPEG video compression apparatus for providing a frame buffer controller between a video multiplexer and an MPEG compressor. According to the present invention, an image rearrangement procedure for sequentially arranging input frame images in a plurality of buffer memories for each channel, a memory buffer for storing a plurality of frame images for each channel, and a plurality of frame images stored for each channel are performed in units of two or more frames. An object of the present invention is to provide a frame buffer controller including a video continuous output procedure for each sequential circular output. An object of the present invention is to provide a frame buffer controller in which a frame image is two-dimensionally arranged in a buffer memory and a cyclically arranged memory row for each channel is provided to the frame buffer controller.

Referring to the present invention with reference to the accompanying drawings as follows.

1 is a block diagram of a conventional multi-channel image compression device having a low compression efficiency. In FIG. 1, four channel frame images c1, c2, c3, and c4 are provided to the video multiplexer 10 through the circuit 100 under the control of the controller 14; The video multiplexer 10 provides the frame video signal to the MPEG video compressor 13 through the circuit 500. 2 shows an arrangement of frame images transmitted from the video multiplexer 10 to the MPEG image compressor 13 through the circuit 500. In FIG. 2, the transmission frame image is arranged as c1, c2, c3, c4, c1, c2, c3, c4, c1, c2, c3, c4, c1, c 2, c3, c4, and all front and rear image images are channels. Since this is another image, the MPEG compression efficiency achieves an extremely low compression efficiency by applying only the first compression algorithm within the same image.

In the image compression method of the present invention, a video frame image of a plurality of channels is provided from a video multiplexer, and the received frame image is sequentially sequentially rearranged for each channel in a 2D array buffer memory and the sequential cyclic rearrangement image for each channel is 2 or more. And outputting the frames to the MPEG compressor continuously.

3 and 5 show an embodiment configuration of an image compression apparatus implementing the compression method of the present invention. In FIG. 3, four channel frame images c1, c2, c3, and c4 are provided to the video multiplexer 11 through the circuit 100 under the control of the controller 14, and the video multiplexer 11 is provided through the circuit 200. The frame buffer controller 12 supplies the frame image signals of the arrangement as shown in FIG. 2, and the frame buffer controller 12 receives the video frame images of the c1, c2, c3, and c4 channels from the video multiplexer 11 in response to the control signal. It is sequentially rearranged for each channel and continuously outputs a rearranged image for each channel of two or more frames to the MPEG (MPEG) compressor 13 through the circuit 300. An example of arrangement of frame images transmitted through the circuit 300 is cited in FIG. 4. In FIG. 4, the transmission frame image includes c1 (I-frame), c1, c1, c1, c2 (I-frame), c2, c2, c2, c3 (I-frame), c3, c3, c3, c4 (I- frame), c4, c4, and c4. If you increase the memory capacity, you can increase the number of transmission frames of the same channel to c1, c1, c1, c1, c1, c1, c2, c2, c2, c2, c2, c2, c2, etc. Multiple channels can be configured using 6 channels and 8 channels for 16 channels. In this way, MPEG MPEG compressor 13 can perform high-efficiency video compression by compressing the I-frame (Inter-Frame) starting point with the first frame of each channel. You can do it.

An example of the frame buffer controller 12 is cited in FIG. 5. Although the MPEG compressors of FIGS. 1 and 3 are manufactured in the form of a single chip, they can be manufactured by a software MPEG compressor.

The frame buffer controller 12 of FIG. 5 includes an image rearrangement procedure 12a for sequentially arranging input frame images in a plurality of buffer memories for each channel, and a memory buffer 12b for storing a plurality of frame images for each channel. And a video continuous output procedure 12c for each channel that sequentially outputs a plurality of frame images stored for each channel in units of two or more frames. In the embodiment of FIG. 5, the memory of the frame buffer controller 12 arranges four-channel images by four frames in a two-dimensional array buffer memory 12b in four rows and four columns. Can save output). The memory rows for each channel are sequential from 1 row (# 1)-> 2 rows (# 2)-> 3 rows (# 3)-> 4 rows (# 4)-> 1 row (# 5) or vice versa Programmed to cycle through the frame images. The image rearrangement procedure 12a may display the frame images provided in the order of FIG. 1 in the order of ch 1 # 1, ch 2 # 1, ch 3 # 1, ch 4 # 1, ch 1 # 2, ch2 # 2, ch 3 # 2, ch 4 # 2, ch 1 # 3, ch 2 # 3, ch 3 # 3, ch 4 # 3, ch 1 # 4, ch 2 # 4, ch 3 # 4, ch 4 # 4 In the buffer memory 12b, and the continuous output procedure 12c stores the frame images arranged in the buffer memory 12b in ch 1 # 1, ch 1 # 2, ch 1 # 3, and ch 1 # 4. , ch 2 # 1, ch 2 # 2, ch 2 # 3, ch 2 # 4, ch 3 # 1, ch 3 # 2, ch 3 # 3, ch 3 # 4, ch 4 # 1, ch 4 # 2 In this case, the MPEG high compression efficiency of the multi-channel video image transmission frame can be obtained by transmitting to the MPEG compressor in the order of ch 4 # 3 and ch 4 # 4.

As described above, the present invention provides a frame image even when the video multiplexer sequentially supplies a plurality of channels of images in an image compression environment in which a multi-channel frame video image is inter frame compressed in a Motion Picture Expert Group (MPEG) compressor. It provides multiple MPEG video compression device and its compression method which can improve MPEG video compression efficiency by rearranging each channel by channel and providing two or more one channel video frames to MPEG video compressor in succession. Provides a multi-MPEG video compression device that installs a frame buffer controller in between, and a video rearrangement procedure that sequentially circulates the input frame video into a plurality of buffer memories per channel, and a memory buffer and channel for storing a plurality of frame images per channel. You can save more than one frame image Provides a frame buffer controller that includes image-continuous output procedure for each channel that sequentially outputs the frame unit, and the frame buffer controller arranges frame images in the buffer memory two-dimensionally and circulates the memory rows for each channel sequentially. To provide.

1 is a processing apparatus diagram containing a conventional image compression concept

Figure 2 is a conventional image processing frame arrangement diagram

Figure 3 is a processing device containing the image processing concept of the present invention

4 is an image processing frame arrangement diagram of the present invention.

5 is a conceptual diagram of rearrangement of an image processing frame according to the present invention

<Description of Major Reference Drawings>

11 is a video multiplexer 12 is frame buffer controller 13 is a MPEG compressor

Claims (5)

A video multiplexer that receives a plurality of channels of video images and outputs video frames sequentially and a Motion Picture Expert Group (MPEG) compressor that inter frame compresses the sequentially provided video images, In response to the control signal, the video multiplexer receives video frame images of multiple channels and rearranges them sequentially by channel. A multiple MPEG video compression device comprising an MPEG compressor for receiving and compressing two or more consecutive videos and outputting them. The apparatus of claim 1, wherein the frame buffer controller comprises a video rearrangement procedure for sequentially sequencing an input frame image in a multi-buffer memory for each channel, and a memory buffer for storing a plurality of frame images for each channel, and a plurality of stored in each channel. Multiple MPEG video compression apparatus comprising a video continuous output procedure for each channel to sequentially output a frame image in units of two or more frames. Two or more frames including an image rearrangement procedure for sequentially circulating input frame images in a plurality of buffer memories for each channel in response to a control signal, and a memory buffer for storing a plurality of frame images for each channel and a plurality of frame images stored for each channel. Frame buffer controller including video continuous output procedure for each channel to sequentially output in units. The buffer memory of claim 3, wherein the buffer memory of the frame buffer controller is provided with buffer memory so that two rows or two columns or more can be arranged according to the capacity of the memory, and the memory rows for each channel are 1 row-> 2 rows-> 3 rows-> Frame buffer controller characterized in that it is configured to be arranged in a sequential order such as 4 rows-> 1 row. In inter frame compression of a multi-channel frame video image in a Motion Picture Expert Group (MPEG) compressor, Receiving a multi-channel video frame image from the video multiplexer, sequentially rearranging the received frame image in a two-dimensional array buffer memory and successively sequential cyclically rearranged image for each channel to the MPEG compressor in two or more frames Multiple MPEG (MP) image compression method comprising the step of outputting.