KR100494177B1 - apparatus and method for multi-channel video distribution - Google Patents

Abstract

The present invention relates to a multi-channel video distribution device and method, and more particularly, an image input unit configured to connect and configure a video mux having multiple input / output ports in multiple stages and to input an image signal to an input port of the video mux; An image distribution unit for distributing and outputting an image signal inputted to the image input unit to a desired place; A controller for selecting an output port of the video mux to output an image signal input to the image input unit to a desired place and outputting an image signal or other overall control; An image output unit configured to output an image input to the image input unit to an output port of a video mux selected by a controller in the video mux; A memory unit for storing an image signal under control of the controller; And a display unit for displaying an image signal on a screen under the control of the controller. The present invention relates to a multichannel image distribution apparatus including a multichannel image distribution apparatus and a multichannel image distribution apparatus.

According to the present invention, there is an effect that the video signal can be output as it is without compressing or processing the input video through a simple configuration.

Description

Apparatus and method for multi-channel video distribution

The present invention relates to a multi-channel video distribution device and method, and particularly, when the number of inputs and outputs is large when transmitting an image reflected by a surveillance camera in a multi-family house to a specific generation, the video signal is coded and decoded to output the video signal to a monitor. The present invention relates to a multi-channel video distribution device and a method for outputting a video signal without coding and decoding.

In the related art, when an image input for video surveillance or the like is multiple channels, an image processing apparatus is provided as many as the number of video channels to independently process video signals of each channel. Therefore, such a conventional multi-channel image processing apparatus is configured in a large-scale system, the system such as CCTV (CCTV) has a problem in that the image quality is poor compared to the scale, and the storage and transmission means of the image signal is complicated.

Therefore, much effort has been made to compress video signals for video storage and transmission.

In addition, a conventional image processing system (Korean Patent Laid-Open No. 2000-0011677) includes coding means for dividing an output signal of an image pickup device having a color filter by dividing a luminance signal and a contour correction signal and compressing the signals, respectively; A band-limited transmission path for transmitting the luminance signal and the contour correction signal compressed by the coding means, and decoding to decompress and output the luminance signal and the contour correction signal transmitted through the transmission path, respectively, and sum the signals; Means.

As described above, the signal is changed by the coding means and then transmitted, and the signal is changed by the decoding means and output. The coding and decoding means is used to send a multi-channel video signal having a large number of inputs and outputs to a desired place. In passing, there was a problem that distortion or variation due to the processing of the signal, the signal may be delayed.

The present invention is to solve the above problems,

An object of the present invention is to input a large number of inputs and outputs, and to process the image in multiple channels, video muxes (multiplexers) are arranged in a multi-level arrangement without coding or decoding the image signal, and the distortion or variation of the image signal or output of the image. It is an object of the present invention to provide a multi-channel video distribution device and method for outputting an image signal as it is without problems with speed.

In order to achieve the above object, a multi-channel image distribution device according to the present invention comprises: an image input unit to which an image signal is input; An image distribution unit for distributing the image signal inputted to the image input unit to a desired place; A controller for overall control to output an image signal inputted to the image input unit to a desired place; An image output unit configured to output an image signal input to the image input unit to an output port selected by a controller; A memory unit for storing an image signal under control of the controller; And a display unit for displaying an image signal on a screen under the control of the controller.

More preferably, the present invention is a multi-channel video distribution device is configured by connecting the video mux (Video Multiplex) arranged in multiple stages.

The present invention also provides a multi-channel video distribution method comprising the steps of: inputting a video signal to an image input unit which is an input port of a first video mux having multiple input / output ports; The first stage video mux and the next stage video mux is configured to be connected to the multi-stage video signal input to the input port of the first video mux comprises the step of outputting through the image output unit which is a predetermined output port of the next stage video mux It is characterized by.

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

1 is a block diagram of a multi-channel video distribution apparatus of the present invention,

2 is a schematic flowchart showing a multi-channel video distribution method according to the present invention;

Figure 3 shows an embodiment showing the present invention multi-channel video distribution apparatus and method.

As shown in FIG. 1, the multi-channel video distribution apparatus of the present invention connects video muxes in multiple stages in order to send video signals of multiple input channels to a desired place, and inputs the video signals without coding and decoding using a compression technique. The signal is output to the desired position as it is, and includes an image input unit 10, an image distribution unit 20, a control unit 30, an image output unit 40, a display unit 50, a memory unit 60 It is configured by.

The video mux serves as a distributor for distributing and outputting an input video signal.

The multi-channel video distribution apparatus of the present invention is configured by connecting and arranging a plurality of video muxes in multiple stages. The image input unit 10 processes an input video signal and is input through an input port having multiple channels of the video mux. , TV, camera, scanner and so on.

The image distributor 20 distributes the image signal input to the image input unit 10 into a signal so that the image signal can be output to a desired position through the image output unit 40, and displays the image signal on the screen through the display unit 50. .

The image output unit 40 outputs an image signal through the output port selected under the control of the controller 30 in the video mux of the image distribution unit 20, and may be a monitor, a printer, a plotter, or the like. have.

The memory unit 60 is a ROM or a RAM and performs a function of permanently storing a large amount of images or temporarily storing image data.

The controller 30 performs overall control such as selecting an output port to be output by performing a control operation to output an image signal input through an input port of the video mux to a main device (usually a CPU) for image processing. Perform.

That is, the video signal inputted through the video input unit 10, which is an input port of the video mux, is configured by connecting and arranging the video muxes to distribute the video signal through the image distribution unit 20, According to a control operation, an output port of the video mux is selected and output through the image output unit 40 which is an output port of the video mux.

Referring to Figure 2 will be described a method for distributing the video signal using the multi-channel video distribution device configured as described above.

First, in a multi-channel video distribution apparatus in which video muxes having multiple input / output ports are connected in multiple stages, a method of distributing video signals is input to an image input unit, which is an input port of a first video mux having multiple input / output ports. S30), the video signal input to the input port of the first stage video mux is output through the video output unit which is a predetermined output port of the next stage video mux (S34), which is input through the input port of the first stage video mux The video signal is output by selecting a predetermined output port under the control of the controller, and the output port of the first video mux selected under the control of the controller is configured to be connected to the input port of the next video mux. Accordingly, when the video signal is output through the output port of the first video mux, the output video signal Is the next stage and the input video mux input (S32) via the port of the video signal input through the input port of the next-stage video mux is to output through the predetermined output port has been selected under the control of the controller.

A method of distributing a video signal through a multichannel video distribution device in which the video muxes are arranged in multiple stages and connected to each other will be described in detail with reference to FIG. 3. do.

In FIG. 3, video muxes having input / output ports of 16 channels are connected in multiple stages to have 64 channel video inputs and 80 channel video outputs. The number of video muxes, the number of input / output ports of the video mux, The number of columns listed in the arrangement is not limited thereto.

First, four video muxes with video inputs and output ports of 16 channels are used as the first video mux 1 (21), video mux 2 (22), video mux 3 (23), and video mux 4 (24). The next stage consists of 5 video muxes (25), 6 video muxes (26), 7 video muxes (27), 8 video muxes (28), and 9 video muxes (29). The first stage video mux and the next stage video mux are configured to have a total of 64 input ports and a total of 80 output ports.

The input of the video signal of each input port of the same video mux can be output to any port under the control of the control unit CPU.

Therefore, the video signal input of the video mux 1 21 selects and outputs one of the output ports of 16 channels of 1 to 15 of the video mux 1 21.

As shown in FIG. 3, when the output port 1 of the video mux 1 21 is output, the input port 1 of the video mux 5 25 is connected to the input port 1 of the video mux 5 25. The output video signal is outputted by selecting one output port from the 16 output ports of the video mux 5 (25) under the control of the controller, and when outputted to the output port 4 of the video mux 1 (21), the video mux It is connected to the input port 1 of 6 (26), and is input to the input port 1 of the video mux 6 (26), the video signal input to the input port 1 of the video mux 6 (26) is a video mux 6 (26). One output port is selected and output according to the control of the controller.

In addition, when output to the output port 7 of the video mux 1 (21), it is connected to be input to the input port 1 of the video mux 7 (27), the video signal input to the video mux 7 (27) is a video mux 7 (27) If one output port of the 16 output ports is selected and outputted, and an image signal input through the input port is output to the output port 10 of the video mux 1 (21), one output port is output from the video mux 8 (28). Is selected and output, and when the video signals are output to the output port 13 of the video mux 1 (21), the 16 video signals output to the input port 1 of the video mux 9 (29) are input to the 16 video mux 9 (29). One of the output ports is selected and output.

That is, as described above, the video mux having 16 input / output ports are distributed in multiple stages so as to be distributed and input to the input port of the next video mux.

Similarly, the multiple output ports of Video Mux 2 (22), Video Mux 3 (23), and Video Mux 4 (4) are distributed respectively, Video Mux 5 (25), Video Mux 6 (26), and Video Mux 7 (27). After input to the input ports of the video mux 8 (28), the video mux 9 (29), it is output through one output port selected under the control of the controller.

That is, the video mux 1 (21), the video mux 2 (22), the video mux 3 (23), and the video mux 4 (24) each having 16 input / output ports input video signals to a predetermined port out of a total of 64 input ports. As a result, the video signal is output from the video output port of the video mux 5 (25), video mux 6 (26), video mux 7 (27), video mux 8 (28), and video mux 9 (29). According to the control, a predetermined output port is selected and output.

Accordingly, the present invention provides a multi-channel video distribution apparatus and method, in which the video muxes are arranged in multiple stages and connected to each other. The configuration is simple, and the input video signal can be output to a desired position without any compression or processing. It is.

The above embodiments are only for explaining the present invention, and the scope of the present invention is not limited to the embodiments, and may be modified or modified by those skilled in the art within the scope of the present invention defined by the appended claims. . For example, the shape and structure of each component specifically shown in the embodiment of the present invention can be modified.

According to the present invention, it is possible to transmit a video signal to a desired generation in real time without distortion or delay by arranging and connecting the video muxes in multiple stages without changing the signal by coding the video signal and then decoding it again to output the video. have.

In addition, since the video signal can be output as it is without providing the coding and decoding means, there is an effect that can increase the simple configuration and user convenience.

1 is a block diagram of a multi-channel video distribution device of the present invention.

2 is a flow chart illustrating a multi-channel video distribution method of the present invention.

Figure 3 is an embodiment showing a multi-channel video distribution device and method of the present invention.

* Description of the symbols for the main parts of the drawings *

10: image input unit 20: image distribution unit

30: control unit 40: image output unit

50: display unit 60: memory unit

Claims (4)

An image input unit configured to connect and configure a video mux having multiple input / output ports in multiple stages so that an image signal is input to an input port of the video mux; An image distribution unit for distributing and outputting an image signal inputted to the image input unit to a desired place; A controller for selecting an output port of the video mux to output an image signal input to the image input unit to a desired place and outputting an image signal or other overall control; An image output unit configured to output an image input to the image input unit to an output port of a video mux selected by a controller in the video mux; A memory unit for storing an image signal under control of the controller; And a display unit for displaying an image signal on a screen under the control of the controller. The method of claim 1, The video distribution unit configured by arranging the video mux in multiple stages divides the image signal input through the image input unit, which is a multiple input port of the video mux having multiple input / output ports, and is input to the input port of the next video mux connected in multiple stages. After that, one of the multiple output ports of the video mux of the next stage is selected through the control of the controller. Claims [1] A method for distributing an image using a multi-channel image distribution apparatus in which video muxes having multiple input / output ports are connected in multiple stages. Inputting an image signal to an image input unit which is an input port of a first stage video mux having the multiple input / output ports; And outputting the video signal input to the input port of the first video mux through an image output unit which is a predetermined output port of the next video mux. The method of claim 3, wherein And outputting an image signal input through the input port of the video mux through an output port and selecting and outputting one output port under control of a controller.