JP2006165802A - Video switching arrangement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a video switching arrangement provided with a function capable of easily monitoring video inputs (source video images) of a plurality of systems or the like to be inputted in parallel, and to provide a multiple video image output device. <P>SOLUTION: This video switching arrangement is provided with switching circuits each of which selectively switches an output system for a video input of each of the plurality of systems to obtain a video output of one system or video outputs of a plurality of systems, encoders for obtaining a plurality of thumbnail images by performing compression coding of video signals inputted into these switching circuits and video signals outputted from the switching circuits, and image memories for storing the plurality of thumbnail images obtained by performing the compression coding with these encoders and outputting them to the outsides. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a video switch device having a function of easily monitoring a plurality of systems of video inputs (source images) input in parallel.

  In various image monitoring systems, monitoring images obtained using a plurality of cameras are selectively displayed on the screen. At this time, a video switch for selecting monitoring images from a plurality of cameras is provided, and the monitoring images from the selected cameras are compressed using an encoder by switching the video switches, and the compressed images are distributed to the monitoring center via the IP network. Has been proposed (see, for example, Patent Document 1).

In video media, a plurality of systems of video inputs (source videos) input in parallel are edited and output. This type of video processing is exclusively referred to as a so-called video matrix switcher that selectively switches the output system for each of a plurality of video inputs inputted in parallel to obtain one or a plurality of video outputs. A video switch device is used. A plurality of video outputs selectively obtained via the video switch device (video matrix switcher) are edited using a multi-window processor to obtain a multi-screen video including a window display, for example. , I'm trying to display this.
JP 2002-354464 A

  By the way, multi-screen video editing using the video switch device and multi-window processor described above is executed by selection control of a plurality of source videos in the video switch device and display area control for individual input videos in the multi-wind processor. The By the way, the display area control in the multi-window processor is exclusively performed on the display control screen of the control PC or the like, for example, by determining the size and display position of a plurality of pseudo screen areas identified and displayed individually corresponding to a plurality of video input channels. This is done with variable settings. Therefore, in order to check the video displayed in each edited area, the output video edited by the multi-window processor is monitored, or the video of each video input channel is individually monitored. There was a need.

  However, in order to individually monitor all the video input channel images in the multi-wind processor, and further to monitor all the source images (multiple video inputs) input to the video switch device, for example, the video It is necessary to provide a monitor display corresponding to each of a plurality of video inputs or a plurality of video outputs in the switch device, and it cannot be denied that the system configuration becomes large.

  The present invention has been made in consideration of such circumstances, and an object of the present invention is to provide a video switch device having a function capable of easily monitoring a plurality of systems of video inputs (source images) inputted in parallel. It is to provide.

In order to achieve the above-described object, a video switch device according to the present invention includes:
<a> a switch circuit that receives a control signal and performs a switch operation, and selectively switches an output system for each of a plurality of video signals input in parallel to obtain one or a plurality of video outputs;
<b> an encoder that obtains a plurality of thumbnail images by compressing and encoding the video signal input to the switch circuit or the video signal output from the switch circuit as, for example, an MPEG image or a JPEG image;
<c> An image memory that stores a plurality of thumbnail images compression-encoded by the encoder and outputs them externally is provided.

  Incidentally, the video signal is composed of a video signal or an R, G, B signal. The encoder includes a sub-switch circuit that selectively extracts one of the video signals of the plurality of systems in synchronization with the video signal and uses the sub-switch circuit for compression encoding.

  According to the video switch device having the above configuration, the video signal input to the switch circuit or the video signal output from the switch circuit is supplied to the encoder separately from the video output switch-controlled by the main switch circuit. The video signal is compressed and encoded as an MPEG image, a JPEG image, or the like by this encoder, stored as a plurality of thumbnail images in an image memory, and output to a network such as a LAN. Therefore, a plurality of compression-encoded thumbnail images output from the image memory are taken into a personal computer as a display image control device, for example, so that all of the plurality of video signals can be easily monitored on the personal computer. It becomes possible to do.

  In addition, for example, a plurality of video signals obtained in a time-division manner in synchronism with the video signal are compressed and encoded through a sub switch circuit to form a plurality of thumbnail images. This makes it possible to easily monitor a plurality of source videos at once. In addition, for example, if a plurality of remaining video signals are displayed as thumbnail images while obtaining one system of video signals in real time, the switch circuit while grasping the change (progress) of the plurality of source videos as a whole. Therefore, it is easy to perform various display image editing according to the video scene.

  In particular, according to the video switch device configured as described above, for example, a plurality of images that can be collectively monitored on a display control screen of a personal computer or the like without directly monitoring a multi-image obtained by editing the output of the switch circuit with a multi-window processor. Since the operation of the multi-window processor can be adaptively controlled according to the thumbnail image, an effect such as simplification of the image editing operation can be achieved.

Hereinafter, with reference to the drawings, a video switch device according to an embodiment of the present invention is used to edit and display a plurality of source videos used for traffic control and waterway monitoring using a multi-screen large screen display. An example of the system will be described.
FIG. 1 is a diagram showing a schematic configuration of a video switch device 10 according to this embodiment and a multi-video output device realized by using the video switch device 10. In the figure, reference numeral 20 denotes a multi-window processor for editing a plurality of video outputs (video outputs) extracted via the video switch device 10, and 30 denotes an image edited by the multi-wind processor 20. This is an image display system provided with a large-screen display 31 composed of a multi-screen.

  The video switch device 10 basically inputs video images captured by a plurality of cameras (not shown) or video images reproduced by various video devices in parallel over a plurality of systems (n channels). The output system for each of these video inputs is selectively switched to obtain one or a plurality of video outputs, and is provided with a switch circuit (main switch circuit) 11 comprising a video matrix switch. The video image is given as, for example, a broadcast video signal or an RGB signal often used in a computer system. Depending on these signal forms, the function of the main switch circuit 11 may be distinguished from a video matrix switcher or an RGB matrix switcher. Here, these are collectively referred to as a video switch.

  Incidentally, the main switch circuit (video matrix switch) 11 basically arranges a plurality of video input lines and a plurality of video output lines in a matrix, and these video input lines and By selectively connecting the video output lines, the video output lines corresponding to individual video signals (video inputs) are selectively switched. Then, one or a plurality of video outputs controlled to be switched by the main switch circuit 11 are supplied to the image display system 30 via the multi-window processor 20 described above and used for image display using the large screen display 31. ing.

  The video switch device 10 according to the present invention operates independently of the main switch circuit 11 in addition to the main switch circuit 11 described above, and, for example, a sub switch circuit 12 that selectively extracts a plurality of video inputs as described above. And an encoder 13 that compresses and outputs the video image extracted via the sub-switch circuit 12. The encoder 13 includes an image memory 14, and is configured to compress and code the video signal extracted via the switch circuit 12 by the MPEG method or the JPEG method, and write this into the image memory 14. The sub switch circuit 12 selects a video signal in synchronism with the encoder 13 so as to be used for compression encoding by the encoder 13 for each video signal for one frame.

  In this embodiment, a first sub switch circuit 12a that extracts one of a plurality of video inputs in real time, and a second sub switch circuit 12b that sequentially extracts a plurality of video inputs in a predetermined order, It has. The video signals extracted through the first and second sub-switch circuits 12a and 12b are supplied to the encoders 13a and 13b, respectively, and are compressed and encoded to generate MPEG signals or JPEG signals as image memories 14a and 14b. 14b is stored and output.

  That is, the first sub switch circuit 12a sequentially extracts one of the plurality of video inputs for each frame in synchronization with the encoder 13a, and the encoder 13a sequentially compresses the video input (video signal). It is encoded and continuously written in the image memory 14a. Thus, by sequentially reading out the image signals written in the image memory 14a and displaying the images, the video input can be displayed as a moving image in real time.

  On the other hand, the second sub-switch circuit 12b extracts a plurality of video inputs for each frame in a predetermined order in synchronization with the encoder 13b, and the encoder 13b compresses the video inputs (video signals). As a result, thumbnail images (still images) are created and sequentially written in the image memory 14b that has been divided into regions. By writing a plurality of thumbnail images (still images) to the image memory 14b, these thumbnail images are converted into multi-images and output from the image memory 14b.

  The MPEG signals or JPEG signals compression-encoded by the encoders 13a and 13b and written in the image memories 14a and 14b are appropriately displayed on the image display system 30 via a computer network such as the LAN 40. 2 are distributed to the control PC 32 for image control, the video management PC 51 provided in the source video monitor system 50, etc., and each of the PCs 32 and 51 includes a plurality of displays as shown in FIG. It is displayed as an image forming a multi-screen synthesized with one thumbnail image and one real-time image. That is, independent of the video signal selected by the main switch circuit 11, the video input inputted in parallel to the video switch device 10 is sent from the sub switch circuit 12 (12a, 12b) to the encoder 13 (13a, The image signal is compressed and encoded via 13b) and transmitted to the control PC 32 or the like as an image signal that can be transmitted via the LAN 50 so that the image is displayed.

  In this case, a plurality of video inputs to the video switch device 10 are selectively extracted using the sub-switch circuit 12, but a plurality of video outputs output from the video switch device 10 are selectively extracted. Of course, it is also possible to configure. In this case as well, it goes without saying that the video output extracted using the sub switch circuit 12 is compressed and encoded by the encoder 13 and output.

  Thus, according to the multi-video output device realized by using the video switch device 10 configured in this way, it is independent of the video signal selectively extracted via the main switch circuit 11 and output to the multi-wind processor 20. In addition, a plurality of video images input in parallel to the video switch device 10 are extracted via the sub-switch circuit 12 and compressed and encoded as MPEG images or JPEG images via the encoder 13 and output. Therefore, by taking this compressed and encoded output into a personal computer (control PC 32) or the like, the source video or the video to be output to the multi-window processor 20 can be obtained without directly monitoring the large screen display 31 described above. The video can be easily monitored. Moreover, these video images can be easily monitored without providing a dedicated monitor / display corresponding to each of a plurality of video inputs inputted in parallel to the video switch device 10.

  Therefore, if the display 33 of the control PC 32 displays a compression-coded image obtained through, for example, the LAN 40, image editing by the multi-window processor 20 is directly controlled while monitoring the display image on the display 33. In addition, by remotely controlling the switch controller 15 in the video switch device 10, the video output selected through the main switch circuit 11 and the image extracted through the sub switch circuit 12 can be switched as appropriate. It becomes. Therefore, a great effect in practical use such as various image editing can be easily performed.

  Further, according to the configuration described above, since it is not necessary to control the switching of the sub switch circuit 12 from the control PC 32 or the like each time to monitor all of the source video, the communication load of the control information can be greatly reduced. Can do. Therefore, the control of the main switch circuit 11 described above is executed while monitoring the source video efficiently and easily without impairing the video signal output function to the multi-window processor 20 which is the main function of the video switch device 10. can do. Therefore, effects such as easy execution of the output control of the video signal can be achieved.

  The present invention is not limited to the embodiment described above. For example, it is possible to further increase the number of sub-switch circuits 12 in accordance with the number of video input channels. Of course, it is possible to use a single sub-switch circuit 12 so that thumbnail images of a plurality of channels are converted into a multi-image and output. As described above, the video signal (output video signal) selected by the main switch circuit 11 is compressed and encoded using the encoder 13, and the video signal (output video signal) is further output from the sub switch circuit 12. It is also possible to select by using the encoder 13, compress the data using the encoder 13, and output the result. Further, the video signal and the RGB signal can be processed in parallel. Further, for example, it is possible to provide a function of converting the video signal into an RGB signal and outputting it. In addition, the present invention can be variously modified and implemented without departing from the scope of the invention.

1 is a diagram showing a schematic configuration of a video switch device according to an embodiment of the present invention and a multi-video output device realized by using the video switch device 10. FIG. FIG. 3 is a diagram illustrating an example of an image that is extracted by a sub-switch circuit in the video switch device illustrated in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Video switch apparatus 11 Main switch circuit 12 (12a, 12b) Sub switch circuit 13 (13a, 13b) Encoder 14 (14a, 14b) Memory 15 Switch controller 20 Multiwind processor 30 Image display system 31 Large screen display 40 LAN
50 Source video monitor system

Claims (3)

A switch circuit that receives a control signal and performs a switch operation, and selectively switches an output system for each of a plurality of video signals input in parallel to obtain one or a plurality of video outputs;
An encoder for compressing and encoding a video signal input to the switch circuit or a video signal output from the switch circuit to obtain a plurality of thumbnail images;
An image memory for storing and outputting a plurality of thumbnail images compressed and encoded by the encoder;
A video switch device comprising:   The video switch device according to claim 1, wherein the video signal is a video signal or an R, G, B signal.   2. The video switch device according to claim 1, wherein the encoder includes a sub-switch circuit that selectively extracts one of the plurality of video signals in synchronization with the video signal and uses the sub-switch circuit for compression encoding. .

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