JPS61184072A - Television conference device - Google Patents

Abstract

PURPOSE:To obtain a practical television conference device with less confusion visually by changing gradually the mixture ratio between a present video signal and a new video signal in switching selectively plural picture signals so as to switch the video signals. CONSTITUTION:The switch address of a video switcher 12-1 is revised to a new address when a gate circuit 26-1 is turned on by a control circuit 25, and an output 100 of the switcher 12-1 has the new video signal selectively. Since a gate circuit 26-2 is not turned on, the switch address of a video switcher 12-2 remains old. Thus, the present video signal is outputted selectively at an output 200 of the switcher 12-2. A fadar type mixing circuit 13 uses a control output of the circuit 25 and set so that the gain of the initial value to the output 200 is unity and the attenuation to the output 100 is 40dB or over, and the mixing ratio is changed gradually, the gain to the output 100 is unity finally and the attenuation of 40dB or over is given to the output 200.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a video conference device for holding a conference between remote locations using audio and video. In particular, it relates to video selection switching in a video conference device.

〔overview〕

The present invention provides a video conferencing device that selects a video signal corresponding to an audio signal with the highest intensity and provides the selected video to the receiver of each conference participant, in which the video is switched between the current video signal and the new video signal. By gradually changing the mixing ratio of the images, the quality of the image displayed on the receiver is improved.

[Conventional technology]

A video conference device collects video signals and audio signals from a plurality of terminal devices, selects one video signal, and sends this video signal and all audio signals to each terminal device. This allows terminal devices located at remote locations to hold a conference with each other.

Conventional video conferencing devices of this type are known to have a method of comparing the strengths of audio signals, selecting the video signal corresponding to the highest one, and switching it over with the previously selected video signal. .

In addition, regarding the timing of switching the video signal, there are methods for immediately switching based on the results of comparing the strengths of the audio signals, and methods for setting the minimum value of the time (holding time) from the moment when one switching occurs to the next switching in advance. There is a known method in which video signals are prohibited from being switched during this time.

[Problem that the invention seeks to solve]

However, in any of the above-mentioned systems, selection and switching of video signals is performed in a switch-like manner, and images are switched instantaneously. For this reason, when viewing images on a receiver connected to this video conferencing device, the screen may suddenly change without any prior notice, confusing the visual sense of the person viewing the image, and reducing the naturalness of the image. It had the disadvantage that it was damaged. moreover,
If the screen changes frequently, there is a disadvantage that it may have a negative physical effect on the person looking at the screen, such as eye strain.

Furthermore, in recent years, in order to reduce the cost of transmitting video signals, there are examples of using broadband transmission lines using technologies such as DPCM. When signals are transmitted, the continuity correlation of the signals is lost during switching, resulting in image distortion and blurring.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned drawbacks and provide a video conference device that maintains the naturalness of images and has good image quality.

[Means for solving problems]

The video conference device of the present invention includes means for collecting a plurality of video signals and audio signals corresponding to each video signal, and comparing the intensities of the audio signals to select a video signal corresponding to the audio signal having the maximum intensity. In the video conference device, the selection switching means is configured to provide a time period during which the currently selected video signal and the newly selected video signal are displayed in an overlapping manner. It is characterized by

[Effect]

The video conference device of the present invention gradually changes the mixing ratio of the current video signal and the new video signal based on the comparison result of the strength of the audio signals. Therefore, a gradually changing image is displayed on the receiver of the terminal device connected to this video conference device.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.

The figure is a block diagram of a video conference device according to an embodiment of the present invention.

Video cameras 10-1 to 10-n are connected to distribution amplifiers 1)-1 to 1)-n, respectively. Distribution amplifier 1)-
1 to 1)-n is a video switcher 12-1.12-2
connected to. The video switcher 12-1, 12-2 is connected to a fader type mixing circuit 13. The fader-type mixing circuit 13 is connected to the signal addition circuit 14. The synchronizing signal addition circuit 14 is connected to the video transmission terminal 19.

The synchronization signal generation circuit 15 is connected to an external camera genlock signal generator 16 and a distribution amplifier 18.

The external genlock signal generator 16 for the camera is connected to a distribution amplifier 17.18. Distribution amplifier 17 is connected to video cameras 10-1 to 10-n. The distribution amplifier 18 is connected to the synchronization signal addition circuit 14.

Microphones 20-1 to 20-n are connected to preamplifiers 21-1 to 21-n, respectively. Preamplifier 21-
1 to 21-n are connected to the mixing circuit 22 and the audio signal detection and comparison circuit 24. The mixing circuit 22 is a transmission amplifier 23
connected to. Transmission amplifier 23 is connected to audio transmission terminal 27 . The audio signal detection comparison circuit 24 is connected to the control circuit 25
and further connected to the video switcher 12-1.12-2 via gate circuits 26-1 and 26-2, respectively.

The connection of the gate circuits 26-1 and 26-2 is controlled by the control circuit 25.

The video reception terminal 28 is connected to a video monitor 29.

The audio receiving terminal 30 is connected to a speaker 32 via a speaker amplifier 31.

Next, the operation of this video conference device will be explained.

A plurality of video cameras 10-1 to 10-n and microphones 20-1 to 20-n are provided corresponding to conference participants, and pick up images and voices of the participants.

Distribution amplifiers 1)-1 to 1)-n are video cameras 10-
The video signals 1 to 10-n are divided into two and output to video switchers 12-1 and 12-2, respectively.

Further, the synchronization signal generation circuit 15 generates a color phase synchronization subcarrier SC1 burst flag pulse BPF and a horizontal and vertical synchronization signal 5YNC. The camera external genlock signal generator 16 uses these signals to generate drive signals necessary to operate the camera in external synchronization, and supplies them to the video cameras 10-1 to 10-n via the distribution amplifier 17. do.

Preamplifiers 21-1 to 21-n amplify audio signals from microphones 20-1 to 20-n, respectively. Mixing circuit 22 and transmission amplifier 23 output this audio signal to audio transmission terminal 27. The audio signal detection and comparison circuit 24 compares and detects the presence or absence of an audio signal and the magnitude relationship between the strengths, and outputs an address signal and a control signal corresponding to the microphone determined to have the highest audio signal strength at an arbitrary time interval. . The control circuit 25 is driven by the control signal output from the audio signal detection and comparison circuit 24, and is driven by the gate circuit 26-1.
26-2 is turned on, and the video switcher 12-2 is turned on.
The switch address 1 or 12-2 is updated and the fader type mixing circuit 13 is activated. Fader type mixing circuit 13
gradually changes the mixing ratio of the current video signal and the new video signal, and performs an operation of switching between the new and old video signals.

That is, for example, the control circuit 25 controls the gate circuit 2G-
1 is turned on, the switch address of the video switcher 12-1 is updated to a new address, and the switch address of the video switcher 12-1 is updated to a new address.
A new video signal is selectively outputted to the output 100 of. The switch address of the video switcher 12-2 is the gate circuit 26.
-2 is not turned on, so the previous address remains. Therefore, the output 200 of the video switcher 12-2 includes:
The current video signal is selectively output. Fader type mixing circuit 13
The initial value is set to output 20 by the control output of the control circuit 25.
Set the gain so that the gain for 0 is "1" and the attenuation for the output 100 is at least 40 dB, and gradually change the mixing ratio until the gain is "1" for the output 100 and the output is 200. It operates so as to provide attenuation of 40 dB or more. Furthermore, the audio signal detection circuit 24
At the next control output timing, the control circuit 25 turns on the gate circuit 26-2, and the video switcher 12-2 turns on.
2 and select a new video signal for output 200.

As a result, the fader type mixing circuit 13 gradually changes the mixing ratio of the video signal from the output 100 to the output 200, contrary to the operation at the previous timing, and finally gives a gain of "1" to the output 200. works.

The above operation is repeated according to the output timing of the address output and control output of the audio signal detection and comparison circuit 24.

The output mixed by the fader type mixing circuit 13 is added with a horizontal and vertical synchronizing signal by a synchronizing signal adding circuit 14, and outputted to a video transmission terminal 19.

Further, the video signal received from the other party's terminal device is input to the video reception terminal 28, and the image is displayed on the video monitor. The audio signal from the other party's terminal device is input to the audio receiving terminal 30, power amplified by the speaker amplifier 31, and transmitted to the speaker 3.
2, and a conference call can be made with the other party's terminal device.

In the above embodiment, the mixing ratio of the strength of the current video signal and the new video signal is gradually changed. The present invention can be implemented in the same way even if the ratio of the area to the image area is gradually changed.

〔Effect of the invention〕

As explained above, the video conference device of the present invention gradually changes the mixing ratio of the current video signal and the new video signal when switching the selection of a plurality of video signals. I do.

This has the effect of providing a practical video conference device with less visual confusion.

[Brief explanation of the drawing]

The figure is a block diagram of a video conference device according to an embodiment of the present invention. 10-1~1O-n-video camera, 1)-1~1)-
n-distribution amplification H1) 2-1, 12-2...Video switcher 13...Fader type mixing circuit, 14...Sync signal addition circuit, 15...Sync signal generation circuit, 16...
・External genlock signal generator for camera, 17.18...
・Distribution amplifier, 19...Video transmission terminal, 20-1-2
0-n...Microphone, 21-1 to 21-〇,...
- Preamplifier, 22... Mixing circuit, 23... Transmission amplifier, 24... Audio signal detection comparison circuit, 25... Control circuit, 26-1.26-2... Gate circuit, 27・
...Audio transmission terminal, 28...Video reception terminal, 29...
-Video monitor, 30...Audio reception terminal, 31...Speaker amplifier, 32...Speaker.

Claims (1)

[Claims] (1) means for collecting a plurality of video signals and audio signals corresponding to each video signal; and selection switching means for comparing the intensities of the audio signals and selecting the video signal corresponding to the audio signal with the highest intensity. In the video conference device, the selection switching means is configured to provide a time period during which the currently selected video signal and the newly selected video signal are displayed in an overlapping manner. Video conferencing equipment.