JPH09107531A - Video conferencing system - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] In a video conferencing system, a simple configuration minimizes a shift in the line of sight from a conversation partner. SOLUTION: Based on the position data of the camera 2 output by the camera position detecting means 7, a window position setting means 8 displays image data from a communication partner at a position as close as possible to the camera 2. With this, when the caller 1 is looking at the window 6 for displaying the image data from the caller, the camera 2
It is possible to minimize the deviation of the line of sight between and, and to send an image with little line of sight to the other party.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video conference system for communicating a video signal between interlocutors.

[0002]

2. Description of the Related Art A conventional video conference system is disclosed in, for example, Japanese Patent Laid-Open No. 1-260987. FIG. 4 is a block diagram of the conventional video conferencing system. In FIG.
02 is a screen, 103 is a camera, 104 is a half mirror,
Reference numeral 105 is a projector. In this conventional video conferencing system, the optical image of the caller 101 facing the front of the screen 102 is condensed by the condensing action of the screen 102, and is placed on the condensing path. Mirror 10
It is reflected by 4 and taken by the camera 103. At this time, the image information from the projector 105 is the half mirror 10
4 and is projected on the screen 102, and the screen 10
Upon receiving the light condensing action of 2, the caller can see it.
In this way, the caller himself 1 facing the camera 103
01 can be photographed. By transmitting this image signal, the communication partner can receive an image with little deviation in the line of sight.

Another example of a conventional video conference system is disclosed in Japanese Patent Laid-Open No. 7-99644. In the video conference system of the conventional example, coordinate conversion is performed on the output signals of the two cameras by image processing, and an image with a small shift in the line of sight is transmitted.

[0004]

However, in the above-mentioned structure, there is a problem that the device becomes large in size because the half mirror is arranged and a large-scale circuit is required for the image processing means for coordinate conversion. Had.

The present invention solves the above-mentioned conventional problems, and an object of the present invention is to provide a video conference system having a simple structure and minimizing the shift of the line of sight of the caller.

[0006]

In order to achieve the above object, the present invention provides a camera for photographing a caller himself and generating a video signal, and a video signal output by the camera to a transmission signal to be transmitted to a communication partner. Transmitting means for transmitting, receiving means for converting a signal received from the other party into a video signal, display means for displaying the video signal from the receiving means in a window occupying a part of the screen, and detecting the position of the camera And a window position setting means for setting the position of the window on the display means to the position closest to the camera.

As a result, it is possible to obtain a video conference system that minimizes the shift of the line of sight of the caller with a simple structure.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The invention according to claim 1 of the present invention relates to a camera for photographing a caller himself and generating a video signal, and a video signal output by the camera to a transmission partner by converting the video signal output from the camera into a transmission signal. A transmitting means for transmitting, a receiving means for converting a received signal from the other party into a video signal, a display means for displaying the video signal from the receiving means in a window occupying a part of the screen, and a position of the camera. And a window position setting means for setting the position of the window on the display means to the position closest to the camera. Based on the camera position data output by, the window position setting means displays the other party at a position as close to the camera as possible so that the direction of the line of sight of the caller and the position of the camera are deviated. Small turned into, has an effect that it is possible to transmit the image with less deviation of the line of sight. As a result, it is possible to provide a video conference system with a simple configuration that does not require a large-scale optical device or a large-scale electric circuit and has a small line-of-sight deviation.

Embodiments of the present invention will be described below with reference to the drawings. (Embodiment 1) FIG. 1 is a configuration diagram of a video conference system in Embodiment 1 of the present invention. In FIG.
Reference numeral 1 is the caller himself, 2 is a camera, 3 is a transmitting means, 4 is a receiving means, 5 is a displaying means, 6 is a window, 7 is a camera position detecting means, 8 is a window position setting means, and 9 is a screen.

In the video conferencing system of the present embodiment configured as described above, the camera 2 is the calling party 1
Is photographed and the video signal is output to the transmitting means 3.
The transmitting means 3 converts the video signal into transmission data and sends it to the other party. The transmitting means 3 compresses the video signal by high-efficiency coding, adds an error correction code, and
Modulate and send to the other party. The receiving means 4 demodulates the signal received from the other party, decodes the error correction code to correct correctable errors, then expands the compressed data to obtain a video signal, and the window position setting means 8 Output to. The camera position detecting means 7 detects the position of the camera 2 by a variable resistance which changes depending on the fixed position of the camera 2 and outputs the position data of the camera 2 to the window position setting means 8. The window position setting means 8 is based on the position data of the camera 2,
The image signal from the communication partner is displayed at the position closest to the position of the camera 2 within the range of the screen 9 of the display means 5.

As described above, according to the present embodiment, based on the position data of the camera 2 output by the camera position detecting means 7, the window position setting means 8 displays an image from the communication partner at a position as close as possible to the camera 2. Display the data. As a result, when the caller 1 is looking at the window 6 for displaying image data from the other party, the deviation of the line of sight from the camera 2 can be minimized, and an image with little deviation of the line of sight can be sent to the other party. it can.

Although the camera 2 is fixed in the present embodiment, the position of the camera may be freely changed by the caller 1 himself. In this case, when the caller 1 moves the camera, the display position of the window 6 is moved to the position closest to the camera 2 by the camera position detection means 7 and the window position setting means 8 accordingly.

(Second Embodiment) FIG. 2 is a block diagram of a video conference system according to a second embodiment of the present invention. In FIG. 2, 1 is the caller himself, 2 is a camera, 3 is a transmitting means, 4 is a receiving means, 5 is a displaying means, 6 is a window, 9 is a screen,
Reference numeral 11 is a window position designating unit, 12 is a camera moving unit, and 24 is a camera position setting unit. The difference between the present embodiment and the first embodiment is that a window position designating means 11 for setting the position of the window 6 according to an instruction from the caller 1 is provided and the output of the window position designating means 11 is different. The camera moving means 12 and the camera position setting means 24 for moving the camera 2 accordingly are provided.

The operations of the camera 2, the transmitting means 3 and the receiving means 4 in the video conference system of the present embodiment configured as described above are the same as those in the first embodiment, and the caller output by the camera 2 is the same. The video signal that captured oneself,
The transmitting means 3 converts the data into transmission data and sends the data to the other party, and the receiving means 4 converts the signal received from the other party into a video signal. The window position specifying means 11 comprises, for example, a mouse and means for calculating the position of the mouse in the screen 9, and the caller 1 itself specifies the position of the window 6 with respect to the window position specifying means 11, The designating means 11 displays the window 6 at the designated position. At the same time, the window position specifying means 11 outputs the position of the window 6 on the screen 9 to the camera position setting means 24.
The camera position setting means 24 calculates the closest position to the display position of the window 6 within the movable range of the camera 2 and outputs the closest position to the camera moving means 12. The camera moving means 12 is composed of, for example, a stepping motor and a gear, and moves the camera 2 to the closest position input from the camera position setting means 24.

As described above, according to the present embodiment, the camera position setting means 24 causes the window 6 within the movable range of the camera 2.
And the camera moving means 12 calculates the closest position to
The camera 2 is moved to a position as close as possible to the window 6. As a result, when the caller 1 is looking at the window 6 for displaying image data from the other party, the deviation of the line of sight from the camera 2 can be minimized, and an image with little deviation of the line of sight can be sent to the other party. it can.

In this embodiment, the camera moving means 12 is composed of a stepping motor and gears.
The camera moving means 12 may be composed of other moving means such as a linear motor or an ultrasonic motor.

(Third Embodiment) FIG. 3 is a block diagram of a video conference system according to a third embodiment of the present invention. In FIG. 3, 1 is the caller himself, 3 is transmitting means, 4 is receiving means, 5 is display means, 6 is a window, 9 is a screen, 11 is a window position designating means, 21 is a camera module, 22 is a camera selecting means. Is. The difference between the present embodiment and the second embodiment is that the camera module 21 including a plurality of cameras is provided, and the camera selection means 22 changes the camera module 21 according to the output of the window position specifying means 11. The video signal to be output to the transmitting means 3 is selected from the output video signals of.

In the video conference system of the present embodiment configured as described above, the transmitting means 3, the receiving means 4,
The operation of the window position designating means 11 is the same as that of the second embodiment. The transmitting means 3 converts the video signal from the camera selecting means 22 into transmission data and sends it to the other party, and the receiving means 4 receives from the other party. Convert the received signal into a video signal,
The window position designating means 11 displays the window 6 at the position designated by the caller 1 and outputs the position of the window 6 in the screen 9 to the camera selecting means 22. Camera selection means 22
Selects the camera closest to the display position of the window 6 among the plurality of cameras constituting the camera module 21 and transmits the video signal output from the closest camera among the plurality of video signals from the camera module. Output to the means 3.

As described above, according to the present embodiment, the camera selection means 22 selects the video signal output from the camera closest to the window 6 and outputs the video signal, so that the transmitted video signal is output to the window 6. Make the output of the camera as close as possible.
This minimizes the deviation of the line of sight from the selected camera when the caller 1 is looking at the window 6 for displaying the image data from the other party of the call, and sends the image to the other party of the call with little deviation of the line of sight. be able to.

In the present embodiment, the camera module 21 outputs a plurality of video signals, and the camera selecting means 2
The camera module 21 outputs a plurality of CCD output signals, and the camera selecting means 22 outputs one of the plurality of CCD output signals. May be selected and converted into a video signal and output. In this case, compared to the configuration in which the camera module 21 outputs a plurality of video signals, CC
A single circuit for converting the D output signal into a video signal can be configured.

[0021]

As described above, according to the present invention,
You can set the window position to the position closest to the camera. Also, when the caller himself moves the window, he or she can move the camera to the position closest to the window, or can select and output the output of the camera located closest to the window in the camera module. As a result, it is possible to minimize the deviation of the line of sight of the caller with a simple structure without using a large optical system or a large-scale electric circuit, and to send an image of a natural conversation to the other party. It is possible and its practical effect is great.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a video conference system according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram of a video conference system according to a second embodiment of the present invention.

FIG. 3 is a configuration diagram of a video conference system according to a third embodiment of the present invention.

FIG. 4 is a block diagram of a conventional video conference system.

[Explanation of symbols]

 2 camera 7 camera position detecting means 8 window position setting means 11 window position specifying means 12 camera moving means 21 camera module 22 camera selecting means 24 camera position setting means

Claims (4)

[Claims] 1. A camera for photographing a caller and generating a video signal, a transmitting means for converting a video signal output by the camera into a transmission signal and transmitting the transmission signal to a communication partner, and a reception signal from the communication partner for video. Receiving means for converting into a signal, display means for displaying the video signal from the receiving means in a window occupying a part of the screen, camera position detecting means for detecting the position of the camera, and window in the displaying means. A video conferencing system including a window position setting means for setting the position of the window to the position closest to the camera. 2. A camera for photographing a caller himself to generate a video signal, a transmitting means for converting a video signal output from the camera into a transmission signal and transmitting the transmission signal to a communication partner, and a reception signal from the communication partner for video. Receiving means for converting into a signal, display means for displaying the video signal from the receiving means in a window occupying a part of the screen, and window position designating means for setting the position of the window on the display means by the caller himself. And a camera moving unit that moves the position of the camera, and a camera position setting unit that sets the position of the camera to a position closest to the window in the movable range of the camera. 3. A plurality of cameras for photographing the caller and generating a video signal, a camera selection means for selecting a video signal output by one of the cameras, and a video output by the camera selection means. A transmitting means for converting a signal into a transmission signal and transmitting the signal to a communication partner, a receiving means for converting a reception signal from the communication partner to a video signal, and a window occupying a part of the screen with the video signal from the reception means. And a window position designating unit for setting the position of the window on the display unit by the caller, and the camera selecting unit selects the camera closest to the position of the window. Conference system. 4. A plurality of CCDs for picking up an image of the caller,
A CCD selecting means for selecting a signal output from one of the CCDs and converting it into a video signal, a transmitting means for converting a video signal output by the camera selecting means into a transmission signal and transmitting it to a communication partner, and a call. Receiving means for converting the received signal from the other party into a video signal, display means for displaying the video signal from the receiving means in a window occupying a part of the screen, and the position of the window in the display means for the caller himself. The video conferencing system is characterized in that the CCD selecting means selects the CCD closest to the window position.