JP2002049367A - Video projecting device and video system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress such an unnatural video display that the line of sight of a user is shifted when used in a communication conference system or the like, and to almost completely prevent a video failure such as generation of a flare. SOLUTION: On a screen 13 arranged in a conference room provided with a communication conference system, the video of the partners' conference room is displayed by a video projecting device. In such a case, an aperture part 13a is arranged about in the central part of the screen 13, and a video camera 14 is installed on the rear side of this aperture part 13a. Then, a video photographed by this video camera 14 is transmitted to the partners' side, and the video projecting device to project the video on the screen 13 always projects a black picture on the aperture part 13a, the light projected by the video projecting device is thereby prevented from being made incident on the video camera 14.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image projection device for projecting an image on a screen or the like, and an image system provided with the image projection device.

[0002]

2. Description of the Related Art In recent years, a communication conference system for holding a conference between remote locations has become widespread. As shown in FIG. 8, in the communication conference system, a camera 1 for photographing and an image display device 2 for displaying an image are provided at each remote place where a conference is held, and a video signal photographed by the camera 1 is transmitted to the other party. At the same time, the video display device 2 displays an image corresponding to a video signal transmitted from the camera 1 of the other party via a communication network or the like. By doing so, the video of the other party is displayed in real time on the video display device 2 provided at each remote location, and a conference can be held between remote locations.

[0003]

In the communication conference system shown in FIG. 8, users A and B hold a conference while watching the video displayed on the video display device 2. However, in the communication conference system shown in FIG. 8, since the camera 1 is disposed above the video display device 2, the lines of sight of the users A and B photographed by the camera 1 are directed downward. Then, the image of the user whose eyes are displaced in this way is displayed on the video display device 2 of the other party, and the eyes of the users A and B do not match, giving an unnatural impression to both users. Give it.

[0004] In order to prevent a shift in the line of sight of a user who performs a communication conference, a communication conference system as shown in FIG. 9 has been developed. As shown in the figure, in this communication conference system, an image corresponding to an image signal transmitted from the other party is displayed on a screen 6 using an image projection device 5 such as a projector. An opening 6a is provided at a substantially central portion of the screen 6 on which an image taken by the other party is displayed.
A camera 7 is provided on the back side of the opening 6a.
Is arranged. In this way, if the user is looking at the screen 6, the user's line of sight turns to the camera 7. Therefore, the user who has a line of sight is photographed by the camera 7 and the video projection device (not shown) of the other party is taken.
Will be sent to

However, in the communication conference system shown in FIG. 9, although it is possible to prevent the user's line of sight from shifting, the video projector 5 and the camera 7 are arranged at positions facing each other. The emitted light will enter the camera 7. Thus, the image projection device 5
When the light emitted from the camera 7 enters the camera 7, a flare occurs in which an image captured by the camera 7 is disturbed by the incident light.
In other words, the video transmitted to and projected to the other party is disturbed due to flare. In particular, when an image projected near the opening 6a in the screen 6 is an image having a large luminance such as white, the generated flare becomes large. In addition, when the image projected near the screen 6 is dark, the generated flare is small. However, the appearance of the flare changes depending on the projected image, so that a very difficult-to-view image is projected.

[0006] In order to reduce the disturbance of the image caused by the light emitted from the image projecting device 5, the height difference between the position where the image projecting device 5 is installed and the position of the opening 6a is increased. A method of reducing the amount of light emitted from the camera 5 to the camera 7 is used. With this method, although the amount of light incident on the camera 7 can be reduced to some extent, it is not possible to prevent light from being incident on the camera 7 almost completely.
In addition, it is necessary to provide an installation condition that allows a sufficient height difference between the installation positions of the image projection device 5 and the opening 6a. For example, when the image projection device 5 is installed in a room with a low ceiling, the height difference cannot be made large.

Further, as shown in FIG. 10, a cut mask 6b is arranged on the upper edge of the opening 6a, and by adjusting the mounting position of the cut mask 6b, the camera 7 of the light emitted from the video projector 5 is adjusted. There is also a method of reducing the amount of light incident on the substrate. According to this method, even when a large height difference cannot be obtained between the image projection device 5 and the installation position of the opening 6a, the amount of light emitted from the image projection device 5 to the camera 7 can be reduced to some extent. It is not possible to almost completely prevent the projection light from entering the camera 7. Further, the cut mask 6b attached to reduce the amount of incidence on the camera 7 reduces the opening area of the opening 6a, and the angle of view that can be photographed by the camera 7 decreases.

In Japanese Patent Application Laid-Open No. Hei 6-233290, a deflection filter is provided at a position in front of the image projection device 5 and at a position between the opening 6a and the camera 7, respectively. A technique for reducing the incidence of light on the camera 7 is disclosed. However, in this method, the amount of light required for projecting an image on the screen 6 by the image projecting device 5 is reduced by the deflection filter disposed in front of the image projecting device 5, and the image projected on the screen 6 becomes dark. There is a problem that it becomes. In this case, it is conceivable to make the room dark so as to make the projected image easy to see. However, in this case, a vicious circle occurs in which the image captured by the camera 7 in the room becomes dark.

In the apparatus described in Japanese Patent Application Laid-Open No. Hei 7-143469, an imaging unit is arranged on the back side of the display unit.
The period in which the transparency of the display unit is increased and the period in which normal display is performed are switched, and the imaging unit captures an image of the front side of the display unit during the period in which the transparency is increasing. In this device, since the imaging unit is arranged on the back side, not on the top, bottom, left and right of the display unit, the line of sight of the user who looks at the display unit faces the imaging unit. Since the switching period is changed, a disturbance such as a flickering display image occurs.

The present invention has been made in view of the above circumstances, and when used in a communication conference system or the like, suppresses the appearance of unnatural images such as a user's line of sight being shifted, and It is an object of the present invention to provide an image projection device and an image system capable of almost completely preventing an image defect such as occurrence of flare.

[0011]

According to a first aspect of the present invention, there is provided an image projecting apparatus for projecting an image on a screen in accordance with an image signal. A mask image superimposing unit that superimposes a mask image that makes a part of the image black in an image corresponding to the signal, and a projecting unit that projects an image on which a mask image is superimposed by the mask image superimposing unit onto the projection surface. And brightness input means for inputting a brightness signal indicating the brightness of the image,
The mask image superimposing means adjusts a position of a mask image to be superimposed on an image corresponding to the video signal, based on the luminance signal input by the luminance input means.

[0012] The image projection apparatus according to claim 2 is
2. The video projection device according to claim 1, wherein the luminance input unit acquires a luminance signal indicating luminance of a video corresponding to the video signal from a video signal supplied from the outside.

[0013] The image system according to claim 3 is
A screen having an opening, arranged on the front side of the screen, and an image projection device for projecting an image on the surface of the screen in accordance with an image signal; and being arranged on the back side of the screen in the opening, the screen And a photographing device for photographing the front side of the screen from the back side of the screen and outputting a photographed image signal, wherein the image projecting device includes a part of the image in an image corresponding to the image signal. Mask image superimposing means for superimposing a mask image to be blackened, projecting means for projecting an image on which the mask image is superimposed by the mask image superimposing means onto the screen, and a photographed image from a photographed video signal output by the photographing device. Brightness input means for inputting a brightness signal indicating the brightness of the video corresponding to the signal, the mask image superimposing means, Based on the luminance signals input by the degree input means it is characterized by adjusting the position of the mask image to be superimposed on the video corresponding to the video signal.

[0014] The video system according to claim 4 is
4. The video system according to claim 3, wherein the mask image superimposing unit moves the superimposed position of the mask image over the entire image corresponding to the video signal when adjusting the superimposed position of the mask image. In this case, the mask image is superimposed on the superimposition position when the luminance signal having the smallest luminance is inputted by referring to the luminance signals sequentially inputted by the luminance input means.

[0015] The video system according to claim 5 is
5. The image system according to claim 4, wherein the mask image superimposing unit moves the mask image over the entire region of the image corresponding to the image signal and adjusts the position of the mask image. Characters, pictures or both images are attached and moved.

[0016] The video system according to claim 6 is
6. The image system according to claim 4, wherein the projection unit projects a high-brightness image on the surface of the screen when adjusting the position of the mask image.

Further, the video system according to claim 7 is
A screen having an opening, arranged on the front side of the screen, and an image projection device for projecting an image on the surface of the screen in accordance with an image signal; and being arranged on the back side of the screen in the opening, the screen And a photographing device for photographing the front side of the screen from the back side of the screen and outputting a photographed video signal, wherein the video projecting device projects a video corresponding to the video signal onto the front surface of the screen. Mask image superimposing means for superimposing a mask image that blackens the position corresponding to the opening in the image to be projected, and projecting means for projecting the image on which the mask image is superimposed by the mask image superimposing means onto the screen. It is characterized by doing.

[0018]

Embodiments of the present invention will be described below with reference to the drawings. A. 1. Configuration of Embodiment First, FIG. 1 is a diagram showing a schematic configuration of a communication conference system including a video system according to an embodiment of the present invention. As shown in FIG. 1, in this communication conference system, a video system 10 is installed in two conference rooms 11a and 11b at remote locations.
The user A and the user B hold a conference by using a communication conference system provided with 0.

As shown in FIG. 1, each conference room 11a, 11b
The video system 10 installed in the computer includes a video projection device 12 mounted on a ceiling or the like, a screen 13, and a video camera 14. The video signal captured by the video camera 14 of the other party is supplied to the video projector 12, so that an image corresponding to the video signal captured by the video camera 14 of the other party is projected on the screen 13. ing.

More specifically, a video signal Va captured by a video camera 14 installed in the conference room 11a is supplied to a video projection device 12 installed in the conference room 11b via a communication network (not shown). . Thereby, an image of the user A or the like in the conference room 11a is projected on the screen 13 in the conference room 11b. On the other hand, a video signal Vb captured by the video camera 14 installed in the conference room 11b is supplied to a video projection device 12 installed in the conference room 11a via a communication network (not shown). Thereby, the conference room 11b is displayed on the screen 13 in the conference room 11a.
An image of the user B or the like who is in the room is projected. In this way, the user A and the user B can see the video of the other party on the screen 13. Here, although not shown,
Microphones are installed in the conference room 11a and the conference room 11b, and audio information in each of the conference rooms 11a and 11b obtained by the microphones is supplied to an audio reproducing device and the like installed in the other party's conference room. To be played back. Therefore, the user A and the user B can recognize the video and audio of the other party at the remote place, and can hold a conference between the remote places.

Each of the video projectors 12 is also supplied with a video signal from a video camera 14 installed in the same conference room, and using this video signal, a position of a mask image for preventing a disturbance of a captured video. The adjustment is performed, which will be described later.

FIG. 2 is a front view showing the screen 13 of the video system 10. As shown in FIGS. 1 and 2, a rectangular opening 13 a is formed substantially at the center of the screen 13, and a video camera 14 is installed on the back side of the screen 13 in the opening 13 a. As a result, the user's line of sight looking at the image projected on the screen 13 is naturally directed to the video camera 14 side. Therefore, the user's line of sight projected on the other party's screen 13 does not deviate upward or downward, and the line of sight is directed to the user viewing the screen 13. Therefore, the user A and the user B in the conference room 11a and the conference room 11b can hold a meeting or the like in a state in which their eyes are not unnaturally deviated, but in a state where their eyes are coincident.

As described above, in the communication conference system provided with the video system 10 according to the present embodiment, the video camera 14 is arranged on the back side of the opening 13a provided substantially at the center of the screen 13, so that the communication can be performed. It is possible to prevent the line of sight of the user using the conference system from unnaturally shifting. However,
As described above, when the light emitted from the video projection device 12 is incident on the video camera 14, a flare occurs in the video captured by the video camera 14. Therefore, in the present embodiment, as shown in FIG. 3, the image projection device 12 always keeps the opening 1 of the screen 13 irrespective of the content of the image corresponding to the image signal supplied from the video camera 14 of the other party.
A mask image M (a shaded portion in the figure), which is a black image, is projected onto the portion 3a (actually no light is applied). As a result, the video projection device 1 is
The light from the lens 2 hardly enters, and the occurrence of the above-mentioned flare can be almost completely eliminated. Hereinafter, the configuration of the video projection device 12 that projects such a mask image M onto the opening 13a on the screen 13 will be described with reference to FIG.
This will be described with reference to FIG. Here, the conference room 11a
The video projection device 12 of the video system 10 installed inside will be described.

As shown in FIG.
It includes a video superimposing unit 50, a mask image control unit 51, a Y / C separation circuit 52, a display control unit 53, and an operation unit 54.

The video superimposing unit 50 includes a video corresponding to the video signal Vb supplied from the video camera 14 (installed in the conference room 11 b) of the other party and a mask image information Vm supplied from the mask image controller 51. By superimposing the corresponding mask image, a superimposed video signal Vj is generated and output to the display control unit 53.

The mask image control unit 51 responds to an instruction from the user via the operation unit 54 to change the size of the mask image,
The shape and the position at which the mask image is superimposed are controlled, and mask image information Vm, which is image information according to the contents of these controls, is output to the video superimposition unit 50. In the image superimposing unit 50, the shape according to the mask image information Vm as described above,
The superimposition of the mask image M of the size is performed at the superimposed position according to the mask image information Vm. Therefore, the user can operate the operation unit 54 to adjust the superposition position, shape, size, and the like of the mask image M so that the mask image M covers the opening 13a of the screen 13 as described above.

The mask image control section 51 not only performs the mask image adjustment processing in accordance with the user's instruction through the operation section 54 as described above, but also projects the mask image onto the opening 13a. It is possible to perform an automatic adjustment process for automatically adjusting the superimposed position of the mask image. When the automatic adjustment process is performed, the mask image information Vm generated by the process is transmitted to the video superimposition unit 50. Output. Here, when the automatic adjustment process is performed, the luminance signal K supplied from the Y / C separation circuit 52 is used. The details of the automatic adjustment process will be described later.

The Y / C separation circuit 52 separates the video signal Va supplied from the video camera 14 installed in the same room as the video projection device 12 into a Y (luminance) signal and a C (chroma) signal. The luminance signal obtained from the video signal Va by the separation is output to the mask image control unit 51. That is, a luminance signal representing the luminance of the video captured by the video camera 14 installed in the conference room 11 a is obtained, and the obtained luminance signal is output to the mask image control unit 51.

The display control unit 53 has the same configuration as the display control unit of a general video projection apparatus.
An image corresponding to the superimposed image signal Vj supplied from 0 is projected on the screen 13. To illustrate a specific configuration,
It has liquid crystal display panels corresponding to the three primary colors of R (red), G (green), and B (blue), and has an image corresponding to the superimposed video signal Vj supplied from the video superimposing unit 50 to these liquid crystal display panels. Is displayed. The light source irradiates the liquid crystal display panel on which the image corresponding to the superimposed image signal Vj is displayed, and the image transmitted through the liquid crystal display panel is projected on the screen 13. That is, as shown in FIG.
Video signal Vb supplied from video camera 14 of the other party
Is projected on the screen 13 in which the mask image M is superimposed on the video corresponding to.

B. Mask Image Superposition Position Adjustment Processing Described above is the configuration of the communication conference system including the video system 10 according to the present embodiment, and the video signal Vb supplied from the other party when the user operates the operation unit 54 Can be adjusted at the position at which the mask image M is superimposed on the video corresponding to. Therefore, as shown in FIG. 3, if the position of the mask image M is adjusted so that the mask image M is projected on the portion of the opening 13a of the screen 13, the video camera 1 disposed on the back side of the opening 13a
4 prevents the light emitted from the video projector 12 from being incident thereon, thereby preventing the occurrence of flare in the video taken by the video camera 14 (video projected on the screen 13 of the other party).

The image projection device 1 according to the present embodiment
In 2, in addition to adjusting the superposition position of the mask image M by the above-described manual operation of the user, the image projection device 12 automatically projects the mask image M onto the opening 13a. It is also possible to perform an automatic adjustment process for adjusting the superposition position, and the content of the automatic adjustment process will be described below. Note that the automatic adjustment process may be performed when a user gives an instruction to perform the automatic adjustment process, or when the power is turned on.

As shown in FIG. 5, when the automatic adjustment process is started, the mask image control unit 51 sequentially displays the mask image M projected on the screen 13 from the initial position indicated by a hatched line to M _1.
Position, the position of M _2, is moved over the entire picture area projected on so on positions of M ₃ on a screen 13 to indicate the position of the mask image M by the arrow. In particular,
The mask image control unit 51 sequentially supplies the mask image information Vm in which the superimposition position is shifted to the video superimposition unit 50,
The superimposed video signal Vj in which the superimposed position of the mask image M is shifted in the video superimposing unit 50 is sequentially generated. The position of the mask image M projected on the screen 13 is moved by sequentially supplying the superimposed video signal Vj generated in this way to the display control unit 53. Thus, the mask image M
During the movement of the mask image M, the adjustment image signal Vc for displaying a high-luminance image, for example, a white image, over the entire area on the screen 13 is supplied to the image superimposing unit 50 in addition to the mask image information Vm. Therefore, in the video superimposing unit 50, the superimposed video signal Vj in which the mask image M is superimposed on the video in which the whole area is white in accordance with the mask image information Vm.
Is generated.

The mask image control section 51 supplies the mask image information Vm sequentially to shift the superimposition position to the video superposition section 50 as described above, and the Y / C separation circuit while the mask image M is being moved. The luminance indicated by the luminance signal supplied from 52 is sequentially recorded in the memory. Here, as shown in FIG. 6, the mask image control unit 51 determines a superimposed position (for example, coordinate information) of the mask image M to be sequentially moved over the entire image on the screen 13 and, when the superimposed position is at Y / C. The luminance indicated by the luminance signal supplied from the separation circuit 52 is stored in association with the luminance.

When the movement of the mask image M over the entire area of the image projected on the screen 13 is completed, the mask image control unit 51 specifies the smallest one of the stored luminances as described above. Then, the superposition position of the mask image M corresponding to the luminance is specified. The superimposition position specified in this way is set as an appropriate superimposition position, and the automatic adjustment process ends.

When the video signal Vb is supplied from the video camera 14 on the other side and a communication conference or the like is started, the mask image information Vm for superimposing the mask image M on the superimposed position specified as described above is provided. Generate and image superimposing unit 5
Supply 0. Thus, the video superimposing unit 50 generates the superimposed video signal Vj in which the mask image M is superimposed on the position specified as described above in the video corresponding to the video signal Vb. Accordingly, the mask image M is projected on the screen 13 at the position specified as described above, regardless of the video content of the video signal Vb supplied from the video camera 14 of the other party.

The superimposed position of the mask image M specified by the automatic adjustment process described above is a position overlapping the opening 13a on the screen 13, and the image projected on the screen 13 after the automatic adjustment process is shown in FIG. As shown in FIG. 7, the image is obtained by projecting the mask image M onto the opening 13a. The reason why the specific position is a position overlapping the opening 13a is as follows.

In the above-described automatic adjustment processing, the mask image M is sequentially moved while a white image is projected on the screen 13 over the entire area. Therefore, the mask image M
Is projected by a video camera 14 disposed on the back side of the opening 13a when the image is projected on a position other than the opening 13a and when the mask image M is projected on the portion of the opening 13a. The brightness of the video image varies greatly. That is, when the mask image M is projected on the opening 13a, that is, when light is not incident on the opening 13a, the video camera 14 is not directly incident with light emitted from the video projection device 12. In this case, the luminance of the image captured at this time is clearly lower than when the mask image M is projected to another position. Therefore, as described above, it is possible to determine that the position of the mask image M when the luminance signal is minimized is the position projected on the opening 13a.

In the present embodiment, an opening 13a is provided at the center of the screen 13, and a video camera 14 is provided on the back side of the opening 13a. The displacement can be suppressed. In the case where the video camera 14 is disposed with the opening 13a provided in this manner, the disturbance of the captured image due to the projection light of the image projection device 12 poses a problem. In the present embodiment, the opening on the image projected on the screen 13 is a problem. By superimposing the mask image M on the portion of the section 13a, the video camera 1
4 can be prevented from directly entering light, and the occurrence of flare in a captured image can be almost completely eliminated. That is, in the present embodiment, it is possible to solve the problem such as a shift in the line of sight of each user without generating a flare in the captured image by the projection light.

Further, in order to prevent flare in the video taken by the video camera 14, there is no need to provide a large height difference between the video projection device 12 and the opening 13a, regardless of installation conditions such as in a room with a low ceiling. Thus, it is possible to prevent the occurrence of flare in a shot image at all times. Further, regardless of the image content (bright, dark, etc.) projected by the image projection device 12, the mask image M is always projected on the opening 13a, so that the occurrence of flare can be prevented at all times.

Also, in order to reduce the light emitted from the image projection device 12 from directly entering the video camera 14, it is not necessary to provide a cut mask or the like to reduce the size of the opening 13a (see FIG. 10). , Video camera 14
Can be sufficiently taken.

In this embodiment, since the above-described automatic adjustment processing can be performed, the user superimposes the mask image M on an appropriate position without performing an operation of adjusting the position of the mask image M. Can be done.

C. Modifications The present invention is not limited to the above-described embodiment, and various modifications as described below are possible.

(Modification 1) In the above-described embodiment, the mask image M has a rectangular shape. However, the shape of the mask image M is not limited to this, and may be other shapes such as a circle, an ellipse, and a square. Is also good. Alternatively, another shape of the mask image M may be prepared in advance, and the user may operate the operation unit 54 to set the shape of the mask image M according to the shape of the opening 13a.

(Modification 2) In the above-described embodiment, the superposition position of the mask image M is adjusted by the automatic adjustment processing. However, not only the superposition position but also the size of the mask image M can be automatically adjusted. You may do so.
In this case, the mask image M having a larger size is moved in advance over the entire area on the screen 13 to specify the superimposition position as described above, and then the size of the mask image M is sequentially reduced at the specified superimposition position. Then, the size immediately before the brightness indicated by the brightness signal acquired while reducing the size of the mask image M changes brightly may be set as the appropriate size. This is because the size of the mask image M whose brightness has been changed brightly is smaller than the size of the opening 13a, and it is considered that the light of the video projection device 12 is directly incident on the video camera 14. Therefore,
It is considered that the size immediately before the luminance is changed is such that the mask image M can cover the opening 13a and the size of the mask image M is not unnecessarily large.
By setting this size, it is possible to reduce that the mask image M obstructs the image to be projected.

(Modification 3) In the automatic adjustment processing in the above embodiment, the mask image M is displayed on the screen 13.
Although the upper image is sequentially moved in the vertical direction (see the arrow in FIG. 5), the mask image M is displayed on the screen 13.
It is sufficient to move the whole area of the above image, and the moving direction and the like are arbitrary. When moving the mask image M during the automatic adjustment process, in addition to the mask image M, characters such as a company name and a product name and a picture such as a character as shown in FIG. You may do so. In this way, the image projected on the screen 13 during the automatic adjustment process is not an indifferent thing in which the mask image M, which is a black image on white, moves, but the character such as an animal moves. Can be provided.

(Modification 4) In the above-described embodiment, the video projector 12 having the automatic adjustment function of automatically adjusting the position of the mask image M has been described. Video camera 14
In the case of the video system 10 in which the positional relationship is always fixed, the video system 10 may not have a function of adjusting the position where the mask image M is superimposed. In this case, a superimposition position at which the mask image M is projected onto the opening 13a of the screen 13 is determined in advance, and the mask image M may be superimposed on this position.

(Modification 5) In the embodiment described above, in the automatic adjustment processing for automatically adjusting the position of the mask image, a white image is projected over the entire area, and the superimposed position of the mask image in the white image is determined. Although the image is moved, the image projected onto the entire area is not limited to white, and if the image has high luminance, substantially the same effect as in the case of white can be obtained.

[0048]

As described above, according to the present invention,
When used in a teleconference system or the like, it is possible to suppress the appearance of unnatural images such as a shift in the user's line of sight, and to almost completely prevent image defects such as flare. .

[Brief description of the drawings]

FIG. 1 is a diagram illustrating a schematic configuration of a communication conference system including a video system according to an embodiment of the present invention.

FIG. 2 is a front view showing a screen which is a component of the video system.

FIG. 3 is a diagram showing an image projected on the screen by an image projection device which is a component of the image system.

FIG. 4 is a block diagram illustrating a configuration of the video projection device.

FIG. 5 is a diagram illustrating an automatic adjustment process of a superimposition position of a mask image performed by the video projection device.

FIG. 6 is a diagram illustrating a configuration of a memory for storing a superimposed position of a mask image and a luminance of an image at the time of the superimposed position adjustment process of the mask image.

FIG. 7 is a view for explaining an automatic adjustment process of a superposition position of the mask image according to a modification of the video system.

FIG. 8 is a diagram showing a schematic configuration of a conventional communication conference system.

FIG. 9 is a diagram for explaining another conventional communication conference system.

FIG. 10 is a diagram for explaining another conventional communication conference system.

[Explanation of symbols]

10 video system, 11a, 11b conference room, 1
2 ... video projection device, 13 ... screen, 13a ...
Opening, 14 Video camera, 50 Image superimposing part
51: mask image control unit, 52: Y / C separation circuit,
53: display control unit, 54: operation unit, M: mask image

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G09G 5/12 G09G 5/38 5/38 H04N 7/15 630Z H04N 7/15 630 G09G 5/36 520M ( 72) Inventor Yasushi Shimizu 10-1, Nakazawa-cho, Hamamatsu-shi, Shizuoka Prefecture Inside Yamaha Corporation (72) Fukushi Kawakami 10-1, Nakazawa-cho, Hamamatsu-shi, Shizuoka Prefecture F-term in Yamaha Corporation 5C064 AA02 AB02 AC04 AC06 AC11 AC13 5C082 AA02 AA27 BA20 BA34 BA35 BB03 CA18 CA52 CA56 CB03 MM10

Claims (7)

[Claims] 1. An image projection apparatus for projecting an image on a screen according to an image signal, comprising: a mask image superimposing means for superimposing a mask image for making a part of the image black on an image corresponding to the image signal. And projection means for projecting the image on which the mask image is superimposed by the mask image superimposing means onto the projection surface; and luminance input means for inputting a luminance signal indicating the luminance of the image. An image projection apparatus for adjusting a position of a mask image to be superimposed on an image corresponding to the video signal, based on the luminance signal input by the luminance input means. 2. The video projection device according to claim 1, wherein said brightness input means obtains a brightness signal indicating a brightness of a video corresponding to the video signal from a video signal supplied from the outside. 3. A screen having an opening, a video projector arranged on the front side of the screen, and projecting an image on the front surface of the screen in accordance with a video signal; An imaging system that is arranged and that outputs an imaging video signal by imaging the front side of the screen from the back side of the screen, wherein the video projection device, during an image corresponding to the video signal, Mask image superimposing means for superimposing a mask image for making a part of an image black, projection means for projecting an image on which a mask image is superimposed by the mask image superimposing means onto the screen, and a photographed image output by the photographing device Luminance input means for inputting a luminance signal indicating the luminance of an image corresponding to the captured image signal from the signal, and the mask image The video system, wherein the superposition means adjusts a position of a mask image to be superimposed on a video corresponding to the video signal, based on the luminance signal input by the luminance input means. 4. When the mask image superimposing means adjusts the superimposed position of the mask image, the mask image superimposing means moves the superimposed position of the mask image over the entire image corresponding to the video signal. 4. The video system according to claim 3, wherein the mask image is superimposed at a superimposition position when the luminance signal having the smallest luminance is inputted by referring to the luminance signals sequentially inputted by the means. 5. The mask image superimposing means, when adjusting the position of the mask image by moving the mask image over an entire image corresponding to the image signal, includes a predetermined character, a pattern, or both in the mask image. The video system according to claim 4, wherein the video system is moved together with the video. 6. The image system according to claim 4, wherein the projection unit projects a high-luminance image on the surface of the screen when adjusting the position of the mask image. 7. A screen having an opening, an image projection device arranged on the front side of the screen, and projecting an image on the surface of the screen in accordance with an image signal; An imaging device arranged to output an imaging video signal by imaging the front side of the screen from the back side of the screen, wherein the video projection device is an image corresponding to a video signal, A mask image superimposing unit that superimposes a mask image that blackens a position corresponding to the opening in an image projected on the surface of the screen, and projects an image on which the mask image is superimposed by the mask image superimposing unit onto the screen. An image system comprising: a projection unit.