JPH11284959A - Video distributor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video distributor that distributes a sharp video signal in response to a video distribution request from the user. SOLUTION: A photographing time measurement section 2 measures a photographing time by a camera 1, a transmission video control section 34 discriminates whether or not a time of a video photographing side is within a range of times set as a time zone by an installing party of the distributor when the photographed video image is sharp, a selector 5 selects a received real time video signal 11 as a distributed video signal 15 when the time is within a preset time range, while the selector 5 distributes a video signal 14 having been photographed when the video image is sharp in the photographing location and stored in a storage video section 40 as the distributed video signal 15 in the case that the time of the video photographing side is at the outside of the preset time range.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video distribution device, and more particularly to a device for distributing real-time video or stored video according to a user's video distribution request.
Note that the video handled here means a video signal or a signal including both a video signal and an audio signal.

[0002]

2. Description of the Related Art Heretofore, as this type of video distribution apparatus, there has been known a system which distributes real-time video to a user in accordance with a video distribution request of the user. For example, "Experiment for delivering still and moving images on wide area Internet", IEICE, IEICE Technical Report, OFS97-
4, 15-20 (1997-05) describes a real-time video distribution system using the Internet. This system distributes a video to a user in real time when there is a video distribution request from a user, irrespective of the state of the video photographed by the camera photographing side.

[0003] As a video distribution system, there is another concept called video on demand (VOD). This is a service that allows you to watch a movie or program you want to watch from the beginning when you want to watch it. This V
The OD system is configured, for example, to store video information desired by a user in a center, and to transmit a video signal corresponding to a control signal for program selection transmitted from the user from the center to the user.

[0004]

The above-described VOD system does not distribute real-time video, so there is no problem. However, when real-time video is distributed in accordance with a video distribution request from a user, the following is required. Problems arise. That is, in the conventional real-time video distribution system, in a video distribution between regions having a time difference in which day and night are reversed, when a user (video reproduction side) transmits a video distribution request, the video shooting side is at night. In such a case, a clear video cannot be captured, and there is a problem that a blurred video, for example, a real-time video of a dark night underexposure is delivered to a user.

Accordingly, it is an object of the present invention to provide a video distribution apparatus capable of distributing a clear video in response to a video distribution request from a user.

[0006]

The object of the present invention is to distribute a photographed real-time video signal when the time on the video photographing side is within a preset time range when a video distribution request is made from the video reproducing side, This is achieved by arranging to distribute the stored video signal when it is outside this time range. In this case, if there is a real-time video distribution request from the video playback side,
Distribute video signals. When the time on the video shooting side is within a preset time range, the video shooting is continued, and when the time is outside this time range, the video shooting is stopped. When a plurality of video distribution requests are made from the video reproduction side, a real-time video signal or a stored video signal corresponding to each request is distributed.

Also, when a video distribution request is issued from the video reproducing side, when the illuminance at the video shooting location is within a preset illuminance range, the real-time video signal is delivered. It may be configured to distribute a video signal stored in advance. Also in this case, when the illuminance of the video shooting location is within the preset illuminance range, the video shooting is continued, and when the illuminance is out of the illuminance range, the video shooting is stopped. For example, a case where the illuminance of the video shooting location is 1 lux or more can be set as being within the range of the illuminance here.

[0008] Further, when the video playback side receives a video distribution request, if the luminance of the photographed video is within a predetermined luminance range, the video signal is distributed, and if the luminance is out of this luminance range, the video signal is distributed in advance. It can also be configured to deliver the stored video signal. For example, if the brightness of the video you shot is more than 1 candela,
The luminance can be set within the range of the luminance.

In the video distribution method according to the present invention, real-time video is distributed when the situation of the video photographing side is within the range of the preset situation in response to the video distribution request, and the situation of the video photographing side is preset. When the situation is out of the range, the stored video is distributed, and when there is a video distribution stop request, the video distribution is stopped. here,
The situation on the video shooting side is, for example, the time on the video shooting side, the illuminance of the video shooting location, or the brightness of the shot video.

[0010] In the video distribution system according to the present invention, a video reproduction terminal for transmitting a video distribution request signal via a network, and the sharpness of a video image photographed corresponding to the video distribution request signal transmitted from the video reproduction terminal. And a video distribution device for selecting either a video signal stored in advance or a captured video signal and distributing the video signal to a video playback terminal. Here, the definition of the video image is determined based on at least one of the time on the video shooting side, the illuminance of the video shooting location, and the brightness of the shot video.

Thus, it is possible to obtain a video distribution apparatus, a video distribution method, and a video distribution system that can always deliver a clear video in response to a video distribution request from a user.

[0012]

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing an embodiment of a video distribution apparatus according to the present invention. (First Embodiment) FIG. 1 is a block diagram showing a configuration of a video distribution apparatus according to a first embodiment of the present invention, and FIG. 2 illustrates a control operation of a transmission video control unit of the video distribution apparatus according to the first embodiment. It is a flowchart for performing. The video distribution device 50 shown in FIG. 1 is configured such that, when a video distribution request is made by a user on the video reproduction side, the time on the video photographing side is set to a time set as a time zone in which the video taken in advance is sharp by the installer of the present device. Real-time /
When the video is clear or the video is clear at the actual shooting location, any one of the video shot and stored in advance is selected and delivered to the user.

As shown in FIG. 1, a video distribution device 50 according to a first embodiment includes a photographing time measuring unit 2 for measuring the photographing time of a digital camera (hereinafter, referred to as a camera) 1.
And a storage video unit (memory) storing video signals previously shot when the image is clear at the actual shooting location
40, a transmission video control unit 34 for controlling distribution of a desired video to the user who has made the video distribution request,
The selector 5 performs a distribution operation by selecting a real-time video or a stored video under the control of the transmission video control unit 34. In the embodiment of the present invention, a digital camera is used as the camera 1, but an analog camera may be used. Although a moving image is assumed as a video, a still image photographed by a camera or a quasi-moving image such as frame advance may be used. Next, the operation of the video distribution device 50 according to the first embodiment of the present invention configured as described above will be described.

The video distribution device 50 shown in FIG. 1 is a device for distributing either real-time video or stored video when a video distribution request is made by a user. The transmitted video signal 11 is transmitted to the selector 5 and the storage video unit 40. The shooting time measurement unit 2 transmits the measured shooting time to the transmission video control unit 34 as a shooting time information signal 21.

The transmission video control unit 34 receives the video distribution request signal 22 from the user, and when there is a video distribution request from the user, the time on the video photographing side is set within a time range set in advance by the apparatus installer. In the case of (1), the control signal 25 is transmitted to the selector 5 so that the real-time video signal 11 received by the selector 5 is distributed as the distribution video signal 15. On the other hand, when the time on the video shooting side is out of the preset time range, the control signal 24 is transmitted to the storage video unit 40 so that the video signal 14 stored in advance is distributed as the distribution video signal 15. Here, as a preset time range, a time zone in which clear video shooting is possible is selected. For example, in the case of Japan, if the season is summer, it is determined to be 5 am to 6 pm, and if it is winter, it is determined to be 7 am to 4 pm. This time range is appropriately adjusted by the geographical position of the video shooting location, season, weather, camera gain control, or the like. This adjustment can be made automatically using a timer or a sensor. When receiving the video stop request signal 20 from the user, the transmission video control unit 34 controls the control signals 24, 2 to stop the video distribution.
5 is transmitted to the video storage unit 40 and the selector 5. still,
Details of the operation of the transmission video control unit 34 will be described later with reference to FIG.

The storage video section 40 includes a transmission video control section 3
Based on the control signal 24 from 4, the stored video is read out and the stored video signal 14 is transmitted to the selector 5.
The selector 5 receives the control signal 2 from the transmission video control unit 34.
In accordance with 5, either the real-time video signal 11 or the stored video signal 14 is selected to perform the distribution operation as the distribution video signal 15, or the video distribution stop operation is performed.

Next, the operation of the transmission video control unit 34 will be described with reference to FIG.
This will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is started in step 60, the process starts. In step 61, it is determined whether or not there is a video distribution request from the user. If there is no video distribution request from the user, step 61 is repeated. (2) If it is determined in step 61 that there is a video distribution request from the user, then in step 6
In step 2, it is determined whether or not the time on the photographing side is within the time range set in advance by the installer of the apparatus. If the time is out of the range, control is performed to deliver the stored video prepared in advance, and the process proceeds to step 65. . (3) If it is determined in step 62 that the time on the photographing side is within the time range specified in advance, control is performed in step 71 to distribute the real-time video, and the process proceeds to step 65. (4) In step 65, it is determined whether or not there is a request from the user to stop video distribution. If there is no request from the user to stop video distribution, step 65 is repeated. (5) If it is determined in step 65 that there is a request from the user to stop video distribution, step 6
At 6, control is performed to stop the video distribution to the user, and the process returns to step 60 and starts from the start.

According to the first embodiment of the present invention, when a video distribution request is received from a video reproducing user, a received real-time video is received when the time of the video photographing side is within a preset time range. When the signal is delivered and the time of the video shooting side is outside the preset time range, the video signal stored in advance is selected and delivered, so that the unclear video is not transmitted to the user and the video is always clear. Video (good video) can be delivered.

(Second Embodiment) FIG. 3 is a block diagram showing a configuration of a video distribution apparatus according to a second embodiment of the present invention, and FIG. 4 is a control of a transmission video control unit of the video distribution apparatus according to the second embodiment. It is a flowchart for explaining operation. FIG.
Are the same as those in FIG. The video delivery device 50 according to the second embodiment shown in FIG. 3 determines whether or not there is a real-time video delivery request from the video playback side user and whether or not the time of the video shooting side is within a preset time range. The first point is that either real-time video or stored video is selected and delivered to the user.
Different from the embodiment. Other processing operations are the same as in the first embodiment. Hereinafter, the points different from the first embodiment will be mainly described.

As shown in FIG. 3, the video distribution apparatus 50 according to the second embodiment receives a real-time video distribution request signal 26 from a user at the transmission video control unit 38 of the first embodiment shown in FIG. This is a configuration in which means for performing the operations are added. Next, the operation of the video distribution device according to the second embodiment configured as described above will be described.

The video distribution device 50 shown in FIG. 3 is a device for distributing either real-time video or stored video when a video distribution request is made by a user. The transmitted video signal 11 is transmitted to the selector 5 and the storage video unit 40. The shooting time measurement unit 2 transmits the measured shooting time to the transmission video control unit 38 as a shooting time information signal 21.

The transmission video control unit 38 receives the video distribution request signal 22 and the real-time video distribution request signal 26 from the user, and if there is a video distribution request from the user and there is a real-time video distribution request, The video signal 11 is distributed as the distribution video signal 15, and if there is no video distribution request from the user and there is no real-time video distribution request, the received real-time is received when the time on the video shooting side is within a preset time range. Distribute the video signal 11 as the distribution video signal 15 and, when the time on the video shooting side is out of the preset time range, distribute the video signal 14 previously shot and stored when the video is clear at the main shooting location. In order to distribute the video signal 15, the stored video unit 4
0, and control signals 24 and 25 to the selector 5 respectively. Further, the transmission video control unit 38 receives the video stop request signal 20 from the user, and transmits the control signals 24 and 25 to the video storage unit 40 and the selector 5 so as to stop the video distribution. The operation of the transmission video control unit 38 will be described later in detail with reference to FIG. The processing operations of the storage video unit 40 and the selector 5 are the same as the processing operations of the first embodiment.

Next, the operation of the transmission video control unit 38 will be described with reference to FIG.
This will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is started in step 60, the process starts. In step 61, it is determined whether or not there is a video distribution request from the user. If there is no video distribution request from the user, step 61 is repeated. (2) If it is determined in step 61 that there is a video distribution request from the user, the process proceeds to step 7
At 0, it is determined whether there is a real-time video distribution request. (3) If it is determined in step 70 that there is a real-time video distribution request, control is performed in step 71 to distribute real-time video, and the process proceeds to step 65. (4) If it is determined in step 70 that there is no real-time video distribution request, then in step 62, it is determined whether or not the time on the photographing side is within a time range specified in advance by the installer of the apparatus. to decide. (5) If it is determined in step 62 that the time on the photographing side is outside the range of the time specified in advance, control is performed in step 74 to distribute the stored video prepared in advance, and the process proceeds to step 65. . (6) If it is determined in step 62 that the time on the photographing side is within the time range specified in advance, control is performed in step 71 to distribute the real-time video, and the process proceeds to step 65. (7) In step 65, it is determined whether or not there is a request from the user to stop video distribution. If there is no request from the user to stop video distribution, step 65 is repeated. (8) If it is determined in step 65 that there is a request from the user to stop video distribution, step 6
At 6, control is performed to stop the video distribution to the user, and the process returns to step 60 and starts from the start.

In the video distribution in the embodiment described above,
Although the description has been made only when the video distribution from a user is from one user, the video distribution in response to a video distribution request from a plurality of users can be easily extended as well.

According to the second embodiment of the present invention, when there is a video distribution request from a video reproducing user and a real-time video distribution request, real-time video is distributed and video distribution from the video reproducing user is performed. If there is no request and there is no real-time video distribution request, the received real-time video signal is distributed when the time on the video shooting side is within the time range set in advance by the installer of the apparatus, and the video shooting side When the time is out of the preset time range, the video signal stored in advance is selected and distributed, so that unclear video is not transmitted and always clear unless there is an intentional real-time video distribution request from the user. Video (good video)
Can be distributed.

(Third Embodiment) FIG. 5 is a block diagram showing a configuration of a video distribution apparatus according to a third embodiment of the present invention, and FIG. 6 is a control operation of a camera control unit of the video distribution apparatus according to the third embodiment. FIG. 7 is a flowchart for explaining the control operation of the transmission video control unit of the video distribution device according to the third embodiment. The video delivery device 50 according to the third embodiment shown in FIG. 5 determines whether the time on the video shooting side is within a range preset by the installer of the device when a video delivery request is made by a user on the video playback side. Controls whether to continue video shooting,
Further, the second embodiment is different from the first embodiment in that either real-time video or stored video is selected and delivered to the user depending on whether or not video shooting is ongoing. Other operations are the same as in the first embodiment. Hereinafter, the points different from the first embodiment will be mainly described.

As shown in FIG. 5, a video distribution device 50 according to the third embodiment includes a digital camera (hereinafter, referred to as a camera) 8, a photographing time measuring unit 2, a camera control unit 9,
A storage video unit 40 that stores a video signal captured in advance when a video is clear at the main shooting location, a transmission video control unit 37 that controls delivery of a desired video to a user who has made a video distribution request, The selector 5 selects a real-time video or a stored video under the control of the transmission video control unit 37 and performs a distribution operation. Next, the operation of the video distribution device according to the third embodiment of the present invention configured as described above will be described.

A video distribution device 50 shown in FIG. 5 is a device for distributing either real-time video or stored video when a video distribution request is made by a user. The selector 5 and the storage video unit 40
To communicate. The photographing time measuring unit 2 transmits the measured photographing time to the camera control unit 9 as a photographing time information signal 21. The camera control unit 9 uses the control signal 41 so as to continue shooting when the time on the video shooting side is within a preset time range and stop shooting when the time is out of the range.
Is performed. Further, the camera control section 9 transmits an information signal 42 indicating whether or not the camera shooting is continuing to the transmission video control section 37. The operation of the camera control unit 9 will be described later in detail with reference to FIG.

The transmission video control section 37 receives the video distribution request signal 22 from the user, and when the video distribution request is received from the user, and when the shooting is being continued, the received real-time video signal 11 is distributed video. The control signal 2 is transmitted to the storage video unit 40 and the selector 5 so that the video signal 14 stored in advance is distributed as the distribution video signal 15 when the shooting is stopped.
4 and 25 are transmitted. The operation of the transmission video control unit 37 will be described later in detail with reference to FIG. The operations of the storage video unit 40 and the selector 5 are the same as the processing operations of the first embodiment.

Next, the operation of the camera control section 9 will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is started in step 80, the process starts, and in step 81, it is determined whether the time on the photographing side is within the range of the time specified in advance by the installer of the apparatus, and the time is determined to be outside the range. In step 84, the camera 8 is controlled to stop shooting by a camera in step 84. Subsequently, in step 85, the camera shooting stop signal 42 is transmitted to the transmission video control section 37, and the process returns to step 80 to start from the start. (2) If it is determined in step 81 that the time on the photographing side is within the time range specified in advance, the continuous photographing control of the camera is performed on the camera 8 in step 82.
Subsequently, in step 83, the camera photographing continuation signal 42 is transmitted to the transmission video control unit 37, and the process returns to step 80 to start the process from the start.

Next, the operation of the transmission video control section 37 will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is started in step 60, the process starts. In step 61, it is determined whether or not there is a video distribution request from the user. If there is no video distribution request from the user, step 61 is repeated. (2) If it is determined in step 61 that there is a video distribution request from the user, the process proceeds to step 7
At step 7, it is determined whether or not the camera shooting is continuing. If the shooting is stopped, at step 74, control is performed to deliver a stored video shot beforehand when the image is clear at the main shooting location. , To step 65. (3) If it is determined in step 77 that camera shooting is ongoing, control is performed in step 71 to distribute real-time video, and the flow advances to step 65. (4) In step 65, it is determined whether or not there is a request from the user to stop video distribution. If there is no request from the user to stop video distribution, step 65 is repeated. (5) If it is determined in step 65 that there is a request from the user to stop video distribution, step 6
At 6, control is performed to stop the video distribution to the user, and the process returns to step 60 and starts from the start. According to the third embodiment of the present invention, the real-time video is delivered during a time period when the captured video image is sharp, and the camera shooting is stopped during a time period when the image is unclear, By distributing pre-stored video, clear video (good video) can always be distributed without transmitting unclear video to the user, and unnecessary camera shooting can be reduced. .

(Fourth Embodiment) FIG. 8 is a block diagram showing a configuration of a video distribution apparatus according to a fourth embodiment of the present invention, and FIG. 9 is a diagram showing control of a transmission video control unit of the video distribution apparatus according to the fourth embodiment. It is a flowchart for explaining operation. FIG.
Are the same as those in FIG. The video distribution device 50 shown in FIG. 8 selects either real-time video or stored video depending on whether the illuminance on the video shooting side is within the range of the illuminance value set in advance by the installer of the device, and provides the user with it. The point of distribution is different from the first embodiment. Other processing operations are the same as in the first embodiment. Hereinafter, the points different from the first embodiment will be mainly described.

A video distribution device 50 shown in FIG. 8 is a device that distributes either real-time video or stored video when a video distribution request is made from a user.
First, a video signal 11 captured by the camera 1
Is transmitted to the selector 5 and the storage video unit 40. The illuminometer 6 near the camera 1 transmits the measured illuminance value to the transmission video control unit 35 as an illuminance value information signal 28.

The transmission video control unit 35 receives the video distribution request signal 22 from the user, receives the video distribution request from the user, and receives when the illuminance of the video shooting location is within a preset illuminance value range. When the illuminance of the video shooting location is out of the range of the illuminance value set in advance by the installer of the video camera, the stored video signal shot beforehand when the image is clear at the shooting location is transmitted. Stored video unit 4 to select and distribute
0 and control signals 24 and 25 to the selector 5. Here, for example, the illuminance of the video shooting location is 1.
0 lux (lx) or more is set as the range of the illuminance value, and less than 0 lux (lx) is set as the outside of the illuminance value range. This range is determined in consideration of the minimum subject illuminance of the camera. The transmission video control unit 35 also receives the video stop request signal 20 from the user.
And control signals 24, 2 to stop video distribution.
5 are transmitted to the video storage unit 40 and the selector 5, respectively. The operation of the transmission video control unit 35 will be described later in detail with reference to FIG. The processing operations of the storage video unit 40 and the selector 5 are the same as the processing operations of the first embodiment.

Next, the operation of the transmission video control unit 35 will be described with reference to FIG.
This will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is started in step 60, the process starts. In step 61, it is determined whether or not there is a video distribution request from the user. If there is no video distribution request from the user, step 61 is repeated. (2) If it is determined in step 61 that there is a video distribution request from the user, the process proceeds to step 7
In step 5, it is determined whether the illuminance at the shooting location is within the range of the illuminance value specified in advance by the installer of the apparatus. Then, control is performed to distribute the stored video, and the process proceeds to step 65. (3) If it is determined in step 75 that the illuminance at the shooting location is within the range of the illuminance value specified in advance,
At step 71, control is performed to deliver real-time video, and the process proceeds to step 65. (4) In step 65, it is determined whether or not there is a request from the user to stop video distribution. If there is no request from the user to stop video distribution, step 65 is repeated. (5) If it is determined in step 65 that there is a request from the user to stop video distribution, step 6
At 6, control is performed to stop the video distribution to the user, and the process returns to step 60 and starts from the start.

According to the fourth embodiment of the present invention, when there is a video distribution request from the user on the video reproducing side, when the illuminance of the video shooting location is within the range of the illuminance value preset by the installer of the apparatus. Distributes the received video signal, and when the illuminance of the video shooting location is out of the preset illuminance range, select and distribute the stored video signal that was shot in advance when the video is clear at the main shooting location Accordingly, clear video (good video) can be always delivered without transmitting unclear video to the user. Note that an ordinary video camera or the like has an aperture and a gain control circuit, and the illuminance range in which an image can be captured is variable. Therefore, the previously specified illuminance value is a set value that changes in conjunction with the aperture and gain control. It may be.

(Fifth Embodiment) FIG. 10 is a block diagram showing a configuration of a video distribution apparatus according to a fifth embodiment of the present invention.
1 is a flowchart for explaining the control operation of the camera control unit of the video distribution device according to the fifth embodiment. FIG.
The code at 0 is basically the same as in FIG.
The video distribution device 50 according to the fifth embodiment shown in FIG.
When there is a video distribution request from the video playback side user, it controls whether or not to continue video shooting depending on whether or not the illuminance on the video shooting side is within a range set in advance by the installer of the apparatus. It selects either real-time video or stored video depending on whether it is continuing or not and distributes it to the user, and has basically the same configuration as the third embodiment shown in FIG. This embodiment differs from the third embodiment in that video shooting control and distribution video selection are performed based on the illuminance value on the shooting side. Other processing operations are the same as in the third embodiment. Hereinafter, points different from the third embodiment will be mainly described.

In FIG. 10, the illuminance meter 6 arranged near the camera 8 measures the illuminance on the photographing side and transmits the illuminance value to the camera control unit 10 as an illuminance value information signal 28.
The camera control unit 10 uses the control signal 41 to continue shooting when the illuminance value on the video shooting side is within the range of the illuminance value preset by the apparatus installer, and to stop shooting when the illuminance value is out of the range. To control the photographing of the camera 8. In addition, the camera control unit 10 transmits an information signal 42 indicating whether or not camera shooting is ongoing to the transmission video control unit 37. The operation of the camera control unit 10 will be described later in detail with reference to FIG. Transmission video control unit 37, storage video unit 40
The processing operation of the selector 5 is the same as that of the third embodiment.

Next, the operation of the camera control unit 10 will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is activated in step 80, the process starts, and in step 86, it is determined whether or not the illuminance value on the photographing side is within the range of the illuminance value preset by the installer of the device. If it is out of the range, camera shooting stop control is performed on the camera 8 in step 84. Subsequently, in step 85, the camera shooting stop signal 42 is transmitted to the transmission video control section 37, and the process returns to step 80 to start from the start. (2) If it is determined in step 86 that the illuminance value on the photographing side is within the range of the illuminance value specified in advance, the camera 8 is controlled to continuously shoot the camera in step 82. Then step 8
3 transmits the camera photographing continuation signal 42 to the video controller 3
7 and returns to the process of step 80 to start the process from the start.

According to the fifth embodiment of the present invention, when the captured video image is in an illuminance value range in which the captured video image is sharp, real-time
Distribute the video, stop the camera shooting when the illuminance value range is such that the video is unclear, and deliver the video that has been stored in advance, so that the unclear video is not transmitted to the user and the video is always clear. Video (good video) can be delivered, and unnecessary camera shooting can be reduced.

(Sixth Embodiment) FIG. 12 is a block diagram showing a configuration of a video distribution apparatus according to a sixth embodiment of the present invention.
FIG. 3 is a flowchart for explaining the control operation of the transmission video control unit of the video distribution device according to the sixth embodiment.
The reference numerals in FIG. 12 are basically the same as those in FIG. Video distribution device 50 according to the sixth embodiment shown in FIG.
The first embodiment is different from the first embodiment in that either the real-time video or the stored video is selected and delivered to the user depending on whether the brightness of the captured video is within a range of brightness values set in advance by the apparatus installer. And different. Other processing operations are the same as in the first embodiment. Hereinafter, the points different from the first embodiment will be mainly described.

The video distribution device shown in FIG. 12 is a device that distributes either real-time video or stored video when a video distribution request is made by a user. The video signal 11 is transmitted to the video signal luminance determination unit 7, the selector 5, and the storage video unit 40. The video signal luminance determination unit 7 determines the luminance of the received video signal 11 and transmits the luminance to the transmission video control unit 36 as a luminance value information signal 29.

The transmission video control section 36 receives the video distribution request signal 22 from the user, and receives the video distribution request signal from the user, and receives the video distribution request signal when the luminance of the photographed video is within a preset luminance value range. And controls the storage video unit 40 and the selector 5 to select and deliver a stored video signal prepared in advance when the brightness of the received video is out of a preset brightness value range. Signals 24 and 25 are transmitted.
Here, for example, the brightness of the video signal 11 is set to be 1.0 candela / square meter (cd / m ² ) or more within the range of the brightness value, and less than 1.0 candela / square meter (cd / m ² ). In this range, the lowest luminance value in normal viewing is 3.4 to
It is determined in consideration of 6.8 cd / m ² . The operation of the transmission video control unit 36 will be described later in detail with reference to FIG. The operations of the storage video unit 40 and the selector 5 are the same as the processing operations of the first embodiment.

Next, the operation of the transmission video control unit 36 will be described with reference to FIG.
This will be described with reference to the flowchart shown in FIG. (1) When the video distribution device is started in step 60, the process starts. In step 61, it is determined whether or not there is a video distribution request from the user. If there is no video distribution request from the user, step 61 is repeated. (2) If it is determined in step 61 that there is a video distribution request from the user, the process proceeds to step 7
In step 6, it is determined whether the luminance of the received video is within the range of the luminance value specified in advance by the installer of the apparatus. If the luminance is out of the range, control is performed to deliver the stored video prepared in step 74, Proceed to step 65. (3) If it is determined in step 76 that the luminance of the received video is within the range of the luminance value specified in advance, control is performed in step 71 to distribute the real-time video, and the process proceeds to step 65. (4) In step 65, it is determined whether or not there is a request from the user to stop video distribution. If there is no request from the user to stop video distribution, step 65 is repeated. (5) If it is determined in step 65 that there is a request from the user to stop video distribution, step 6
At 6, control is performed to stop the video distribution to the user, and the process returns to step 60 and starts from the start.

According to the sixth embodiment of the present invention, when there is a video distribution request from the user on the video reproducing side, when the luminance of the shot video is within the range of the luminance value preset by the installer of the apparatus. Distributes the received video signal, and when the brightness of the captured video is out of the preset brightness value range, the video signal taken in advance is selected and delivered when the video is clear at the actual shooting location. , Without sending blurry video to the user,
You can always deliver clear video (good video).

FIG. 14 is a schematic diagram of a video distribution system according to the present invention. In this system, a video playback terminal 91 transmitting a video distribution request signal 92 via a network 94 and a video distribution request signal 92 transmitted from the video reproduction terminal 91 correspond to a video image captured by the camera 1 so as to be clear. In the case of, the captured video is delivered to the video playback terminal 91 as a video delivery signal 93, and if the captured video image is unclear, the video signal stored in advance is sent to the video playback terminal 91 as the video delivery signal 93. And a video distribution device 90 for distribution. Here, whether the video image is clear or unclear is determined based on, for example, at least one of the time on the video shooting side, the illuminance of the video shooting location, and the brightness of the shot video. As the video distribution device 90, the device according to the above-described embodiment can be used.

The above embodiments can be used alone or in combination. The video distribution device according to the present invention has the following effects. (1) Depending on the state of the real-time video to be delivered to the user, either the real-time video or the clear stored video prepared for delivery is selected and delivered, so that the unclear video is delivered to the user. Therefore, it is possible to always deliver a good video to the user. (2) Real-time video is delivered when the captured video image is clear, and camera shooting is stopped when the video image is unclear, and the video stored in advance is delivered. Thus, unnecessary camera shooting can be reduced. (3) When the captured video image is in an illuminance range or a brightness range in which the video image is clear, a real-time video is delivered.
Unnecessary camera shooting can be reduced by stopping the camera shooting when the video is in an illuminance range or a luminance range where the image becomes unclear, and distributing the video stored in advance.

[0048]

According to the present invention, it is possible to provide a video distribution apparatus which can distribute a clear video in response to a video distribution request from a user.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a video distribution device according to a first embodiment of the present invention.

FIG. 2 is a flowchart illustrating a control operation of a transmission video control unit of the video distribution device according to the first embodiment of the present invention.

FIG. 3 is a block diagram illustrating a configuration of a video distribution device according to a second embodiment of the present invention.

FIG. 4 is a flowchart illustrating a control operation of a transmission video control unit of a video distribution device according to a second embodiment of the present invention.

FIG. 5 is a block diagram illustrating a configuration of a video distribution device according to a third embodiment of the present invention.

FIG. 6 is a flowchart illustrating a control operation of a camera control unit of a video distribution device according to a third embodiment of the present invention.

FIG. 7 is a flowchart illustrating a control operation of a transmission video control unit of a video distribution device according to a third embodiment of the present invention.

FIG. 8 is a block diagram illustrating a configuration of a video distribution device according to a fourth embodiment of the present invention.

FIG. 9 is a flowchart illustrating a control operation of a transmission video control unit of a video distribution device according to a fourth embodiment of the present invention.

FIG. 10 is a block diagram illustrating a configuration of a video distribution device according to a fifth embodiment of the present invention.

FIG. 11 is a flowchart illustrating a control operation of a transmission video control unit of a video distribution device according to a fifth embodiment of the present invention.

FIG. 12 is a block diagram illustrating a configuration of a video distribution device according to a sixth embodiment of the present invention.

FIG. 13 is a flowchart illustrating a control operation of a transmission video control unit of a video distribution device according to a sixth embodiment of the present invention.

FIG. 14 is a schematic diagram of a video distribution system according to the present invention.

[Explanation of symbols]

 1, 8 digital camera 2 shooting time measuring unit 5 selector 6 illuminometer, 7 video signal luminance judging unit 9, 10 camera control unit 11 video signal 14 accumulated video signal 15 distribution video signal 20 video stop request signal 21 shooting time information signal 22 Video distribution request signal 24 Control signal 25 Selector control signal 26 Real-time video distribution request signal 28 Illuminance value information signal 29 Brightness value information signal 34 to 37 Transmission video control unit 40 Storage video unit

Claims (15)

[Claims] An apparatus for distributing a video signal in accordance with a video distribution request from a video reproduction side, wherein when a video distribution request is received from the video reproduction side, a time on a video photographing side is within a preset time range. A video distribution apparatus configured to distribute a photographed real-time video signal and to distribute a video signal stored in advance when the time is out of the time range. 2. The video distribution apparatus according to claim 1, wherein the video distribution apparatus is configured to distribute the real-time video signal when there is a real-time video distribution request from a video reproducing side. 3. The video shooting apparatus according to claim 1, wherein the video shooting is continued when the time on the video shooting side is within a preset time range, and the video shooting is stopped when the time is out of the time range. 2. The video distribution device according to 1. 4. An apparatus for distributing a video signal in accordance with a video distribution request from a video reproduction side, wherein when a video distribution request is received from the video reproduction side, an illuminance at a video shooting location is within a preset illuminance range. A video distribution apparatus configured to distribute a photographed real-time video signal and to distribute a video signal stored in advance when the illuminance is out of the range. 5. The video camera according to claim 1, wherein the video shooting is continued when the illuminance at the video shooting location is within a preset illuminance range, and the video shooting is stopped when the illuminance is out of the illuminance range. 5. The video distribution device according to 4. 6. The video distribution apparatus according to claim 4, wherein the case where the illuminance of the video shooting location is 1 lux or more is within the range of the preset illuminance. 7. An apparatus for distributing a video signal in accordance with a video distribution request from a video reproduction side, wherein when a video distribution request is received from the video reproduction side, when the luminance of the captured video is within a preset luminance range. A video distribution apparatus configured to distribute a photographed real-time video signal and to distribute a video signal stored in advance when the luminance is out of the luminance range. 8. The video distribution apparatus according to claim 7, wherein the case where the luminance of the captured video is equal to or more than 1 candela is within the predetermined luminance range. 9. The system according to claim 1, wherein when a plurality of video distribution requests are made from a video reproducing side, the real-time video signal or the stored video signal corresponding to each request is distributed. 9. The video distribution device according to any one of 8. 10. In response to a video distribution request, a real-time video is delivered when the situation on the video shooting side is within a preset range, and when the situation on the video shooting side is outside the preset situation. Deliver the stored video,
A video distribution method characterized by stopping video distribution when a video distribution stop request is issued. 11. The video distribution method according to claim 10, wherein the situation is a time on a video shooting side. 12. The video distribution method according to claim 10, wherein the situation is the illuminance of a video shooting location. 13. The video distribution method according to claim 10, wherein the situation is a luminance of a photographed video. 14. A video reproducing terminal for transmitting a video distribution request signal via a network, and storing in advance in accordance with the definition of a video image taken in response to the video distribution request signal transmitted from the video reproducing terminal. And a video distribution device for selecting either the video signal or the captured video signal and distributing the video signal to the video reproduction terminal. 15. The video according to claim 14, wherein the sharpness of the video image is determined based on at least one of a time on a video shooting side, illuminance of a video shooting location, and luminance of a shot video. Delivery system.