JP2013030853A - Video distribution apparatus, video distribution method, video distribution system and video distribution program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a video distribution technology which can prevent a viewer from feeling sick during or after the viewing of stereoscopic video.SOLUTION: A video distribution apparatus for distributing stereoscopic video to a reception device displaying video to a viewer includes: adaptation processing means for distributing video for adapting the viewer to the stereoscopic video to the reception device; distribution propriety determining means for determining whether or not the stereoscopic video requested by the viewer should be distributed to the reception device; practice processing means for distributing video for allowing the viewer to practice viewing the stereoscopic video to the reception device when the distribution propriety determining means determines that distribution should not be done; and requested video distributing means for distributing the stereoscopic video requested by the viewer to the reception device when the distribution propriety determining means determines that the distribution can be done.

Description

  The present invention relates to a technique for distributing stereoscopic video to a receiving device.

  An environment in which stereoscopic images can be viewed on TVs, game terminals, mobile terminals, and the like is being prepared. In stereoscopic video services, it is possible to view a monitor using the naked eye, dedicated glasses, or a head-mounted display (HMD). Reference 1).

  Therefore, before the stereoscopic image is viewed by the government or the industry, a telop that calls attention based on the guideline (Non-Patent Document 2) is flowed. However, it is not sufficient from the viewpoint of safety to call attention only by the telop, and it is desired to technically solve the above problem.

Poor physical condition due to 3D movie, http://www.kokusen.go.jp/pdf/n-20100804_2.pdf, July 19, 2011 search 3D Consortium Guidelines, http://www.3dc.gr.jp/jp/scmt_wg_rep/guide_index.html, searched on July 19, 2011

  Reasons for poor physical condition when viewing stereoscopic video include the following.

  1) The viewer is not adapted (accustomed) to the presentation method of the stereoscopic image presentation device.

  2) The viewer is unable to recognize his current stereoscopic vision, stereoscopic vision function, and eye strain.

  3) The viewer does not have the stereoscopic ability to enjoy stereoscopic viewing.

  The present invention has been made in view of the above-mentioned problems, and it is possible to avoid that the viewer is in poor physical condition while viewing the stereoscopic video or after viewing the stereoscopic video, or to reduce the probability of occurrence thereof. The purpose is to provide video distribution technology.

The above-described problem is a video distribution device for distributing stereoscopic video to a receiving device that displays video to a viewer,
Adaptation processing means for distributing video for adapting the viewer to the stereoscopic video to the receiving device;
A delivery permission judging means for judging whether or not to deliver the stereoscopic video requested by the viewer to the receiving device;
Practice processing means for delivering a video for the viewer to practice viewing a stereoscopic video to the receiving device when the delivery is judged to be impossible by the delivery permission judging means;
A video distribution device comprising: a video distribution unit that distributes the stereoscopic video requested by the viewer to the receiving device when the distribution is determined by the distribution determination unit. Solved.

  ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to avoid that a viewer becomes inferior in physical condition during a stereoscopic video viewing or after a stereoscopic video viewing, or to reduce the probability of occurrence thereof.

1 is a configuration diagram of a video distribution system 100 according to an embodiment of the present invention. 3 is a functional configuration diagram of a control unit 21 in the video distribution device 20. FIG. It is a flowchart which shows the process sequence which the video delivery apparatus 20 performs. It is a figure which shows the video sequence delivered by step 100 (adaptation process). 2 is a diagram illustrating an example of a configuration of a receiving device 10. FIG. 2 is a diagram illustrating an example of a configuration of a receiving device 10. FIG. 2 is a diagram illustrating an example of a configuration of a receiving device 10. FIG. It is a sequence of a binocular stereoscopic test video distributed in the distribution availability determination process. It is a sequence of a binocular stereoscopic vision test video distributed in the distribution availability determination process. It is the sequence of the limit binocular stereoscopic vision test video delivered in the delivery permission judgment process. It is the sequence of the stereoscopic motion visual acuity test video delivered by the delivery possibility judgment process. It is a sequence of motion sickness test video delivered in the delivery possibility judgment process. It is an example of the test image | video which changes the display position of an object. It is an example of a left-right image display test image. It is an example of the table which the judgment data storage part 23 stores.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the present invention is not limited to the following embodiments.

(Configuration and operation overview of video distribution system)
FIG. 1 shows a configuration diagram of a video distribution system 100 according to an embodiment of the present invention. As shown in FIG. 1, a video distribution system 100 according to the present embodiment has a configuration in which a receiving device 10 and a video distribution device 20 are connected via a network 30.

  The video distribution device 20 includes a control unit 21, a video data storage unit 22 that stores video data, and a determination data storage unit 23 that stores data and the like to be referred to when determining whether or not distribution is possible. The control unit 21 is a functional unit for performing video distribution and various determinations according to the embodiment of the present invention. The receiving device 10 receives a video from the video distribution device 20 and displays a video to the viewer (for example, a display such as a naked eye type, a glasses type, or a head mount type), and inputs information to the viewer Then, the function (for example, remote controller) for transmitting the input information to the video distribution device 20 and the biological information and viewing environment information of the viewer are measured and collected, and the collected information is transmitted to the video distribution device 20 Including the function to perform. The outline of the operation is as follows.

  When a receiving request for stereoscopic video is issued from the receiving device 10 to the video distribution device 20, the control unit 21 of the video distribution device 20 first distributes the stereoscopic video so that the viewer adapts to the stereoscopic video. Are read out from the video data storage unit 22 and distributed to the receiving device 10. Next, whether or not distribution is possible is determined based on the determination data in the determination data storage unit 23. As a result, if it is NG, the video for practicing watching the stereoscopic video is read from the video data storage unit 22 and distributed, and if OK, the distribution requested stereoscopic video in the video data storage unit 22 is displayed. Delivered to the receiving device 10. By such processing, a stereoscopic video distribution service is realized.

  FIG. 2 shows a functional configuration diagram of the control unit 21 in the video distribution apparatus 20. As shown in FIG. 2, the control unit 21 includes an adaptation processing unit 211, a distribution availability determination unit 212, a practice processing unit 213, and a request video distribution unit 214. The adaptation processing unit 211 is a functional unit that distributes video for adapting the viewer to the stereoscopic video. The distribution availability determination unit 212 is a functional unit that determines whether the requested video can be distributed. The practice processing unit 213 is a functional unit that distributes a video for practicing watching a stereoscopic video. The requested video distribution unit 214 is a functional unit for distributing the requested video.

  An outline of a processing procedure executed by the video distribution apparatus 20 having such a functional configuration will be described with reference to a flowchart of FIG. When the video distribution device 20 receives a stereoscopic video distribution request from the receiving device 10, the adaptation processing unit 211 in the control unit 21 distributes the video for conforming to the stereoscopic video to the receiving device 10, thereby The viewer's eyes are adapted to the stereoscopic video reproduction (step 100).

  Then, the distribution availability determination unit 212 confirms the viewer's stereoscopic vision using an answer input from the viewer, measured biometric information, and the like, as will be described later, and whether the requested video can be distributed. A determination is made (step 200). If distribution is possible (Yes in step 200), the requested video distribution unit 214 distributes the requested video (step 400). If delivery is not possible (No in Step 200), the practice processing unit 213 delivers the video for practice to the receiving device 10 (Step 300), thereby improving the viewer's stereoscopic vision and improving safety. After the improvement, the determination is made again (step 200). If the distribution is possible, the requested video distribution unit 214 distributes the video (step 400).

  The video distribution device 20 can be realized by causing a computer including a CPU, a memory, a communication device, and the like to execute a program corresponding to the function described in the present embodiment. That is, the function of each unit of the video distribution device 20 executes a program corresponding to the process executed by each unit using hardware resources such as a CPU and a memory built in the computer constituting the video distribution device 20. This can be realized by doing so. In addition, the program is a computer-readable recording medium such as FD (Floppy (registered trademark) Disk), MO (Magneto-Optical disk), ROM (Read Only Memory), memory card, CD (Compact Disk)- ROM, DVD (Digital Versatile Disk) -ROM, BD (Blu-ray Disk) -ROM, CD-R, CD-RW, DVD-R, DVD-RW, BD-R, BD-RE, HDD, removable disk, etc. It can be recorded and stored or distributed. It is also possible to provide the program through a network such as the Internet or electronic mail.

  In this embodiment, it is assumed that the control unit 21 distributes the video stored in the video data storage unit 22 to the receiving device 10, but the video distribution method is not limited to this. For example, the video data storage unit 22 is a video distribution server connected to the control unit 21 via a network, and the video is distributed from the video distribution server to the receiving device 10 by sending a distribution command from the control unit 21 to the video distribution server. It is good to do. Even in this case, the configuration including the control unit 21, the video distribution server (corresponding to the video data storage unit 22), and the determination data storage unit 23 can be referred to as the video distribution device 20.

(Details of operation of video distribution system 100)
Hereinafter, the operation of the system in each step shown in FIG. 3 will be described in detail for each step.

<Step 100: Adaptation Processing>
In step 100 (adaptation processing), the adaptation processing unit 211 delivers a test video to the receiving device 10 in order to accustom the viewer's eyes to the unique 3D display characteristics. Specifically, the adaptation processing unit 211 sequentially reads and distributes videos as shown in FIGS. 4A to 4D from the video data storage unit 22. 4A to 4D represent images that the viewer views with the receiving device 10, respectively. That is, the video distribution device 20 acquires and processes video data and transmits the video data to the receiving device 10 so that the video shown in the figure is displayed on the receiving device 10. The same is true for the other images.

  FIG. 4A shows a scene in which a stationary object is three-dimensionalized, and shows a video that is changed to a 3D video by adding parallax to the 2D video. This video is for the viewer to start recognizing the 3D video.

  FIG. 4B shows a scene in which a 3D object moves up, down, left, and right on the screen. This video is a video for the viewer to get used to stereoscopic display at various positions on the screen.

  FIG. 4C shows a scene in which a 3D object is moved to the front or back of the screen. This video is a video for the viewer to get used to jumping out and feeling the depth.

  FIG. 4D is a scene in which a plurality of objects exist on a three-dimensional background. That is, a plurality of 3D objects with various pop-outs and positions exist in the stereoscopic scene. This video is a video that allows a viewer to get used to a realistic 3D video by moving a plurality of 3D objects on a three-dimensional background.

  Have the viewer see the above video, and adapt it to the 3D video, including the unique view of the 3D display monitor. Note that the order in which the images shown in FIGS. 4A to 4D are displayed is not limited to the order shown in FIG. 4, and other orders may be used. Moreover, the content of the image | video of Fig.4 (a)-(d) is an example.

<Step 200: Distribution Allowability Determination Process>
In the distribution availability determination process of step 200, the distribution availability determination unit 212 plays a test video for measuring the viewer's stereoscopic vision, and asks the viewer to answer whether or not the video can be stereoscopically viewed. 3D ability of the viewer is determined by measuring biological information such as brain, pulse wave, sweating, and viewing environment. Then, based on these answer results and measurement results, a determination is made as to whether delivery is possible or a level is determined.

  Here, a configuration example of the receiving apparatus 10 according to the present embodiment that makes it possible to perform the above-described answer and measurement will be described with reference to FIGS.

  In the configuration example illustrated in FIG. 5, the reception device 10 includes a control terminal 11, a monitor 12 (display), and a remote controller 13. The control terminal 11 has a function of performing data communication with the video distribution device 20. Further, the control terminal 11 has a function of receiving a video (sequence) distributed from the video distribution device 20 and outputting the received video to the monitor 12. The monitor 12 has a function of displaying the video output from the control terminal 11. Further, the monitor 12 has a function of receiving input information from the remote controller 13 by remote control operation (button input) performed by the viewer and transmitting the information to the control terminal 11, and the control terminal 11 distributes the information to the video. Transmit to device 20. Note that the control terminal 11 may directly receive information from the remote controller. An operation example according to the receiving apparatus 10 having the above configuration will be described below.

  As will be described in detail later, an instruction or question video is inserted into a video sequence distributed from the video distribution device 20 to the reception device 10. In accordance with the display of the instruction / question, the viewer inputs information by pressing a button on the remote controller 13. The “button” may be a button displayed on the monitor 12, and “pressing a button on the remote control” means selecting a button displayed on the monitor 12 by the remote control 13. Shall be included.

For example, the viewer presses the button in accordance with an instruction “Please press the button when you can see the 3D image”. When the button of the remote controller 13 is pressed, the pressed button information is sent to the control terminal 11 using infrared rays, wireless or wired. The control terminal 11 transmits the pressed button information to the video distribution device 20. More specifically, the control terminal 11 analyzes the pressed button information and transmits it to the video distribution apparatus 20 as information indicating the action result of the viewer.
5 is assumed to be a television having a communication function, but a personal computer, a game machine, a portable terminal, or the like may be used as the receiving device 10.

  FIG. 6 shows spectacles 14 equipped with various sensors as an example of an apparatus for collecting biological information. The spectacles 14 include an illuminance sensor 141 between the eyes, a sweat sensor 142 on the nose support, a blood flow sensor 143 on the temple, and an eyeball CCD sensor 144 on the outside of the spectacles. In this case, the receiving apparatus 10 includes the glasses 14 in the configuration illustrated in FIG. The biological information measured by each sensor mounted on the glasses 14 is sent to the control terminal 11 in real time, and the biological information is transmitted from the control terminal 11 to the video distribution device 20. The measurement / transmission of biological information may be performed at regular time intervals, for example, or may be measured / transmitted when instructed by a viewer.

  Furthermore, a hat 15 shown in FIG. 7 can be used as a device for collecting biological information. That is, in this case, in addition to the configuration shown in FIG. 5, the glasses 14 shown in FIG. 6 and the cap 15 shown in FIG. The cap 15 has an electroencephalogram measurement sensor mounted therein, and has a function of measuring an electroencephalogram and transmitting a measurement result to the control terminal 11. As shown in FIG. 7, the electroencephalogram measurement sensor in this example is of the NIRS (Near Infra-Red Spectroscopy) system, and an NIRS terminal 151 and an electroencephalogram measurement terminal 152 are mounted inside the cap. The electroencephalogram information measured by the electroencephalogram sensor mounted on the cap 15 is sent to the control terminal 11 in real time, and the electroencephalogram information is sent from the control terminal 11 to the video distribution device 20. The measurement / transmission of the electroencephalogram information may be performed at regular time intervals, for example, or may be performed when an instruction is given from the viewer.

  With the configuration described above, illuminance, viewing distance, sweat information, blood flow information, interocular distance, pupil size, eye movement information, brain wave information, and the like are measured and transmitted to the video distribution device 20. Note that illuminance and viewing distance indicate viewing environments, and these can be referred to as viewing environment information. In this example, the glasses 14 shown in FIG. 6 and the hat 15 shown in FIG. 7 are used, but the apparatus for measuring biological information or the like is not limited to these. For example, the biological information may be measured using a dedicated measuring device. The biological information to be measured / transmitted may be all of illuminance, viewing distance, sweat information, blood flow information, interocular distance, pupil size, eye movement information, brain wave information, etc., or one of these. Part. If the viewer's biometric information is already stored in the judgment data storage unit 23 of the video distribution device 20 as the viewer's personal profile, the biometric information may not be measured in step 200. Good.

  Next, the details of step 200 (distribution availability determination process) will be described in detail.

  The distribution availability determination unit 212 sequentially reads the video from the video data storage unit 22, thereby distributing the video sequence shown in FIGS. 8 to 12 to the receiving device 10. Then, an action (answer) for the question displayed for each video is input as a button operation by the viewer, and the answer is received from the receiving device 10.

  First, the distribution availability determination unit 212 distributes the video sequence shown in FIG. The video illustrated in FIG. 8A is a binocular stereoscopic test video for confirming whether binocular stereoscopic vision can be performed (whether it looks stereoscopic). The distribution permission / inhibition determination unit 212 distributes the question video illustrated in FIG. 8B after distributing this video.

  After viewing the binocular stereoscopic test video in FIG. 8 (a), the viewer displays the question “Press the button when binocular stereoscopic viewing is possible”, so press the button on the remote control 13 to answer. Do. The answer result is transmitted to the video distribution device 20.

  Subsequently, the distribution availability determination unit 212 distributes the video sequence illustrated in FIG. 9 and causes the reception device 10 to display the video sequence. The video sequence shown in FIG. 9 is a sequence of a binocular stereoscopic vision test video for grasping the degree of binocular stereoscopic vision. Specifically, first, as shown in FIG. 9 (a), the video of the question “Please press the button when it is no longer visible in 3D” is distributed, and then, in FIG. 9 (b) to (e). As shown in the figure, an image in which the stereoscopic effect is sequentially reduced is distributed from an image that is easily stereoscopically viewed.

  A viewer who sees the images shown in FIGS. 9B to 9E makes a reply by pressing a button on the remote controller 13 when stereoscopic viewing becomes impossible. The answer result is transmitted to the video distribution device 20.

  Subsequently, the distribution availability determination unit 212 distributes the video sequence illustrated in FIG. 10 and causes the reception device 10 to display the video sequence. The video sequence shown in FIG. 10 is a sequence of a limit binocular stereoscopic vision test video for grasping the fusion limit visual acuity. That is, it is a video sequence for grasping how far a stereoscopic view can be made when parallax is increased in order to search for fusion limit visual acuity. Specifically, first, as shown in FIG. 10 (a), a video of a question “Please press the button when it is no longer visible in three dimensions” is distributed, and then, in FIG. 10 (b) to (d). As shown in the figure, video with progressively increased parallax is distributed.

  A viewer who sees the images shown in FIGS. 10B to 10D inputs a button on the remote controller 13 and makes a reply when stereoscopic viewing becomes impossible. The answer result is transmitted to the video distribution apparatus 10.

  Next, the distribution possibility determination unit 212 distributes the video sequence illustrated in FIG. 11 and causes the reception device 10 to display the video sequence. The video sequence shown in FIG. 11 is a sequence of a stereoscopic motion visual acuity test video for examining whether or not it can be seen that an object moves to the front or back of the screen. That is, it is a video sequence for confirming the visual acuity with respect to an object moving in front or behind. Specifically, first, as shown in FIG. 11 (a), a video of a question “Please see the next video and then press the number corresponding to that state” is delivered, and then FIG. As shown in b), an image in which a three-dimensional object moves three-dimensionally is distributed and displayed. Then, as shown in FIG. 11C, an image having options is distributed, and the viewer is allowed to select one number. Similarly, the video shown in FIG. 11 (d) different from FIG. 11 (b) is distributed, and one of the options shown in FIG. 11 (e) is selected.

  A viewer who views the video shown in FIG. 11 makes a reply by pressing a button on the remote controller 13 according to his / her appearance. The answer result is transmitted to the video distribution device 20.

  The above example is an example of selecting a response that matches the viewer's own appearance from multiple responses, but the question / answer method is not limited to this example. Any question / answer method may be used as long as it can grasp the condition.

  Next, the distribution possibility determination unit 212 distributes the video sequence shown in FIG. The video sequence shown in FIG. 12 is a motion sickness test video sequence for inspecting the time until the viewer feels uncomfortable by increasing the magnitude of shaking of the entire screen (background). That is, this is a video sequence for confirming resistance to motion sickness (motion sickness) in a three-dimensional or virtual reality space. Specifically, first, as shown in FIG. 12 (a), a video of a question “Please press the button when you feel uncomfortable” is distributed, and then, shown in FIGS. 12 (b) to 12 (c). In this way, video that gradually increases the degree of background shaking is distributed.

  A viewer who sees the images shown in FIGS. 12B to 12C makes a response by inputting a button on the remote controller when he / she feels uncomfortable. The response result (for example, the time from the start of video distribution to the response) is transmitted to the video distribution apparatus 20.

  During this step 200, in the receiving device 10 using each of the sensors described above, biological information such as the viewer's vision, brain, pulse wave, sweating, and viewing environment information are automatically measured, and the biological information automatically measured. Are sent to the video distribution apparatus 20 and received by the distribution availability determination unit 212.

  Here, in consideration of the accuracy of the stereoscopic display in the receiving device 10 and the influence of the position dependency of the stereoscopic vision itself, that is, considering the case where the sensitivity of the viewer's stereoscopic vision differs depending on the display position, FIG. In each processing shown in FIG. 12, it is possible to display an image in which the display position of the object is changed for each viewer and inspect the visual appearance of the viewer. In this case, for example, the test video shown in FIG. 13 may be displayed to confirm the sensitivity depending on the display position for each viewer.

  In addition, because the left and right images are not properly input to the monitor, or the left and right images are not synchronized with devices such as glasses, stereoscopic viewing may not be performed properly. An image for the right eye, for example, an image as shown in FIG. 14 may be displayed at the same time, and it may be confirmed that only one of the images can be seen when viewed with the left and right eyes.

  In this example, the video sequence shown in FIG. 8 to FIG. 12 is distributed in order to determine whether or not distribution is possible, that is, in order to confirm the viewer's ability to view stereoscopic video. The contents and order are examples, and are not limited to these.

  The distribution availability determination unit 212 stores the answers obtained by the video sequence display in FIGS. 8 to 12 and the sensor measurement information obtained in the meantime in a storage unit such as a memory. Then, the distribution availability determination unit 212 determines whether or not the viewer can view (distribution of requested video) and the viewing level based on the answer, the sensor measurement information, and the determination data stored in the determination data storage unit 23. To do.

  An example of a database (table) stored in the judgment data storage unit 23 is shown in FIG. As shown in FIG. 15, in correspondence with each test result and each sensor result (sensor measurement result), distribution availability (o or x) and viewing level (-5 to 5) are stored. The viewing level here is the degree of conformity of stereoscopic video viewing, and the higher the viewing level is, the more suitable the viewer is for viewing stereoscopic video, and the lower the viewing level, the less suitable for viewing stereoscopic video. The viewing level may be referred to as stereoscopic vision information. In addition, whether delivery is possible is determined in advance, for example, such that it is possible if the viewing level is equal to or higher than a predetermined value and is impossible if it is equal to or lower than the predetermined value. Alternatively, only the distribution availability information may be stored in the database without including the viewing level.

  The database shown in FIG. 15 is created in advance, for example, by actually inspecting a plurality of viewers. In step 200, the distribution availability determination unit 212 refers to the database in FIG. 15 based on the response and sensor measurement information received from the receiving device 10, and determines the distribution availability information and the viewing level corresponding to the response and sensor measurement information. get. For example, the result of test 1 (example: FIG. 8) is OK, the result of test 2 (example: FIG. 9) is 5,..., The result of sensor 1 (example: sweating) is OK,. Example: Illuminance) If the result is 4, a judgment result of distribution possible (◯) and viewing level: 5 is obtained. Note that the method for determining whether delivery is possible is not limited to the above example.

  Further, in step 200, the viewer observes the 3D viewing experience so far, and determines the number of times of viewing and the situation during viewing (such as fatigue level) obtained from the viewing history of the viewer to be judged. You may use it. For example, if the number of times of viewing is greater than a predetermined number of times, it can be determined that the corresponding viewer is accustomed to viewing stereoscopic video and can be distributed. In this case, the condition may be that there is no abnormality in the biological information.

  Alternatively, the biometric information obtained by the viewer's measurement may be stored as a personal profile in the determination data storage unit 23, and this information may be used for the distribution feasibility determination. For example, in this case, in step 200, the biometric information can be acquired from the personal profile without measuring the biometric information, and can be used to determine whether or not to deliver.

  In the determination in step 200, the determination result that distribution is impossible (including the case where a viewing level lower than a predetermined value is obtained), alerting the viewer, or step 300 (practice processing) is performed. Do. The viewer may be alerted and step 300 may be performed. If the left and right images are reversed or not suitable for 3D viewing due to image sickness tolerance or eye strain, the processing may be terminated by rejecting the image reproduction request. If there is no problem, the process proceeds to step 400 (request video distribution processing) to perform video distribution.

  Further, the viewer's stereoscopic vision ability (including fatigue) (specifically, for example, viewing level and / or individual sensor measurement results) determined by the step 200 is received by the distribution availability determination unit 212. 10 is delivered. As a result, the viewer can view the stereoscopic image while being aware of his / her stereoscopic capability.

  In the present embodiment, an example is shown in which the delivery possibility determination is performed using all of the answer, the biological information (fatigue level), and the viewing environment information, but delivery is performed using any one or two. It may be possible to determine whether or not it is possible.

<Step 300: Practice processing>
In step 300, the practice processing unit 213 provides training for improving the viewer's stereoscopic vision. Specifically, the practice processing unit 213 reads a specific video for improving stereoscopic vision from the video data storage unit 22 and distributes it to the receiving device 10. The video sequence for improving stereoscopic vision is, for example, a video sequence in which eye tracking is made strict by speeding up the change and movement of the video used in step 100 (adaptation processing) in FIG. In addition, here, the practice processing unit 213 may display a plurality of types of practice videos in a list on the receiving device 10 and allow a viewer to select from them.

  For example, among multiple types of video, such as video specialized to change the position and degree of 3D, and video specialized to move a specific 3D video to the front, back, up, down, left and right on the screen By having the viewer select one from the above and distributing the selected video, the stereoscopic vision can be trained specially for a part.

  Also, the viewer's profile (including 3D viewing experience history) is stored in the judgment data storage unit 23, and the practice processing unit 213 distributes a video program for improving stereoscopic vision that matches the profile. It is good.

<Step 400: Request Video Distribution Processing>
If it is determined in step 200 that the distribution is possible or the viewing level is equal to or higher than a predetermined value, step 400 is executed. Even if it is determined in step 200 that distribution is not possible, the reception device 10 is notified of this, and if the viewer still desires distribution, the distribution in step 400 may be performed. In this case, since the viewer recognizes that he / she is not accustomed to viewing the stereoscopic video, the viewer can watch the stereoscopic video with care.

  In step 400, the requested video distribution unit 214 acquires the first video for which distribution is requested from the video data storage unit 22 and distributes it to the receiving device 10. Depending on the viewing level (for example, when the viewing level is equal to or lower than a predetermined value), only a video with a small amount of parallax may be distributed as a stereoscopic video, or a video signal may be individually transmitted. Processing may be performed to reduce the degree of popping out and deliver.

  In the present embodiment, since a video distribution service via a network is assumed, the configuration of the video distribution system 100 is as shown in FIG. 1, but the present invention is not limited to this and can be applied. For example, the present invention can be applied to a personal computer or a video playback device having a video playback function. Even in such a case, the personal computer or the video reproduction device has the same functional configuration as the video distribution device 20. However, while the network 30 connected to the video distribution device 20 is a wide area network such as the Internet, the network connecting the personal computer or the video reproduction device and the reception device is a cable or short-range wireless connection between the devices. Network, LAN, etc.

  Since the video distribution device in the video distribution service in the wide area network, the personal computer or the video reproduction device, etc. are all devices that distribute the video to the receiving device 10, they can be collectively referred to as a video distribution device. Then, the video distribution device distributes video for adapting the viewer to the stereoscopic video to the receiving device, and whether to distribute the stereoscopic video requested by the viewer to the receiving device. When the distribution is determined to be impossible by the distribution determination unit for determining whether or not distribution is possible, the video for the viewer to practice viewing the stereoscopic video is distributed to the receiving device. And a requested video distribution unit that distributes the stereoscopic video requested by the viewer to the receiving device when it is determined that the distribution is possible by the distribution determination unit.

  The distribution availability determination means distributes a test video for measuring the stereoscopic vision of the viewer to the receiving device, and receives the answer from the viewer indicating whether or not the test video can be stereoscopically viewed. It is configured to receive from the device and use the answer to determine whether to deliver the stereoscopic video to the receiving device.

  In addition, the receiving device includes a sensor for measuring the biological information or viewing environment information of the viewer, and the distribution availability determination unit receives the biological information or viewing environment information measured by the sensor. It is received from the receiving device, and using the biological information or viewing environment information, it is determined whether or not to deliver the stereoscopic video to the receiving device.

  Further, the distribution availability determination unit acquires the stereoscopic capability information of the viewer and distributes the stereoscopic capability information to the receiving device, and the video distribution unit determines the determination result by the distribution capability determination unit. The distribution conditions of the stereoscopic video are controlled according to the above.

  Further, the distribution availability determination unit can determine whether or not the stereoscopic video can be distributed using the viewer's stereoscopic video viewing history data.

  According to an embodiment of the present invention, there is provided a video distribution method executed by a video distribution device for distributing stereoscopic video to a receiving device that displays video to a viewer, the viewer being An adaptation processing step of delivering video for adaptation to a stereoscopic video to the receiving device, a delivery permission determining step for judging whether or not to deliver the stereoscopic video requested by the viewer to the receiving device; When it is determined that the distribution is impossible in the distribution permission determination step, the viewer distributes a video for practicing viewing of the stereoscopic video to the receiving device, and the distribution permission determination step. And a requested video delivery step of delivering the stereoscopic video requested by the viewer to the receiving device when it is determined that delivery is possible.

  In addition, according to an embodiment of the present invention, a receiving device that displays a video to a viewer, and a video delivery device for delivering stereoscopic video that is connected to the receiving device via a network. A video distribution system is also provided.

  According to an embodiment of the present invention, there is also provided a video distribution program for causing a computer to function as each unit in the video distribution apparatus.

(Effect of embodiment)
As described above, according to the technology according to the present embodiment, the viewer's visual function is confirmed before 3D video distribution, and the stereoscopic video function is improved as necessary to view the stereoscopic video. Will be able to. That is, the viewer can view the video in conformity with the display of the 3D video, and the viewer can view the stereoscopic video while being aware of his / her stereoscopic ability. As a result, it is possible to prevent the viewer from becoming unwell after viewing, or to reduce the probability of unwellness, and to promote the spread of stereoscopic video services.

  The present invention is not limited to the above-described embodiments, and various modifications and applications are possible within the scope of the claims.

100 Video Distribution System 10 Receiving Device 20 Video Distribution Device 21 Control Unit 22 Video Data Storage Unit 23 Judgment Data Storage Unit 30 Network 211 Adaptation Processing Unit 212 Distribution Availability Determination Unit 213 Practice Processing Unit 214 Request Video Distribution Unit 11 Control Terminal 12 Monitor 13 Remote control (remote control terminal)
14 Eyeglasses 141 Illuminance sensor 142 Sweat sensor 143 Blood flow sensor 144 Eye photography CCD sensor 15 Hat 151 NIRS terminal 152 EEG measurement terminal

Claims (8)

A video distribution device for distributing stereoscopic video to a receiving device that displays video to a viewer,
Adaptation processing means for distributing video for adapting the viewer to the stereoscopic video to the receiving device;
A delivery permission judging means for judging whether or not to deliver the stereoscopic video requested by the viewer to the receiving device;
Practice processing means for delivering a video for the viewer to practice viewing a stereoscopic video to the receiving device when the delivery is judged to be impossible by the delivery permission judging means;
A video distribution device comprising: a request video distribution unit that distributes the stereoscopic video requested by the viewer to the receiving device when the distribution possibility determination unit determines that the distribution is possible. The distribution availability determination means distributes a test video for measuring the stereoscopic vision of the viewer to the receiving device, and receives the answer from the viewer indicating whether or not the test video can be stereoscopically viewed. The video delivery device according to claim 1, wherein the video delivery device receives from the device and determines whether or not to deliver the stereoscopic video to the reception device using the answer. The receiving device includes a sensor that measures the viewer's biological information or viewing environment information, and the distribution availability determination unit receives the biological information or viewing environment information measured by the sensor. 3. The video distribution device according to claim 1, wherein it is determined whether to transmit the stereoscopic video to the receiving device using the biological information or viewing environment information. The distribution availability determination unit acquires the stereoscopic capability information of the viewer and distributes the stereoscopic capability information to the receiving device, and the video distribution unit responds to a determination result by the distribution availability determination unit. 4. The video distribution device according to claim 1, wherein the distribution conditions of the stereoscopic video are controlled. 5. 5. The video distribution apparatus according to claim 1, wherein the distribution availability determination unit determines whether or not a stereoscopic video can be distributed using the viewer's stereoscopic video viewing history data. . A video distribution method executed by a video distribution device for distributing stereoscopic video to a receiving device that displays video to a viewer,
An adaptation processing step of distributing to the receiver a video for adapting the viewer to a stereoscopic video;
A deliverability determination step for determining whether or not to deliver the stereoscopic video requested by the viewer to the receiving device;
A practice processing step of delivering a video for the viewer to practice viewing a stereoscopic video to the receiving device when the delivery is judged to be impossible by the delivery possibility judging step;
A video distribution method comprising: a request video distribution step of distributing a stereoscopic video requested by the viewer to the receiving device when it is determined that distribution is possible in the distribution availability determination step. A video distribution system comprising: a receiving device that displays video for a viewer; and a video distributing device that is connected to the receiving device via a network and distributes stereoscopic video,
The video distribution device includes:
Adaptation processing means for distributing video for adapting the viewer to the stereoscopic video to the receiving device;
A delivery permission judging means for judging whether or not to deliver the stereoscopic video requested by the viewer to the receiving device;
Practice processing means for delivering a video for the viewer to practice viewing a stereoscopic video to the receiving device when the delivery is judged to be impossible by the delivery permission judging means;
A video distribution system comprising: a request video distribution unit that distributes the stereoscopic video requested by the viewer to the receiving device when the distribution determination unit determines that distribution is possible.   A video distribution program for causing a computer to function as each means in the video distribution apparatus according to any one of claims 1 to 5.

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