摘要:
An illumination device detecting section (6) detects data on the position of each illumination device (7) installed in the audio-visual environment space for a viewer. An illumination control data generating section (9) generates illumination control data for controlling each illumination device installed in the audio-visual environment space for the viewer, with use of the data on the position of each illumination device (7). The illumination control data allows suitable control of each illumination device installed in the audio-visual environment space for the viewer, in correspondence with its installation position, thereby improving the realistic atmosphere obtained by the viewer.
摘要:
A data transmission device (1) sends image data with (i) reference data relating to a position of at least one illumination device in a virtual audio-visual environment space and (ii) illumination control data for controlling each of the at least one illumination device in the virtual audio-visual environment space. An image receiving device (audio-visual environment control device) (4) uses the audio-visual environment reference data and audio-visual environment data for each of a position of at least one illumination device in an actual audio-visual environment space so as to convert the illumination control data into illumination control data for appropriately controlling the illumination device in the actual audio-visual environment. This allows appropriate illumination control according to the actual audio-visual environment.
摘要:
Provided is an audio visual environment control system capable of realizing optimal audio-visual environment illumination control in accordance with the illumination condition upon shooting of a display image. A data transmission device comprises: a data multiplexing portion for multiplexing the shooting illumination data indicating the illumination condition at the shooting of each scene of video data on the video data, and a transmitting portion for modulating and transmitting the video data on which the shooting illumination data is multiplexed. A data receiving apparatus which receives the data comprises: a data separating portion 22 for separating the shooting illumination data from the video data, a CPU 23 for controlling the illuminating light of an illuminating device 27 in accordance with the illumination data, and an illumination control data generating portion 24.
摘要:
An audio-visual environment control system is provided with a function to control illumination for optimum audio-visual environment in accordance with a scene situation of an displayed image. A data transmission device is comprised of a data multiplexing portion for multiplexing scene situation data indicating scene setting situations of each scene of image data, and a transmitting portion for modulating and transmitting the image data in which the scene situation data are multiplexed. A data receiving apparatus is comprised of a data separating portion 22 for separating the scene situation data from the received image data, a CPU 23 for controlling illumination light of an illuminating device 27 in accordance with the scene situation data, and an illumination control data generating portion 24.
摘要:
An audio-visual environment control system is provided for realizing control of an optimum audio-visual environment illumination in response to an atmosphere of a shot scene and a scene setting intended by an image creator. An image transmitting apparatus 10 is comprised of a data multiplexing portion 1 for multiplexing image data (V) and illumination control type information (C) indicative of a control type of the audio-visual environment illumination at the time of displaying each frames in the image data (V), and a transmitting portion 2 for modulating and transmitting the image data multiplexed with the illumination control type information (C).
摘要:
It is possible to control ambient illumination so as to be appropriate for an atmosphere of a scene to be imaged and shot setting intended by a video producer. A view environment control device includes a scene section detection processing unit (22) for a video to be displayed on a video display device (1) and a shot (atmosphere) estimation unit (23) of the video scene. The scene section detection processing unit (22) detects a video scene section and the shot (atmosphere) estimation unit (23) estimates the shot setting (atmosphere) by the illumination state of the shot where video is imaged and generates illumination control data appropriate for the scene, which is stored in (31). An illumination switching control unit (41) controls the illumination light of an illumination device (5) according to the illumination control data read from (31), thereby controlling the illumination appropriate for the video displayed on the video display device (1).
摘要:
Provided are a data transmission device, a data reception device, a method for transmitting data, a method for receiving data, and a method for controlling audio-visual environment that carry out the control of peripheral devices in consistence with contents producer's intention, thereby realizing the listening/viewing of the contents with a realistic sensation. The data transmission device is comprised of a video coding unit (101), an audio coding unit (102), an audio-visual environment control data coding unit (103), an audio-visual environment control data input unit (104), a data multiplexing unit (105) and a transmission unit (106). A control designation value for the peripheral devices and producer's preference information indicative of an acceptable error range for the control designation value are inputted from the audio-visual environment control data input unit (104), as audio-visual environment control data for one or more peripheral devices in an audio-visual environmental space where video data and/or audio data are reproduced, and the control designation value and the preference information are transmitted together with the video data and/or the audio data.
摘要:
Provided are a data transmission device, a method for transmitting data, an audio-video environment control device, a method for controlling audio-visual environment, an audio-video environment control system, wherein peripheral devices can be appropriately controlled in accordance with the layout of the peripheral devices in an actual audio-visual environment so that a high realistic sensation is obtained. A data reception device (20) receives a predetermined video data and/or audio data, identification information indicative of an arrangement pattern of peripheral devices (lighting devices) arranged in a virtual audio-visual environment space, lighting control data corresponding to the peripheral devices arranged in the virtual audio-visual environment space. A lighting dimming data generation unit generates driving control data for driving and controlling an actual lighting device (32) in accordance with identification information, lighting control data, and arrangement information of the lighting device (32) in an actual audio-visual environment space, wherein the arrangement information is acquired from a lighting arrangement information memory unit (25).
摘要:
A video image transmitting device, a video image receiving device, a video image recording device, a video image reproducing device, and a video image displaying device all having video signal processings such as a frame rate conversion (FRC) enable prevention of degradation of the video image reproduced by a video signal generated by superimposing first and second video signals on each other. The video image transmitting device (1) includes an editing device (2) for superimposing first and second video signals on each other according to video combining information, a video image encoding processing portion (3) and a video image composite information encoding processing portion (4) for encoding the output video signal from the editing device (2) and video combining information respectively, a multiplexing processing portion (5) for multiplexing the encoded data, and a transmitting portion (6) for transmitting the multiplexed data. The video image receiving device (11) includes a receiving portion (12) for receiving the multiplexed data, a multiplexed data separating processing portion (13) for separating the multiplexed data into the video data and the video image decoding processing portion (14) and a video image composite information decoding processing portion (15) for decoding the video data and the video combining information respectively, and a video image signal processing portion (16) for subjecting the decoded video signal to a predetermined video signal processing. The video image signal processing portion (16) adequately controls the video signal processing of the portion of the second video signal superimposed on the first video signal by using the video combining information, thereby prevents image degradation of and around the portion of the second video signal caused by the video signal processing, and generates a video with higher quality.
摘要:
An image processing device and method, and an image display device and method which realizes a high-definition displayed video by reducing motion blur caused by a holding-type display system and reducing motion blurs of the displayed video caused by the time integration effect of an image sensor while suppressing deterioration of an image. The image display device includes a motion vector detection section (101) which detects a motion vector in each predetermined region between the frames of an inputted image signal, and an edge emphasis part (2) which emphasizes the high-frequency component of the inputted image signal and an interpolated image signal generated by an FRC part (100) according to the motion amount of the inputted image signal detected by the motion vector detection section (101). This compensates the high-frequency component attenuated by the time integration effect of the image sensor to reduce the apparent motion blurs to improve the sharpness of the displayed image. By making the degree of edge emphasis of the interpolated image signal smaller than that of the inputted image signal, the sharpness of the displayed image is improved without making the image deterioration of the interpolated image signal distinct.