JP2006331735A - Audio-visual environment control method, audio-visual environment control device, and image display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To perform an audio-visual environment control in order to obtain an environment required by broadcasting party. <P>SOLUTION: A program information (EPG) is obtained from a broadcast signal by a program information obtaining part 14. A light volume data classified in genre information corresponding to the genre information obtained from the program information (EPG) is read out by a CPU 18. Luminance of an illumination 30 in a room is automatically controlled through a home network 20 so that a detected data at a light receiving part 15 come near to the light volume data. By the above, for example, when appreciating a movie, an audience filled with ambience can be obtained by automatically darkening the illumination 30 in the room. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a viewing environment control method, a viewing environment control device, and a video display device that automatically adjust the brightness of a room, which is a viewing environment for video and audio, so as to be an environment that a broadcaster wants to view.

  2. Description of the Related Art Conventionally, in a video display device such as a television receiver that displays video on a liquid crystal panel or the like, visibility is affected by the brightness of the room as a viewing environment. Therefore, the brightness of the image is adjusted by manually adjusting the image adjustment button provided on the image display device or the image adjustment button provided on the remote control.

  Also, recent video display devices are equipped with a function that can be adjusted so that the video is clear or has a desired image quality for each genre such as a movie or a sports program according to the viewing environment.

  Furthermore, in recent video display devices, the brightness for detecting ambient brightness without manually adjusting the video adjustment button provided on the video display device or the video adjustment button provided on the remote control. It also includes an automatic brightness adjustment function that automatically adjusts the brightness of the image according to the detection result of the sensor.

As a device equipped with such an automatic brightness adjustment function, in Patent Document 1, a sensor for detecting the brightness around a liquid crystal display or a control signal input means by manual operation and a control signal from the input means are used. The brightness and contrast of the liquid crystal display screen are controlled and bright according to the brightness of the usage environment of the liquid crystal display by automatically controlling both or only one or both of the amplitude of the video signal applied to the liquid crystal display and the operation reference level. We have proposed a liquid crystal display control device that improves visibility in the environment.
Japanese Patent Laid-Open No. 06-083287

  By the way, in Patent Document 1 described above, the brightness and contrast of the liquid crystal display screen are controlled in accordance with the detection result of the sensor that detects the brightness around the liquid crystal display to improve the visibility in a bright environment. However, it is impossible to control the viewing environment based on the brightness of the room according to the detection result of the sensor.

  In this way, if the viewing environment cannot be controlled by the brightness of the room, for example, when watching a movie, the room is darkened so that the broadcast side can provide an environment that the viewer wants to watch. There was a problem that it was impossible to control the viewing environment.

  The present invention has been made in view of such a situation, and an object thereof is to provide a viewing environment control method, a viewing environment control apparatus, and a video display apparatus that can solve the above-described problems.

The viewing environment control method of the present invention acquires program information from a broadcast signal, detects the brightness of the surroundings for viewing the program, and the detection data obtained by detecting the brightness is the genre information obtained from the program information. The brightness of the indoor lighting is controlled so as to approach the corresponding light quantity data.
In such a configuration, the brightness of the room lighting is automatically controlled so that the detection data obtained by detecting the ambient brightness approaches the light amount data according to the genre information obtained from the program information of the broadcast signal. Is done.
The viewing environment control method of the present invention obtains program information related to recording reservation from a program information database on the network, detects the brightness of the surroundings where the program is viewed, and the detection data obtained by the brightness detection includes the detection data The brightness of the indoor lighting is controlled so as to approach the light amount data according to the genre information obtained from the program information.
In such a configuration, the indoor lighting is arranged so that the detection data obtained by detecting the ambient brightness approaches the light amount data corresponding to the genre information obtained from the program information related to the recording reservation in the program information database on the network. The brightness by is automatically controlled.
The viewing environment control method of the present invention obtains program information from information recorded in a recording means, detects ambient brightness of viewing the program, and detection data obtained by detecting the brightness is the program information. The brightness of the indoor lighting is controlled so as to approach the light amount data corresponding to the genre information obtained from.
In such a configuration, the brightness of the room illumination is set so that the detection data obtained by detecting the ambient brightness approaches the light amount data corresponding to the genre information obtained from the program information of the information recorded in the recording means. Is automatically controlled.
Further, it is possible to acquire program information related to recording reservation from the program information database on the network and / or program information from information recorded in the recording means.
In such a configuration, any one of genre information obtained from program information of broadcast signals, genre information obtained from program information related to recording reservation in a program information database on the network, or program information of information recorded in the recording means The brightness by the indoor lighting is automatically controlled so that the detection data obtained by detecting the ambient brightness approaches the light amount data according to the above.
The light amount data may be data corresponding to a time zone of a program being viewed, obtained from the program information or an internal clock of the apparatus main body.
In such a configuration, a viewing environment in which the broadcast side wants to watch, taking into account the influence of outdoor brightness, etc., by using light intensity data according to the genre and time zone of the program being viewed Can be controlled.
A viewing environment control device according to the present invention includes a genre-information-specific light amount database in which light amount data for an optimum viewing environment is registered for each program genre, program information acquisition means for acquiring program information from a broadcast signal, and a program Brightness detection means for detecting the brightness of the surroundings to be viewed and light amount data corresponding to genre information obtained from the program information are read from the light amount database classified by genre information, and the detection data by the brightness detection means is the light amount data. And a control means for controlling the brightness of the indoor lighting so as to approach the distance.
In such a configuration, the program information acquisition means acquires the program information from the broadcast signal, and the control means reads the light amount data corresponding to the genre information obtained from the program information from the genre information-specific light amount database to obtain brightness. The brightness of the indoor lighting is controlled so that the detection data by the detection means approaches the light amount data.
The viewing environment control apparatus of the present invention acquires program information related to recording reservations from a genre information-specific light amount database in which light amount data for an optimum viewing environment is registered for each program genre, and a program information database on the Internet. Program information acquisition means, brightness detection means for detecting ambient brightness for viewing the program, light quantity data corresponding to genre information obtained from the program information is read from the genre information light quantity database, and the brightness detection is performed And control means for controlling the brightness of indoor lighting so that detection data by the means approaches the light amount data.
In such a configuration, the program information acquisition means acquires the program information related to the recording reservation from the program information database on the network, and the control means converts the light quantity data corresponding to the genre information obtained from the program information into the light quantity by genre information. The brightness of the room lighting is controlled so that the data read from the database and the detection data by the brightness detection means approach the light amount data.
The viewing environment control apparatus of the present invention is a program information for acquiring program information from a genre information-specific light amount database in which light amount data for an optimal viewing environment is registered for each program genre, and information recorded in a recording means. An acquisition unit; a brightness detection unit that detects ambient brightness for viewing the program; and light amount data corresponding to genre information obtained from the program information is read from the genre information light amount database, and the brightness detection unit And control means for controlling the brightness of the indoor lighting so that the detection data approaches the light amount data.
In such a configuration, the program information is acquired from the information recorded in the recording means by the program information acquisition means, and the light quantity data corresponding to the genre information obtained from the program information is obtained from the light quantity database classified by genre information by the control means. The brightness of the indoor lighting is controlled so that the data detected by the brightness detection means approaches the light amount data.
Further, the program information acquisition means can acquire program information related to recording reservation from a program information database on the network and / or program information from information recorded in the recording means.
In such a configuration, any one of genre information obtained from program information of broadcast signals, genre information obtained from program information related to recording reservation in a program information database on the network, or program information of information recorded in the recording means The brightness by the indoor lighting is automatically controlled so that the detection data obtained by detecting the ambient brightness approaches the light amount data according to the above.
The light amount data may be data corresponding to a time zone of a program being viewed, obtained from the program information or an internal clock of the apparatus main body.
In such a configuration, a viewing environment in which the broadcast side wants to watch, taking into account the influence of outdoor brightness, etc., by using light intensity data according to the genre and time zone of the program being viewed Can be controlled.
A video display device according to the present invention includes any one of the viewing environment control devices described above.
In such a configuration, the viewing environment for each program genre is optimized by mounting the viewing environment control device in, for example, a television receiver.

  According to the viewing environment control method, the viewing environment control device, and the video display device of the present invention, for example, detection data obtained by detecting ambient brightness is included in light amount data corresponding to genre information obtained from program information of a broadcast signal. Since the brightness by the indoor lighting is automatically controlled so as to approach, the viewing environment can be controlled so that the broadcast side wants to view for each genre of the program.

  In the present embodiment, for example, the brightness by the indoor lighting is automatically controlled so that the detection data obtained by detecting ambient brightness approaches the light amount data according to the genre information obtained from the program information of the broadcast signal, for example. As a result, for each program genre, the viewing environment can be controlled so that the broadcast side wants to view it.

  Hereinafter, embodiments of the present invention will be described.

(Embodiment 1)
FIG. 1 is a block diagram showing a first embodiment when the viewing environment control device of the present invention is applied to a television receiver which is a video display device, and FIGS. 2 and 3 are viewing environment controls in the television receiver of FIG. It is a figure for demonstrating a method.

  The television receiver 10A shown in FIG. 1 extracts genre information included in program information, and based on the light quantity data that is the optimum viewing environment for each genre of the program in the genre information-specific light quantity database 16 to be described later via the home network 20. The brightness of the illumination 30 is automatically controlled.

  The television receiver 10A includes an antenna IF 11, a video processing unit 12, a display unit 13, a program information acquisition unit 14, a light receiving unit 15, a genre information light quantity database 16, an OSD controller 17, a CPU 18, and a network IF 19. Here, the program information acquisition part 14 is a program information acquisition means. The light receiving unit 15 is brightness detection means. The CPU 18 is a control means. Furthermore, a viewing environment control apparatus is constituted by the program information acquisition means, the brightness detection means, and the control means.

  The antenna IF 11 has a tuner (not shown) that selects a broadcast signal according to at least a user's channel selection instruction. Here, it is assumed that at least program information (EPG) is superimposed on the broadcast signal.

  The video processing unit 12 performs predetermined video processing on the broadcast signal selected by the tuner of the antenna IF 11. The display unit 13 displays the video processed by the video processing unit 12, messages to be described later by the OSD controller 17, and the like.

  The program information acquisition unit 14 acquires program information (EPG) from the broadcast signal selected by the tuner of the antenna IF 11. The light receiving unit 15 detects brightness that is a viewing environment around the television receiver 10A.

  In the genre information-specific light amount database 16, light amount data for an optimum viewing environment for each program genre is registered. In other words, the light quantity data is data that provides an environment that the broadcast side wants to view.

  Here, the genre includes news / report, sports, information / wide show, drama, music, variety, movie, anime / special effects, documentary / cultural, theater / performance, hobby / education, welfare, etc. There is a viewing environment.

  In addition, the brightness that is the viewing environment around the television receiver 10A differs depending on the viewing time zone due to the influence of the outdoor brightness, so even if the genre is the same, the light amount data is suitable for each time zone. It is a value.

  Then, the brightness of the viewing environment around the television receiver 10A is automatically controlled based on the light amount data corresponding to the genre and time zone of the program being viewed, thereby affecting the influence of the outdoor brightness and the like. In addition, the viewing environment can be controlled so that the broadcast side wants to view it.

  Note that the information on the viewing time zone may be acquired from program information (EPG), or may be acquired from the internal clock of the main body of the television receiver 10A.

  When the brightness of the illumination 30 is automatically controlled, the OSD controller 17 causes the display unit 13 to display an OSD (On Screen Display) message as shown in FIG.

  The CPU 18 extracts genre information from the program information (EPG) acquired by the program information acquisition unit 14, and further reads out light amount data corresponding to the extracted genre information and the viewing time zone from the light amount database 16 classified by genre information. The light amount data and the light amount detection data detected by the light receiving unit 15 are compared, and when it is determined that the light amount is not optimal, the brightness of the illumination 30 is automatically controlled via the home network 20.

  Further, whether or not it is optimal can be determined by whether or not there is a difference between the light amount data read from the genre information-specific light amount database 16 and the light amount detection data detected by the light receiving unit 15. When it is determined that the light intensity detection data from the light receiving unit 15 is not optimal, the brightness of the illumination 30 is automatically controlled via the home network 20 by feedback control so that the light intensity detection data from the light receiving unit 15 approaches the target light intensity data. .

  As a result, the brightness of the illumination 30 is automatically controlled so as to provide an environment that the broadcast side wants to view according to the genre of the program.

  The network IF 19 is connected to the network IF 21 of the home network 20 and outputs a control signal from the CPU 18 to the lighting controller 22.

  The illumination controller 22 controls the brightness of the illumination 30 based on a control signal from the CPU 18.

Next, the viewing environment control method will be described.
First, as shown in FIG. 2, when the program information acquisition unit 14 acquires program information (EPG) from the broadcast signal selected by the tuner of the antenna IF 11 (step S1), the CPU 18 acquires the program information acquisition unit. Genre information is extracted from the program information (EPG) acquired in step 14 (step S2), and target light amount data corresponding to the extracted genre information is read from the genre information light amount database 16 (step S3).

  Here, the light quantity data read from the genre information light quantity database 16 corresponds to the time zone of the program being viewed, which is obtained from the program information (EPG) or the internal clock of the main body of the television receiver 10A as described above. Data.

  Further, the CPU 18 receives the detection data of the light amount of the current viewing environment from the light receiving unit 15 (step S4), and the target light amount data and detection data corresponding to the genre information and the time zone of the program being viewed are obtained. Comparison is made (step S5).

  If it is determined that there is a difference between the light amount data and the detection data and is not optimal (step S6), a message as shown in FIG. 3 is displayed on the display unit 13 by the OSD controller 17 under the control of the CPU 18. Screen Display) is displayed (steps S7 and S8).

  Here, the message as shown in FIG. 3 is displayed on at least a part of the screen of the display unit 13. In addition, as the message, a content 13a indicating that “the illumination level is being automatically adjusted.”, An adjustment rate content 13b, an adjustment level meter content 13c, and the like can be displayed.

  Although a message is displayed here, the present invention is not limited to the message, and an image such as a predetermined mark can be displayed together with the current adjustment rate of the illumination 30. Further, when the brightness of the illumination 30 is automatically controlled, it may be notified that the adjustment is being performed with a voice or a voice together with a message.

  Next, the brightness of the illumination 30 is automatically controlled by the CPU 18 via the home network 20 so that the detected light amount data of the current viewing environment from the light receiving unit 15 approaches the target light amount data (step S9).

  That is, when there is a difference between the light intensity detection data in the current viewing environment and the target light intensity data, the brightness of the illumination 30 is automatically controlled, and the light intensity detection data in the current viewing environment from the light receiving unit 15 is again obtained. Receiving (step S10), comparing with the target light quantity data (step S5), and gradually adjusting the brightness of the illumination 30 by feedback control so that the detection data of the light quantity from the light receiving unit 15 approaches the target light quantity data. Is controlled automatically.

  Thereby, for each program genre, the viewing environment is controlled so that the broadcast side wants to view it. For example, when watching a movie, the indoor lighting 30 is automatically dimmed. This makes it possible to view with a sense of reality.

Note that the message from the OSD controller 17 at (Step S8) is displayed on the display unit 13 as OSD (On Screen Display), and the brightness of the illumination 30 is automatically controlled via the home network 20 at (Step S9). When the brightness control is completed, the message OSD (On
(Screen Display) display is canceled.

  As described above, in the first embodiment, the program information acquisition unit 14 acquires program information (EPG) from the broadcast signal, and the CPU 18 obtains light quantity data according to genre information obtained from the program information (EPG) by genre information. The brightness of the indoor lighting 30 is automatically controlled via the home network 20 so that the data read from the light quantity database 16 and the detection data by the light receiving unit 15 approaches the light quantity data.

  Thus, for example, when watching a movie, the indoor lighting 30 is automatically dimmed, so that viewing with a sense of reality is possible, and a viewing environment that the broadcast side wants to watch is provided. Can be controlled.

  In the first embodiment, since the light amount data registered in the light amount database 16 classified by genre information corresponds to the genre and the time zone of the program being viewed, the influence of the outdoor brightness is taken into account, The viewing environment can be controlled so that the broadcast side wants to view it.

(Embodiment 2)
FIG. 4 is a block diagram showing Embodiment 2 when the configuration of the television receiver of FIG. 1 is changed, and FIG. 5 is a diagram for explaining a viewing environment control method in the television receiver of FIG. Note that, in the drawings described below, the same reference numerals are given to portions common to FIGS. 1 and 2 and overlapping description will be appropriately performed.

  In the second embodiment, as shown in FIG. 4, the television receiver 10B is provided with a network IF 19A connected to the Internet IEPG database 40 via a network such as the Internet, and the program information acquisition unit 14 is connected to the IEPG via the network IF 19A. The configuration is different from the television receiver 10A of the first embodiment in that program information (IEPG) is obtained from the database 40.

  Here, IEPG is the name of a method for making reservations for recording TV programs via a network such as the Internet. Recording can be performed by keyword search of TV program guide displayed on the screen, search by genre, search by talent, etc. Program information (IEPG) related to reservation can be acquired.

  In such a configuration, when viewing environment control is performed, as shown in FIG. 5, when the program information acquisition unit 14 acquires program information (IEPG) from the IEPG database 40 via the network IF 19A (step S1-1). As described above, genre information is extracted from the program information (IEPG) acquired by the program information acquisition unit 14 by the CPU 18 (step S2), and the target light amount data corresponding to the extracted genre information is genre information. It is read from the separate light quantity database 16 (step S3).

  Here, the light quantity data read from the genre information light quantity database 16 corresponds to the time zone of the program being viewed, which is obtained from the program information (IEPG) or the internal clock of the main body of the television receiver 10B as described above. Data.

  Further, the CPU 18 receives the detection data of the light amount of the current viewing environment from the light receiving unit 15 (step S4), and compares the target light amount data corresponding to the genre information with the detection data (step S5).

  After that, in the same manner as described above, the illumination 30 of the illumination 30 is connected via the home network 20 so that the detection data of the light amount of the current viewing environment from the light receiving unit 15 approaches the target light amount data by the procedure of (Step S6) to (Step S10). Brightness is automatically controlled.

  As described above, in the second embodiment, the program information acquisition unit 14 acquires the program information (IEPG) from the IEPG database 40 on the network, and the CPU 18 acquires the light amount data corresponding to the genre information obtained from the program information (IEPG). Is read from the genre information light quantity database 16 and the brightness of the indoor lighting 30 is automatically controlled via the home network 20 so that the detection data by the light receiving unit 15 approaches the light quantity data.

  Thereby, even when the program information (IEPG) is acquired from the IEPG database 40 on the network, as in the first embodiment, for example, when watching a movie, the indoor lighting 30 is automatically set. By making it dark, it is possible to view with a sense of reality, and it is possible to control the viewing environment so that the broadcast side wants to view it.

Further, since the light amount data registered in the genre information light amount database 16 corresponds to the genre and the time zone of the program being viewed, the influence of the outdoor brightness and the like is taken into consideration as in the first embodiment. In addition, the viewing environment can be controlled so that the broadcast side wants to view it.
(Embodiment 3)
FIG. 6 is a block diagram showing Embodiment 3 when the configuration of the television receiver of FIG. 1 is changed, and FIG. 7 is a diagram for explaining a viewing environment control method in the television receiver of FIG.

  In the third embodiment, as shown in FIG. 6, the television receiver 10C includes the HDD device 19B, and the program information acquisition unit 14 acquires program information (EPG) from information recorded on the hard disk of the HDD device 19B. Thus, the configuration is different from the television receiver 10A of the first embodiment.

  In such a configuration, when viewing environment control is performed, program information (EPG) is acquired from information recorded on the hard disk of the HDD device 19B by the program information acquisition unit 14 as shown in FIG. In step S1-2), similarly to the above, the CPU 18 extracts genre information from the program information (EPG) acquired by the program information acquisition unit 14 (step S2), and further makes a target light quantity corresponding to the extracted genre information. Data is read from the genre information-specific light quantity database 16 (step S3).

  Here, the light quantity data read from the genre information light quantity database 16 corresponds to the time zone of the program being viewed, which is obtained from the program information (EPG) or the internal clock of the main body of the television receiver 10C as described above. Data.

  Further, the CPU 18 receives the detection data of the light amount of the current viewing environment from the light receiving unit 15 (step S4), and compares the target light amount data corresponding to the genre information with the detection data (step S5).

  After that, in the same manner as described above, the illumination 30 of the illumination 30 is connected via the home network 20 so that the detection data of the light amount of the current viewing environment from the light receiving unit 15 approaches the target light amount data by the procedure of (Step S6) to (Step S10). Brightness is automatically controlled.

  As described above, in the third embodiment, the program information acquisition unit 14 acquires program information (EPG) from information recorded on the hard disk of the HDD device 19B, and the CPU 18 acquires genre information obtained from the program information (EPG). Accordingly, the brightness of the indoor lighting 30 is automatically controlled via the home network 20 so that the detection data by the light receiving unit 15 approaches the light amount data. I made it.

  Thus, even when program information (EPG) is obtained from information recorded on the hard disk of the HDD device 19B, as in the first embodiment, for example, when a movie is being viewed, By automatically darkening 30, viewing with a sense of reality is possible, and the viewing environment can be controlled so that the broadcast side wants to view it.

  Further, since the light amount data registered in the genre information light amount database 16 corresponds to the genre and the time zone of the program being viewed, the influence of the outdoor brightness and the like is taken into consideration as in the first embodiment. In addition, the viewing environment can be controlled so that the broadcast side wants to view it.

  In the third embodiment, the case where the HDD device 19B is built in the television receiver 10C has been described. However, the present invention is not limited to this example, and the HDD device 19B may be externally attached.

  In the third embodiment, the case where the program information acquisition unit 14 acquires program information (EPG) from information recorded on the hard disk of the HDD device 19B has been described. However, the present invention is not limited to this example. When viewing the program recorded on the DVD-RAM with the television receiver 10C, the program information (EPG) may be obtained from the information recorded on the personal computer hard disk or DVD-RAM.

  In the above first to third embodiments, the case where the brightness of the illumination 30 is automatically controlled via the home network 20 based on the control signal from the CPU 18 has been described. When controlled by the infrared remote control signal, the brightness of the illumination 30 is automatically controlled by transmitting the infrared remote control signal directly from the television receivers 10A to 10C without going through the home network 20. Is also possible. In this case, a transmitter that transmits infrared remote control signals to the television receivers 10A to 10C may be provided.

  In the first to third embodiments described above, when the brightness of the illumination 30 is automatically controlled for each program genre, the program information (EPG), the program information (IEPG), or the main body of the television receiver 10C. Although the case where the light amount data obtained from the internal clock according to the time zone of the program being viewed is read from the light amount database 16 classified by genre information has been described, the time zone is daytime and the illumination 30 is turned on. In such a situation, it is possible to control to stop reading the light amount data.

  On the other hand, if the time zone is daytime and the program is such that the environment that the broadcast side wants to watch is “dark”, the curtain is automatically closed via the home network 20 and the lighting 30 Then, illumination is performed via the home network 20 so that the detection data of the light amount in the current viewing environment from the light receiving unit 15 approaches the target light amount data according to the procedure of (Step S6) to (Step S10) described above. Control in which the brightness of 30 is automatically controlled is also possible.

  Further, in each of the television receivers 10A to 10C in the first to third embodiments, the program information acquisition unit 14 performs program information (EPG) from a broadcast signal and program information from the IEPG database 40 on the network ( IEPG), the case where any one of the program information (EPG) from the information recorded on the hard disk of the HDD 19B has been described, either of the program information (EPG) or the program information (IEPG) or It goes without saying that the function of acquiring all may be incorporated into any one of the television receivers 10A to 10C.

  The present invention can be applied not only to a television receiver but also to a reproduction-only device such as a personal computer or a DVD player that can receive a broadcast signal.

It is a block diagram which shows Embodiment 1 at the time of applying the viewing-and-listening environment control apparatus of this invention to the television receiver which is a video display apparatus. 3 is a flowchart for explaining a viewing environment control method in the television receiver of FIG. 1. It is a figure for demonstrating the viewing environment control method in the television receiver of FIG. It is a block diagram which shows Embodiment 2 at the time of changing the structure of the television receiver of FIG. 5 is a flowchart for explaining a viewing environment control method in the television receiver of FIG. 4. It is a block diagram which shows Embodiment 3 at the time of changing the structure of the television receiver of FIG. 7 is a flowchart for explaining a viewing environment control method in the television receiver of FIG. 6.

Explanation of symbols

10A-10C TV receiver
11 Antenna IF
12 Video processing unit
13 Display section
14 Program information acquisition unit (program information acquisition means)
15 Light receiver (brightness detection means)
16 Light intensity database by genre information
17 OSD controller
18 CPU (control means)
19, 19A, 21 Network IF
19B HDD device
20 Home network
22 Lighting controller
30 Lighting
40 IEPG Database

Claims (11)

Get program information from broadcast signals,
Detect the ambient brightness when watching the program,
A viewing environment control method, comprising: controlling brightness of indoor lighting so that detection data obtained by the brightness detection approaches light quantity data corresponding to genre information obtained from the program information. Get program information related to recording reservation from the program information database on the Internet,
Detect the ambient brightness when watching the program,
A viewing environment control method, comprising: controlling brightness of indoor lighting so that detection data obtained by the brightness detection approaches light quantity data corresponding to genre information obtained from the program information. Get program information from the information recorded in the recording means,
Detect the ambient brightness when watching the program,
A viewing environment control method, comprising: controlling brightness of indoor lighting so that detection data obtained by the brightness detection approaches light quantity data corresponding to genre information obtained from the program information.   2. The viewing environment control method according to claim 1, wherein program information relating to recording reservation from a program information database on the network and / or program information from information recorded in the recording means is acquired.   5. The viewing environment according to claim 1, wherein the light amount data is data corresponding to a time zone of a program being viewed, obtained from the program information or an internal clock of the apparatus main body. Control method. A light intensity database for each genre information in which light intensity data for an optimal viewing environment for each program genre is registered;
Program information acquisition means for acquiring program information from a broadcast signal;
Brightness detection means for detecting the brightness of the surroundings for watching the program;
Control means for reading out light quantity data corresponding to genre information obtained from the program information from the light quantity database classified by genre information and controlling the brightness of indoor lighting so that the detection data by the brightness detection means approaches the light quantity data And a viewing environment control device. A light intensity database for each genre information in which light intensity data for an optimal viewing environment for each program genre is registered;
Program information acquisition means for acquiring program information related to recording reservation from a program information database on the net;
Brightness detection means for detecting the brightness of the surroundings for watching the program;
Control means for reading out light quantity data corresponding to genre information obtained from the program information from the light quantity database classified by genre information and controlling the brightness of indoor lighting so that the detection data by the brightness detection means approaches the light quantity data And a viewing environment control device. A light intensity database for each genre information in which light intensity data for an optimal viewing environment for each program genre is registered;
Program information acquisition means for acquiring program information from information recorded in the recording means;
Brightness detection means for detecting the brightness of the surroundings for watching the program;
Control means for reading out light quantity data corresponding to genre information obtained from the program information from the light quantity database classified by genre information and controlling the brightness of indoor lighting so that the detection data by the brightness detection means approaches the light quantity data And a viewing environment control device.   The program information acquisition unit acquires program information related to recording reservation from a program information database on the network and / or program information from information recorded in the recording unit. Viewing environment control device.   The viewing environment according to any one of claims 6 to 9, wherein the light quantity data is data corresponding to a time zone of a program being viewed, obtained from the program information or an internal clock of the apparatus main body. Control device.   11. A video display device comprising the viewing environment control device according to claim 6.

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