JP2004336317A - Video processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To acquire picture quality setting information based on model information on a reception device and video information included in a video signal and to adjust picture quality by picture quality setting information. <P>SOLUTION: A video signal generating part 20 generates the video signal from a broadcast signal and a signal recorded in a recording medium. A model information notifying part 51 notifies the model information of a receiving part 50. A picture quality setting information acquiring part 40 asks picture quality setting information to a picture quality recommendation server 60 based on video information (genre and disk information) included in the video signal from the video signal generating part 20 and model information from the model information notifying part 51. The picture quality setting information acquiring part 40 supplies picture quality setting information to a picture quality adjusting part 52 when it acquires picture quality setting information from the picture quality recommendation server 60. The picture quality adjusting part 52 adjusts the picture quality of the video signal from the video signal generating part 20 in accordance with picture quality setting information from the picture quality setting information acquiring part 40 and supplies the signal to a display part 53. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video processing device, and more particularly to a video processing device and a video processing system that acquire image quality setting information and supply it to an image receiving unit, a processing method in these devices, and a program that causes a computer to execute the method.
[0002]
[Prior art]
The image quality of an image displayed on a receiver shows different characteristics for each model due to the influence of the method adopted for the receiver and the electric circuit. Therefore, depending on the type of the displayed video, a case where the original video effect cannot be sufficiently obtained may occur.
[0003]
Therefore, some conventional video processing devices adjust the image quality of the video based on the video information of the video to be processed. For example, a system has been proposed in which the type of a video is extracted from an electronic program guide, and the image quality of the video is adjusted using the adjustment value of the image quality adjustment preset by the user for the type of the video ( For example, see Patent Literature 1 and Patent Literature 2.)
[0004]
[Patent Document 1]
JP-A-2002-158941 (FIG. 3)
[Patent Document 2]
JP 2001-251567 A (FIG. 9)
[0005]
[Problems to be solved by the invention]
In the above-described related art, image quality is automatically adjusted according to the type of video extracted from the electronic program guide. However, in these conventional techniques, there is a problem that the viewer needs to set the adjustment value of the image quality adjustment in each of the receivers, and the input operation is troublesome for the viewer. Also, the types of video tend to be diversified, and it is not always advisable to use the adjustment values once set permanently.
[0006]
Therefore, an object of the present invention is to obtain image quality setting information based on model information of an image receiving device and video information included in a video signal, and to perform image quality adjustment based on the image quality setting information.
[0007]
[Means for Solving the Problems]
According to another aspect of the present invention, there is provided a video processing apparatus comprising: a video signal generating unit configured to generate a video signal; and an image quality based on model information of a receiving device and video information included in the video signal. Image quality setting information acquiring means for acquiring the setting information and supplying the image quality setting information to the image receiving device. As a result, there is an effect that the image quality setting information suitable for the model information of the image receiving device and the video information included in the video signal is obtained.
[0008]
According to a second aspect of the present invention, in the video processing apparatus according to the first aspect, the video signal generating means extracts the video signal from a broadcast signal and outputs the video signal as the video information. Extract genres. As a result, there is an effect that the image quality setting information suitable for the genre included in the model information and the broadcast signal of the image receiving device is obtained.
[0009]
According to a third aspect of the present invention, in the video processing apparatus according to the first aspect, the video signal generating means extracts the video signal from a signal recorded on a recording medium and outputs the video signal. The information indicates an identifier of the recording medium. This brings about an effect of acquiring image quality setting information suitable for the model information of the image receiving device and the identifier of the recording medium.
[0010]
According to a fourth aspect of the present invention, in the video processing apparatus according to the first aspect, the video signal generating means extracts a signal recorded on a recording medium as the video signal, and outputs the video signal. The information indicates an identifier of the recording medium and a logical address in the recording medium. This brings about an effect of acquiring image quality setting information suitable for the model information of the image receiving device, the identifier of the recording medium, and the logical address on the recording medium.
[0011]
According to a fifth aspect of the present invention, there is provided a video processing apparatus for obtaining image quality setting information based on video signal generating means for generating a video signal, and model information of the image receiving device and video information included in the video signal. An image quality setting information acquisition unit; and an image quality adjustment unit that performs image quality adjustment of the video signal in accordance with the image quality setting information and supplies the image signal to the image receiving device. As a result, there is an effect that the image quality setting information suitable for the model information of the image receiving device and the image information included in the image signal is obtained and the image quality is adjusted.
[0012]
In addition, the video processing device according to claim 6 of the present invention includes a display unit that displays a video signal, a video signal generation unit that generates the video signal, a model information notification unit that notifies model information, and the model information. Image quality setting information acquiring means for acquiring image quality setting information based on the image information included in the video signal, and image quality adjusting means for adjusting the image quality of the display means according to the image quality setting information. This brings about an effect that the image signal is adjusted and the image signal is displayed based on the model information of the image receiving device and the image quality setting information suitable for the image information included in the image signal.
[0013]
Also, in the video processing apparatus according to claim 7 of the present invention, in the video processing apparatus according to claim 6, the video signal generating means extracts the video signal from a broadcast signal and outputs the video signal as the video information. The genre is extracted. As a result, there is an effect that the image signal is adjusted and the video signal is displayed based on the model information of the image receiving device and the image quality setting information suitable for the genre included in the broadcast signal.
[0014]
Also, in the video processing apparatus according to claim 8 of the present invention, in the video processing apparatus according to claim 6, the video signal generating means extracts the video signal from a signal recorded on a recording medium and outputs the video signal. The information indicates an identifier of the recording medium. As a result, there is an effect that the image signal is adjusted and the video signal is displayed based on the model information of the image receiving device and the image quality setting information suitable for the identifier of the recording medium.
[0015]
According to a ninth aspect of the present invention, in the video processing apparatus according to the sixth aspect, the video signal generating means extracts a signal recorded on a recording medium as the video signal and outputs the video signal. The information indicates an identifier of the recording medium and a logical address in the recording medium. As a result, the image signal is displayed by adjusting the image quality using the image quality setting information suitable for the model information of the image receiving device, the identifier of the recording medium, and the logical address on the recording medium.
[0016]
According to a tenth aspect of the present invention, there is provided the video processing apparatus according to the sixth aspect, wherein the image quality adjusting means prompts confirmation when performing the image quality adjustment according to the image quality setting information. This brings about an effect of avoiding a change in image quality contrary to the user's intention.
[0017]
An image processing system according to an eleventh aspect of the present invention includes a video processing device, an image quality recommendation server that supplies image quality setting information in the video processing device, and a network that connects the video processing device and the image quality recommendation server. A video processing system comprising: a display unit for displaying a video signal; a video signal generating unit for generating the video signal; a model information notifying unit for notifying model information; Image quality setting information obtaining means for obtaining image quality setting information from the image quality recommending server based on the model information and the video information included in the video signal; and image quality adjusting means for adjusting the image quality in the display means according to the image quality setting information. Is provided. As a result, there is an effect that the image quality setting information suitable for the image information included in the image signal and the model information of the image receiving device is acquired from the image quality recommending server, and the image signal is displayed by adjusting the image quality based on the image quality setting information. .
[0018]
According to a twelfth aspect of the present invention, in the video processing system according to the eleventh aspect, the video signal generating means extracts the video signal from a broadcast signal and outputs the video signal as the video information. The genre is extracted, and the image quality recommendation server holds a standard image quality database that holds the association between the genre and the standard image quality setting information, and the association between the model information and the image quality setting information based on the standard image quality. A model database, and supplies the image quality setting information based on the genre and the model information from the image quality setting information acquiring means. As a result, there is an effect that the image quality setting information suitable for the genre contained in the model information and the broadcast signal of the image receiving apparatus is acquired from the image quality recommending server, and the image signal is displayed by adjusting the image quality based on the image quality setting information.
[0019]
According to a thirteenth aspect of the present invention, in the video processing system according to the eleventh aspect, the video signal generating means extracts the video signal from a signal recorded on a recording medium to generate the video signal. The information indicates the identifier of the recording medium, and the image quality recommendation server retains a recording medium database that holds the association between the identifier of the recording medium and the genre, and the association between the genre and the setting information of the standard image quality. A standard image quality database, and a model database for holding the correspondence between the model information and the image quality setting information based on the standard image quality, based on the identifier of the recording medium from the image quality setting information acquisition unit and the model information. Supplies the image quality setting information. As a result, the image quality setting information suitable for the model information of the image receiving device and the identifier of the recording medium is obtained from the image quality recommendation server, and the image quality is adjusted based on the image quality setting information to display the video signal.
[0020]
According to a fourteenth aspect of the present invention, in the video processing system according to the eleventh aspect, the video signal generating means extracts a signal recorded on a recording medium as the video signal and outputs the video signal. The information indicates the identifier of the recording medium and the logical address in the recording medium, and the image quality recommendation server holds the association between the identifier of the recording medium and the logical address in the recording medium, the genre, and the setting information of the standard image quality. A recording medium database, and a model database that holds correspondence between the model information and the image quality setting information based on the standard image quality, wherein the identifier of the recording medium from the image quality setting information acquisition unit and the logical address in the recording medium The image quality setting information is supplied based on the image information and the model information. Thereby, image quality setting information suitable for the model information of the image receiving device, the identifier of the recording medium, and the logical address in the recording medium is obtained from the image quality recommending server, and the image signal is displayed by adjusting the image quality based on the image quality setting information. Has the effect of doing
[0021]
Also, the video processing method according to claim 15 of the present invention provides a procedure for extracting video information from a video signal, a procedure for obtaining model information of a receiving apparatus, and an image quality setting based on the video information and the model information. The method includes a step of acquiring information and a step of supplying the image quality setting information to the image receiving device. This brings about an effect of acquiring and supplying image quality setting information suitable for the image information included in the image signal and the model information of the image receiving device.
[0022]
Also, in the video processing method according to claim 16 of the present invention, a procedure for extracting a genre from a broadcast signal, a procedure for acquiring model information of an image receiving device, and image quality setting information based on the genre and the model information are provided. A step of acquiring the image quality setting information to the image receiving apparatus. This brings about an effect of acquiring and supplying image quality setting information suitable for the genre included in the model information and the broadcast signal of the image receiving device.
[0023]
Also, a video processing method according to claim 17 of the present invention includes a step of extracting an identifier of the recording medium from the recording medium, a step of acquiring model information of the image receiving apparatus, and a step of extracting the identifier of the recording medium and the model information. And a step of supplying the image quality setting information to the image receiving device. This brings about an effect of acquiring and supplying image quality setting information suitable for the model information of the image receiving device and the identifier of the recording medium.
[0024]
Further, according to the video processing method of the present invention, a procedure for extracting an identifier of the recording medium and a logical address in the recording medium from a recording medium, a procedure for acquiring model information of an image receiving device, And a step of obtaining the image quality setting information based on the identifier of the recording medium, the logical address in the recording medium, and the model information, and a step of supplying the image quality setting information to the image receiving device. This brings about an effect that image quality setting information suitable for the model information of the image receiving device, the identifier of the recording medium, and the logical address on the recording medium is obtained and supplied.
[0025]
A program according to a nineteenth aspect of the present invention includes a procedure for extracting video information from a video signal, a procedure for acquiring model information of an image receiving device, and a step of extracting image quality setting information based on the video information and the model information. The procedure for acquiring the image quality setting information and the procedure for supplying the image quality setting information to the image receiving device are performed by a computer. This brings about an effect of acquiring and supplying image quality setting information suitable for the image information included in the image signal and the model information of the image receiving device.
[0026]
According to a twentieth aspect of the present invention, there is provided a program for extracting a genre from a broadcast signal, acquiring model information of an image receiving apparatus, and acquiring image quality setting information based on the genre and the model information. And causing the computer to execute a procedure and a procedure of supplying the image quality setting information to the image receiving device. This brings about an effect of acquiring and supplying image quality setting information suitable for the genre included in the model information and the broadcast signal of the image receiving device.
[0027]
A program according to a twenty-first aspect of the present invention includes a procedure for extracting an identifier of a recording medium from a recording medium, a procedure for acquiring model information of an image receiving device, and a procedure for acquiring the model information of the recording medium and the model information. And causing the computer to execute a procedure of acquiring the image quality setting information and a procedure of supplying the image quality setting information to the image receiving device. This brings about an effect of acquiring and supplying image quality setting information suitable for the model information of the image receiving device and the identifier of the recording medium.
[0028]
A program according to claim 22 of the present invention includes a procedure for extracting an identifier of the recording medium and a logical address in the recording medium from a recording medium, a procedure for acquiring model information of an image receiving apparatus, and an identifier of the recording medium. And causing the computer to execute a procedure for acquiring image quality setting information based on the logical address in the recording medium and the model information, and a procedure for supplying the image quality setting information to the image receiving device. This brings about an effect that image quality setting information suitable for the model information of the image receiving device, the identifier of the recording medium, and the logical address on the recording medium is obtained and supplied.
[0029]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, embodiments of the present invention will be described in detail with reference to the drawings.
[0030]
FIG. 1 is a diagram illustrating an example of the overall configuration of a video processing system according to an embodiment of the present invention. In this video processing system, the video processing device 10 and the recommended image quality server 60 are mutually connected by a network 70. The video processing device 10 generates a video signal and acquires image quality setting information suitable for the video signal. The image quality recommendation server 60 returns image quality setting information according to a request from the video processing device 10. The network 70 can be, for example, the Internet, but may be a form using a local network or a public line.
[0031]
The video processing device 10 includes a video signal generation unit 20 and an image quality setting information acquisition unit 40. The video signal generator 20 generates a video signal. This video signal is extracted, for example, from a broadcast signal by digital broadcasting or a signal recorded on a recording medium such as a DVD (digital versatile disk). The video signal generator 20 demodulates and decodes such a broadcast signal or a signal recorded on a recording medium to generate a video signal. The video signal generator 20 extracts video information from the video signal. As the video information, for example, information such as a genre in digital broadcasting, a DVD identifier, and a logical address (title, chapter, and the like) in the DVD are applicable.
[0032]
The image quality setting information acquisition unit 40 requests image quality setting information from the image quality recommendation server 60 based on the video information extracted by the video signal generation unit 20 and the model information of the image receiving unit 50. When acquiring the image quality setting information from the image quality recommending server 60, the image quality setting information acquiring unit 40 supplies the image quality setting information to the image receiving unit 50. The image receiving unit 50 is for displaying a video signal from the video signal generating unit 20, and may be configured to be included in the video processing device 10 as in the example of FIG. It may be configured as a separate image receiving device.
[0033]
The image receiving unit 50 includes a model information notifying unit 51, an image quality adjusting unit 52, and a display unit 53. The model information notifying section 51 notifies the image quality setting information acquiring section 40 of model information as the image receiving section 50 or the image receiving apparatus. The model information only needs to identify each model, for example, a maker name and a model number. It should be noted that the model information notifying section 51 only needs to be able to hold model information, and can be constituted by, for example, a ROM (read only memory) or the like. The display unit 53 is a device that displays a video signal from the video signal generation unit 20, and can be configured by, for example, a display using a cathode ray tube, liquid crystal, plasma, or the like. The image quality adjustment unit 52 adjusts the image quality of the video signal from the video signal generation unit 20 and supplies the video signal to the display unit 53. The image quality adjustment unit 52 may be configured to be included in the image receiving unit 50 as in the example of FIG. 1, or may be configured as a unit separate from the image receiving unit 50. For example, as described above, the image receiving unit 50 may be configured as a separate image receiving device from the video processing device 10, and the image quality adjusting unit 52 may be provided in the video processing device 10.
[0034]
FIG. 2 is a diagram illustrating a configuration example of a digital broadcast receiving device 200 as a specific example of the video signal generating unit 20 according to the embodiment of the present invention. The digital broadcast receiving apparatus 200 includes a processor 210, a memory 220, a flash memory 230, a tuner 240, a demodulator 250, a demultiplexer 260, an audio decoder 267, a video decoder 268, a digital-analog A (D / A) conversion unit 270, an audio output unit 277, a video output unit 278, and an interface 290 are provided. These are connected by a bus 280. An antenna 209 is connected to the tuner 240 as an external device.
[0035]
The processor 210 controls the operation of the entire digital broadcast receiving device 200. The memory 220 corresponds to the main memory of the processor 210, and stores programs and the like that operate on the processor 210. The flash memory 230 is a non-volatile recording medium, and is used to hold information required again after the power of the digital broadcast receiving device 200 is turned off. Therefore, when the digital broadcast receiving apparatus 200 is turned on, the contents of the flash memory 230 are transferred to the memory 220.
[0036]
The tuner 240 detects a signal of a predetermined channel from the broadcast signal supplied from the antenna 209 under the control of the processor 210 and supplies the detected signal to the demodulation unit 250. The broadcast signal may be a terrestrial wave or a satellite signal based on a broadcast satellite (BS) broadcast or a communication satellite (CS) broadcast. The demodulation unit 250 demodulates the broadcast signal from the tuner 240 under the control of the processor 210, extracts data, and supplies the data to the demultiplexer 260. In the case of digital broadcasting, the data is digitally modulated by, for example, phase modulation (PSK), and the demodulation unit 250 extracts data from the digitally modulated signal.
[0037]
The demultiplexer 260 separates the data from the demodulation unit 250 into audio data and video data, and supplies the data to the audio decoding unit 267 and the video decoding unit 268, respectively. The demultiplexer 260 functions as, for example, a transport decoder for digital data, and separates an MPEG-2 (Moving Picture Experts Group) -2 transport stream into an audio stream as audio data and a video stream as video data. The demultiplexer 260 separates program specification information (PSI) and program sequence information (SI) in the transport stream.
[0038]
The audio decoding unit 267 and the video decoding unit 268 decode the audio data and the video data supplied from the demultiplexer 260, respectively, and supply them to the D / A conversion unit 270. For example, the MPEG-encoded audio stream and video stream are MPEG-decoded to produce audio and video signals.
[0039]
The D / A conversion section 270 converts the digital signals supplied from the audio decoding section 267 and the video decoding section 268 into analog signals and supplies the analog signals to the audio output section 277 and the video output section 278. The video signal output from the video output unit 278 is supplied to the image quality adjustment unit 52. The audio signal output from the audio output unit 277 is supplied to a speaker (not shown).
[0040]
The interface 290 connects the bus 280 inside the digital broadcast receiving device 200 and the image quality setting information acquisition unit 40. The interface 290 can transmit the program specification information and the program arrangement information separated from the transport stream by the demultiplexer 260 to the outside. The program arrangement information includes an event information table (EIT) as described later, and a “genre” can be acquired from this event information table as video information of a broadcast program.
[0041]
In this manner, based on the genre obtained from the video signal generating unit 20 (digital broadcast receiving device 200) and the model information obtained from the model information notifying unit 51, the image quality setting information obtaining unit 40 sets the image quality recommending server. The image quality setting information is inquired to 60.
[0042]
FIG. 3 is a diagram illustrating a configuration example of the image quality recommendation server 60 according to the embodiment of the present invention. The image quality recommendation server 60 includes a request analysis unit 670, a database 600, a database management unit 680, and a response unit 690. The database 600 includes, for example, a standard image quality database 610, a model database 620, and a disk database 630.
[0043]
The request analysis unit 670 receives the inquiry about the image quality setting information transmitted from the image quality setting information acquisition unit 40, and analyzes the contents of the inquiry. When it is necessary to access the database 600, the database management unit 680 is requested to access the database 600.
[0044]
The database management unit 680 accesses the database 600 according to a request from the request analysis unit 670. When the image quality setting information that finally matches the content of the inquiry is obtained, the image quality setting information is output to the response unit 690. The response unit 690 returns the image quality setting information to the image quality setting information acquisition unit 40.
[0045]
As the database 600, it is necessary to hold image quality setting information in accordance with the contents of an inquiry from the image quality setting information acquisition unit 40. Assuming the digital broadcast receiving apparatus 200 as the video signal generating unit 20, for example, a standard image quality database 610 that stores a genre and standard image quality setting information suitable for the genre, and the standard image quality setting information And a model database 620 that holds information for acquiring model-dependent image quality setting information for each model.
[0046]
FIG. 4 is a diagram illustrating a configuration example of the standard image quality database 610 according to the embodiment of the present invention. The standard image quality database 610 holds brightness 612, contrast 613, and sharpness 614 as standard image quality setting information corresponding to the genre 611. The database management unit 680 searches the genre 611 of the standard image quality database 610 based on the genre in the content of the inquiry from the image quality setting information acquisition unit 40, and corresponding image quality setting information (brightness 612, contrast 613, and sharpness 614). To get.
[0047]
In this example, the movie, news, sports, music, society, and education are listed as the genre 611, but various other genres can be set.
[0048]
The image quality setting information obtained from the standard image quality database 610 is obtained by adjusting the brightness, contrast, and sharpness of each genre, and although the adjustment is made according to each genre, the characteristics of each model are adjusted. Is standard image quality setting information that is not taken into account. The database management unit 680 uses the standard image quality setting information to generate image quality setting information in consideration of the characteristics of each model.
[0049]
FIG. 5 is a diagram illustrating a configuration example of the model database 620 according to the embodiment of the present invention. The model database 620 holds image quality setting information 623 of the model corresponding to the manufacturer 621 and the model number 622 as model information. The database management unit 680 searches the manufacturer 621 and the model number 622 of the model database 620 based on the model information in the inquiry content from the image quality setting information acquisition unit 40, and acquires the corresponding image quality setting information 623.
[0050]
The left side of the image quality setting information 623 is an image quality setting item for each model. The image quality setting item has a different name for each model. For example, the model of company A on the first line uses image quality setting items including brightness, contrast, and sharpness, and the model of company B on the second line uses brightness, contrast, and sharpness. , And the model of Company C in the third row uses image quality setting items including backlight, contrast, and sharpness.
[0051]
On the other hand, the right side of the image quality setting information 623 is a calculation formula based on standard image quality setting information (brightness 612, contrast 613, and sharpness 614) obtained from the standard image quality database 610. The database management unit 680 generates image quality setting information for the model in accordance with the formula.
[0052]
The disk database 630 will be described in another specific example described later.
[0053]
FIG. 6 is a diagram showing a configuration of the event information table (EIT) 710 in the program arrangement information. The genre of the program used when the image quality setting information acquiring unit 40 makes an inquiry about the image quality setting information can be acquired from the event information table 710. In digital broadcast receiving apparatus 200 as a specific example of video signal generating section 20 in the embodiment of the present invention, demultiplexer 260 separates program arrangement information from a transport stream. This program arrangement information includes an event information table 710, and the genre is described in the event information table 710.
[0054]
The event information table 710 includes a table identifier 711, a section length 712, a service identifier 713, an event identifier 714, a start time 715, a duration 716, a descriptor area length 717, a descriptor (descriptor) 718, , CRC (Cyclic Redundancy Check) 719. Actually, other information is included, but here, items directly related to the embodiment of the present invention are extracted.
[0055]
The table identifier 711 is for identifying the type of the table. Specifically, if the table identifier 711 is in the range from “0x4E” to “0x6F”, it means that the event information table. Here, “0x” indicates that the following numbers are in hexadecimal notation. The section length 712 indicates the byte length from immediately after that to the end of the event information table 710. The service identifier 713 represents a number for identifying a service (logical channel).
[0056]
The event identifier 714 to the descriptor 718 form a repetition part, and information for each event included in the service is described. Each service (logical channel) includes a plurality of events (programs), and the event identifier 714 indicates a number for identifying the event. The start time 715 indicates the start time of the event. The duration 716 indicates the length of the event. Therefore, the sum of the start time 715 and the duration 716 is the end time.
[0057]
The descriptor area length 717 indicates the length of the subsequent descriptor 718. The descriptor 718 describes information about the corresponding event, and includes, for example, a content descriptor, a short event descriptor, and the like. The genre is described in this content descriptor. Therefore, by searching for the corresponding event in the event information table 710 and extracting the content descriptor, the genre of the program can be known.
[0058]
The CRC 719 is a cyclic redundancy check code for detecting a data error in the event information table 710, and is added to the end of each event information table 710.
[0059]
FIG. 7 is a diagram illustrating an example of image quality search data used for an inquiry from the image quality setting information acquisition unit 40 to the image quality recommendation server 60 in the embodiment of the present invention. Here, an example in the XML (extensible Markup Language) language is shown as a standard file format, which is an HTML (Hyper Text Markup Language) language or a BML (Broadcast Markup Language other standardized language such as Broadcast Markup Language). Alternatively, a non-standardized language based on a rule negotiated between specific devices may be used.
[0060]
The first line is a declaration statement indicating that the file is in the XML language. The second line is a tag indicating that the part up to the last line is image quality search data. The third line describes that the genre is “music”. The fourth line describes that the manufacturer is “Company B”. The fifth line describes that the model number is “DTV200B”.
[0061]
FIG. 8 is a diagram illustrating an example of image quality setting data used for an answer from the image quality recommending server 60 to the image quality setting information acquisition unit 40 in the embodiment of the present invention. Although an example in the XML language is shown as the standard file format, other international standardized languages and non-standardized languages may be used as in FIG.
[0062]
The first line is a declaration statement indicating that the file is in the XML language. The second line is a tag indicating that the part up to the last line is image quality setting data. The third line describes that the brightness is “80”. The fourth line describes that the contrast is “60”. The fifth line describes that the sharpness is “70”.
[0063]
The image quality setting data is used not only for the response from the image quality recommendation server 60 to the image quality setting information acquisition unit 40 but also for the supply of the image quality setting information from the image quality setting information acquisition unit 40 to the image quality adjustment unit 52. I can do it.
[0064]
Next, an operation in the case where the digital broadcast receiving device 200 is assumed as a specific example of the video signal generating unit 20 in the embodiment of the present invention will be described.
[0065]
FIG. 9 is a diagram illustrating an example of a processing procedure according to the embodiment of the present invention. The broadcast signal received by the digital broadcast receiving apparatus 200 is separated into audio data and video data by the demultiplexer 260, and program specification information and program arrangement information are extracted. Then, a content descriptor is extracted from the descriptor 718 included in the event information table 710 of the program arrangement information, and is acquired by the image quality setting information acquiring unit 40 (step S911). In this content descriptor, the genre of the program is described as video information.
[0066]
On the other hand, the model information is notified from the model information notifying section 51 of the image receiving section 50, and is obtained by the image quality setting information obtaining section 40 (step S912). This model information includes a maker and a model number.
[0067]
The image quality setting information acquisition unit 40 queries the image quality recommendation server 60 for image quality setting information based on the video information (genre) and model information (manufacturer and model number) thus acquired (step S913). This inquiry is performed, for example, in a format as shown in FIG.
[0068]
The image quality recommendation server 60 acquires the image quality setting information by accessing the database 600 via the database management unit 680. The image quality setting information is supplied from the image quality recommending server 60 to the image quality setting information acquisition unit 40 in a format as shown in FIG. 8, for example.
[0069]
This image quality setting information is supplied from the image quality setting information acquisition unit 40 to the image quality adjusting unit 52. When performing the image quality adjustment, the user is told "the recommended image quality of the video to be viewed has been detected. Do you want to change it? " As a result, if the user's permission is obtained (step S914), the image quality adjustment unit 52 performs image quality adjustment based on the image quality setting information (step S915). On the other hand, if the user refuses to change the image quality, the image quality is not adjusted.
[0070]
As described above, according to one specific example of the embodiment of the present invention, a genre is extracted as video information from a broadcast signal received by digital broadcast receiving apparatus 200, and a manufacturer name is provided as model information from model information notification unit 51. And image quality setting information can be obtained by inquiring the image quality recommendation server 60 based on the information and the model number, and can be supplied to the image quality adjustment unit 52.
[0071]
Next, a description will be given of a configuration in a case where a disk reproducing device 300 is assumed as another specific example of the video signal generating unit 20 in the embodiment of the present invention.
[0072]
FIG. 10 is a diagram illustrating a configuration example of a disc reproduction device 300 of another specific example of the video signal generation unit 20 according to the embodiment of the present invention. The disc reproducing apparatus 300 includes a processor 310, a memory 320, a flash memory 330, a signal detection unit 340, a demodulation unit 350, a demultiplexer 360, an audio decoding unit 367, a video decoding unit 368, a digital An analog (D / A) converter 370, an audio output unit 377, a video output unit 378, and an interface 390 are provided. These are connected by a bus 380. This disc reproducing device 300 has the same configuration as the digital broadcast receiving device 200 described in FIG. 2 except for the signal detection unit 340.
[0073]
The signal detection unit 340 detects a signal from the disk 309 as a recording medium, and supplies the signal to the demodulation unit 350. Specifically, a read signal is generated by rotating the disk 309 by a spindle motor under servo control and receiving reflected light of laser light emitted from the pickup. The read signal is amplified by an amplifier in the signal detection unit 340 and then demodulated by an EFM (Eight to Fourteen Modulation) by a demodulation unit 350. The EFM demodulation is a process for reducing 8-bit data that has been expanded to 14 bits (EFM modulation) and recorded on the disk 309 to original 8-bit data. Further, demodulation section 350 performs error correction after EFM demodulation.
[0074]
The error-corrected signal obtained in this manner is separated into a video signal and an audio signal by the demultiplexer 360 according to the same procedure as that of the digital broadcast receiving apparatus 200 in FIG. 2, and is decoded and D / A converted, respectively. Output to the image receiving unit 50.
[0075]
FIG. 11 is a diagram showing a video format in a DVD. The video content includes a management unit called a video manager (VMG) 810 and a main unit called a video title set (VTS) 820.
[0076]
The video manager 810 includes video manager information (VMGI) 811, a video manager menu (VMGM_VOBS) 812, and a backup (VMGI (BUP)) 813. The video manager information 811 is control information on the entire video content. The video manager menu 812 is content for a title selection menu. The backup 813 is a copy (copy) of the video manager information 811.
[0077]
Each of the video title sets 820 includes video title set information (VTSI) 821, a video title set menu (VTSM_VOBS) 822, a video title set title (VTSTT_VOBS) 823, and a backup (VTSI (BUP)) 824. The video title set information 821 is control information for a video title set. The video title set menu 822 is content for various menus in the video title set. The video title set title 823 is content for reproducing the title. The backup 824 is a copy of the video title set information 821.
[0078]
As described above, one or more video title sets are recorded on the DVD under the management of the video manager 810. Each title is composed of one or more chapters. Therefore, by identifying the title and the chapter, the logical position in the DVD can be specified. Therefore, in this specification, the title and the chapter are called logical addresses.
[0079]
In order to identify the DVD itself, an identifier is generated in advance from the content recorded on the DVD. For example, for a specific file recorded on a DVD, the identifier of the DVD is generated by applying a predetermined hash function to information such as the file size and date. Since a file holding the video manager information 811 always exists in the DVD, the file of the video manager information 811 can be used. If the target file and the hash function are determined in advance, they can be used as DVD identifiers. For example, if an identification number of about 64 bits is generated, the probability that different DVDs have the same identification number is sufficiently low, and is considered to be sufficient for practical use.
[0080]
Therefore, according to the DVD identifier and the above-described logical address of the DVD, it is possible to uniquely identify which chapter on which DVD. The processor 310 of the disc reproducing apparatus 300 extracts or generates these DVD identifiers and logical addresses, and supplies them to the image quality setting information acquisition unit 40 via the interface 390 as video information. The image quality setting information acquisition unit 40 makes an inquiry about the image quality setting information to the image quality recommendation server 60 based on the video information from the disc reproducing apparatus 300 and the model information from the model information notifying unit 51.
[0081]
FIG. 12 is a diagram showing one configuration example of the disk database 630 according to the embodiment of the present invention. In the configuration example of the disk database 630, a genre 634 of content recorded in a chapter specified by a disk identifier 631 and a title 632 and a chapter 633 as logical addresses is held. The database management unit 680 (FIG. 3) searches the disk identifier 631, title 632, and chapter 633 of the disk database 630 based on the video information from the image quality setting information acquisition unit 40, and extracts the corresponding genre 634.
[0082]
Then, the database management unit 680 searches the genre 611 of the standard image quality database 610 (FIG. 4) based on the genre 634 extracted in this way, and corresponding standard image quality setting information (brightness 612, contrast 613, And the sharpness 614) is acquired. Further, the database management unit 680 searches the manufacturer 621 and the model number 622 of the model database 620 (FIG. 5) based on the model information in the inquiry content from the image quality setting information acquisition unit 40, and To generate image quality setting information.
[0083]
In the example of FIG. 12, the genre 634 is extracted once, and the standard image quality database 610 is searched according to the genre 634 to obtain the standard image quality setting information. Alternatively, standard image quality setting information may be obtained.
[0084]
FIG. 13 is a diagram illustrating another configuration example of the disk database 630 according to the embodiment of the present invention. In the configuration example of the disc database 630, standard image quality setting information (brightness 635, contrast 636, and contrast 636) for content recorded in a chapter specified by a disc identifier 631 and a title 632 and a chapter 633 as logical addresses. , Sharpness 637) is maintained.
[0085]
In this example, the database management unit 680 searches the disk identifier 631, title 632, and chapter 633 of the disk database 630 based on the video information from the image quality setting information acquisition unit 40, and Information can be obtained directly. Therefore, the database management unit 680 searches the manufacturer 621 and the model number 622 of the model database 620 based on the model information in the contents of the inquiry from the image quality setting information acquisition unit 40 without using the standard image quality database 610, and From the information 623, image quality setting information for the corresponding model can be generated.
[0086]
Next, an operation of the embodiment of the present invention in the case where a disk reproducing device 300 is assumed as another specific example of the video signal generating unit 20 will be described.
[0087]
FIG. 14 is a diagram showing another example of the processing procedure in the embodiment of the present invention. The signal detected from the disk 309 in the disk reproducing device 300 is separated by the demultiplexer 260 into audio data and video data. On the other hand, the processor 310 extracts the logical addresses (titles and chapters) of the video data, generates disk identifiers, and supplies these to the image quality setting information acquisition unit 40 as disk information (disk identifiers and logical addresses). As a result, the disc information is acquired by the image quality setting information acquisition section 40 (step S921).
[0088]
Subsequent processing is the same as in the example of FIG. 9, in which the model information from the model information notifying section 51 of the image receiving section 50 is acquired by the image quality setting information acquiring section 40 (step S922), and based on the model information and the disc information. Then, the image quality setting information acquisition unit 40 makes an inquiry about the image quality setting information to the image quality recommending server 60 (step S923). The image quality recommendation server 60 supplies the image quality setting information to the image quality setting information acquisition unit 40 in response to the inquiry. Then, after obtaining the permission of the user (step S924), the image quality adjustment unit 52 performs the image quality adjustment based on the image quality setting information (step S925).
[0089]
As described above, according to one specific example of the embodiment of the present invention, in the disk reproducing device 300, the disk identifier and the logical address are extracted as the disk information from the signal detected from the disk 309, and the model information notification unit 51 It is possible to acquire the image quality setting information by inquiring the image quality recommending server 60 based on the manufacturer name and the model number as the model information, and supply the image quality setting information to the image quality adjusting unit 52.
[0090]
In the embodiment of the present invention, a disc identifier, a title, and a chapter are used to acquire genre and standard image quality setting information for a DVD. However, in order to simplify the configuration of the disc database 630, a disc identifier is used. Alternatively, only the title or the disc identifier may be used.
[0091]
Further, the embodiments of the present invention show an example for embodying the present invention, and have a corresponding relationship with the invention specifying matters in the claims as described below, but are not limited thereto. Various modifications can be made without departing from the spirit of the present invention.
[0092]
That is, in claim 1, the video signal generation means corresponds to, for example, the video signal generation 20, the digital broadcast receiving apparatus 200, or the disc reproducing apparatus 300, and the image quality setting information obtaining means corresponds to, for example, the image quality setting information obtaining section 40. . The video signal corresponds to, for example, a broadcast signal received by the antenna 209 or a signal recorded on the DVD 309. The image receiving device corresponds to, for example, the image receiving unit 50, and the model information corresponds to, for example, a manufacturer name and a model number. The video information corresponds to a program genre in a broadcast signal, a DVD identifier, and a logical address.
[0093]
In claim 4, a logical address on a recording medium corresponds to a title and a chapter on a DVD.
[0094]
In claim 5, the image quality adjusting means corresponds to, for example, the image quality adjusting unit 52.
[0095]
In claim 6, the display means corresponds to, for example, the display unit 53. The model information notification means corresponds to, for example, the model information notification unit 51.
[0096]
Further, in claim 11, the video processing device corresponds to, for example, the video processing device 10. The image quality recommendation server corresponds to, for example, the image quality recommendation server 60. The network corresponds to, for example, the network 70.
[0097]
In claim 12, the standard image quality database corresponds to, for example, the standard image quality database 610. The model database corresponds to, for example, the model database 620.
[0098]
In claims 13 and 14, the recording medium database corresponds to, for example, the disk database 630.
[0099]
In claims 15 and 19, the procedure for extracting video information from a video signal corresponds to, for example, step S911 or S921. The procedure for acquiring the model information of the image receiving device corresponds to, for example, step S912 or S922. The procedure for acquiring the image quality setting information based on the video information and the model information corresponds to, for example, step S913 or S923. The procedure for supplying the image quality setting information to the image receiving device corresponds to, for example, step S915 or S925.
[0100]
In claim 16 and claim 20, the procedure for extracting a genre from a broadcast signal corresponds to, for example, step S911. The procedure for acquiring the model information of the image receiving device corresponds to, for example, step S912. The procedure for acquiring the image quality setting information based on the genre and the model information corresponds to, for example, step S913. The procedure for supplying the image quality setting information to the image receiving device corresponds to, for example, step S915.
[0101]
In the claims 17 and 21, the procedure of extracting the identifier of the recording medium from the recording medium corresponds to, for example, step S921. The procedure for acquiring the model information of the image receiving device corresponds to, for example, step S922. The procedure for acquiring the image quality setting information based on the identifier of the recording medium and the model information corresponds to, for example, step S923. The procedure for supplying the image quality setting information to the image receiving device corresponds to, for example, step S925.
[0102]
In the claims 18 and 22, the procedure of extracting the identifier of the recording medium and the logical address in the recording medium from the recording medium corresponds to, for example, step S921. The procedure for acquiring the model information of the image receiving device corresponds to, for example, step S922. The procedure for acquiring the image quality setting information based on the identifier of the recording medium, the logical address in the recording medium, and the model information corresponds to, for example, step S923. A procedure for supplying the image quality setting information to the image receiving device corresponds to, for example, step S925.
[0103]
Note that the processing procedure described in the embodiment of the present invention may be regarded as a method having these series of procedures, or a program for causing a computer to execute these series of procedures, or a recording medium storing the program. It may be considered as.
[0104]
【The invention's effect】
As is clear from the above description, according to the present invention, the image quality setting information is obtained based on the model information of the image receiving device and the video information included in the video signal, and the image quality is adjusted based on the image quality setting information. Is obtained.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating an example of an overall configuration of a video processing system according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a configuration example of a digital broadcast receiving device 200 as a specific example of the video signal generation unit 20 according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a configuration example of an image quality recommendation server 60 according to the embodiment of the present invention.
FIG. 4 is a diagram illustrating a configuration example of a standard image quality database 610 according to the embodiment of the present invention.
FIG. 5 is a diagram illustrating a configuration example of a model database 620 according to the embodiment of the present invention.
FIG. 6 is a diagram showing a configuration of an event information table (EIT) 710 in program arrangement information.
FIG. 7 is a diagram showing an example of image quality search data used for an inquiry from the image quality setting information acquisition unit 40 to the image quality recommendation server 60 in the embodiment of the present invention.
FIG. 8 is a diagram showing an example of image quality setting data used for a response from the image quality recommending server 60 to the image quality setting information acquisition unit 40 in the embodiment of the present invention.
FIG. 9 is a diagram showing an example of a processing procedure in the embodiment of the present invention.
FIG. 10 is a diagram showing a configuration example of a disc reproduction device 300 of another specific example of the video signal generation unit 20 according to an embodiment of the present invention.
FIG. 11 is a diagram showing a video format of a DVD.
FIG. 12 is a diagram showing one configuration example of a disk database 630 according to the embodiment of the present invention.
FIG. 13 is a diagram showing another configuration example of the disk database 630 according to the embodiment of the present invention.
FIG. 14 is a diagram showing another example of the processing procedure in the embodiment of the present invention.
[Explanation of symbols]
10 Video processing device
20 Video signal generator
40 Image quality setting information acquisition unit
50 Image receiving unit
51 Model information notification section
52 Image quality adjustment unit
53 Display
60 Image quality recommendation server
70 Network
200 Digital broadcast receiver
209 antenna
210, 310 processor
220, 320 memory
230, 330 Flash memory
240 tuner
250, 350 demodulation unit
260, 360 demultiplexer
267, 367 audio decoding unit
268, 368 Video decoding unit
270, 370 A / D converter
277, 377 audio output unit
278, 378 Video output unit
280, 380 bus
290,390 interface
300 disk playback device
309 disk
340 signal detector
600 database
610 Standard Definition Database
620 model database
630 Disk Database
670 Request analysis unit
680 Database Management Department
690 Response part
710 Event information table

Claims (22)

Video signal generating means for generating a video signal;
Image quality setting information acquiring means for acquiring image quality setting information based on the model information of the image receiving device and the image information included in the image signal, and supplying the image quality setting information to the image receiving device. Video processing device. 2. The video processing apparatus according to claim 1, wherein the video signal generating unit extracts the video signal from a broadcast signal and extracts a genre of the broadcast signal as the video information. 2. The video processing apparatus according to claim 1, wherein the video signal generating unit extracts the video signal from a signal recorded on a recording medium and indicates an identifier of the recording medium as the video information. 2. The video signal generating means extracts a signal recorded on a recording medium as the video signal, and indicates an identifier of the recording medium and a logical address on the recording medium as the video information. Video processing equipment. Video signal generating means for generating a video signal;
Image quality setting information obtaining means for obtaining image quality setting information based on the model information of the image receiving device and the video information included in the video signal,
An image processing apparatus, comprising: image quality adjustment means for performing image quality adjustment of the video signal in accordance with the image quality setting information and supplying the image signal to the image receiving device. Display means for displaying a video signal;
Video signal generating means for generating the video signal,
A model information notification means for notifying the model information;
Image quality setting information obtaining means for obtaining image quality setting information based on the model information and the video information included in the video signal,
An image processing apparatus comprising: an image quality adjusting unit that adjusts an image quality of the display unit according to the image quality setting information. 7. The video processing apparatus according to claim 6, wherein the video signal generating unit extracts the video signal from a broadcast signal and extracts a genre of the broadcast signal as the video information. 7. The video processing apparatus according to claim 6, wherein the video signal generating unit extracts the video signal from a signal recorded on a recording medium and indicates an identifier of the recording medium as the video information. 7. The video signal generating means extracts a signal recorded on a recording medium as the video signal and indicates an identifier of the recording medium and a logical address on the recording medium as the video information. Video processing equipment. 7. The video processing apparatus according to claim 6, wherein the image quality adjustment unit prompts confirmation when performing image quality adjustment according to the image quality setting information. A video processing system comprising: a video processing apparatus, an image quality recommendation server that supplies image quality setting information in the video processing apparatus, and a network connecting the video processing apparatus and the image quality recommendation server,
The video processing device includes a display unit that displays a video signal, a video signal generation unit that generates the video signal, a model information notification unit that notifies model information, and video information included in the model information and the video signal. An image quality setting information acquiring means for acquiring image quality setting information from the image quality recommending server based on the image quality recommending server; and an image quality adjusting means for adjusting image quality of the display means according to the image quality setting information. The video signal generating means extracts the video signal from a broadcast signal, extracts a genre of the broadcast signal as the video information,
The image quality recommendation server includes a standard image quality database that holds the association between the genre and the setting information of the standard image quality, and a model database that holds the association between the model information and the image quality setting information based on the standard image quality. 12. The video processing system according to claim 11, wherein said image quality setting information is supplied based on said genre and said model information from said image quality setting information obtaining means. The video signal generating means extracts the video signal from a signal recorded on a recording medium, and indicates an identifier of the recording medium as the video information,
The image quality recommendation server is a recording medium database that holds an association between the identifier of the recording medium and a genre, a standard image quality database that holds an association between the genre and setting information of a standard image quality, and the model information and the model information. A model database that holds association with image quality setting information based on standard image quality, and supplies the image quality setting information based on the identifier of the recording medium and the model information from the image quality setting information acquiring unit. The video processing system according to claim 11, wherein: The video signal generating means extracts a signal recorded on a recording medium as the video signal, and indicates an identifier of the recording medium and a logical address on the recording medium as the video information,
The image quality recommendation server includes a recording medium database that holds an association between the identifier of the recording medium, a logical address in the recording medium, a genre, and standard image quality setting information, and image quality setting information based on the model information and the standard image quality. And a model database that holds the association with the image quality setting information, and supplies the image quality setting information based on the identifier of the recording medium and the logical address in the recording medium from the image quality setting information acquiring unit and the model information. The video processing system according to claim 11, wherein: Extracting video information from the video signal;
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the video information and the model information,
Supplying the image quality setting information to the image receiving device. Extracting a genre from the broadcast signal;
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the genre and the model information;
Supplying the image quality setting information to the image receiving device. Extracting a recording medium identifier from the recording medium;
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the identifier of the recording medium and the model information,
Supplying the image quality setting information to the image receiving device. Extracting the identifier of the recording medium and the logical address in the recording medium from the recording medium,
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the identifier of the recording medium and the logical address of the recording medium and the model information;
Supplying the image quality setting information to the image receiving device. Extracting video information from the video signal;
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the video information and the model information,
Supplying the image quality setting information to the image receiving apparatus. Extracting a genre from the broadcast signal;
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the genre and the model information;
Supplying the image quality setting information to the image receiving apparatus. Extracting a recording medium identifier from the recording medium;
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the identifier of the recording medium and the model information,
Supplying the image quality setting information to the image receiving apparatus. Extracting the identifier of the recording medium and the logical address in the recording medium from the recording medium,
A procedure for acquiring model information of the image receiving apparatus;
A step of acquiring image quality setting information based on the identifier of the recording medium and the logical address of the recording medium and the model information;
Supplying the image quality setting information to the image receiving apparatus.

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