JP4206225B2 - Image display system and display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an image display system comprising: a processing device that performs processing for outputting an image signal based on an image file; and a display device that displays an image based on the image signal output from the processing device.as well asUsed in the systemDisplay deviceAbout.
[0002]
[Prior art]
With the widespread use of digital still cameras (hereinafter referred to as digital cameras), opportunities to display captured images on a display device such as a CRT display are increasing.
When an image is captured using a digital camera, an image file in a format such as JPEG is generated. The generated image file is read by a processing device such as a personal computer, and an image signal based on the image file is read from the processing device. By outputting to the display device via a signal line, the display device displays an image based on the input image signal.
[0003]
However, when displaying an image picked up by a digital camera on a display device, the characteristics relating to the display such as the γ value and color temperature of the digital camera and the display device are different. Based on various conditions such as the imaging mode, aperture value, and shutter speed, it is necessary to adjust various items such as the γ value and imaging temperature manually by using appropriate application software.
[0004]
Adjustment based on various conditions is also necessary when printing an image picked up by a printing apparatus such as a printer. Exif in which various image pickup conditions described above are included as attribute information in an image file in a format such as JPEG. The image file of the format etc. is developed.
[0005]
Japanese Patent Application Laid-Open No. 11-55688 discloses a method of converting image data based on attribute information (photographing light source information), outputting the converted image data to a printer, and printing with the printer.
[0006]
The method of performing adjustment by the processing device using the attribute information included in the image file can also be applied to the case of outputting from the display device. Japanese Patent Laid-Open No. 2002-57855 discloses a method received from a WWW server. A method is disclosed in which subject image information is color-converted by a personal computer that is a processing device based on attribute information (photographing information), and then output to a display that is a display device connected to the processing device.
[0007]
[Problems to be solved by the invention]
However, as shown in JP-A-11-55688 and JP-A-2002-57855, in the method of outputting an image file adjusted by the processing device, consideration for the image quality of the printer and the display device is not sufficient, and it is not always necessary. There is a problem that an image that faithfully reproduces the image quality at the time of imaging cannot be displayed. For example, when the display device is used in a state in which the contrast is lowered and the image device itself has a high contrast to reproduce the image quality at the time of imaging, the display device can be adjusted even if image quality adjustment is performed to increase the contrast of the image file itself. If the contrast adjustment value itself is low, the contrast remains low, and the image quality at the time of imaging cannot be faithfully reproduced.
Further, it is not a realistic method to manually adjust the image quality by operating the display device for each image, because it requires a great deal of labor and time.
[0008]
  The present invention has been made in view of such circumstances, and outputs an image signal based on an image file from a processing device to a display device and shows a display format based on imaging attribute information or imaging attribute information read from the image file. An image display system capable of automatically displaying a beautiful image that reproduces the image quality at the time of imaging by transmitting format information to the display device and adjusting the image quality on the display device,as well asUsed in the systemDisplay deviceThe purpose is to provide.
[0009]
[Means for Solving the Problems]
  An image display system according to a first aspect of the present invention includes a processing device that performs processing for outputting an image signal based on an image file based on imaging, and an image based on the image signal output from the processing device by an image quality adjusting unit. PictureQualityIn the image display system including the display device that adjusts and displays the processing device, the processing device outputs an image signal based on an image file including imaging attribute information indicating a condition at the time of imaging to the display device; Means for reading imaging attribute information, determining means for determining a display format based on the read imaging attribute information, and a correspondence table in which the imaging attribute information and the display format are recorded in association with each other, and a format indicating the determined display format Means for transmitting information to the display device, and the display device comprises means for adjusting its own image quality by image quality adjustment means based on the received format information.
[0012]
  First1The image display system according to the invention not only outputs an image signal from a processing device such as a personal computer to a display device such as a CRT display, but also transmits format information based on imaging attribute information of the image file to the display device. In order to forcibly change the image quality adjustment value set in advance by adjusting the image quality of the display device itself based on the format information at, the image quality at the time of imaging when the image file was generated is faithfully reproduced A beautiful image can be automatically displayed, and an image display can be realized in consideration of the characteristics of the display device.Also, by using the correspondence table, it is possible to determine an appropriate display format without performing complicated processing.
[0013]
  An image display system according to a second aspect of the present invention includes a processing device that performs processing for outputting an image signal based on an image file based on imaging, and an image based on the image signal output from the processing device by an image quality adjustment unit. PictureQualityIn the image display system including the display device that adjusts and displays the processing device, the processing device outputs an image signal based on an image file including imaging attribute information indicating a condition at the time of imaging to the display device; Means for reading imaging attribute information and means for transmitting the read imaging attribute information to the display device, the display device records the received imaging attribute information, the imaging attribute information, and the display format in association with each other. And determining means for determining the display format based on the correspondence table, and means for adjusting the image quality by the image quality adjusting means based on the determined display format.
[0014]
  First2The image display system according to the invention not only outputs an image signal from a processing device such as a personal computer to a display device such as a CRT display, but also transmits imaging attribute information of the image file to the processing device, and the display device captures the imaging attribute. By adjusting the image quality of the display device itself based on the display format determined by the information, the image quality adjustment value set by the previous operation is forcibly changed. It is possible to automatically display a beautiful image that is faithfully reproduced, and to realize an image display in consideration of the characteristics of the display device.Also, by using the correspondence table, it is possible to determine an appropriate display format without performing complicated processing.
[0017]
  First3An image display system according to the invention includes:1st invention or 2nd inventionThe imaging attribute information includes at least one of information on a light source at the time of imaging an image file, a distance from the imaging device to the subject, an imaging mode of the imaging device, an aperture value, and a shutter speed. It is characterized by.
[0018]
  First3In the image display system according to the invention, for example, when an image file is generated by imaging using an imaging device such as a digital camera, information regarding the light source, distance to the subject, imaging mode, aperture value, shutter speed, etc. By including information regarding imaging conditions as imaging attribute information, it is possible to adjust various items such as γ value, contrast, brightness, color temperature, and sharpness that faithfully reproduce the image quality at the time of imaging.
[0019]
  First4The image display system according to the invention includes the first invention to the first invention.3In any one of the inventions, a signal line that connects the processing device and the display device and transmits an image signal, and a communication line that connects the processing device and the display device and transmits information different from the image signal. It is characterized by providing.
[0020]
  First4In the image display system according to the invention, a general purpose operation is performed by connecting a processing device and a display device with a signal line defined by a standard such as DIN and a communication line defined by a standard such as USB. It is possible to easily communicate with the process that is being performed.
[0021]
  First5The image display system according to the invention includes the first invention to the first invention.3In any of the inventions, a signal line for transmitting an image signal and a communication line for transmitting information different from the image signal are included, and a composite line for connecting the processing device and the display device is provided.
[0022]
  First5In the image display system according to the invention, processing is performed with a composite line including a signal line for transmitting an image signal defined by a standard such as DIN and a communication line for transmitting command information defined by a standard such as USB. By connecting the device and the display device, it is possible to easily communicate with a general-purpose process, and it is easy to handle the wiring.
[0023]
  First6The image display system according to the invention includes the first invention to the first invention.3In any of the inventions, the display device includes a signal line that connects the processing device and the display device and transmits an image signal, and the processing device includes means for superimposing information different from the image signal on the image signal. Comprises a means for separating information superimposed on the image signal.
[0024]
  First6In the image display system according to the invention, the processing device and the display device are connected by a signal line defined by a standard such as DIN, and the image signal and the command information superimposed on the image signal are transmitted through the signal line. Therefore, it is possible to easily communicate with the processing performed for general purposes, and it is not necessary to perform a new wiring other than the signal lines generally provided in the display device.
[0035]
  The display device according to the seventh aspect of the present invention is configured to display an image based on the input image signal by the image quality adjusting means.QualityWhen the image signal based on the image file including the imaging attribute information indicating the imaging condition is input and the imaging attribute information is received in the display device adjusted and displayed, the received imaging attribute information and the imaging Means for determining a display format based on a correspondence table in which attribute information and a display format are recorded in association with each other, and means for adjusting its own image quality by an image quality adjusting unit based on the determined display format And
[0036]
  First7In the display device according to the invention, the image quality adjustment value set by the previous operation on the display device is forcibly adjusted by adjusting the image quality of the display device itself based on the format information determined by the imaging attribute information received from the processing device. Therefore, it is possible to automatically display a beautiful image that faithfully reproduces the image quality at the time of imaging that generated the image file, and to realize an image display that takes into account the characteristics of the display device It is.Also, by using the correspondence table, it is possible to determine an appropriate display format without performing complicated processing.
[0037]
  First8The display device according to the invention is:7th inventionIn the present invention, a signal line connection unit for connecting a signal line for transmitting an image signal and a communication line connection unit for connecting a communication line for transmitting information different from the image signal are provided.
[0038]
  First8In the display device according to the invention, a signal line connected to a signal line connection unit such as a connector defined by a standard such as DIN and a communication connected to a communication line connection unit such as a connector defined by a standard such as USB By connecting to a processing device through a line, it is possible to easily communicate with a process that is performed for general purposes.
[0039]
  First9The display device according to the invention is:7th inventionAnd a composite line connecting unit for connecting a composite line including a signal line for transmitting an image signal and a communication line for transmitting information different from the image signal.
[0040]
  First9The display device according to the invention is connected to the display device by a composite line including a signal line for transmitting an image signal specified by a standard such as DIN and a communication line for transmitting information specified by a standard such as USB. By doing so, it is possible to easily communicate with a general-purpose process, and the handling at the time of wiring is easy.
[0041]
  First10The display device according to the invention is the first7In the invention, information different from the image signal is superimposed on an image signal and a signal line connection unit that connects a signal line that transmits information different from the image signal superimposed on the image signal, and an image signal transmitted on the signal line. And means for separating the superimposed information from the image signal.
[0042]
  First10In a display device according to the invention, an image signal and information such as format information and attribute information superimposed on the image signal are displayed on a signal line connected to a signal line connection portion such as a connector defined by a standard such as DIN. By transmitting to, it is possible to easily communicate with a general-purpose process, and it is not necessary to perform new wiring.
[0047]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to the drawings illustrating embodiments thereof.
Embodiment 1 FIG.
FIG. 1 is a block diagram showing the configuration of the image display system of the present invention.
In FIG. 1, reference numeral 10 denotes a processing apparatus according to the present invention using a computer such as a personal computer. The processing apparatus 10 records information such as a CPU 11 for controlling the entire apparatus, a computer program PG for the processing apparatus according to the present invention and data. Auxiliary storage means 12 such as a CD-ROM drive for reading information from a recording medium REC such as a CD-ROM, a recording means 13 such as a hard disk for recording information such as a computer program PG and data read by the auxiliary storage means 12, A RAM 14 for temporarily storing information and an input means 15 such as a mouse and a keyboard are provided.
The recording unit 13 records a correspondence table 10a that records attribute information and display format included in the image file in association with each other.
[0048]
The personal computer operates as the processing apparatus 10 of the present invention by reading various information such as the computer program PG and data for the processing apparatus of the present invention from the recording means 13, storing them in the RAM 14 and executing them by the CPU 11.
[0049]
The processing apparatus 10 also includes a graphics controller 161 that generates image data based on the image file, an image memory 162 that stores image data generated by the graphics controller 161, and image data stored in the image memory 162 as image signals. A video card 16 having a signal line connecting portion 163 such as a connector defined by a standard such as DIN to be output is provided.
[0050]
Further, the processing apparatus 10 includes a communication control unit 171 such as a USB controller that controls communication defined by a standard such as USB, and a communication line connection unit 172 such as a connector used for communication controlled by the communication control unit 171. The communication board 17 is provided.
[0051]
One end of a signal line L1 that transmits an image signal is connected to the signal line connection unit 163 included in the processing apparatus 10, and one end of a communication line L2 that transmits various types of information is connected to the communication line connection unit 172. The other ends of L1 and communication line L2 are connected to a display device 20 such as a CRT display, a liquid crystal display, or a plasma display.
[0052]
The display device 20 includes a signal line connection unit 21 such as a connector for connecting the other end of the signal line L1, and an image signal input from the signal line connection unit 21 is sent to the video circuit 22, and the video circuit 22 receives the image signal. An image based on the above is displayed on the display unit 23 such as a CRT.
[0053]
The display device 20 also includes a communication circuit 24 having a communication line connection unit 241 such as a connector for connecting the other end of the communication line L2 and a communication control unit 242 such as a USB controller. Information is sent to a control circuit 25 such as a microcomputer, and the control circuit 25 performs various processes and controls the video circuit 22 based on the received information.
[0054]
Next, an image file handled in the image display system of the present invention and the correspondence table 10a provided in the processing apparatus 10 will be described.
The image file handled in the image display system of the present invention is an image file generated by imaging using an imaging device such as a digital still camera, for example, and various kinds of images are generated in a format such as JPEG and TIFF. This is based on a format such as Exif including various attribute information.
Attribute information included in an image file in a format such as Exif includes information regarding the conditions at the time of imaging such as a light source, subject distances such as approaching and distant, imaging modes such as natural and human, and generation conditions such as aperture value and shutter speed. In addition, various information such as the name of the manufacturer of the imaging device, the width and height of the image, and the γ curve characteristics are used.
[0055]
  FIG. 2 illustrates the present invention.Used in image display systemIt is explanatory drawing which shows the recording content of the processing apparatus 10 notionally by the corresponding | compatible table 10a.
  In the correspondence table 10a, attribute information indicating generation conditions such as an imaging mode and information on a display format in which adjustment values of image quality elements that can be adjusted by the display device 20 are combined are recorded in association with each other.
  The imaging modes that are generation conditions include standard, natural, and human modes, and these are assigned typical values of the generation conditions such as aperture value and shutter speed when imaging natural and human imaging targets. ing.
  The display format is an image quality mode indicating a format for displaying an image with appropriate image quality for each generation condition, and values for various items that can be adjusted by the display device 20 such as contrast and color temperature. It is recorded.
[0056]
Next, processing in the image display system of the present invention will be described.
FIG. 3 is a flowchart showing processing of the processing device 10 and the display device 20 used in the image display system of the present invention.
In the processing device 10, for example, when an input of a command for displaying an image file recorded in the recording unit 13 is received, the image file is read from the recording unit 13 and stored in the RAM 14, and a graphic is generated based on the stored image file. Image data is generated by the processing of the controller 161, and the generated image data is stored in the image memory 162.
The image data stored in the image memory 162 is output as an image signal, that is, an image signal based on the image file is output to the display device 20 via the signal line L1 (S101).
[0057]
Also, attribute information including information relating to image file generation conditions is read from the image file stored in the RAM 14 (S102), and the display format is determined from the read attribute information based on the correspondence table 10a (S103). The format information indicating the format is transmitted to the display device 20 via the communication line L2 (S104).
In step S103, a method of determining the display format based on the correspondence table 10a is shown, but the display format may be determined by calculation from generation conditions such as an aperture value and a shutter speed.
[0058]
The display device 20 accepts an input of an image signal via the signal line L1 (S105) and sends the input image signal to the video circuit 22.
The format information is received via the communication line L2 (S106), and the received format information is sent to the control circuit 25. The control circuit 25 controls the video circuit 22 to adjust the image quality based on the format information. .
[0059]
Then, the image quality is adjusted based on the format information under the control of the control circuit 25 (S107), and an image to be displayed is displayed on the display unit 23 based on the image signal received by the video circuit 22 with the adjusted image quality (S108). .
[0060]
Note that the process of outputting the image signal shown in step S101 and the process of sending the format information shown in steps S103 to S104 are shown as if the output of the image signal is performed first for convenience of explanation. However, it is sufficient that the processing for displaying the image and the processing for adjusting the image on the display device 20 are performed simultaneously so that there is no time difference, and the format information may be transmitted first.
As the image quality adjustment based on the format information, various items such as γ value, contrast, brightness, color temperature, and sharpness are adjusted.
[0061]
Embodiment 2. FIG.
The second embodiment is a mode in which the processing for determining the display format is performed by the display device 20 instead of the processing device 10 in the first embodiment.
[0062]
  FIG. 4 is a block diagram showing the configuration of the image display system of the present invention.
  In the image display system according to the second embodiment, since the display format is determined by the display device 20, the processing device 10 does not have the correspondence table 10 a and the control circuit 2 provided in the display device 20.5The correspondence table 20a is recorded in a part of the recording area.
  Since the other components are the same as those in the first embodiment, the same numbers are assigned and the description thereof is omitted.
  Also, since the recorded contents of the correspondence table 20a are substantially the same as the recorded contents of the correspondence table 10a shown in the first embodiment, the first embodiment will be referred to and description thereof will be omitted.
[0063]
Next, processing in the image display system of the present invention will be described.
FIG. 5 is a flowchart showing processing of the processing device 10 and the display device 20 used in the image display system of the present invention.
The processing device 10 outputs an image signal based on the image file to the display device 20 via the signal line L1 (S201).
Further, the attribute information is read from the image file (S202), and the read attribute information is transmitted to the display device 20 via the communication line L2 (S203).
[0064]
The display device 20 accepts input of an image signal via the signal line L1 (S204), and sends the input image signal to the video circuit 22.
The attribute information is received via the communication line L2 (S205), and the received attribute information is sent to the control circuit 25. The control circuit 25 determines the display format based on the correspondence table 20a (S206), and the determined display. The video circuit 22 is controlled to adjust the image quality based on the format.
[0065]
Then, the image quality is adjusted based on the display format under the control of the control circuit 25 (S207), and the image to be displayed is displayed on the display unit 23 based on the image signal received by the video circuit 22 with the adjusted image quality (S208). .
[0066]
Embodiment 3 FIG.
The third embodiment is a mode in which a composite line including the signal line L1 and the communication line L2 is used in the first or second embodiment.
[0067]
FIG. 6 is a block diagram showing the configuration of the image display system of the present invention.
The processing apparatus 10 shown in FIG. 6 includes a composite board 18 having the functions of both the video card 16 and the communication board 17 in the first embodiment. The composite board 18 includes a signal line connection unit 163 and a communication line connection. A composite wire connecting portion 181 is provided as a connector corresponding to the portion 172.
[0068]
One end of a composite line L3 including the signal line L1 and the communication line L2 is connected to the composite line connection unit 181 included in the processing device 10, and the other end of the composite line L3 is connected to the display device 20. .
[0069]
The display device 20 includes a composite circuit 26 having the function of the communication circuit 24 in the first embodiment. The composite circuit 26 is a composite line connection unit as a connector corresponding to the signal line connection unit 21 and the communication line connection unit 241. 261.
[0070]
In the third embodiment, since the composite line L3 may be used instead of the signal line L1 and the communication line L2, the composite line connection unit 181 included in the processing apparatus 10 does not have to be a dedicated connector. If the connectors corresponding to the signal line connection part 163 and the communication line connection part 172 are close enough to be connected by a single composite line L3, they can be used as the composite line connection part 181. If the signal line connection unit 163 and the communication line connection unit 172 that can be used as the composite line connection unit 181 are provided, the video card 16 and the communication board 17 can be used as they are.
For the same reason, the composite line connecting portion 261 in the display device 20 does not need to be a dedicated connector.
[0071]
Since other configurations are the same as those of the first embodiment, the same reference numerals are given and the description thereof is omitted.
Since the processing is the same as that in the first embodiment, the first embodiment will be referred to and description thereof will be omitted.
In Embodiment 3 mentioned above, although the form which uses the composite line L3 was shown with respect to Embodiment 1, it cannot be overemphasized that the composite line L3 may be used with respect to Embodiment 2. FIG.
[0072]
Embodiment 4 FIG.
The fourth embodiment is a form in which information other than the image signal is superimposed on the image signal and transmitted through the signal line L1 in the first or second embodiment.
[0073]
FIG. 7 is a block diagram showing the configuration of the image display system of the present invention.
The processing apparatus 10 shown in FIG. 7 includes a superposition board 19 having the function of the video card 16 instead of the communication board 17 in the first embodiment.
The superimposing board 19 includes a graphics controller 161 and an image memory 162, and further includes a communication control unit 191 that controls communication, and a circuit that superimposes various information transmitted under the control of the communication control unit 191 on an image signal. A superimposing unit 192 is provided.
The image signal on which various types of information are superimposed by the superimposing unit 192 is sent to the signal line connecting unit 163 and output to the display device 20 through the signal line L1.
[0074]
The display device 20 includes a separation circuit 27 having a signal line connection unit 21 for connecting the signal line L1, and the separation circuit 27 adds various information different from the image signal to the image signal input from the signal line connection unit 21. Is provided as a circuit for separating various superimposed information from the image signal, and the various information separated by the separation unit 272 is controlled by the control by the communication control unit 271. It is sent to the circuit 25.
The image signal from which various pieces of information are separated by the separation unit 272 is sent to the video circuit 22.
When various information is not superimposed on the image signal, the image signal is sent to the video circuit 22 as it is.
[0075]
Since other configurations are the same as those in the first embodiment, the same reference numerals are given and the description thereof is omitted.
Since the processing is almost the same as that of the first embodiment, the first embodiment will be referred to, and the description thereof will be omitted. However, the transmission of the format information is superimposed on the image signal instead of the communication line L2. Thus, the signal is transmitted through the signal line L1.
In the above-described fourth embodiment, a mode in which information is superimposed and separated on the image signal is shown in the first embodiment. However, in contrast to the second embodiment, information is superimposed and separated on the image signal. Needless to say, this may be done in any form.
[0076]
In the first to fourth embodiments, the display format is determined from the attribute information included in the image file and the image quality is adjusted. However, the present invention is not limited to this, and the format information indicating the display format is attribute information. And the image quality may be adjusted based on the attribute information read from the image file, thereby making it unnecessary to determine the display format in the processing device or the display device.
[0077]
【The invention's effect】
  As described above in detail, the image display system according to the present invention.as well asDisplayIn placeConnects a processing device such as a personal computer and a display device such as a CRT display with a signal line for transmitting an image signal and a communication line defined by a standard such as USB, and an image based on an image file from the processing device. The signal is output to the display device via the signal line, and the image attribute information read from the image file or the format information indicating the display format based on the image attribute information is transmitted to the display device via the communication line. By adjusting the image quality of the display device itself based on the format information, the image quality adjustment value set in advance is forcibly changed. Can be displayed automatically, and it is possible to realize an image display that takes into account the characteristics of the display device. .
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of an image display system of the present invention.
FIG. 2 of the present inventionUsed in image display systemIt is explanatory drawing which shows notionally the recording content of a processing table by a processing apparatus.
FIG. 3 is a flowchart showing a processing device used in the image display system of the present invention and processing of the display device.
FIG. 4 is a block diagram showing a configuration of an image display system of the present invention.
FIG. 5 is a flowchart showing a processing device used in the image display system of the present invention and processing of the display device.
FIG. 6 is a block diagram showing a configuration of an image display system of the present invention.
FIG. 7 is a block diagram showing a configuration of an image display system of the present invention.
[Explanation of symbols]
10 Processing device
20 Display device
L1 signal line
L2 communication line
L3 compound line
PG computer program
REC recording medium

Claims (10)

A processing unit that performs processing for outputting an image signal based on the image file based on the imaging, an image based on the image signal output from the processing device, a display device for displaying by adjusting their image quality by the image quality adjusting means In an image display system comprising:
The processor is
Means for outputting an image signal based on an image file including imaging attribute information indicating conditions at the time of imaging to the display device;
Means for reading imaging attribute information from an image file;
Determining means for determining the display format based on the read imaging attribute information, and the correspondence table in which the imaging attribute information and the display format are recorded in association with each other;
Means for transmitting format information indicating the determined display format to the display device,
The display device
An image display system comprising means for adjusting its own image quality by image quality adjustment means based on the received format information. A processing unit that performs processing for outputting an image signal based on the image file based on the imaging, an image based on the image signal output from the processing device, a display device for displaying by adjusting their image quality by the image quality adjusting means In an image display system comprising:
The processor is
Means for outputting an image signal based on an image file including imaging attribute information indicating conditions at the time of imaging to the display device;
Means for reading imaging attribute information from an image file;
Means for transmitting the read imaging attribute information to the display device,
The display device
Determining means for determining the display format based on the received imaging attribute information, and the correspondence table in which the imaging attribute information and the display format are recorded in association with each other;
An image display system comprising: means for adjusting own image quality by image quality adjustment means based on the determined display format.   The imaging attribute information includes at least one of information on a light source at the time of imaging an image file, a distance from an imaging device to a subject, an imaging mode of the imaging device, an aperture value, and a shutter speed. The image display system according to claim 1 or 2. A signal line for connecting the processing device and the display device and transmitting an image signal;
The image display system according to any one of claims 1 to 3, further comprising: a communication line that connects the processing device and the display device and transmits information different from the image signal.   4. A signal line for transmitting an image signal and a communication line for transmitting information different from the image signal, and comprising a composite line for connecting the processing device and the display device. The image display system according to crab. A signal line for connecting the processing device and the display device and transmitting an image signal;
The processor is
Means for superimposing information different from the image signal on the image signal;
The display device
The image display system according to any one of claims 1 to 3, further comprising means for separating information superimposed on the image signal. An image based on input image signals, a display device for displaying by adjusting their image quality by the image quality adjusting means,
When an image signal based on an image file including imaging attribute information indicating conditions at the time of imaging is input and imaging attribute information is received, the received imaging attribute information, imaging attribute information, and display format are associated with each other. Means for determining the display format based on the recorded correspondence table;
A display device comprising: means for adjusting its own image quality by an image quality adjusting means based on the determined display format. A signal line connecting part for connecting a signal line for transmitting an image signal;
The display device according to claim 7, further comprising: a communication line connection unit that connects a communication line that transmits information different from the image signal.   The display device according to claim 7, further comprising a composite line connection unit that connects a composite line including a signal line that transmits an image signal and a communication line that transmits information different from the image signal. A signal line connecting unit that connects an image signal and a signal line that transmits information different from the image signal superimposed on the image signal;
The display according to claim 7, further comprising means for separating the superimposed information from the image signal when information different from the image signal is superimposed on the image signal transmitted by the signal line. apparatus.

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