JP2004341131A - Image formation display apparatus and method for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a general-purpose graphic formation display apparatus fully efficient as an apparatus. <P>SOLUTION: The image formation display apparatus has an image forming device 2 for forming an OSD image S2 to be synthesized with a video source S1 obtained from an inputted video signal and a display device 3 for displaying the image S3 after the synthesis. The display device S3 has circuits 33 and 34 for holding or forming graphic information GD intrinsic to the kind of a display element 32. The image forming device 2 is equipped with a control circuit 21 for accepting the graphic information GD and a processing circuit 22 for forming the OSD image S2 by reflecting the graphic information GD to be subjected to control. Since all of the graphic information GD are given from the display device 3, the image formation display apparatus is capable of dealing with display devices of any kinds as well. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention has an OSD (On Screen Display) function of generating an image (a second image) such as a program guide or a channel display and synthesizing and displaying the image (a first image) reproduced from a video signal. The present invention relates to an image generation and display device and a method thereof.
[0002]
[Prior art]
2. Description of the Related Art In recent years, display devices have been diversified, and in addition to a conventional CRT (Cathode Ray Tube), many types of display devices such as a projection display, a liquid crystal display, and a plasma display have been commercialized.
[0003]
There is known a technique of receiving identification information of these types of display devices from a display device and performing image processing suitable for the display device according to the identification information (for example, see Patent Document 1).
[0004]
In this image processing technique, when converting a low-resolution image into a high-resolution image, contrast, sharpness, and the like are adjusted so that an image quality suitable for a display device is obtained. According to the description of Patent Document 1, a display device has a ROM in which device information such as identification information is stored in advance, but a system controller that performs image processing (in this case, image signal conversion) also has a display device. A ROM in which the correspondence between the identification information indicating the type of image and the image quality information is required. Therefore, image processing cannot be performed on a display device having a display device whose correspondence is not stored in the ROM of the system controller. In other words, image processing is possible when a display device having a display device assumed in advance is connected, but image processing is possible even when a display device having a display device not assumed in advance is connected. Can't do it.
[0005]
By the way, there is known a graphic generation and display device which performs a process of generating a graphic such as an OSD and transfers and displays a graphic signal of the OSD and the like to a display device. In such a graphic generation and display device, the generation of a graphic such as an OSD image is performed by the image generation device. The image is demodulated from an input video signal, and the graphic is synthesized with the demodulated image (video source). The processing may be performed by the image generation device or by the display device.
In any case, it is necessary to perform a process of changing the resolution of the graphic according to the resolution (dot size in the vertical and horizontal directions of the screen) of the video source on which the generated graphic is superimposed. In addition, depending on the type of display device used for the display device, a difference in phosphor degradation occurs between a portion displayed at a high luminance and a portion displayed at a low luminance, and an afterimage remains (a so-called “burn-in”). May occur. Therefore, at the time of OSD display, it is necessary to adjust the luminance so as not to cause burn-in or to turn on or off the OSD display according to time, and these processes are changed according to the type of display device. It is desirable.
[0006]
[Patent Document 1]
JP-A-2001-309315 (FIG. 1, pages 5 to 6)
[0007]
[Problems to be solved by the invention]
However, most conventional image generation and display devices for generating and displaying graphics such as OSDs store OSD resolution information in the image generation device that generates graphics. In this case, there is the same problem as in the case of the image quality adjustment of Patent Document 1 described above. In other words, the conventional image generation and display device has a problem that when a display device having a display device that is not assumed in advance is connected, an OSD image having a size optimal for the resolution of the display device cannot be generated. Alternatively, when a display device having a display device that is not assumed in advance is connected, it is necessary to rewrite stored information in the image generation device with information suitable for the display device.
[0008]
Also, regarding the brightness adjustment and on / off control of the OSD display, in the conventional image generation and display device, these controls are performed on the display device side. There was a problem that there was much waste as a whole. In other words, in the conventional image generation and display device, it is necessary to generate an OSD with a general-purpose luminance level using the image generation device that generates the OSD, and to readjust the luminance level further according to the characteristics of the connected display device. I was Also, it is good if the display device has a function of synthesizing the OSD image with the video source, but if not, the display device does not need to have the function of image synthesis to control the ON / OFF of the OSD display. Had the disadvantage of not being able to do so. This is because ON or OFF of the OSD display is realized by performing or not performing image synthesis.
[0009]
Furthermore, in the case of an integrated image generation and display device in which a display device and an image generation device are incorporated in one housing, it is necessary to change the configuration of the image generation device each time the type of display device changes. It has to be developed as a product, and there is a problem that versatility is poor, development efficiency is low, and cost reduction is difficult.
[0010]
An object of the present invention is an image generation and display device including an image generation device that generates a graphic such as an OSD and a display device that displays an image in which the graphic is synthesized. An object of the present invention is to provide an image generation and display device with a general-purpose graphic display function that can cope with the connection, has high processing efficiency, and has no waste as a device.
[0011]
[Means for Solving the Problems]
An image generation and display device according to the present invention is an image generation and display device that generates a second image, combines the second image with a first image obtained from an input video signal, and displays the second image. , An image generation device that generates the second image, and a display device that displays the image after the combination. The display device includes an image display unit, and a circuit that holds or generates graphic information related to the second image that is specific to the type of display device of the display unit. And a control circuit for receiving the graphic information from the holding or generating circuit of the display device, wherein the image generating device is controlled by the control circuit, and performs a process of generating the second image by reflecting the graphic information. And a processing circuit to execute.
The control circuit preferably monitors a request for switching the image of the display device, and when detecting a request to turn off the display of the second image, stops the generation or transmission of the second image.
[0012]
According to this image generation and display device, the process of synthesizing the second image with the first image obtained from the input video signal may be performed by the image generation device or by the display device. . In any case, the image generation device generates a second image to be combined with the first image, and the display unit of the display device displays the combined image. A predetermined circuit of the display device holds or previously generates graphic information related to the second image specific to the type of the display device of the display unit.
When the display device is connected to the image generating device, the graphic information unique to the display device is sent from the holding or generating circuit of the display device to the control circuit of the image generating device. The control circuit sends the graphic information to the processing circuit as it is or after converting it into a format suitable for image synthesis. The processing circuit executes a second image generation process based on the graphic information input from the control circuit, by reflecting the graphic information. For this reason, the resolution (vertical and horizontal dot size) and luminance of the second image are adapted to the resolution and luminance characteristics of the display device. The generated second image is sent to the display device as it is, or is combined with the first image in the image generation device. In the former case, the second image and the first image are combined in the display device. In any case, the combined image is then displayed on the display unit of the display device.
The image generation device monitors a request for switching images on the display device. When detecting the request to turn off the display of the second image, the image generation device stops generating or transmitting the second image. For this reason, the display unit of the display device displays only the first image from which the second image has been deleted.
[0013]
An image generation and display method according to the present invention is an image generation and display method for synthesizing and displaying a generated second image on a first image obtained from an input video signal, wherein the synthesized image is displayed. A first step of preliminarily storing or generating graphic information relating to the second image specific to the type of display device of the display device on the display device for displaying, and receiving the graphic information from the display device. And a second step of executing the process of generating the second image by reflecting the graphic information on an image generation device provided separately from the display device.
Preferably, the image generation device monitors the image switching request of the display device, and when detecting the display-off request of the second image, generates or transmits the second image by the image generation device. The method further includes the step of stopping.
[0014]
According to this image processing method, in the first step, graphic information relating to the second image specific to the type of the display device of the display device is stored or generated in the display device in advance. This graphic information is stored or generated as information unique to each of a plurality of display devices.
In a second step, the graphic information is sent from the connected display device to the image generation device. Then, the image generating device that has received the graphic information generates a second image by reflecting the graphic information.
Then, the generated second image is sent to the display device as it is, or is combined with the first image in the image generation device. In the former case, the second image and the first image are combined in the display device. In any case, the combined image is then displayed on the display unit of the display device.
The image generation device monitors a request for switching images on the display device. When detecting the request to turn off the display of the second image, the image generation device stops generating or transmitting the second image. For this reason, the display unit of the display device displays only the first image from which the second image has been deleted.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
[First Embodiment]
FIG. 1 is a block diagram showing a configuration of the image generation and display device according to the first embodiment. An image generated by the image generation device is generally called a graphic. Hereinafter, an example will be described in which an OSD image (second image) is generated as a graphic, and an OSD image is synthesized and displayed on a first image (hereinafter, referred to as a video source) obtained from an input video signal. This embodiment will be described. The OSD (On Screen Display) is a window display screen displayed at a fixed position on a video source screen in order to convey various information of a video signal, for example, information on a program or a channel, to a user in a video display device. That is.
[0016]
The image generation and display device 1 shown in FIG. 1 includes an image generation device 2 that generates an OSD image, and a display device 3 that displays an image after synthesis. The image generation device 2 and the display device 3 are connected by cables 4A and 4B. These cables are preferably constituted by general-purpose communication cables, for example, cables of the parallel bus standard.
[0017]
In the present embodiment, the video signal is input to the display device 3. The display device 3 includes a signal processing circuit 31 that performs various processes on a video source S1 obtained from an input video signal, for example, gamma correction, pixel number conversion, filtering, and the like. The signal processing circuit 31 is connected to a display unit 32 for displaying a processed video source, and a control circuit for controlling the entire display device including the various processing controls, for example, a CPU 33. The display unit 32 determines the type of the display device. For example, a CRT is used for a cathode ray tube display and a projection display, a liquid crystal panel is used for a liquid crystal display and a projection display, and a PDP (Plasma Display Panel) is used for a plasma display. ) As display devices. Note that a drive circuit, a power supply circuit, a control circuit, and the like are also built in the display unit 32.
In the present embodiment, for example, a ROM 34 is connected to the CPU 33 as a storage circuit. The ROM 34 constitutes an embodiment of a circuit for storing graphic information used for signal processing for displaying an OSD image on the display unit 32 in an optimal form, for example, a coefficient of an image synthesis algorithm and information on a display size. I do.
[0018]
On the other hand, the image generation device 2 includes a control circuit 21 that communicates with the CPU 33 in the display device 3 via the cable 4A, and an image generation processing circuit 22 that is controlled by the control circuit 21 to generate an OSD image. The control circuit 21 is configured by, for example, a CPU, a microcomputer, and the like. Hereinafter, it is assumed that the control circuit 21 is configured by a CPU.
The graphic information GD read from the ROM 34 by the CPU 33 in the display device 3 is sent to the control circuit 21 in the image generating device 2 by communication between the CPUs, and the control circuit 21 receiving the graphic information GD reads the graphic information GD. The data is sent to the processing circuit 22 as it is or after being converted into a predetermined format suitable for image synthesis. Here, "to convert graphic information into a predetermined format suitable for image synthesis" means that the graphic information itself is not processed, and the format of the information is adopted by the processing circuit 22 of the image generating apparatus. A process of applying a data structure capable of generating an image by an image generation method, for example, a process of converting each information into a coefficient of an algorithm of the image generation method.
[0019]
FIG. 2 schematically shows an example of a specific data structure of the graphic information.
In the example shown in FIG. 2, the graphic information GD includes data on the luminance Y of the entire OSD, data on the color of the OSD (background color such as characters), switching data between OSD display (ON) and non-display (OFF), and OSD It has coefficient data Eh for contour enhancement and data on OSD resolution. Here, the luminance Y is a coefficient for collectively correcting the luminance of the entirety including the background and the characters of the OSD. Depending on the type of the display device, for example, in a display device which is likely to burn, the luminance Y is relatively low. A value is set, and a relatively high value is set for a display device that is relatively resistant to burning. Although green (G) is exemplified as the color of the OSD, another primary color or a composite color may be used. In addition, only a numerical example is shown for the horizontal resolution M, but a predetermined value is also set for the vertical resolution. In the OSD display switching data, “1” indicates OSD display, and “0” indicates non-display.
[0020]
Such graphic information GD is sent to the processing circuit 22 after being subjected to the above-described format conversion in the control circuit 21 in the image generating apparatus, and is used for image generation. When the control circuit 21 does not perform the format conversion and sends the graphic information GD to the processing circuit 22 as it is, the format conversion is performed in the processing circuit 22.
The processing circuit 22 uses the graphic information after the format conversion, at a predetermined position in the display area of the video source S1 assumed in advance, at a predetermined resolution (vertical and horizontal dot size), at a predetermined luminance, and at a predetermined contour emphasis. The generated OSD image S2 is generated. Here, regarding the resolution of the video source, the number of pixels in the VGA (Video Graphics Array) method is 640 × 480 dots, the number of pixels in the SVGA (Super VGA) method is 800 × 600 dots, and the number of pixels in the XGA (extra VGA) method is 1024. × 768 dots and the number of pixels of the SXGA (Super XGA) method are 1280 × 1024 dots, and the resolutions are different. At the time of generating the OSD image, information of the resolution of these video sources is required. However, when one type is determined by the product specification, there is no need to provide this information from outside the processing circuit 22. Also, when the resolution of the video source is determined on the display device 3 side and the resolution of the OSD image (M = 1366 or the like) shown in FIG. 2 is determined as being suitable for the resolution of the video source, the processing circuit 22 only needs to generate an OSD image of a predetermined size. However, when there are a plurality of resolutions to be converted by the signal processing circuit 31 of the display device 3, for example, the CPU 33 of the display device 3 recognizes the resolution and sends the information to the control circuit 21 of the image generation device 2. The processing circuit 22 can recognize the resolution of the video source. Alternatively, the resolution of the video source S1 may be specified by the user operation information S4 provided to the control circuit 21. When the information S4 by the user operation is displayed on the OSD image such as a recording reservation time or the like, the control circuit 21 converts the information S4 into a predetermined format and then sends it to the processing circuit 22.
[0021]
The graphic information GD may be stored in a storage area in the CPU 33 without being stored in the specially provided ROM 34 in advance. Alternatively, it may be generated in advance by the CPU 33. In these cases, the ROM 34 can be omitted, and the CPU 33 constitutes an embodiment of the “circuit for holding or generating graphic information” of the present invention.
In any case, the CPU 33 manages graphic information for optimally displaying the OSD image on the display unit 32.
[0022]
The generated OSD image S2 is sent to the signal processing circuit 31 in the display device via the cable 4B, and is combined with the video source (first image) S1. The image S3 after the combination is displayed on the display unit 32. When non-display of the OSD image S2 is instructed by the graphic information GD, the display image is switched from the synthesized image S3 to the original video source S1 by the signal processing circuit 31. The details of this control will be described later.
[0023]
Next, the operation of the image generation and display device will be described in more detail with reference to the flowcharts shown in FIGS. FIG. 3 is a flowchart of the entire process showing the procedure for receiving and transferring the OSD image in detail, and FIG. 4 is a flowchart showing the image transmission control linked to the ON / OFF command of the OSD image in detail.
In step ST0 shown in FIG. 3, storage or generation of the graphic information GD is executed by the ROM 34 or the CPU 33 in the display device.
[0024]
When the display device 3 is connected to the image generation device 2, in step ST1, the CPU 33 sends the graphic information GD to the control circuit 21 of the image generation device, and the reception is detected by the control circuit 21.
When the user operation information S4 is input in the next step ST2, the control circuit 21 converts the format of the graphic information GD together with the information S4 as necessary, and transfers the graphic information GD to the processing circuit 22.
[0025]
After this transfer, the processing after step ST3A and the processing after step ST3B are executed in parallel.
In step ST3B, the control circuit 21 detects whether the graphic information GD is further received. This reception detection is performed periodically, and is repeated until there is a new reception. If it is detected in step ST3B that graphic information GD is newly received, it is checked in next step ST4B whether or not the received graphic information GD is different from the previously received graphic information. If they are the same, the reception detection in step ST3B is further repeated, but if they are different, the transfer of the new graphic information GD to the processing circuit 22 is executed in the same manner as in step ST2 (step ST5B). Thereafter, the process proceeds to step ST3A.
[0026]
In step ST3A, processing of generating and transmitting an OSD image by the processing circuit 22 is performed under the control of the control circuit 21 based on the first or new graphic information GD.
Specifically, first, in step ST30 shown in FIG. 4, the control circuit 21 checks whether or not the graphic information GD includes an instruction to turn on the display of the OSD image. If the display-on instruction is not included, the generation of the OSD image is temporarily stopped, and the apparatus enters a standby state until new graphic information GD including the display-on instruction is received.
When the display ON command is included, the generation of the OSD image S2 is executed in the next step ST31, and the transmission of the generated OSD image S2 to the display device 3 is started in the subsequent step ST32.
[0027]
As a result, the signal processing circuit 31 of the display device combines the sent OSD image S2 with the source image S1 (step ST4A in FIG. 3), and displays the combined image S3 on the display unit 32 (FIG. 3). Step ST5A).
This OSD display is maintained as long as the signal processing circuit 31 receives the OSD image S2.
[0028]
During the transmission of the OSD image S2, new graphic information GD is received, and upon detecting this, the control circuit 21 determines in step ST33 shown in FIG. 4 that an instruction to turn off the display of the OSD image is included therein. , Transmission is stopped (step ST34). When the transmission is stopped, the OSD display is turned off, and the process returns to before step ST30 to shift to a standby state for new graphic information including an instruction to turn on the display of the OSD image.
On the other hand, if it is determined in step ST33 that the new graphic information GD does not include the display-off command, the process returns to step ST31, and the step of generating an OSD image based on the new graphic information GD is performed. You. This step ST33 is always monitored even when new graphic information GD is not received, and when no display-off command is included, that is, when the display is on, the transmission is maintained (step ST35).
[0029]
According to the present embodiment, all the graphic information GD relating to the ODS image S2 to be superimposed and displayed on the video source obtained from the video signal is held or generated in the display device 3. Therefore, when the display device 3 is connected to the image generation device 2, no matter what kind of display unit 32 (display device) the display device 3 has, the image generation device 2 transmits the received graphic. There is an advantage that a desired OSD image S2 can be generated based on the information GD. As a result, it is possible to provide a highly versatile image generation device 2 that can correspond to any type of display device 3 without having any graphic information GD, and the development cost can be reduced accordingly. Further, even when performing image synthesis on the display device side, the image generation device 2 can generate an OSD image S2 suitable for the type of the display unit 32 of the display device 3 from the beginning. Therefore, for the once generated OSD image S2, the resolution is further adjusted or the luminance is changed, and furthermore, the labor of switching the display and non-display of the OSD image is eliminated, and the redundant configuration of the device is omitted. It is possible to provide the devices 2 and 3 having a simple structure.
Further, when a request to turn off the display of the OSD image S2 is detected, the generation or transmission of the OSD image S2 is stopped, so that the display and non-display of the OSD with good responsiveness in real time can be controlled.
Further, since the control circuit 21 converts the graphic information GD into a coefficient or the like suitable for the algorithm of image synthesis and outputs the converted information to the processing circuit 22, the efficiency of image generation is high and the circuit configuration of the processing circuit 22 can be simplified. There are advantages.
[0030]
[Second embodiment]
FIG. 5 is a block diagram illustrating a configuration of the image generation and display device according to the second embodiment.
The image generation and display apparatus 1 shown in FIG. 5 includes a signal processing circuit 23 that performs various processes, such as gamma correction, pixel number conversion, and filtering, on a video source (first image) S1 obtained from a video signal. The difference from the image generation and display device according to the first embodiment (FIG. 1) is that the image generation device 2 is provided in the image generation device 2 that generates images. The video source S1 from the signal processing circuit 23 is output to the processing circuit 22 that generates an OSD image, where it is combined with the generated OSD image. Other basic configurations are common to the first embodiment.
[0031]
FIG. 2 showing an example of the contents of the graphic information GD and FIGS. 3 and 4 showing the procedure of image generation and display are also applied to the second embodiment.
However, the control when the OSD image display off command is received is partially different. Hereinafter, this point will be briefly described.
In accordance with the difference in the configuration, the processing circuit 22 shown in FIG. 5 generates an OSD image, combines the OSD image with the video source S1, and combines the combined image S3 in the display device 3 via the cable 4B. The data is transmitted to the display unit 32. During the generation, synthesis and transmission of the OSD image, when the control circuit 21 receives the OSD display OFF command as in step ST33 shown in FIG. 4, the control circuit 21 causes the processing circuit 22 to generate the OSD image. Alternatively, control is performed to stop the synthesis itself. Therefore, the processed video source S1 from the signal processing circuit 23 is sent to the display device 3 via the cable 4B instead of the synthesized image, and as a result, the OSD display is turned off.
[0032]
When the processing circuit 22 includes an OSD image generation unit and a synthesis unit (not shown), the former generation unit is regarded as an embodiment of the “processing circuit” of the present invention. The transmission of the OSD image to the unit may be stopped.
Further, the signal processing circuit 23 may be provided separately outside the image generating apparatus 2.
[0033]
According to the second embodiment, various benefits similar to those of the first embodiment can be obtained.
[0034]
【The invention's effect】
According to the image generation and display device according to the first aspect of the present invention and the image generation and display method according to the sixth aspect, the graphic information on the second image to be displayed by being superimposed on the first image obtained from the video signal. Are all held or generated in the display device. For this reason, when a display device is connected to the image generation device, the image generation device, based on the graphic information sent thereto, There is an advantage that an image can be generated. As a result, it is possible to provide a highly versatile image generating apparatus that can support all kinds of display devices without having any graphic information, thereby reducing development costs. Further, even when performing image synthesis on the display device side, the image generation device can generate a second image suitable for the type of display device of the display device from the beginning. Therefore, for the second image once generated, the resolution is further adjusted, the luminance is changed, or the process of switching between display and non-display of the second image is reduced. It is possible to provide an apparatus having a simple configuration.
According to the image generation / display apparatus and method according to the second and seventh aspects of the present invention, when a request to turn off the display of the second image is detected, the generation or transmission of the second image is stopped, so that a response is made in real time. It is possible to control the display and non-display of the second image having good characteristics.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an image generation and display device according to a first embodiment of the present invention.
FIG. 2 is a diagram schematically illustrating an example of a specific data structure of graphic information.
FIG. 3 is a flowchart of an entire process showing in detail a procedure of receiving and transferring an OSD image.
FIG. 4 is a flowchart showing in detail image transmission control in conjunction with an OSD image on / off command.
FIG. 5 is a block diagram illustrating a configuration of an image generation and display device according to a second embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Image generation and display apparatus, 2 ... Image generation apparatus, 3 ... Display apparatus, 21 ... Control circuit, 22 ... Processing circuit, 23, 31 ... Signal processing circuit, 32 ... Display part, 33, 34 ... Circuits to be generated, S1: first image (video source), S2: second image (OSD image), S3: image after synthesis, GD: graphic information

Claims (8)

An image generation and display device that generates a second image and combines and displays the second image with a first image obtained from an input video signal,
An image generation device that generates the second image;
And a display device for displaying the image after the synthesis,
The display device,
An image display section,
A circuit for holding or generating graphic information related to the second image specific to the type of display device of the display unit,
The image generation device,
A control circuit for receiving the graphic information from the holding or generating circuit of the display device;
A processing circuit that is controlled by the control circuit and performs the second image generation process by reflecting the graphic information;
An image generation and display device comprising: The control circuit monitors an image switching request of the display device, and stops generating or transmitting the second image when detecting a display-off request of the second image. Item 2. The image generation and display device according to Item 1. The control circuit converts and outputs the received graphic information to a format adapted to a data structure of image synthesis, and outputs the graphic information.
The image generation and display device according to claim 1, wherein the processing circuit generates the second image in a format suitable for a data structure of image composition. The display device combines the first image obtained from the input video signal with the second image sent from the image generation device, and displays the combined image on the display unit. The image generation and display device according to claim 1, wherein: 2. The image generation device according to claim 1, wherein the second image is combined with the first image obtained from the input video signal, and the combined image is output to the display device. 3. Image generation and display device. An image generation and display method for combining and displaying a generated second image with a first image obtained from an input video signal,
A first step of previously storing or generating graphic information related to the second image specific to the type of display device of the display device on a display device that displays the image after the combination,
When the graphic information is received from the display device, a process of executing the generation of the second image by reflecting the graphic information is performed by an image generation device provided separately from the display device. Steps and
An image generation and display method comprising: Causing the image generation device to monitor the image switching request of the display device and, when detecting the display-off request of the second image, stopping the generation or transmission of the second image by the image generation device. 7. The image generation and display method according to claim 6, further comprising: The process of converting the received graphic information into a format adapted to a data structure of image synthesis further includes a step of executing in the image generation device,
7. The image generation and display method according to claim 6, wherein in the second step, the second image in the format is generated.

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