JP2004096451A - Image data generating device, image display device, image data generating program, image display program, image data generating method, and image display method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To generate additional image data to which attached information to control display modes of a screen is added. <P>SOLUTION: The additional image data GD2' has a TAG1-a TAG3 as the attached information and a data area. The original image data GD is recorded in the data area. The TAG1 shows a data format. The TAG2 shows an image display size of the original image data GD. The TAG3 designates display modes in default. Concretely, the TAG3 designates partial display, and further, designates coordinates (80,100) of a display position. By this, the partial display reflecting the intention of a preparer of the additional image data GD2' can be realized. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a technique for generating additional image data to which additional information specifying a display mode is added, and a technique for displaying an image based on the additional image data.
[0002]
[Prior art]
With the development of information technology in recent years, a user can browse image contents using a terminal device such as a personal computer or a mobile phone having a communication function. Here, the image content is a web page or photo data on the Internet. The image content is usually obtained from a website operated by a predetermined service provider, another user, or the like, and can be viewed on a terminal device.
[0003]
However, the display capability such as the image display size differs greatly depending on the terminal device. For this reason, in the case of image content with a high resolution, there is a problem that the content can be browsed by a terminal device having a high display capability, but cannot be browsed by a terminal device having a low display capability.
[0004]
For example, when the image display size of the terminal device is 320 (vertical) × 240 (horizontal) pixels and image data of 640 (vertical) × 480 (horizontal) pixels is displayed, two methods are conceivable. The first method is a method of reducing an image of 640 × 480 pixels, converting the image to an image of 320 × 240 pixels, and displaying the image. The second method is a method of displaying a part of an image of 640 × 480 pixels on a screen and sequentially displaying the entire image using a scroll function or the like.
[0005]
[Problems to be solved by the invention]
However, depending on the image to be displayed, it is preferable to display the image by the first method or to display the image by the second method. For example, when displaying a person or the like, it is desirable to display the entire image using the first method. However, when displaying a large map or the like, it is possible to determine the image by displaying the entire image in a reduced size. There was a problem that it might disappear.
[0006]
The present invention has been made in view of the above points, and has an image data generating apparatus, an additional image data generating program, and an image data generating method for generating additional image data capable of displaying an image in an appropriate mode. It is an object to provide a method, an image display device, an image display program, and an image display method.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems, an image data generating device according to the present invention generates input means for outputting an output signal according to an input operation, and generates auxiliary information specifying a display mode of a screen based on the output signal. And additional image data generating means for generating the additional image data by adding the additional information to the original image data representing the original image.
[0008]
According to the present invention, the display mode of the screen is designated according to the input operation of the person, so that when displaying the image, it is possible to reflect the intention of the creator of the additional image data.
[0009]
Further, another image data generating apparatus according to the present invention includes a detecting unit for detecting characteristics of original image data representing an original image, and ancillary information specifying a display mode of a screen based on a detection result of the detecting unit. An additional information generating means for generating the additional image data by adding the additional information to the original image data.
[0010]
According to the present invention, an appropriate display mode can be automatically specified according to the characteristics of the original image data. The characteristics of the original image data correspond to the type of the source of the original image, such as whether the original image is a natural image such as a photograph or a population image such as a computer graphic.
[0011]
Here, from the viewpoint of performing appropriate display on the image display device, the additional information may include display information for specifying whether to display the original image in full screen or to partially display the original image. preferable. For example, when the image display size of the image display device is smaller than the image display size of the original image and the content of the original image is a map or the like, it may be desirable to perform partial display rather than reducing and displaying the entire screen. Because there is.
[0012]
When the display information designates partial display of the original image, the additional information preferably includes position information for designating a position of partial display with respect to the entire original image. In this case, it is possible to specify the position of the partial display in advance, so that more appropriate display is possible. The position information may be coordinates on the original image, or may be information for specifying a relative position such as upper left, center, or lower right.
[0013]
Also, when the display information specifies that the original image is to be partially displayed, the attached information specifies that the converted image is generated by reducing and enlarging the original image, and that the partial display is performed based on the converted image. It is preferable to include information specifying the size of the converted image. In this case, the reduction and enlargement of the original image and the partial display can be specified in combination, so that more appropriate display can be performed on the image display device. Further, since the additional image data includes the original image data, the image display device can display a high-resolution image using the original image data.
[0014]
Next, an image display device according to the present invention displays an image based on additional image data in which additional information specifying a display mode of a screen has been added to original image data, and based on the additional information. A data generating means for generating display image data to be used for display from the original image data; and an image display means for displaying an image based on the display image data. According to the present invention, since the display image data is generated according to the attached information, it is possible to display an image according to the intention of the creator of the additional image data.
[0015]
Here, the additional information includes display information for specifying whether to display a full screen or a partial display, and when the display information indicates a full screen, the data generation unit displays an image of the image display unit. Preferably, an enlargement / reduction ratio is determined based on a display size and an image display size of the original image data, and the display image data is generated by performing a conversion process on the original image data in accordance with the determined enlargement / reduction ratio. In this case, since the display image data is generated through a conversion process according to the ratio of the image display size, even if the image display size of the original image is different from the image display size of the image display means, the display information is displayed. The full screen display can be performed according to the specification of.
[0016]
In addition, the additional information includes display information that specifies whether to perform full screen display or partial display, and when the display information indicates partial display, based on the original image data, Preferably, the display image data is generated according to an image display size of the image display means. In this case, when the display information specifies partial display, partial display can be performed.
[0017]
Further, the above-described image display device includes an input unit that outputs an output signal according to an input operation, and the data generation unit generates the display image data from the image data based on the attached information in an initial state. After that, it is preferable that the display data is generated by performing a conversion process on the image data based on an output signal of the input means. In this case, the intention of the creator of the additional image data can be reflected in the default display, and thereafter, the image can be freely displayed by the user of the image display device. Here, the conversion process includes not only scrolling of the image but also scaling of the image.
[0018]
The image display device described above further includes a determination unit that determines whether to validate the additional information according to a predetermined rule, and the data generation unit validates the additional information by the determination unit. Then, if it is determined, while the display image data is generated from the original image data based on the additional information, if it is determined that the additional information is invalidated by the determination unit, the display image data is generated based on the original image data. Preferably, display image data is generated. According to the present invention, it is possible to display an image with the attached information invalidated.
[0019]
Here, the determining unit determines that the additional information is valid when the ratio between the image display size of the image display unit and the image display size of the original image data is equal to or less than a predetermined reference ratio. When the ratio exceeds the reference ratio, it is preferable to determine that the attached information is invalidated. In this case, when the reduction ratio is extremely large, it becomes possible to invalidate the specification of the full screen display and automatically select the partial display.
[0020]
Next, the image data generation program according to the present invention includes the steps of: generating, in a computer, additional information for designating a display mode of a screen according to an input operation; and adding the additional information to original image data representing an original image. And generating the additional image data. According to the present invention, the display mode of the screen is designated according to the input operation of the person, so that when displaying the image, it is possible to reflect the intention of the creator of the additional image data.
[0021]
Further, another image data generating program according to the present invention includes the steps of: causing a computer to detect a characteristic of image data representing an original image; and generating, based on the detection result, ancillary information specifying a display mode of a screen. And adding the additional information to the original image data to generate additional image data. According to the present invention, an appropriate display mode can be automatically specified according to the characteristics of the original image data.
[0022]
Next, an image display program according to the present invention causes a computer to display an image based on additional image data in which additional information specifying a display mode of a screen has been added to the original image data. And generating display image data to be used for display based on the original image data, and displaying an image based on the display image data. According to the present invention, since the display image data is generated according to the attached information, it is possible to display an image according to the intention of the creator of the additional image data.
[0023]
Next, the image data generating method according to the present invention generates additional information that specifies a display mode of a screen according to an input operation, and adds the additional information to original image data representing an original image to generate additional image data. Generating.
[0024]
Further, another image data generation method according to the present invention detects characteristics of image data representing an original image, generates auxiliary information specifying a display mode of a screen based on a detection result, and generates the additional information in the original image data. The additional information is added to generate additional image data.
[0025]
Next, an image display method according to the present invention is an image display method for displaying an image based on additional image data in which additional information specifying a display mode of a screen has been added to the original image data. And generating display image data to be used for display from the original image data based on the original image data, and displaying an image based on the display image data.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.
<1. Image Data Generation Device>
FIG. 1 shows a block diagram of an image data generation device 10 according to one embodiment of the present invention. The image data generating device 10 is configured by a computer system, and includes a ROM 2, a RAM 3, a hard disk 4, a data recording / reproducing device 5, a display device 6, an input device 7, and a communication interface 8, and these devices and a bus. And a CPU 1 connected thereto. The CPU 1 functions as a control center of the image data generation device 10.
[0027]
The ROM 2 stores a boot program and the like. The RAM 3 functions as a work area for the CPU 1, loads various programs stored in the hard disk 4, and stores data being executed. Further, an additional image data generation program is stored in the hard disk 4, and is read as needed. The additional image data generation program has a function of adding, to the image data, additional information specifying a display mode of the screen. In the following description, the image data before the additional information is added is referred to as original image data GD, and the image data obtained by adding the additional information to the original image data GD is referred to as additional image data GD '.
[0028]
Further, the data recording / reproducing device 5 is a device for reading the original image data GD from the information recording medium or writing the additional image data GD ′ subjected to a predetermined process to the information recording medium.
[0029]
The display device 6 includes a liquid crystal display or the like, and displays an image. The input device 7 includes a keyboard and a mouse having scroll keys, and outputs a signal according to a user's input operation. The communication interface 8 has a function of performing data communication via a communication network, and corresponds to a modem or the like.
[0030]
With the above configuration, the user can acquire the original image data GD from an information recording medium, the Internet, or the like. The data format of the original image data GD includes JPEG, GIF, BMP, and the like. The additional information added by the additional image data generation program is called TAG. The TAG in the present embodiment includes TAG1 to TAG3. TAG1 indicates the data format, and TAG2 indicates the image display size of the original image data GD. TAG1 and TAG2 are attribute information indicating attributes of the original image data GD. TAG3 is information for specifying the display mode of the screen. The display mode of the screen is roughly classified into a full screen display and a partial display. The full-screen display means a display in which the original image data GD is subjected to a reduction / enlargement process to match the image display size of the display device. Therefore, for example, if the original image data GD is 640 (vertical) × 480 (horizontal) pixels and the image display size of the display device is 320 (vertical) × 240 (horizontal), the original image data GD is set to 2 The image is displayed on the display device after performing the reduction process of / 3 times. On the other hand, in the partial display, a partial image of 320 × 240 pixels, which is a part of the original image of 640 × 480 pixels, is displayed on the display device.
[0031]
Next, a processing operation by the additional image data generation program will be described. FIG. 2 is a flowchart illustrating the operation of the CPU 1 when the additional image data generation program is executed.
[0032]
When the additional image data generation program is started, the program is loaded from the hard disk 4 to the RAM 3, and the CPU 1 displays a selection screen on the display device 1 according to the program (step S1). Specifically, the CPU 1 reads out the image data for the selection screen loaded on the RAM 3 and supplies the read image data to the display device 2. FIG. 3 shows an example of the selection screen. On the selection screen, a display box 101 for displaying a file name of the original image data GD stored in a predetermined directory is arranged. The file name displayed in the display box 101 can be scrolled by operating the scroll button 102 by the user.
[0033]
A preview area 103 is arranged on the right side of the scroll button 102. When the user clicks on the file name of the original image data GD displayed in the display box 101, the CPU 1 detects this and reproduces the specified original image data GD and displays it in the preview area 103. The user can check the image of the original image data GD.
[0034]
Below the preview area 103, a check box 104 for designating manual processing and a check box 105 for designating automatic processing are arranged. In the manual processing, the user inputs the additional information, while in the automatic processing, the additional information is automatically generated by the image data generation program. These processes are alternatives. When a check is put in one check box and a check is put in the other check box, the check in one check box disappears.
[0035]
A confirmation button 106 is provided below the display box 101. When the user operates the mouse or the like and clicks the confirmation button 106, selection of the original image data GD to be processed and selection of manual processing or automatic processing are determined.
[0036]
The description returns to FIG. The CPU 1 determines whether or not the input has been confirmed by monitoring the pressing of the confirmation button 106 (step S2). When the input is confirmed, the CPU 1 determines whether or not the manual processing has been selected (step S3). If the manual processing has been selected, the TAG addition screen is displayed on the display device 2 (step S4). At this time, the CPU 1 reads out the image data for the TAG addition screen loaded in the RAM 3 and supplies the read image data to the display device 2. FIG. 4 shows an example of the TAG addition screen. The TAG addition screen includes a display column 110, on which the image display size of the selected original image data GD is displayed. The CPU 1 checks the original image data GD, acquires the image display size, and displays the image display size in the display column 110.
[0037]
Below the display column 110, a check box 111 for specifying full screen display and a check box 112 for specifying partial display are arranged. These processes are alternatives. When a check is put in one check box and a check is put in the other check box, the check in one check box disappears. Input boxes 113 and 114 for inputting the image display size of the partial display are arranged below the check box 112 for designating the partial display. The user can operate the keyboard to input numerical values into the input fields 113 and 114. Further, an increase / decrease button is arranged on the left side of the input columns 113 and 114, and the numerical values of the input columns 113 and 114 are increased / decreased by pressing the increase / decrease button.
[0038]
When a check is put in the check box 112, a display frame 115 of an image display size corresponding to the partial display is displayed in the preview area 103. At this time, the CPU 1 reads the numerical values input to the input fields 113 and 114 and displays a display frame 115 having a size corresponding to the read numerical values. The image displayed in the display frame 115 is the partial display image. In addition, since the size of the display frame 115 can be changed as described above, the user can confirm an image displayed on the display device when partially displaying the display device with a small display area. . For example, when generating image content for a mobile phone, by inputting the image display size of the mobile phone in the input fields 113 and 114, it is possible to check the partial image displayed on the actual mobile phone. .
[0039]
Further, the user can move the display frame 115 up, down, left, and right by operating the scroll buttons of the input device 7. The movement is performed in pixel units of the original image data GD. Then, the CPU 1 acquires the coordinates of the pixel located at the upper left corner of the display frame 115. The coordinates are specified in pixel units of the original image. For example, when the original image data GD is 640 (vertical) × 480 (horizontal) pixels, the coordinate value for specifying the vertical position can be 1 to 640, and the coordinate value for specifying the horizontal position can be 1 to 480. These coordinates become part of TAG3 as position information for specifying default display when reproducing the generated additional image data. This allows the creator of the additional image data GD 'to specify which part of the original image is to be displayed first when partially displaying the original image data GD.
[0040]
In addition, an option button 116 is arranged below the input field 113. When the option button 116 is pressed, the input fields 117 and 118 for the converted image display size become valid. The converted image display size does not correspond to the pixels of the original image and the pixels of the display image in a one-to-one manner. Instead, the image display device performs a conversion process of enlarging or reducing the original image to generate a converted image. Is used to specify the image display size of the converted image when partial display is performed. For example, when the image display size of the original image is 640 × 480 pixels and the assumed image display size of the image display device is 160 × 120 pixels, 480 × 360 may be designated as the image display size of the converted image. Applicable. In this case, the image display device performs a reduction process on the original image data GD to generate a converted image of 480 × 360 pixels, and partially displays the partial image of 160 × 120 pixels extracted from the converted image. In this case, the converted image display size functions as information for designating that a converted image is generated by reducing and enlarging the original image and performing partial display based on the converted image, and for specifying the size of the converted image.
[0041]
The description returns to FIG. The CPU 1 determines whether or not the input of the TAG designation has been confirmed by monitoring the pressing of the confirmation button 106 on the TAG addition screen (step S5). When the input is determined, the CPU 1 determines whether or not the partial display is specified (step S6), and generates the position information when the partial display is specified (step S7). At this time, if an option is specified, the converted image display size is acquired at the same time.
[0042]
Thereafter, the CPU 1 generates a TAG based on the acquired information (Step S8). When the full screen display is designated, the process of step S7 is omitted, and the TAG is immediately generated.
[0043]
Next, a case where the determination result of step S3 is "NO", that is, a case where automatic processing is selected on the selection screen shown in FIG. 3 will be described. In this case, the CPU 1 advances the process to step S9, and executes an automatic TAG generation process.
[0044]
In the automatic TAG generation processing, auxiliary information for designating partial display or full screen display is generated based on the type and characteristics of the original image data GD. In general, natural images such as photographs of people and landscapes can be understood even when the original image is reduced and displayed on the full screen, but artificial images generated by computer graphics such as maps may have different contents depending on the degree of reduction. Can not understand. Further, in general, a natural image has a characteristic that the gradation change is gradual, while an artificial image has a characteristic that the gradation change is abrupt. Therefore, in the automatic generation process, the degree of gradation change of the original image is detected, and it is determined whether to specify full-screen display or partial display based on the detection result.
[0045]
Specifically, first, the CPU 1 calculates a gradation difference value between adjacent pixels of the original image. Second, the CPU 1 compares each gradation difference value with a first reference value, and counts the number of difference values exceeding the first reference value. As a result, the number of pixels between which the gradation greatly changes is counted. Third, the CPU 1 generates additional information that specifies partial display when the count value is equal to or greater than the second reference value and specifies full screen display when the count value is less than the second reference value.
[0046]
Thereafter, the CPU 1 adds the generated TAG to the original image data GD to generate additional image data. FIG. 5 shows an example of the data structure of the additional image data. Each of the additional image data GD1 'and GD2' shown in FIGS. 5A and 5B has TAG1 to TAG3 as additional information and a data area, and the original image data GD is recorded in the data area. TAG1 indicates a data format, TAG2 indicates an image display size of the original image data GD, and TAG3 specifies a default display mode.
[0047]
TAG3 of the additional image data GD1 'in this example specifies full screen display, and the original image data GD is, for example, photograph data of a person. TAG3 of the additional image data GD2 'designates partial display, and further designates coordinates (15, 100) of a display position. This specifies the position of the partial display so that the coordinates (15, 100) of the original image data GD are at the upper left corner.
[0048]
<2. Image Display>
Next, a mobile phone will be described as an example of the image display device of the present invention. FIG. 6 is a perspective view illustrating an appearance of the mobile phone 20. The mobile phone 20 includes a monitor 28 including a liquid crystal panel or an organic EL panel. Four scroll buttons 241 to 244 are arranged below the monitor 28. When each of the scroll buttons 241 to 244 is pressed, the image partially displayed on the monitor 28 is scrolled up, down, left, and right. When the scroll buttons 241 and 242 are simultaneously pressed, the image is enlarged. On the other hand, when the scroll buttons 243 and 244 are simultaneously pressed, the image is reduced. Further, below the scroll buttons 241 to 244, a button group 245 used for inputting a telephone number and a message is arranged.
[0049]
FIG. 7 is a block diagram illustrating an electrical configuration of the mobile phone 20. The mobile phone 20 can access various servers via the Internet to browse image contents or browse images received from other mobile phones. The image content is a web page, photograph data, or the like. This image content includes the additional image data GD ′ described above.
[0050]
The mobile phone 20 includes a CPU 21 mainly constituted by a microprocessor, a ROM 22 and a RAM 23 as a main storage device for the CPU 21, a graphics processing unit (GPU) 27 and a sound processing unit (SPU) 29 for image processing and audio processing, A key input unit 24 for input processing and a transmission / reception processing unit 25 for data transmission / reception processing are connected to each unit via a bus.
[0051]
The ROM 22 stores an operating system as a program necessary for controlling the overall operation of the mobile phone 20. The RAM 23 functions as a work memory, and data of a downloaded application or the like is written as needed.
[0052]
The GPU 27 displays a destination telephone number or an e-mail address on the monitor 28 of a predetermined size composed of a liquid crystal or the like in accordance with an input operation, displays a necessary function as a guide, or creates a display. It controls the display of the contents of the inside or the received mail. The GPU 27 includes a VRAM having a storage area corresponding to the image display size of the monitor 28. The GPU 27 receives display image data from the CPU 21 and writes the display image data into the VRAM, while reading display image data from the VRAM and displaying the display image data on the monitor 28. . The SPU 9 reproduces musical sound data, sound source data, and the like, such as music upon arrival and game sound effects, and causes the speaker 30 to emit sound.
[0053]
The key input unit 24 includes the scroll buttons 241 to 244 and a button group 245 described above. The transmission / reception processing unit 25 controls transmission / reception line transmission and voice data transmission / reception from an ordinary wireless public line, and data transmission / reception in various applications downloaded from a server or electronic mail used via the Internet or the like. Is transmitted and received via the antenna 26.
[0054]
Next, the display of the additional image data GD 'will be described. In the mobile phone 20 of this example, when the image content is the additional image data GD ′, the image display module included in the control program is activated. FIG. 8 is a flowchart showing the operation of the CPU 21 executing the image display module.
[0055]
First, the CPU 21 separates the TAG from the additional image data GD ′ to be processed and acquires the additional information (step S11). Next, the CPU 21 determines whether or not the attached information specifies partial display (step S12). Specifically, the CPU 21 determines whether the TAG 3 specifies partial display or full screen display.
[0056]
If partial display is specified, the CPU 21 executes partial display based on the position information specified by TAG3 (step S13). For example, the additional image data GD ′ to be processed is the additional image data GD2 ′ shown in FIG. 5B, the original image is 1A shown in FIG. 9, and the image display size of the monitor 28 is 320 × 240. Let it be a pixel. In this case, the CPU 21 expands the original image data GD compressed in the GIF format, and stores the image data in the RAM 23. This image data is in a bitmap format, and is composed of dot data indicating gradation for each pixel of 640 × 480.
[0057]
Here, since the position information specified by TAG3 is (80, 100), the portion surrounded by the thick frame in the original image 1A is displayed on the monitor 28 as the display image 1B. At this time, the CPU 21 supplies dot data corresponding to the portion surrounded by the thick frame to the GPU 27 as display image data.
[0058]
As a result, even if the image display size of the monitor 28 is smaller than the image display size of the original image, it is not forcibly reduced, so that the user of the mobile phone 20 understands the contents of the map by looking at the screen of the monitor 28. can do. Further, since which part is to be displayed by default is specified by the position information, the intention of the creator of the additional image data GD ′ can be reflected on the display image on the receiving side. For example, when the creator of the additional image data GD 'sends a map designating the meeting place, if the position information is generated so that the meeting place is located at the center of the partial image, the receiver can see the meeting place in the default display. Can be confirmed.
[0059]
When the converted image display size is designated by TAG3, the converted image is generated according to the converted image display size. For example, if the image display size of the original image is 640 × 480 pixels and the converted image display size is 480 × 360 pixels, the CPU 21 develops the converted image reduced to 2/3 times on the RAM 23 in a bitmap format. Using the converted image as the original image, partial display is performed on the monitor 28 of 320 × 240 pixels. This makes it possible to display an easy-to-view image by combining appropriate reduction and partial display. Moreover, since the original image data GD included in the additional image data GD ′ is not reduced, the original image data GD can be used when displaying a high-definition image.
[0060]
On the other hand, if the result of the determination in step S12 shown in FIG. 8 is “NO”, that is, if full-screen display has been designated by TAG3, the CPU 21 advances the process to step S14, where the image display size of the monitor 28 is The ratio of the original image data GD written in TAG2 to the image display size is calculated (step S14).
[0061]
Next, the CPU 21 determines whether or not the ratio of the image display size is equal to or less than the reference ratio (Step S15). The reference ratio is predetermined in consideration of the time required for the reduction processing in the full screen processing and the point that the image content cannot be determined depending on the degree of reduction. Then, when the ratio of the image display sizes is equal to or smaller than the reference ratio, the CPU 21 executes a full screen display process (step S15). In the full-screen display process, first, the CPU 21 performs a scaling process on the original image data GD based on the ratio calculated in step S14 to generate display image data. Second, when the CPU 21 supplies display image data to the GPU 27, the GPU 27 displays an image on the monitor 27.
[0062]
On the other hand, if the ratio of the image display size exceeds the reference ratio, the full-screen display specified by the accessory information is invalidated, and the process proceeds to step S13 described above to execute partial display. However, since the position information is not specified, a predetermined position is partially displayed. For example, the center of the screen.
[0063]
The judgment of validity / invalidity of the auxiliary information based on the reference ratio is because the time required for the reduction process is long and the user has to wait for a long time, or the image content can be determined if the reduction ratio is too small. Because it is gone. Therefore, the reference ratio is set to, for example, 1/5.
[0064]
After the default display based on the additional image data GD 'is performed in this way, an image display process based on a user operation is performed (step S17). For example, when the user presses the scroll button 242, the CPU 21 detects this and generates display image data so as to scroll the display image to the left. In this case, the CPU 21 changes the read area of the dot data stored in the RAM 23 according to the time during which the scroll button 242 is pressed.
[0065]
When the scroll buttons 241 and 242 are simultaneously pressed, the CPU 21 changes the enlargement ratio according to the pressed time, and generates display image data obtained by executing the enlargement processing. Specifically, an interpolation process between pixels is executed according to the enlargement ratio. For example, when the enlargement ratio is twice, the average value of the dot data of the adjacent pixels is calculated, and the dot data of the pixel to be inserted between a certain pixel and the next pixel is generated.
[0066]
As described above, after the default display, the display image can be changed, so that the image reflecting the intention of the additional image data GD 'is first displayed, and thereafter, the image is freely displayed by the receiver. It can be displayed.
[0067]
<3. Modification>
The present invention is not limited to the above-described embodiment, and for example, it goes without saying that the following modifications are possible.
(1) In the above-described embodiment, when the partial display is specified in the TAG 3, the position information of the partial image is specified by the coordinates. However, the present invention is not limited to this, and the position of the partial image can be specified. Any information may be used as long as the information specifies the relative positional relationship between the full-screen image and the partial image, such as the upper left, the center, or the lower right.
[0068]
(2) When specifying the converted image display size in TAG3, the position information may be position information based on the image display size of the converted image, or may be position information based on the image display size of the original image. May be.
[0069]
(3) Further, the TAG 3 may be one that specifies only partial display and does not specify position information. In this case, the image display device may determine which part to display according to a predetermined rule.
[0070]
(4) When the ratio of the image display size exceeds the reference ratio, the above-described image display device performs the partial display even when the full-screen display is designated, but at this time, the image is reduced at a predetermined reduction ratio. A converted image may be generated, and the converted image may be partially displayed as an original image. Further, when the full screen display is designated, the determination based on the ratio (Step S15 in FIG. 8) may be omitted, and the full screen display may be executed without fail.
[0071]
【The invention's effect】
As described above, according to the present invention, it is possible to generate additional image data in which additional information specifying the display mode is added to the original image data, so that the original image data can be appropriately displayed. . Furthermore, in the image display device, after displaying according to the attached information by default, the user can freely change the display mode. Further, when the image display size is significantly different, the attached information can be invalidated, so that the image display device can perform an appropriate display according to the display capability.
[Brief description of the drawings]
FIG. 1 is a block diagram of an image data generation device 10 according to an embodiment of the present invention.
FIG. 2 is a flowchart illustrating an operation of a CPU 1 when an additional image data generation program is executed.
FIG. 3 is an explanatory diagram showing an example of a selection screen.
FIG. 4 is an explanatory diagram illustrating an example of a TAG addition screen.
FIG. 5 is an explanatory diagram illustrating an example of a data structure of additional image data.
FIG. 6 is a perspective view showing the appearance of a mobile phone 20 which is an embodiment of the image display device of the present invention.
FIG. 7 is a block diagram showing an electrical configuration of the mobile phone 20.
FIG. 8 is a flowchart illustrating an operation in which the CPU 21 executes an image display module.
FIG. 9 is an explanatory diagram showing a relationship between an original image and a partial image in partial display.
[Explanation of symbols]
1,21 CPU
3,23 RAM
7 Input device
10 Image data generation device
20 mobile phones
24 key input section
27 GPU
28 monitors

Claims (17)

Input means for outputting an output signal according to the input operation;
Based on the output signal, additional information generating means for generating additional information specifying the display mode of the screen,
An image data generating apparatus comprising: image data generating means for generating additional image data by adding the additional information to original image data representing an original image. Detecting means for detecting characteristics of original image data representing the original image;
Based on the detection result of the detection unit, an additional information generation unit that generates additional information that specifies a display mode of a screen,
An image data generation device comprising: image data generation means for generating additional image data by adding the additional information to the original image data. The image data generation device according to claim 1, wherein the additional information includes display information for specifying whether to display the original image on a full screen or to partially display the original image. The image according to claim 3, wherein, when the display information specifies that the original image is to be partially displayed, the additional information includes position information that specifies a position of the partial display with respect to the entire original image. Data generator. When the display information specifies that the original image is to be partially displayed, the attached information specifies that the converted image is generated by reducing and enlarging the original image, and that the partial display is performed based on the converted image, and the conversion is performed. 4. The image data generating apparatus according to claim 3, further comprising information for specifying an image size. An image display device that displays an image based on additional image data to which additional information specifying a display mode of a screen is added to original image data,
Data generation means for generating display image data used for display from the original image data based on the attached information,
An image display device for displaying an image based on the display image data. The additional information includes display information that specifies whether to display a full screen or a partial display,
When the display information indicates full-screen display, the data generation unit determines a scaling ratio based on an image display size of the image display unit and an image display size of the original image data, and determines the determined scaling. The image display device according to claim 6, wherein the display image data is generated by performing a conversion process on the original image data according to a ratio. The additional information includes display information that specifies whether to display a full screen or a partial display,
7. The data generating unit according to claim 6, wherein when the display information indicates partial display, the display image data according to an image display size of the image display unit is generated based on the original image data. An image display device according to claim 1. Comprising input means for outputting an output signal according to the input operation,
The data generating unit generates the display image data from the image data based on the attached information in an initial state, and then performs a conversion process on the image data based on an output signal of the input unit to generate the display image data. The image display device according to claim 6, wherein the image display device generates data. According to a predetermined rule, comprising a determination means for determining whether to validate the additional information,
The data generation unit, when it is determined by the determination unit to validate the additional information, while generating the display image data from the original image data based on the additional information, the additional information by the determination unit The image display device according to any one of claims 6 to 9, wherein when it is determined that the display image data is to be invalidated, the display image data is generated based on the original image data. The determining means determines that the additional information is valid when the ratio between the image display size of the image display means and the image display size of the original image data is equal to or less than a predetermined reference ratio. The image display device according to claim 10, wherein it is determined that the additional information is invalidated when the value exceeds the reference ratio. On the computer,
Generating ancillary information specifying the display mode of the screen according to the input operation;
Generating the additional image data by adding the additional information to the original image data representing the original image. On the computer,
Detecting a characteristic of image data representing the original image;
Generating ancillary information specifying the display mode of the screen based on the detection result;
Generating the additional image data by adding the additional information to the original image data. An image display program that causes a computer to display an image based on additional image data to which additional information specifying a display mode of a screen is added to original image data,
Based on the attached information, generating display image data used for display from the original image data,
Displaying an image based on the display image data. Generates auxiliary information that specifies the display mode of the screen according to the input operation,
Generating additional image data by adding the additional information to the original image data representing the original image,
A method for generating image data, comprising: Detect the characteristics of the image data representing the original image,
Based on the detection result, generate additional information specifying the display mode of the screen,
Generating additional image data by adding the additional information to the original image data,
A method for generating image data, comprising: An image display method for displaying an image based on additional image data to which additional information specifying a display mode of a screen is added to original image data,
Based on the attached information, generate display image data used for display from the original image data,
Displaying an image based on the display image data,
An image display method comprising:

Images