JP2004080549A - Method and device for image display, image printer, computer program, and recording medium - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image display method of displaying respective pieces of image data while making them correspond to each other so that differences between photographed image data obtained by photography and corrected image data generated from the photographed image data due to correction processing are easily recognized, an image display device to which the image display method is applied, an image printer which makes it easy to select desire image data by using the image display device and prints the selected image data, a computer program for making a computer operate as the image display device, and a recording medium where the computer program is recorded. <P>SOLUTION: Pieces 41 and 42 of 1st corrected image data generated based upon color information that a user selects are displayed above and below the photographed image data 40 while corresponding to an increase and a decrease of the color information, and 2nd image data 43, 44, 45, 46, 47, and 48 generated based upon lightness information are displayed at left and right positions of respective pieces of image data before correction processing while corresponding to an increase and a decrease of the lightness information. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an image display method for correcting captured image data based on a correction parameter received to correct captured captured image data, and displaying the generated corrected image data and an image indicated by the captured image data, respectively. The present invention relates to an image display device to which the image display method is applied, an image printing device, a computer program for operating a computer as the image display device, and a recording medium for recording the computer program.
[0002]
[Prior art]
There is known an image printing apparatus (for example, Print Club (registered trademark)) which captures an image of a user, synthesizes the image with a background image prepared in advance, and prints the image on a sticker sheet or the like. In, there is a device that corrects the brightness of photographed image data obtained by photographing based on a designation from a user, and prints an image adjusted to the brightness desired by the user.
However, an image has not only brightness but also various elements such as brilliancy, color and contrast, and it is difficult to generate a user's favorite image only by correction based on brightness.
[0003]
Further, in the above-described image printing apparatus, the subject is often a person, and the user who is the subject often desires particularly adjustment of his / her own complexion. Regarding this complexion, brightness (brightness) and chroma It is said that a balance is needed.
Therefore, there is an image printing apparatus capable of adjusting the balance of each element included in an image. In such an image printing apparatus, by increasing the types of images that can be selected by the user, the image printing apparatus can be more adapted to the user's preference. Images can be printed.
[0004]
On the other hand, in such an apparatus, a printed image has a color tone that meets the expectations of the user, and even if the user has little knowledge of color and experience of color adjustment, an image having a desired color tone can be easily obtained. You must be able to choose.
In Japanese Patent Application Laid-Open No. 8-251393, a plurality of types of corrected image data obtained by correcting captured image data by using a plurality of types of color adjustment values based on a specified correction method are provided. Combine them in a layout and print them once on a recording sheet. Further, there has been proposed an image processing apparatus in which the user can select an image that meets the user's expectations by selecting a desired corrected image from the plurality of corrected images printed on the recording sheet.
[0005]
When this image processing apparatus is used, the correction image data obtained by performing the correction processing on the photographed image data is printed on a recording sheet, and a correction image desired by the user is extracted from each correction image printed on the recording sheet. By making the selection, an image closer to the image finally obtained by the user can be selected.
[0006]
[Problems to be solved by the invention]
However, it is necessary to print each corrected image data on a recording sheet once, and a recording sheet for printing each corrected image data to select an image is wasted, and a print club or the like installed in a playground or the like is used. In the amusement device of the above, in order to reduce the user's waiting time and improve the user's utilization rate, there is a case where a certain limit is imposed on the operation time of each user. Is difficult to apply to image printing apparatuses such as print clubs.
[0007]
The present invention has been made in view of the above circumstances, and generates first correction image data and second correction image data based on a first correction parameter and a second correction parameter received from a user or the like. By displaying the photographed image data and the first corrected image data and the second corrected image data respectively generated, the user can easily compare the photographed image data before the correction processing and each corrected image data after the correction processing. An image display method capable of comparing and reducing a load in a process of selecting desired image data, an image display device to which the image display method is applied, an image printing device using the image display device, and a computer using the image display device It is an object to provide a computer program for operating as a computer and a recording medium on which the computer program is recorded.
[0008]
Another object of the present invention is to increase or decrease the first correction value by a predetermined number of times from the value of the first correction parameter included in the captured image data so as to generate the first corrected image data. In order to generate data, the second correction value is increased or decreased by a predetermined number of times from the value of the second correction parameter included in the captured image data and the first correction image data, and is displayed for selection by the user. It is an object of the present invention to provide an image display device that generates only corrected image data to reduce the burden of the correction process.
[0009]
Still another object of the present invention is to receive a first correction value in a correction process based on a first correction parameter and a second correction value in a correction process based on a second correction parameter from a user or the like, and include the received correction value in captured image data. The received first correction value is increased or decreased from the value of the first correction parameter to generate first correction image data, and the first correction image data is generated from the value of the second correction parameter included in the captured image data and the first correction image data. By generating the second correction image data by increasing or decreasing the received second correction value, it becomes possible to adjust the correction value to be increased or decreased for each correction parameter, and to generate image data corresponding to the user's preference. It is to provide a display device.
[0010]
Still another object of the present invention is to provide an image represented by the generated first corrected image data, an image represented by the second corrected image data at an upper and lower position of the image represented by the photographed image data, and the photographed image data and the first corrected image. By displaying the left and right positions of the image indicated by the image data in accordance with the increase and decrease of the first correction value in the first correction parameter and the increase and decrease of the second correction value in the second correction parameter, respectively, the user is provided with the user himself / herself. It is an object of the present invention to provide an image display device capable of easily recognizing a change in image data due to a desired correction process and easily selecting image data suitable for one's own preference.
[0011]
Still another object of the present invention is to display a symbol representing an increase or decrease in the first correction value for the first correction parameter at an upper or lower position and to indicate the increase or decrease of the first correction value in an up or down direction. Is displayed at the left and right positions to indicate the increase and decrease of the second correction value in the left and right directions, so that the user can perform the processing in the correction processing desired by the user and the correction processing. It is an object of the present invention to provide an image display device which allows a user to easily recognize a change in image data caused by the image data, and more easily select image data suitable for his / her own preference.
[0012]
Still another object of the present invention is to store captured image data, first corrected image data, and second corrected image data in a storage unit, and to store the first corrected image data and the first corrected image data within a predetermined range including the captured image data. The second correction image data is read out from the storage unit, and the image indicated by each is displayed. When one selected image is received from the displayed images, the first correction image within a predetermined range including the received selected image is received. By reading and displaying the image data and the second corrected image data from the storage unit, a corrected image within a range desired by the user can be displayed. Since the corrected image data is read out from the storage unit and displayed, An object of the present invention is to provide an image display device that does not perform a new correction process, reduces the load of the correction process, and updates display of a corrected image at high speed.
[0013]
Still another object of the present invention is to generate the first corrected image data based on a first correction parameter when the storage unit does not store the first corrected image data within the predetermined range, When the second corrected image data within the predetermined range is not stored, the second corrected image data is generated based on the first correction parameter, so that the corrected image data already generated by the correction processing is stored. It is an object of the present invention to provide an image display device which reads out and displays the corrected image data and generates a corrected image data which has not yet been generated by performing a correction process only.
[0014]
Still another object of the present invention is to, when one selected image is received from a displayed image, generate first corrected image data based on a first correction parameter from selected image data indicating the received selected image; By generating the second corrected image data based on the second correction parameter, the image data generated by correcting the photographed image data can be further subjected to a correction process, thereby generating image data closer to the user's preference. To provide an image display device.
[0015]
Still another object of the present invention is to use each of the above-described image display devices, accept a determination of a predetermined number of images from the images displayed by the image display devices, and print the determined predetermined number of images. Image data more suitable for the user's preference can be generated, and the user can easily recognize the difference between the displayed images and easily select a desired image from the displayed images. It is an object of the present invention to provide an image printing apparatus that prints an image that meets the expectations of the above.
[0016]
[Means for Solving the Problems]
An image display method according to a first aspect of the present invention is a method for correcting a photographed image data, wherein the correction parameter is received by a receiving unit, and the correction unit corrects the photographed image data based on the received correction parameter. In the image display method of displaying the image indicated by the corrected image data and the captured image data respectively generated by the display unit, the receiving unit receives the first correction parameter and the second correction parameter among the plurality of correction parameters, The correction unit generates a plurality of first correction image data by increasing or decreasing a predetermined first correction value from a value of the first correction parameter included in the captured image data, and generates the plurality of first corrected image data. A predetermined second correction based on the value of the second correction parameter included in each of the first corrected image data. The increase or decrease to generate a plurality of second correction image data, the captured image data, a first corrected image data and the second correction image data each image shown, and displaying by the display means.
[0017]
An image display device according to a second aspect of the present invention corrects the captured image data based on a correction parameter received to correct the captured captured image data, and generates the corrected image data and the image indicated by the captured image data, respectively. And a parameter receiving unit that receives a first correction parameter and a second correction parameter among a plurality of correction parameters, and a first correction parameter included in the captured image data and received by the parameter receiving unit. A first correction unit that generates a plurality of first correction image data by increasing or decreasing a predetermined first correction value from a value of the image data, the captured image data, and the first correction image data generated by the first correction unit. A predetermined second correction value is increased from the value of the second correction parameter received by the parameter receiving unit, which is included in each of them. Second correcting means for generating a plurality of second corrected image data, the photographed image data, the first corrected image data generated by the first correcting means, and the second corrected image data generated by the second correcting means Display means for displaying an image shown by each of them.
[0018]
An image display device according to a third invention is the image display device according to the second invention, wherein the first correction means determines the first correction value from a value of a first correction parameter included in the captured image data. The first correction image data is generated by increasing or decreasing the number of times by a number of times, and the second correction unit includes a first correction image data included in each of the captured image data and the first correction image data generated by the first correction unit. The second correction image data may be generated by increasing or decreasing the second correction value by a predetermined number of times from the value of the two correction parameters.
[0019]
An image display device according to a fourth aspect is the image display device according to the second or third aspect, further comprising a correction value receiving unit that receives the first correction value and the second correction value, respectively, wherein the first correction unit includes: The first correction image data is generated by increasing or decreasing the first correction value received by the correction value receiving means from the value of the first correction parameter included in the captured image data. Means for increasing or decreasing a second correction value received by the correction value receiving means from a value of the second correction parameter included in each of the photographed image data and the first corrected image data generated by the first correction means. Thus, the second corrected image data is generated.
[0020]
An image display device according to a fifth aspect of the present invention is the image display device according to any of the second to fourth aspects, wherein the display means displays the image represented by the first corrected image data generated by the first correction means, The image indicated by the second corrected image data generated by the second correction means is placed at the upper and lower positions of the image represented by the photographed image data, and the left and right positions of the image represented by the photographed image data and the first corrected image data respectively. It is characterized in that a display is made in accordance with an increase or decrease of the first correction value for the first correction parameter and an increase or decrease of the second correction value for the second correction parameter.
[0021]
An image display device according to a sixth aspect is the image display device according to any of the second to fifth aspects, wherein the display means increases or decreases the first correction value of the first correction parameter in a vertical direction. In order to show, the sign indicating increase / decrease of the first correction value is shown at the upper and lower positions, and the sign indicating increase / decrease of the second correction value is shown to show the increase / decrease of the second correction value for the second correction parameter in the horizontal direction. Are displayed at the left and right positions, respectively.
[0022]
An image display device according to a seventh aspect of the present invention is the image display device according to the second to sixth aspects, further comprising storage means for storing the photographed image data, the first corrected image data, and the second corrected image data, and the display means Reads out the first corrected image data and the second corrected image data within a predetermined range including the photographed image data from the storage means, and displays an image indicated by each of the first corrected image data and the second corrected image data. Image receiving means for receiving one selected image, wherein the display means, when the image receiving means receives the selected image, the first correction within a predetermined range including selected image data indicating the selected image from the storage means The image data and the second corrected image data are read out, and an image indicated by each is displayed.
[0023]
An image display device according to an eighth aspect of the present invention is the image display device according to the seventh aspect, wherein, when the storage means does not store the first corrected image data within the predetermined range, the first correction means The first correction image data is generated, and when the storage unit does not store the second correction image data within the predetermined range, the second correction unit is configured to generate the second correction image data. There is a feature.
[0024]
An image display device according to a ninth aspect is the image display device according to the second to sixth aspects, further comprising: an image receiving unit that receives one selected image from the images displayed by the display unit. When receiving an image, the first correction unit generates first corrected image data by increasing or decreasing the first correction value from a value of a first correction parameter included in the selected image data indicating the selected image. The second correction unit increases or decreases the second correction value from a value of a second correction parameter included in each of the selected image data and the first correction image data generated by the first correction unit. It is characterized in that two correction image data is generated.
[0025]
An image printing apparatus according to a tenth aspect of the present invention provides an image printing apparatus according to any one of the second to ninth aspects, an image determining means for receiving a determination of a predetermined number of images from the images displayed by the image displaying apparatus, Printing means for printing a predetermined number of images accepted by the deciding means.
[0026]
A computer program according to an eleventh aspect of the present invention is configured such that the computer corrects the captured image data based on a correction parameter received to correct the captured captured image data, and generates the corrected image data and the captured image data respectively. In a computer program for displaying an image to be displayed, the computer includes a parameter receiving unit that receives a first correction parameter and a second correction parameter among a plurality of correction parameters, and the parameter receiving unit included in the photographed image data. A first correction unit configured to generate a plurality of first correction image data by increasing or decreasing a predetermined first correction value from a value of the received first correction parameter; The parameter receiving means included in each of the corrected first corrected image data. A second correction unit that generates a plurality of second correction image data by increasing or decreasing a predetermined second correction value from a value of the attached second correction parameter, and a plurality of second correction image data generated by the photographed image data and the first correction unit. It is characterized by functioning as display means for displaying images indicated by the first correction image data and the second correction image data generated by the second correction means.
[0027]
A recording medium according to a twelfth aspect is configured such that the computer corrects the captured image data based on a correction parameter received to correct captured captured image data, and the generated corrected image data and the captured image data are In a recording medium on which a computer program for displaying an image to be displayed is recorded, a parameter accepting unit for accepting a first correction parameter and a second correction parameter among a plurality of correction parameters by a computer, and A first correction unit for generating a plurality of first correction image data by increasing or decreasing a predetermined first correction value from a value of the first correction parameter received by the parameter reception unit; Receiving the parameter included in each of the first correction image data generated by the first correction unit; A second correction unit for generating a plurality of second correction image data by increasing or decreasing a predetermined second correction value from a value of the second correction parameter received by the stage; and the photographed image data and the first correction unit. A computer program for causing the computer to function as a display unit that displays an image indicated by each of the generated first corrected image data and the second corrected image data generated by the second correction unit is recorded.
[0028]
In the case of the first, second, eleventh, and twelfth inventions, a user or the like issues two first correction parameters out of a plurality of predetermined correction parameters and a second Receiving the second correction parameter, generating the first corrected image data from the captured image data based on the first correction parameter, generating the second corrected image data based on the second correction parameter, generating the captured image data, By displaying the obtained first corrected image data and the second corrected image data, the user can easily compare the photographed image data before the correction processing with each corrected image data after the correction processing, and The burden on the image data selection process can be reduced.
[0029]
According to the third aspect, in order to generate the first corrected image data, the first correction value is increased or decreased by a predetermined number of times from the value of the first correction parameter included in the captured image data. Is generated, the second correction value is increased or decreased by a predetermined number of times from the value of the second correction parameter included in the captured image data and the first correction image data, and is displayed to be selected by the user. By generating only the corrected image data, the load of the correction processing can be further reduced.
[0030]
In the case of the fourth aspect, the first correction value in the correction processing based on the first correction parameter and the second correction value in the correction processing based on the second correction parameter are received from a user or the like and included in the captured image data. The received first correction value is increased or decreased from the value of the first correction parameter to generate first corrected image data, and the first corrected image data is received from the value of the second correction parameter included in the captured image data and the first corrected image data. By generating the second corrected image data by increasing or decreasing the second correction value, it is possible to adjust the correction value to be increased or decreased for each correction parameter, and it is possible to generate image data corresponding to the user's preference. .
[0031]
In the case of the fifth invention, the image represented by the generated first corrected image data is placed at the upper and lower positions of the image represented by the photographed image data, and the image represented by the second corrected image data is represented by the photographed image data and the first corrected image data. By displaying at the left and right positions of the images shown respectively corresponding to the increase / decrease of the first correction value in the first correction parameter and the increase / decrease of the second correction value in the second correction parameter, the user himself / herself can obtain the desired value. It is possible to easily recognize a change in the image data due to the corrected processing, and easily select the image data suitable for the user's preference.
[0032]
In the case of the sixth invention, a symbol representing an increase or decrease of the first correction value for the first correction parameter is displayed at an upper or lower position, and an increase or decrease of the first correction value is displayed to indicate the upper or lower direction. (2) By displaying symbols indicating increase / decrease of the correction value at the left and right positions and indicating the increase / decrease of the second correction value in the left / right direction, the user can perform processing contents in the correction processing desired by the user and an image by the correction processing. A change in data can be easily recognized, and image data suitable for the user's preference can be more easily selected.
[0033]
In the case of the seventh aspect, the captured image data, the first corrected image data, and the second corrected image data are stored in a storage unit, and the first corrected image data and the second corrected image data within a predetermined range including the captured image data are stored. The corrected image data is read out from the storage means, and the image indicated by each is displayed. When one selected image is received from the displayed image, the first corrected image data within a predetermined range including the received selected image is received. By reading and displaying the second corrected image data from the storage unit, a corrected image within a range desired by the user can be displayed. Since the corrected image data is displayed by being read out from the storage unit, a new image is displayed. Since the correction process is not performed, the load of the correction process can be reduced, and the speed of updating the display of the corrected image can be increased.
[0034]
According to the eighth aspect, when the storage unit does not store the first correction image data within the predetermined range, the first correction image data is generated based on a first correction parameter, and the storage unit outputs the predetermined correction image data. When the second corrected image data within the range is not stored, the second corrected image data is generated based on the first correction parameter, so that the corrected image data already generated by the correction processing is read from the storage unit. And displays only the corrected image data that has not been generated yet, by performing correction processing. As a result, it is possible to eliminate the duplication of the correction processing of the same content, reduce the load due to the correction processing, and increase the processing speed.
[0035]
According to the ninth aspect, when one selected image is received from the displayed images, first corrected image data is generated from the selected image data indicating the received selected image based on the first correction parameter. By generating the second corrected image data based on the second correction parameter, it is possible to further perform a correction process on the image data generated by correcting the photographed image data, thereby generating image data closer to the user's preference. Thus, user satisfaction with the generated image can be improved.
[0036]
In the case of the tenth aspect, by using each of the above-described image display devices, receiving a determination of a predetermined number of images from the images displayed by the image display devices, and printing the determined predetermined number of images, Image data more suitable for preference can be generated, and a user can easily recognize a difference between displayed images and easily select a desired image from the displayed images. Can be printed.
[0037]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an image printing apparatus according to the present invention will be described in detail with reference to the drawings showing an embodiment thereof. FIG. 1 is an external perspective view of an image printing apparatus according to the present invention. In the drawing, reference numeral 1 denotes an image printing apparatus according to the present invention.
The image printing apparatus 1 is displayed on a speaker 19, a photographing device 18, an operation display 13, an operation button 135, and an operation display 13 on a front surface of a housing 100 containing a control mechanism for controlling each process of the image printing apparatus 1. A tablet pen 132, a coin slot 141, and the like for inputting selection of a predetermined selection button or the like in accordance with each instruction are provided.
[0038]
At both ends of the front surface of the housing 100, illuminating units 191 each having a built-in lamp and strobe are provided, and irradiate a user standing on the front surface in synchronization with the photographing device 18. Further, the casing 100 is provided with a seal outlet 161 for discharging a printed seal on a side surface, and a fan for releasing heat inside the casing 100 to the outside at an appropriate position (not shown). . The fan can effectively emit heat by being provided in the housing 100 in the vicinity of a device that is a heat source.
The image printing apparatus 1 further includes a rear illumination, a curtain, a background curtain (not shown), and the like at a position facing the imaging device 18.
[0039]
A speaker 19 hanging from the front of the image printing apparatus 1 provides guidance to the user for guiding the progress of the shooting procedure after inserting coins, and the user's own display displayed on the operation display 13. It outputs audio information such as guidance for performing various editing processes on the captured image.
The illumination units 191 provided on both sides of the imaging device 18 function as flashes at the time of imaging, and external light is blocked by a background curtain (not shown) surrounding the image printing device 1 and the user. Therefore, the user is illuminated even before the shooting.
[0040]
A photographing device 18 that moves up and down according to a rail 184 is provided substantially at the center of the front surface of the image printing device 1. An image is taken into an opening on the front side of the photographing device 18 and photographed according to a user's instruction. The lens of a CCD (Charge Coupled Device) camera 181 and a captured image display unit 182 such as a liquid crystal display for displaying an image captured by the CCD camera 181 and a captured image are provided in an exposed state.
The photographing device 18 and the rail 184 are connected to each other by a rotating gear (not shown), and the user can easily use the grip portions 183 attached to two appropriate positions on the outer edge of the photographing device 18. The photographing device 18 can be moved up and down on the rail 184 and further rotated with respect to the user. It should be noted that the user may operate the operation button 135 to move the photographing device 18 up and down and rotate.
[0041]
The operation display 13 is provided below the imaging device 18 with the display screen directed obliquely in front of the image printing device 1 and is configured by a liquid crystal display or a CRT (Cathode-Ray Tube) or the like. It consists of a monitor and a touch panel stacked on top of it.
In the vicinity of the operation display 13, a tablet pen 132 is provided, and it is possible to input selection of various selection buttons and the like in each operation displayed on the operation display 13. The input of various selection buttons in each operation may be performed by the operation buttons 135.
[0042]
A coin slot 141 is provided on a substantially vertical surface below the front surface of the image printing apparatus 1. When a user inserts a predetermined price into the coin slot 141, a photographing process is started. A seal outlet 161 is provided at the lower part of the side surface of the image printing apparatus 1, and the photographed image that has been photographed and subjected to the correction processing is printed on a predetermined number of divided stickers and discharged.
[0043]
FIG. 2 is a block diagram illustrating a hardware configuration of the image printing apparatus 1 according to the present invention. The image printing apparatus 1 includes an arithmetic processing unit (hereinafter, referred to as a CPU (Central Processing Unit)) 11 via a bus 17. Image capturing device 18, storage unit 15, input means (hereinafter referred to as operation display 13), operation buttons 135, speaker 19, illumination unit 191, printing unit 16, coin processing unit 14, RAM (Random Access Memory) 12, clock unit 192. , Drive 20 and the like.
The CPU 11 is connected to the above-described hardware units of the image printing apparatus 1 via the bus 17, controls the hardware units, and executes various software programs according to a control program 15 </ b> P stored in the storage unit 15 such as a hard disk. Perform a functional function.
[0044]
In the present embodiment, the image printing apparatus 1 stores the photographing device 18, the operation display 13, the printing unit 16, and the like in one housing 100, but is not limited thereto. You may make it provide.
For example, a unit that performs a photographing function such as the photographing device 18 and the illumination unit 191 and a unit that performs an image editing function such as the operation display 13 and the printing unit 16 are connected via a server computer (not shown) in the play facility. A similar function may be realized by connecting via a network. In this case, the user performs imaging in a unit including the imaging device 18 and receives a magnetic card with an ID. The image data and the ID are stored in the server computer in association with each other. When the user edits and prints the image, the user inserts the magnetic card into the unit including the operation display 13, reads the image data from the server computer based on the ID, edits the image, and prints the image on a sticker or the like. do it.
[0045]
The RAM 12 is configured by an SRAM (Static Random Access Memory) or a flash memory, and stores temporary data generated when executing software. If a flash memory is used as the RAM 12, the stored contents will not be lost even if the power is cut off due to a power failure, movement of the image printing apparatus 1, or the like.
The photographing device 18 includes a CCD camera 181, a captured image display unit 182, and the like. The CPU 11 outputs a photographing signal for instructing the CCD camera 181 to photograph an image according to a user's operation instruction of the operation button 135. . In the CCD camera 181 that has obtained the photographing signal, the electric charge accumulated in the CCD is output as an electric signal to an A / D converter (not shown), and the image data converted into a digital signal by the A / D converter is converted into RGB signals. The data is stored in the storage unit 15 as data, and is output to the captured image display unit 182 such as a liquid crystal display and the monitor 133 of the operation display 13.
[0046]
The operation display 13 includes a monitor 133, a touch panel 131, a tablet pen 132, and a display processor 134.
The display processor 134 displays a guide screen for a shooting procedure on the monitor 133 based on an instruction from the CPU 11. Further, the display processor 134 has a frame buffer for storing image data captured by the CCD camera 181 inside, and similarly displays a captured image on the monitor 133. The frame buffer is constituted by a dual port memory, and has a first area in which one image data can be stored and a second area in which nine image data can be stored.
[0047]
The captured image data from the CCD camera 181 is input to the first area of the frame buffer, and after the image capturing, the captured image data is stored.
On the other hand, the second area is a storage area for storing corrected image data that has been subjected to brightness adjustment, hue adjustment, and the like under the control of the CPU 11, and is located at a position where nine pieces of image data are to be displayed on the monitor 133. It is stored correspondingly. At the time when the photographing is completed, the same photographed image data as that of the first area is displayed at the center position on the monitor 133, and each corrected image data generated by performing a correction process on the photographed image data is displayed. Are written at predetermined positions in the second area so as to be displayed around the captured image.
[0048]
On the monitor 133, a transparent touch panel 131 is laminated, and on the monitor 133, data stored in the second area of the frame buffer of the display processor 134 is displayed. Therefore, when the user requests the correction processing for the captured image data, the correction image data generated by the correction processing and stored in the second area of the frame buffer is displayed on the monitor 133. Touch panel 131 detects an input from tablet pen 132.
When a request for correction processing for captured image data is input, the touch panel 131 accepts the input, outputs correction parameters in the received correction processing to the display processor 134, and the display processor 134 executes correction processing based on the input correction parameters. The CPU 11 is notified of the request.
[0049]
The voice guidance data is recorded in the storage unit 15, and the speaker 19 reads the guidance data recorded in the storage unit 15 based on an instruction from the CPU 11 and outputs the guidance data to the speaker 19. The guidance output from the speaker 19 to the user includes an operation method, a countdown immediately before shooting, and the like.
The coin processing unit 14 detects the amount of coins inserted from the coin insertion slot 141 and outputs a detection signal to the CPU 11 when detecting that a predetermined price has been inserted.
[0050]
The printing unit 16 is a printing unit that prints image data on sticker paper to create an image sticker, and is an image that has been photographed by the CCD camera 181 and that has been subjected to correction processing such as brightness adjustment or the like specified by the user. Is printed on a sticker or the like, and the printed image sticker is discharged from the sticker outlet 161.
The illumination unit 191 includes a lamp 191b such as a fluorescent lamp and a strobe 191a. The lamps 191b are provided on both sides of the front surface of the image printing / editing apparatus 1, and irradiate the user through a plastic illumination cover. This lamp is lit not only at the time of photographing but also before photographing and at the time of editing, and its lighting / extinguishing is controlled by the CPU 11 according to the control program 15P stored in the storage unit 15.
[0051]
Similarly, strobes 191a are provided on both front ends of the image printing apparatus 1, respectively, and are set so as to irradiate the user in synchronization with image capture by the CCD camera 181.
When an image is instructed by the user operating the operation button 135 or the like, the CPU 11 gives a photographing signal to instruct the CCD camera 181 to photograph an image, and the CCD camera 181 transmits a synchronization signal to the strobe 191a. . Thus, the CCD camera 181 can acquire captured image data in synchronization with the emission of the strobe light 191a. The same control is performed for a rear strobe (not shown) provided behind the user.
The clock unit 192 outputs time data to the CPU 11.
[0052]
The drive 20 is configured by a CD-ROM drive, a flexible disk drive, or the like, reads out recording information recorded on a recording medium such as a CD-ROM or a flexible disk, and stores the information in the RAM 12.
The computer program is read out from a recording medium storing a computer program for operating as the image printing apparatus 1 via the drive 20, stored in the RAM 12, and sequentially executed to execute the image printing according to the present embodiment. The device 1 can also be realized. Further, the computer program can be provided by being propagated as a carrier wave via a line.
[0053]
Hereinafter, a printing process of photographed image data obtained by photographing in the image printing apparatus 1 having the above-described hardware configuration will be described with reference to a flowchart. FIG. 3 and FIG. 4 are flowcharts showing a printing processing procedure by the image printing apparatus 1 according to the present invention.
In the image printing apparatus 1, the CPU 11 determines whether or not the predetermined fee has been input by the coin processing unit 14 (S 1). When it is determined that the predetermined fee has been input, the operation indicating the shooting procedure is performed from the storage unit 15. The screen is read out and displayed on the monitor 133 (S2).
[0054]
FIG. 5A is a diagram showing an example of an operation screen displayed on the monitor 133. This example shows a moving method, a rotating method, and a photographing method of the photographing device 18 including the CCD camera 181 and the captured image display unit 182. A shooting button or the like for instructing start is displayed. In addition, a configuration may be adopted in which a selection button or the like for setting a mode setting at the time of shooting, for example, standard shooting, up shooting, whole body shooting, or the like is displayed.
On the other hand, the CPU 11 causes the image capturing device 18 to display images sequentially captured by the CCD camera 181 on the captured image display unit 182, and the user checks the captured image by displaying the captured image display unit 182. When the photographing device 18 is arranged at a desired position, the photographing button on the operation display 13 can be operated by the tablet pen 132 or the photographing button included in the operation button 135 can be determined. (Not shown), the photographing process is executed.
[0055]
In the image printing apparatus 1, the CPU 11 monitors whether or not the photographing button is operated (S3). When the photographing button is operated by the user, the CPU 11 outputs a photographing signal for instructing the CCD camera 181 to photograph an image. Then, the CCD camera 181 transmits a synchronization signal to the strobe 191 a of the illumination unit 191.
As a result, the CCD camera 181 shoots in synchronization with the light emission timing of the strobe 191a, and stores the obtained shot image data in the first area and the second area of the frame buffer of the display processor 134 (S4). .
[0056]
The photographing process of the photographed image data may be started by operating the photographing button. Based on the operation of the photographing button, “3, 2, 1” and the like are displayed on the operation display 13 with the lapse of time, and the speaker It is also possible to adopt a configuration in which the countdown is performed by the announcement by the user 19 and the user is notified of the timing of the photographing, and then the process is started.
[0057]
The CPU 11 reads out the captured image data from the frame buffer, and reads from the storage unit 15 a correction information input screen for inputting correction information such as a correction parameter in the correction process in order to perform predetermined correction processing on the captured image data, The correction information input screen including the captured image data is displayed on the monitor 133 (S5).
FIG. 5B is a view showing an example of a correction information input screen displayed on the monitor 133. The correction information input screen is provided as options for the photographed image data 40 and the editing information for correcting the photographed image data 40. A brightness button 52, a vividness button 53, a color button 54, and a contrast button 55 are displayed. The correction information input screen includes a countdown timer 51 based on time information output from the clock unit 192, a button 56 for retrieving a captured image, an OK button 57 indicating completion of selection of correction information, and a correction process. A print button 58 or the like for instructing printing of the captured image data 40 is displayed without performing.
[0058]
In the present embodiment, when brightness is selected as the correction information, the brightness information in the image data to be corrected is changed, and when vividness is selected, the saturation information in the image data is changed, and the color is selected. In this case, the hue of the image data is changed, and when the contrast is selected, each process for changing the degree of shading in the image data is performed. Further, the correction information may be adjustment of level correction, change of color balance, change of tone curve, edge emphasis, and the like. When correction is performed based on these, more accurate correction processing can be realized.
FIG. 5B shows a state in which the user has selected brightness and color from the four pieces of correction information, and the user who has determined the correction information operates the OK button 57.
[0059]
The CPU 11 monitors whether two correction information items are selected by the user and whether the OK button 57 is operated (S6). When the OK button 57 is operated, the CPU 11 reads out to the RAM 12 The captured image data 40 is corrected by sequentially executing the correction processing programs corresponding to the two pieces of correction information (S7).
Specifically, the CPU 11 reads out the photographed image data 40 stored in the second area of the frame buffer of the display processor 134 into the RAM 12, and applies the first correction selected by the user to the photographed image data 40. The first correction image data is generated by increasing / decreasing a predetermined value from the value of the color information, which is information, and temporarily stored in the RAM 12. Note that the color information takes a large value in the order of red, yellow, green, blue, and purple.
[0060]
Further, the CPU 11 has, for each of the captured image data 40 and the two first correction image data generated as described above, the brightness information as the second correction information selected by the user. By increasing or decreasing the predetermined value from the value, six second corrected image data are generated and temporarily stored in the RAM 12. The brightness information indicates brightness information in the image data, and the larger the value, the brighter the image data.
Next, the CPU 11 stores the first corrected image data and the second corrected image data generated as described above in the second area of the frame buffer of the display processor 134. Since the position of each image data stored in the second area becomes the display position of the monitor 133 as it is, the two first corrected image data correspond to the increase and decrease of the color information, respectively. In order to display the lower and upper positions of the captured image data 40 on the image 133, the six second corrected image data correspond to the increase and decrease of the brightness information, respectively, and the right position of each image data before correction is changed. And in the second area of the frame buffer of the display processor 134 for display at the left position.
[0061]
The display processor 134 displays a correction screen in which each image data generated as described above and stored in the second area of the frame buffer is arranged at a predetermined position based on the captured image data 40 (S8). ).
FIG. 6 is a diagram showing an example of a correction screen displayed on the monitor 133. Nine image data read out from the second area of the frame buffer are displayed as an image data group 40a at the center of the correction screen. . As described above, each image data read from the second area of the frame buffer is generated based on the tint information which is the first correction information, with the captured image data 40 being the center position in the image data group 40a. The first correction image data 41 and 42 are displayed above and below the captured image data 40, and the second correction image data 43, 44, 45, 46, 47, and 47 generated based on the brightness information as the second correction information. 48 are displayed at left and right positions corresponding to the respective image data before the correction processing.
[0062]
The correction screen shown in FIG. 6 displays correction information selection button groups 31 and 32 displaying correction information that can be selected by the user at the left position and the upper position of the image data group 40a. The correction information selection button groups 31 and 32 include brightness buttons 31a and 32a, vividness buttons 31b and 32b, tint buttons 31c and 32c, and contrast buttons 31d and 32d as correction information options in the present embodiment. Each of them is displayed side by side, and by selecting each of these buttons, correction information in the second and subsequent correction processes can be determined.
In addition, among the buttons indicating the correction information, the button selected by the user is inverted to indicate that the button is selected. In the correction information selection button group 31, the color information is The correction information selection button group 32 indicates that brightness information is selected.
[0063]
The correction information selection button group 31 shows a color bar 31e indicating an increase or decrease in the color information selected by the user, and the correction information selection button group 32 shows an increase or decrease in the brightness information selected by the user. The brightness bar 32e is displayed so as to correspond to the increase or decrease of the color information or the brightness information in each image data in the image data group 40a, so that each of the nine image data displayed on the monitor 133 has Differences in correction processing between image data can be easily recognized.
[0064]
The vividness information indicates saturation information in the image data, and the larger the value is changed, the more vivid the image data is generated. It is assumed that image data is generated.
Further, the correction screen displays a countdown timer 38 based on time information output from the clock unit 192 on the upper left side, and displays the first captured image data 40 captured by the CCD camera 181 on the upper right side. I have. Below the photographed image data 40, a correction value input group 33 for inputting each correction value corresponding to the correction information to be subjected to the correction processing is displayed, and between the image data displayed in the image data group 40a. The difference value (correction value) of the correction information can be input by the user. In the present embodiment, the correction value is displayed in five levels, and the user can determine the correction value while checking each image data of the displayed image data group 40a.
[0065]
The correction screen displays a print button 35, a button 36 from the start, a button 37 for retaking, and the like at the lower position. When the print button 35 is operated, the user selects the image data in the image data group 40a. The printed image data (image data 40 in the figure) is printed on a sticker sheet in a predetermined layout.
Further, when the button 36 is operated from the beginning, a process of returning to the first captured image data 40 captured by the CCD camera 181 is performed. Specifically, the image data stored in the first area of the frame buffer is read and displayed.
Further, when the reset button 37 is operated, the photographing process by the CCD camera 181 is executed again.
[0066]
On the other hand, each image data in the image data group 40a can receive selection, and the CPU 11 monitors whether the user has received one selected image data (S9) and receives one selected image data. In this case, the selected image data is set at the center position, and eight corrected image data based on the selected image data are displayed in the image data group on the correction screen displayed on the monitor 133 (S10). Specifically, for example, when the user selects the image data 46 from the image data group 40a in FIG. 6 as the selected image data, the CPU 11 Is read from the second area of the frame buffer and stored in the RAM 12.
[0067]
FIG. 7 is a diagram for explaining an image data group displayed on the monitor 133. An image data group 40a surrounded by a broken line indicates the image data group 40a in FIG. 6, and here, the CPU 11 The image data 40, 41, 46, and 47 already existing in the image data at positions near 8 of the selected image data 46 are read from the second area of the frame buffer and stored in the RAM 12.
Next, the CPU 11 subtracts a predetermined value from the selected image data 46 stored in the RAM 12 for the tint information, which is the first correction information selected by the user, so that the selected image data 46 is positioned above the selected image data 46. By generating first correction image data 61 to be displayed, and by increasing or decreasing a predetermined value of brightness information as second correction information with respect to the selected image data 46 and the first correction image data 47 and 61, respectively. The second correction image data 62, 63, 64, and 65 to be displayed at the corresponding positions are generated and stored in the RAM 12.
[0068]
The CPU 11 places the first corrected image data and the second corrected image data generated as described above in the second area of the frame buffer of the display processor 134, and places the selected image data 46 as a center position on the monitor 133. Each of them is stored, whereby the display processor 134 can display a correction screen arranged at a predetermined position based on the selected image data 46.
[0069]
Depending on the correction processing in the present invention, as shown in FIG. 7, the correction parameters (in this case, the color information and the brightness information) selected by the user are based on the image data 40 captured by the CCD camera 181. ), It is possible to generate an enormous number of corrected image data, but in the present embodiment, among the corrected image data, 8 of the photographed image data and the selected image data, which are the reference for the correction processing. Only the nearby corrected image data is generated, stored in the frame buffer, and displayed on the monitor 13.
Therefore, when the selected image data 46 is selected and the correction processing is performed based on the selected image data 46, the corrected image data in the image data group 46a indicated by the one-dot chain line in the drawing is displayed on the monitor 133. Become.
[0070]
Further, the CPU 11 monitors whether or not the print button 35 is operated by the user on the correction screen (S11), and when the print button 35 is operated, the selected image data selected by the touch panel 131 is displayed. Then, the selected image data is read out from the second area of the buffer memory and output to the printing unit 16, and the printing unit 16 prints the selected image data on a sticker (S12). The printed seal is discharged from the seal discharge port 161.
[0071]
As described above, when image data is selected by the user, by performing various correction processes on the selected image data, it is possible to sequentially generate corrected image data corresponding to the selected image data, as shown in FIG. Thus, virtually infinite corrected image data can be generated, and corrected image data more suitable for each user's preference can be generated.
[0072]
In the present embodiment, a configuration has been described in which only the corrected image data to be displayed in the vicinity of 8 is generated by the correction processing based on the selected image data, but a predetermined number of corrected image data is generated in advance. It is also possible to have a configuration in which, when the selected image data is received, the corrected image data at positions near eight of the selected image data is read out and displayed. Further, when the selected image data is received, a correction process based on each correction parameter may be performed again based on the selected image data to generate the first corrected image data and the second corrected image data.
Further, the monitor 133 according to the present embodiment displays nine pieces of corrected image data in the form of 3 × 3. However, the present invention is not limited to this, and a configuration in which 25 pieces of corrected image data are displayed in 5 × 5. It may be.
Furthermore, in the present embodiment, the description has been given of the configuration in which the captured image data and the corrected image data are stored in the frame buffer in the display processor 134, but these image data may be stored in the storage unit 15.
[0073]
【The invention's effect】
In the case of the first, second, eleventh, and twelfth inventions, a user or the like issues two first correction parameters out of a plurality of predetermined correction parameters and a second Receiving the second correction parameter, generating the first corrected image data from the captured image data based on the first correction parameter, generating the second corrected image data based on the second correction parameter, generating the captured image data, By displaying the obtained first corrected image data and the second corrected image data, the user can easily compare the photographed image data before the correction processing with each corrected image data after the correction processing, and The burden on the image data selection process can be reduced.
[0074]
According to the third aspect, in order to generate the first corrected image data, the first correction value is increased or decreased by a predetermined number of times from the value of the first correction parameter included in the captured image data. Is generated, the second correction value is increased or decreased by a predetermined number of times from the value of the second correction parameter included in the captured image data and the first correction image data, and is displayed to be selected by the user. By generating only the corrected image data, the load of the correction processing can be further reduced.
[0075]
In the case of the fourth aspect, the first correction value in the correction processing based on the first correction parameter and the second correction value in the correction processing based on the second correction parameter are received from a user or the like and included in the captured image data. The received first correction value is increased or decreased from the value of the first correction parameter to generate first corrected image data, and the first corrected image data is received from the value of the second correction parameter included in the captured image data and the first corrected image data. By generating the second corrected image data by increasing or decreasing the second correction value, it is possible to adjust the correction value to be increased or decreased for each correction parameter, and it is possible to generate image data corresponding to the user's preference. .
[0076]
In the case of the fifth invention, the image represented by the generated first corrected image data is placed at the upper and lower positions of the image represented by the photographed image data, and the image represented by the second corrected image data is represented by the photographed image data and the first corrected image data. By displaying at the left and right positions of the images shown respectively corresponding to the increase / decrease of the first correction value in the first correction parameter and the increase / decrease of the second correction value in the second correction parameter, the user himself / herself can obtain the desired value. It is possible to easily recognize a change in the image data due to the corrected processing, and easily select the image data suitable for the user's preference.
[0077]
In the case of the sixth invention, a symbol representing an increase or decrease of the first correction value for the first correction parameter is displayed at an upper or lower position, and an increase or decrease of the first correction value is displayed to indicate the upper or lower direction. (2) By displaying symbols indicating increase / decrease of the correction value at the left and right positions and indicating the increase / decrease of the second correction value in the left / right direction, the user can perform processing contents in the correction processing desired by the user and an image by the correction processing. A change in data can be easily recognized, and image data suitable for the user's preference can be more easily selected.
[0078]
In the case of the seventh aspect, the captured image data, the first corrected image data, and the second corrected image data are stored in a storage unit, and the first corrected image data and the second corrected image data within a predetermined range including the captured image data are stored. The corrected image data is read out from the storage means, and the image indicated by each is displayed. When one selected image is received from the displayed image, the first corrected image data within a predetermined range including the received selected image is received. By reading and displaying the second corrected image data from the storage unit, a corrected image within a range desired by the user can be displayed. Since the corrected image data is displayed by being read out from the storage unit, a new image is displayed. Since the correction process is not performed, the load of the correction process can be reduced, and the speed of updating the display of the corrected image can be increased.
[0079]
According to the eighth aspect, when the storage unit does not store the first correction image data within the predetermined range, the first correction image data is generated based on a first correction parameter, and the storage unit outputs the predetermined correction image data. When the second corrected image data within the range is not stored, the second corrected image data is generated based on the first correction parameter, so that the corrected image data already generated by the correction processing is read from the storage unit. And displays only the corrected image data that has not been generated yet, by performing correction processing. As a result, it is possible to eliminate the duplication of the correction processing of the same content, reduce the load due to the correction processing, and increase the processing speed.
[0080]
According to the ninth aspect, when one selected image is received from the displayed images, first corrected image data is generated from the selected image data indicating the received selected image based on the first correction parameter. By generating the second corrected image data based on the second correction parameter, it is possible to further perform a correction process on the image data generated by correcting the photographed image data, thereby generating image data closer to the user's preference. Thus, user satisfaction with the generated image can be improved.
[0081]
In the case of the tenth aspect, by using each of the above-described image display devices, receiving a determination of a predetermined number of images from the images displayed by the image display devices, and printing the determined predetermined number of images, Image data more suitable for preference can be generated, and a user can easily recognize a difference between displayed images and easily select a desired image from the displayed images. Can be printed.
[Brief description of the drawings]
FIG. 1 is an external perspective view of an image printing apparatus according to the present invention.
FIG. 2 is a block diagram illustrating a hardware configuration of the image printing apparatus according to the present invention.
FIG. 3 is a flowchart illustrating a print processing procedure performed by the image printing apparatus according to the present invention.
FIG. 4 is a flowchart illustrating a print processing procedure performed by the image printing apparatus according to the present invention.
FIG. 5 is a diagram showing an example of a screen displayed on a monitor.
FIG. 6 is a diagram illustrating an example of a correction screen displayed on a monitor.
FIG. 7 is a diagram for explaining an image data group displayed on a monitor.
[Explanation of symbols]
1 Image printing device
13 Operation display
133 monitor
31, 32 Correction information selection buttons
33 Correction value input group
40a Image data group

Claims (12)

A correction parameter is received by a receiving unit in order to correct the captured image data, and the captured image data is corrected by a correction unit based on the received correction parameter, and the corrected image data generated by the correction unit and the shooting In an image display method of displaying an image represented by each of the image data by a display unit,
A first correction parameter and a second correction parameter among a plurality of correction parameters received by the receiving unit;
The correction unit generates a plurality of first correction image data by increasing or decreasing a predetermined first correction value from a value of the first correction parameter included in the captured image data, and generates the plurality of first corrected image data. Generating a plurality of second corrected image data by increasing or decreasing a predetermined second correction value from a value of the second correction parameter included in each of the first corrected image data,
An image display method, wherein an image represented by each of the photographed image data, the first corrected image data, and the second corrected image data is displayed by the display means. An image display device that corrects the captured image data based on a correction parameter received to correct the captured captured image data, and displays the generated corrected image data and the image indicated by the captured image data.
Parameter receiving means for receiving a first correction parameter and a second correction parameter of the plurality of correction parameters;
A first correction unit that generates a plurality of first correction image data by increasing or decreasing a predetermined first correction value from a value of the first correction parameter received by the parameter reception unit and included in the captured image data;
A predetermined second correction value is increased or decreased from the value of the second correction parameter received by the parameter receiving unit, which is included in each of the captured image data and the first correction image data generated by the first correction unit. Second correcting means for generating a plurality of second corrected image data;
Display means for displaying an image indicated by each of the photographed image data, the first corrected image data generated by the first correction means, and the second corrected image data generated by the second correction means. Display device. The first correction unit is configured to generate the first corrected image data by increasing or decreasing the first correction value by a predetermined number of times from a value of a first correction parameter included in the captured image data,
The second correction unit increases or decreases the second correction value by a predetermined number of times from a value of a second correction parameter included in each of the captured image data and the first correction image data generated by the first correction unit. 3. The image display device according to claim 2, wherein the second corrected image data is generated by the second display device. A correction value receiving unit that receives the first correction value and the second correction value, respectively;
The first correction unit is configured to increase or decrease the first correction value received by the correction value reception unit from a value of the first correction parameter included in the captured image data to generate first correction image data. And
The second correction unit receives a second correction value received by the correction value reception unit from a value of the second correction parameter included in each of the captured image data and the first correction image data generated by the first correction unit. The image display device according to claim 2, wherein the second correction image data is generated by increasing or decreasing the correction value. The display means displays an image indicated by the first correction image data generated by the first correction means at an upper and lower position of the image indicated by the captured image data,
The image represented by the second corrected image data generated by the second correction means is placed at the left and right positions of the image represented by the captured image data and the first corrected image data, respectively.
3. The apparatus according to claim 2, wherein the information is displayed in correspondence with an increase or decrease in the first correction value for the first correction parameter and an increase or decrease in the second correction value for the second correction parameter. 5. The image display device according to any one of 4. The display means includes a symbol representing the increase or decrease of the first correction value at an up / down position to indicate an increase or decrease of the first correction value for the first correction parameter in an up / down direction. The symbol representing the increase / decrease of the second correction value is displayed at the left / right position so as to indicate the increase / decrease of the second correction value in the left / right direction, respectively. The image display device as described in the above. Storage means for storing the photographed image data, the first corrected image data and the second corrected image data,
The display means reads the first corrected image data and the second corrected image data within a predetermined range including the captured image data from the storage means, and displays the images indicated by the first corrected image data and the second corrected image data, respectively.
An image receiving unit that receives one selected image from the displayed images,
When the image receiving unit receives the selected image, the display unit reads the first corrected image data and the second corrected image data within a predetermined range including the selected image data indicating the selected image from the storage unit, The image display device according to any one of claims 2 to 6, wherein each of the images is displayed. When the storage unit does not store the first corrected image data within the predetermined range, the first correction unit generates the first corrected image data, and the storage unit stores the first corrected image data within the predetermined range. 8. The image display device according to claim 7, wherein when the second correction image data is not stored, the second correction unit is configured to generate the second correction image data. An image receiving unit that receives one selected image from the images displayed by the display unit, wherein the image receiving unit receives the selected image,
The first correction unit generates first corrected image data by increasing or decreasing the first correction value from a value of a first correction parameter included in selected image data indicating the selected image, and generating the second corrected image data. Generates second corrected image data by increasing or decreasing the second correction value from a value of a second correction parameter included in each of the selected image data and the first corrected image data generated by the first correction unit. The image display device according to any one of claims 2 to 6, wherein the image display device is configured to do so. An image display device according to any one of claims 2 to 9, an image determination unit for receiving a determination of a predetermined number of images from the images displayed by the image display device, and a predetermined number of images received by the image determination unit. An image printing apparatus, comprising: printing means for printing. Computer program for causing a computer to correct the photographed image data based on a correction parameter received to correct photographed photographed image data, and to display the generated corrected image data and an image indicated by the photographed image data, respectively. At
A parameter receiving unit that receives the first correction parameter and the second correction parameter from the plurality of correction parameters, and a value included in the captured image data and included in the first correction parameter received by the parameter receiving unit. A first correction unit configured to generate a plurality of first correction image data by increasing or decreasing a predetermined first correction value, the captured image data, and a first correction image data generated by the first correction unit; A second correction unit that generates a plurality of second correction image data by increasing or decreasing a predetermined second correction value from a value of the second correction parameter received by the parameter reception unit; Display means for displaying images indicated by the first correction image data generated by the correction means and the second correction image data generated by the second correction means, respectively; A computer program for causing to function Te. Computer program for causing a computer to correct the photographed image data based on a correction parameter received to correct photographed photographed image data, and to display the generated corrected image data and an image indicated by the photographed image data, respectively. In the recording medium on which is recorded,
A parameter receiving unit that receives the first correction parameter and the second correction parameter from the plurality of correction parameters, and a value included in the captured image data and included in the first correction parameter received by the parameter receiving unit. A first correction unit configured to generate a plurality of first correction image data by increasing or decreasing a predetermined first correction value, the captured image data, and a first correction image data generated by the first correction unit; A second correction unit that generates a plurality of second correction image data by increasing or decreasing a predetermined second correction value from a value of the second correction parameter received by the parameter reception unit; Display means for displaying images indicated by the first correction image data generated by the correction means and the second correction image data generated by the second correction means, respectively; Recording medium, wherein the computer program has been recorded for functioning Te.

Images