JP2004320091A - Photographic print providing apparatus, and method and program thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a photographic print providing apparatus capable of efficiently processing high image quality data through the separate provision of a composite means for a display purpose whereby an object confirms a composite image and a composite means for an output purpose used for printing a photographic print. <P>SOLUTION: The photographic print providing apparatus comprises: a camera 6 for imaging the object 2 including a user within an imaging region; a first composite means 90 for composing a video image imaged by the camera 6 with a composing purpose image to produce a composite video image; a monitor 20 for displaying a first composite image by the first composite means 90 in real time for allowing the object to visually confirm the composite video image; a determination button 14 being a shutter for fixing the imaged video image as a still picture 50 in a prescribed timing; a second composite means 60 for composing the fixed still picture 50 with the composing purpose image to produce the composite image; and a printer 9 for printing the composite image produced by the second composite means 60 to provide a photographic print. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a photographic print providing apparatus and method that are installed in a game center or the like, photograph a user by inserting coins, print the photographed image, and sell it.
[0002]
[Prior art]
2. Description of the Related Art In recent years, a large number of photographic print providing apparatuses that take photographs and make sticker prints are installed in game centers and the like. Such a photographic print providing apparatus generally captures a user's subject with a camera, synthesizes a frame image or the like with the captured image, and prints and outputs the combined image as a photographic print. As such photographic print providing apparatuses, there are those shown in Patent Documents 1 and 2 below as prior arts known to the applicant.
[0003]
[Patent Document 1]
JP-A-10-282571
[Patent Document 2]
JP 2000-32249 A
[0004]
[Problems to be solved by the invention]
In the conventional photographic print providing apparatus, the image captured by the camera and the frame image are combined and the combined image is displayed on a display unit such as a monitor for confirmation, and the combined image at a predetermined moment is fixed as a combined image of a still image. The composite image is printed out by a printer.
[0005]
However, in the above-described conventional apparatus, the photographed image and the frame image are synthesized by the synthesizing unit and displayed on a display unit such as a monitor, and the synthesized image synthesized by the synthesizing unit is also used for print output by a printer. That is, a composition unit used for image composition when displaying a composite image on a confirmation monitor at the time of shooting, and a composition unit used for image composition when printing a composite image obtained by fixing a still image by a camera, Are combined with the same synthesis means.
[0006]
This is because the composite image displayed on the confirmation monitor and the composite image printed on the printer are, of course, due to the nature of the apparatus in which the composite image printed on the printer is confirmed on the confirmation monitor before printing. However, the same composite image is displayed and printed. For this reason, as a matter of course, in the conventional apparatus, the synthesizing means for the synthesized image displayed on the confirmation monitor and the synthesizing means for the synthesized image printed by the printer are combined. is there.
[0007]
However, recent photo print creation devices are used not only as a game but also as a souvenir photo of friends, mainly by young people. User needs required for photo print creation apparatuses are also increasing. In particular, the image quality is not simply taken as a game, but it is required to provide beautiful and high-quality photo prints as photographs themselves. It has become necessary to use a high-quality frame image having a large number of pixels. On the other hand, since the confirmation monitor only needs to be confirmed visually, there is no need to use a high-quality image for the frame image. Under such circumstances, in the conventional apparatus where the synthesizing means is used for both confirmation and printing, the processing on the confirmation monitor side and the printer side are performed with the same high-quality data. However, there is a problem that the processing efficiency is lowered.
[0008]
The present invention has been made in view of such circumstances, and by providing separately a display combining means for allowing a subject to check a composite image and an output combining means for printing a photographic print, high-quality data is provided. An object of the present invention is to provide an apparatus and method for providing a photographic print that can efficiently handle images.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the photographic print providing apparatus of the present invention generates a composite image by synthesizing a camera that captures a subject including a user in an imaging region, and an image captured by the camera and an image for synthesis. First synthesizing means, display means for displaying the first synthesized image by the first synthesizing means in real time and enabling visual confirmation of the synthesized video on the subject, and a shutter for fixing the captured video as a still image at a predetermined timing Providing a photographic print by printing the synthesized image generated by the second synthesizing unit, a second synthesizing unit that generates a synthesized image by synthesizing the still image fixed by the shutter unit and the synthesis image. The gist of the invention is that it includes a printer.
[0010]
According to another aspect of the present invention, there is provided a photographic print providing method in which an imaging step of imaging a subject including a user in an imaging area by a camera, and a synthesized image by synthesizing an image captured by the camera and an image for synthesis. A combining step, a display step for displaying the first combined image in the first combining step in real time and enabling visual confirmation of the combined image on the subject, a shutter step for fixing the captured image as a still image at a predetermined timing, A second combining step for generating a combined image by combining the still image fixed in the shutter step and the combining image; and a printing step for printing the combined image generated in the second combining step and providing it as a photographic print. And the summary.
[0011]
That is, the present invention synthesizes the synthesized image by synthesizing the first synthesized means for synthesizing the image captured by the camera and the synthesized image to generate a synthesized video, and the still image fixed by the shutter means and the synthesized image. A second synthesizing unit that generates the first synthesized image by the first synthesizing unit on the display unit in real time so that the synthesized video can be visually confirmed on the subject, and is generated by the second synthesizing unit. The composite image is printed by a printer and provided as a photographic print.
[0012]
For this reason, the composition image used for the first composition means and the composition image used for the second composition means can be prepared separately, and the confirmation composition process and the print composition process are performed separately. The load on the system is distributed, so that the processing speed is hardly lowered and the user is not stressed. In addition, for example, by using a low-resolution image with a small number of pixels for confirmation and using a high-resolution image with a large number of pixels for printing, a low-resolution image with a small amount of data is used in the composition processing and display processing for confirmation. Using a high-resolution image in a printing composition process or printing, it is possible to create a beautiful photo print with excellent image quality.
[0013]
Further, in this case, a plurality of control means are provided, and the confirmation compositing process and the print compositing process are performed by different control means, respectively, and the control means for performing the confirmation compositing process to the control means for performing the print compositing process In this data transfer, when the image identification information is transferred and the image data is not transferred, the image data having a large amount of data is not transferred, but only the image identification information is transmitted. Therefore, the load required for the transmission process is reduced, the processing speed is hardly reduced, and the time lag between the plurality of control means can be reduced.
[0014]
In the present invention, when the composition image used by the second composition means is substantially the same image corresponding to the composition image used by the first composition means, the composition image printed by the printer is It is possible to perform efficient processing by distributing control processing while ensuring the characteristics of the apparatus that prints after confirming with a confirmation monitor in advance.
[0015]
In the present invention, the composition image used in the first composition means is a confirmation image displayed on the display means as a composite image for visual confirmation by the user, and is composed in the second composition means. In the case where the image for printing is a print image for combining and printing with the still image fixed by the shutter means, the confirmation image and the print image are prepared separately. Since the image processing for printing and the image for printing are performed separately, the load of the control processing is distributed, the processing speed is hardly reduced, and the user is not stressed.
[0016]
In the present invention, when the resolution of the print image is higher than the resolution of the confirmation image, a low-resolution image with a small number of pixels is used as the confirmation image, and the high resolution with a large number of pixels is used as the print image. By using the image, in the composition processing and display processing of the confirmation image, processing is performed with a low load using a low-resolution image with a small amount of data, and in the composition processing and printing of the printing image, By using a high-resolution image, it is possible to create a beautiful photo print excellent in image quality.
[0017]
In the present invention, the first storage unit that stores the confirmation image, the second storage unit that stores the printing image, the confirmation image stored in the first storage unit, and the confirmation image. And a correspondence unit that associates the print image stored in the second storage unit with the correspondence unit, the load required for the transmission process is reduced by the correspondence unit, and the reduction in the processing speed is small. The time lag can be reduced.
For example, in the data transfer from the control means that performs the composition processing for confirmation to the control means that performs the composition processing for printing by providing a plurality of control means, performing the composition processing for confirmation and the composition processing for printing by different control devices, respectively. In the case where the image identification information is transferred and the image data is not transferred, the image data itself having a large data amount is not transferred, but only the image identification information needs to be transmitted. The load required for the transmission process is reduced, the processing speed is hardly lowered, and the time lag between the plurality of control means can be reduced.
[0018]
In the present invention, when the first storage unit for storing the confirmation image and the image conversion means for converting the confirmation image into the corresponding printing image, or the second storage for storing the printing image. In the case of including a storage unit and image conversion means for converting the print image into a corresponding confirmation image,
Since it is not necessary to prepare and store the confirmation image and the printing image for the same image, it is possible to save time and effort required for preparing the composition image. In particular, when the composition image used for the confirmation image or the print image is a period change image that is changed every predetermined period, it is not necessary to prepare two images for composition each time it is changed. This is convenient because it makes it easier to change and update data and saves maintenance costs.
[0019]
In the present invention, the first synthesizing unit synthesizes the image for synthesis with the foreground of the image captured by the camera in real time, and the second synthesizing unit synthesizes the image for synthesis over the still image foreground captured. When generating an image,
The first synthesizing unit allows the foreground of the subject to be synthesized in real time with the captured image so that the user can confirm the eye, and the second synthesizing unit synthesizes the foreground with the still image and provides it for printing.
[0020]
In the present invention, the first synthesizing means includes first extracting means for extracting a subject from an image captured by the camera, and synthesizes an image for synthesis on a portion other than the subject extracted by the first extracting means in real time, The second synthesizing unit includes a second extracting unit that extracts a subject from a still image photographed by the camera, and synthesizes an image for synthesis with a portion other than the subject extracted by the second extracting unit to generate a synthesized image. If you want to generate
The first synthesizing unit can synthesize the background of the subject with the captured video in real time so that the user can check the eye, and the second synthesizing unit synthesizes the background with the still image for printing.
In this case, the first synthesizing unit synthesizes a synthesis image in real time with the foreground of the image captured by the camera, and the second synthesis unit overwrites the synthesis image on the foreground of the captured still image. When a composite image is generated by combining, the foreground of the subject is overlaid and the background of the subject is underlayed, and in this state, the captured image of the subject is synthesized in real time and can be visually confirmed by the user. Therefore, it is possible to obtain a photographic print in which not only the frame is changed but also the frame and the background are changed.
[0021]
In the present invention, a plurality of compositing images used in the first compositing means are provided, and a user selects a compositing image used in the first compositing means from among the plurality of compositing images. If equipped with switching means,
While visually checking the real-time composite video of the user's own captured video displayed in real time and the composite image such as the frame and background to be switched and displayed, the user sequentially performs switching input of the frame and background. The composite image can be visually confirmed in real time. For this reason, it is possible to perform an elaborate shooting play such as searching for a desired frame or background, or determining a pose or facial expression that matches the background pattern.
[0022]
In the present invention, when a plurality of switching means are provided, for example, when shooting is performed by a plurality of users, one switching means may cause a hand bump when operated by two persons, or even one person may capture a background and a frame. The operation layout is difficult to grasp in the display layout that is distributed to the left and right. By using a plurality, for example, the user A can select a background image with one switching means on the left, and the user B can select a frame with the other switching means. In addition, operability is improved because the operation can be performed with a little distance between the two persons.
[0023]
In the present invention, when the switching means is arranged in a casing provided with the camera and the display means, and the switching means is further provided on the wall surface inside the photographic print providing apparatus, the case where a pause is taken away from the casing In addition, the camera can be operated without moving to the housing for every shooting.
[0024]
In the present invention, the composition image has a frame image as a foreground of the subject,
The first synthesizing unit includes an overlay synthesizing unit that synthesizes a captured image with a frame image as a foreground in real time,
When the frame image is synthesized in real time by the overlay synthesizing means, by referring to the mask data of the frame image, the captured image is an area that is hidden in the frame, an area that is not hidden by the frame, and an area that appears to be translucent To have
In the second synthesizing unit, when synthesizing with reference to the mask data similar to the first synthesizing unit and printing the synthesized image by the printer,
In shooting play where a still image is obtained by operating the shutter while displaying a composite image of the image captured by the camera and the frame image on the display means, the captured image is an area that is hidden by the frame, an area that is not hidden by the frame, and translucent It is possible to play while watching the synthesized video synthesized so as to have a region that looks like a shape. Then, a frame having a translucent part is synthesized as a foreground of a subject, so that a play in which various composite expressions can be enjoyed can be provided, and a photographic print in which such various composite expressions are made can be provided.
[0025]
In the present invention, the composition image includes a frame image that is a foreground of a subject and a background image that is a background of the subject,
The first synthesizing unit extracts a subject from the image captured by the camera, and synthesizes a background image in real time with a portion other than the extracted subject, and a background in the captured image by the underlay synthesizing unit. Overlay combining means for combining the frame image with the combined image in real time as a foreground,
When a frame image is synthesized in real time by the overlay synthesizing unit, an image in which the background is synthesized with the captured video by the underlay synthesizing unit is hidden in the frame by referring to the mask data of the frame image. Display with no visible area and semi-transparent visible area,
In the second synthesizing unit, when synthesizing with reference to the mask data similar to the first synthesizing unit and printing the synthesized image by the printer,
In shooting play where a still image is obtained by operating the shutter while displaying a composite image of a frame image with respect to an image in which the image captured by the camera and the background are combined on the display means, an image in which the captured image and the background are combined is a frame It is possible to play while watching the synthesized video synthesized so as to have an area that is hidden in the frame, an area that is not hidden by the frame, and an area that appears to be translucent. A desired background is combined with the background of the subject, and a frame with a semi-transparent portion is combined as the foreground of the subject to provide a play where a variety of combined expressions can be enjoyed, and such a variety of combined expressions It is possible to provide photo prints that have been made.
[0026]
In the present invention, there is provided an edit input means for displaying a composite image by the second composite means and receiving an edit input by a user, and the second composite means edits the composite image based on the edit input. If it is, the edited image edited based on the editing input can be output by a printer. Further, since the editing process is performed by the second synthesizing unit that performs the printing synthesizing process, it is not necessary to perform editing and synthesizing again for printing, and the use efficiency and the processing efficiency of the apparatus are improved.
[0027]
In the present invention, when the first synthesis means synthesizes a synthesized image of a predetermined image pattern among the plurality of synthesized images with the captured video and displays it on the display means, the top and bottom of the captured video is reversed and the synthesized image When a composition image in which the top and bottom of the screen is left as it is is generated and displayed on the display means, and the shutter operation is performed in that state,
For example, when using a composite image with an image pattern that looks normal with the top and bottom of the captured image reversed, a normal composite video can be confirmed when confirming the composite video before the shutter operation.
In this case, shooting is performed a plurality of times using a plurality of compositing images, and a composite image in which the top and bottom of the captured image is automatically reversed is generated when the composite image having the predetermined image pattern is used. If this is done, shooting will be performed with a composite image in which the captured image is reversed during multiple shots, and it will be possible to provide a play with changes and provide a photographic print with various composite expressions. can do.
[0028]
In the present invention, when the still image is combined with the combining image by the second combining unit and the editing input unit receives the editing input, the still image is displayed when the combining image is the predetermined combining image. And the editing input is accepted while the composite image is generated and displayed with the top and bottom of the image for synthesis intact, and the edited image is printed by the printer.
For example, when using a composite image with an image pattern that looks normal with the top and bottom of the captured image reversed, editing can be performed while viewing the normal composite video and various expressions can be made. Photographic prints can be provided.
[0029]
In the present invention, when the first control means for controlling the photographing by the first combining means and the camera, and the second control means for controlling the edit input by the second combining means and the editing input means are provided. Since the synthesizing process by the first synthesizing means and the synthesizing process by the second synthesizing means are respectively performed by different control means, the processing speed is hardly lowered and the user is not stressed.
[0030]
In the present invention, when it is configured to provide the user with at least one of shooting by the camera, reception of the edit input, and print output by the printer at a different place, a series of shooting play and edit play By providing users with different locations, the flow of customers will be smoother, and it will be possible to install devices that match the store conditions.
[0031]
In the present invention, the synthesis image synthesized as the synthesized video by the first synthesis unit is a synthesis image having a color tone corresponding to the display state of the display unit, or synthesized as a synthesized image by the second synthesis unit. When the composite image is a composite image having a color tone according to the printing state of the printer, the display device such as the monitor 20 described later and the printing device such as the printer 9 described later are used. The color reproducibility can be matched. That is, the image for synthesis synthesized as a synthesized video by the first synthesizing means has a color tone according to the display state of the display means (for example, color reproducibility of the monitor 20 described later), and the second synthesizing means. Since the composition image synthesized as the composition image has a color tone according to the printing state of the printer (for example, color reproducibility of the printer 9 described later), the composition image displayed on the display means to the user. This makes it possible to prevent the user from feeling uncomfortable due to the difference in color between the color tone of the image and the image for synthesis printed by the printer, and to prevent the user from feeling uncomfortable due to the difference in color between the synthesized video and the synthesized image. Thereby, the interest of a user's play can be heightened.
[0032]
Also, in this case, instead of faithfully expressing a composite image including a captured image taken by a camera (for example, a known color matching method), it is used as a consistently pleasant image or creative image. Photo prints that are preferred by users can be provided, and the interest of the user's games can be further enhanced. In addition, for example, in order to make it easy for the user to check the synthesized video synthesized by the first synthesizing means, a display means with excellent color reproducibility is used to improve the enjoyment of photographing, and a clear and large synthesized video is displayed. Even when displayed, or when a composite image with contrast enhanced to the same level as the bright lighting environment necessary for shooting is displayed on the display means, the color of the image for synthesis displayed on the display means and the printer were printed. It is possible to prevent a sense of incongruity due to a difference in color tone from the image for synthesis, and to prevent a sense of incongruity due to a difference in color tone in the synthesized video and the synthesized image.
[0033]
Further, in this case, the synthesis image synthesized as the synthesized video by the first synthesis unit is stored in advance as a synthesis image having a color tone according to the display state of the display unit, or by the second synthesis unit. When a composition image to be synthesized as a synthesized image is stored in advance as a composition image having a color tone according to the printing state of the printer, color conversion (color tone correction) is performed during synthesis (during play). Since no time is required, it is possible to reduce the processing load of the photo print providing apparatus and to prevent the play time from being prolonged. In addition, since a variety of images are prepared for the composition, and the optimum color tone differs for each of these images, the user's play can be performed by correcting the color tone according to the display state and the print state in advance. Can be further enhanced.
[0034]
In the present invention, first correction means for correcting the color tone of a composition image synthesized as a composite image by the first composition means in accordance with the display state of the display means, and the second correction means in accordance with the print state of the printer. When at least one of the second correcting means for correcting the color tone of the image for synthesis synthesized by the synthesizing means is provided, the first synthesizing means performs synthesis according to the display state of the display means. The color tone of the synthesis image synthesized as a video is conveniently corrected, and the color tone of the synthesis image synthesized as a synthesized image by the second synthesis unit is conveniently adjusted according to the printing state of the printer. Therefore, since it is possible to save the labor and time for adjusting the photographic print providing device, etc., to correct the color tone, the player can perform stable play and contribute to the improvement of sales at amusement stores and the like. Can do.
[0035]
In the present invention, when at least one of the first correction unit and the second correction unit corrects the color tone of the composite image by satisfying a predetermined condition (for example, when an individual difference described later occurs) It is possible to automatically correct the color tone when there is a variation in color reproducibility due to individual differences between display devices or printing devices, or when there is a change in color reproducibility due to aging of various devices. That is, by automatically correcting the color tone, different models with the same device, or individual differences with the same model of the same device (for example, product differences such as differences due to manufacturing lots, differences in aging, adjustment differences, power ON The color reproducibility is prevented from occurring due to the difference in elapsed time from Accordingly, it is possible to provide a photographic print that displays a composite image in a desired color tone and includes a composite image in a desired color tone.
[0036]
In the present invention, when the synthesis image synthesized as the synthesized image by the second synthesis unit is an image subjected to predetermined blurring processing, the synthesized image is synthesized as a synthesized image by the second synthesis unit. Image processing can be performed. Specifically, for example, when a blurring process performed by, for example, averaging the surrounding pixel values is adopted as the image process, the blurring process is performed on an image (for example, a background image described later) synthesized with the background of the subject. As a result, the subject of the composite image to be printed by photographic printing is lifted (conspicuous), and a composite image with a sense of perspective can be obtained.
[0037]
In this case, the blurring process is performed according to the sharpness (sharpness) of a captured image (for example, a still image 50 to be described later) captured by a camera on an image (for example, a frame image to be described later) combined with the foreground of the subject. It is difficult to understand a composite image at first glance, and the captured image including the subject becomes an image familiar with the composite image or the like as a composite image, and a satisfactory photographic print can be provided to the user (user). . Further, as the blurring process, for example, by applying a blurring effect to the entire image (for example, the entire image for synthesis), a photographic print that satisfies the user effectively can be provided. In addition, since it is possible to provide a user with a photo print as a creative image, rather than faithfully expressing a composite image including a captured image taken by a camera, it is possible to further enhance the interest of the user's play. Can do.
[0038]
24. The paper unit of the present invention is in a set state in which the print paper used in the printer and the storage means in which the printable number of print papers are recorded are set. The first gist is that the number of prints that can be supplied to the storage means is read by the reading means provided in the photographic print providing apparatus, and that number of photographic prints are supplied.
[0039]
In the paper unit of the present invention, a print paper used in the printer and a recording material such as an ink ribbon for printing an image on the print paper are set, and the print paper or the recording material includes the print paper or the recording material. 24. Identification information for identifying the material is attached, and a photographic print is supplied by reading the identification information by a reading unit provided in the photographic print providing apparatus according to any one of claims 1 to 23. The second gist is configured as described above.
[0040]
The paper unit of the present invention is a print paper unit provided with a print paper used in the printer, wherein the print paper is provided with identification information for identifying the print paper. A third gist is that a photographic print is supplied by reading the identification information by the reading means provided in the photographic print providing apparatus described in any one of the items.
[0041]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described in detail.
[0042]
1 to 3 are diagrams showing an embodiment of a photographic print providing apparatus according to the present invention. FIG. 1 is a cross-sectional view of an apparatus including a housing 1, FIG. 2 is a perspective view of the housing 1 viewed from the photographing side, and FIG. 3 is a perspective view of the entire apparatus.
[0043]
As shown in FIG. 1, this photographic print providing apparatus includes a casing 1 having various devices provided on the front, back, side, and inside, and is photographed on the front side of the casing 1 (right side in FIG. 1). A play is performed, a photographed image is edited and played on the back side (the side visible in FIG. 3), and a photo print is provided on the side of the housing 1. In this way, by providing the user 2 with a series of shooting play and editing play at different locations, the flow of customers becomes smoother, and it is possible to install a device that matches the situation of the store.
[0044]
On the front side of the casing 1, a back screen unit 3 is provided in a region that is the back of the subject 2. The casing 1 and the back screen unit 3 are connected to each other by a ceiling portion 4a and a support frame member 4b, and a curtain 5a is suspended from the ceiling portion 4a at a portion serving as an entrance / exit thereof. The housing 1, the back screen unit 3, the ceiling 4a, and the curtain 5a form a shooting play space 31 that is an imaging region of the present invention.
[0045]
On the other hand, a support frame member 4c is attached to the casing 1 so as to protrude to the back surface side, and a curtain 5b is suspended at the tip thereof (not shown in FIGS. 2 and 3). ). An edit play space 32 is formed between the back side of the housing 1 and the curtain 5b.
[0046]
A coin insertion slot 15 for inserting coins as a consideration for play is provided on the front surface of the casing 1, and a coin detection unit 34 (see FIG. 5) as a price receiving unit provided in the vicinity of the coin insertion slot 15. ) Is provided. Then, the coin detection unit 34 detects the inserted coin to start shooting play, and after the shooting play, edit play is performed on the shot image, and the edited shot image is printed and provided. It has become.
[0047]
A camera 6 that captures an image of the subject 2 including the user 2 in the shooting play space is provided inside the housing 1. On the front side of the camera 6, a half mirror 21 is provided at an inclination angle of 45 °, and the front surface of the housing 1 is covered with a transparent plate 10. A translucent milky white plate 11 is provided around the transparent plate 10, and behind the milky white plate 11 is a front fluorescent lamp 17 that always illuminates the subject 2 during photographing with the camera 6 during photographing play. And a front strobe 7 that emits light when a still image is taken by shutter operation.
[0048]
Inside the casing 1, a monitor 20 as a display unit for displaying a captured image as a moving image captured by the camera 6, that is, a captured moving image, is provided on an upper portion of a half mirror 21 disposed on the front side of the camera 6. It has been. The display image displayed on the monitor 20 is reflected by the half mirror 21 so that the user 2 can visually confirm it. In addition, you may arrange | position the monitor 20 so that the user 2 can confirm visually directly, without using the half mirror 21. FIG.
[0049]
In any case, an image that is appropriately inverted is displayed on the monitor 20 so that the display necessary for the operation such as the captured image from the camera 6 and the title demonstration can be correctly viewed from the user's eyes. Is done. In general, when the subject 2 moves to the right, the captured moving image that can be visually confirmed by the user 2 also improves the shooting operability when the moving image moves to the right. Therefore, the captured moving image from the camera 6 is inverted using a conventionally known inversion circuit or the like. However, when the half mirror 21 is used, the above circuit for inverting the captured moving image becomes unnecessary.
[0050]
On the front surface of the housing 1, an operation panel 16 a for performing a shooting play operation is provided below the frame-shaped milky white plate 11. On the operation panel 16a, switching buttons 22a and 22b for performing selection input and switching input of the operation input, a determination button 14 for determining selection input and switching input of the switching buttons 22a and 22b, and the determined input are temporarily canceled. A cancel button 13 is provided. One set of the switching buttons 22a and 22b is provided on the right side and the left side, respectively, so that selection input and switching input can be performed respectively.
[0051]
The switching buttons 22a and 22b function as switching input means, and enable switching input of frames and background stored images as will be described later. The determination button 14 functions as shutter means of the present invention, and the camera 6 takes a still image of the subject 2 by operating the determination button 14.
[0052]
Further, when a pose is taken away from the housing 1, another operation panel 16 b having the same function on the wall surface inside the apparatus other than the housing 1 can be operated without moving to the housing 1 for every shooting. Is provided. In this example, an operation panel 16 b having switching buttons 22 a and 22 b, a determination button 14, and a cancel button 13 is provided on the left wall surface of the shooting play space 31. An operation panel having a left switching button 22a, a determination button 14, and a cancel button 13 is provided on the left wall surface of the shooting play space 31, and a right switching button 22b, a determination button 14, and a cancel button 13 are provided on the right wall surface. An operation panel can be provided. By doing so, operability is improved.
[0053]
In addition, a speaker 18a is provided on the front of the housing 1 for outputting a demonstration voice when waiting for play and a guidance voice when shooting.
[0054]
The back screen unit 3 includes a screen 26 having a certain degree of light transmission. On the opposite side of the screen 26 from the subject 2, a back fluorescent light 28 that always illuminates the subject 2 during imaging by the camera 6 during shooting play, and a back that emits light when shooting a still image by shutter operation. A strobe 27 is provided. The screen 26 is colored in a color that facilitates the synthesis of the background as a stored image and the captured video of the subject 2. For example, when the above synthesis is performed by chroma key synthesis, a blue screen or the like is preferably used.
[0055]
On the other hand, a strobe case 30 is attached to the ceiling portion 4a. On the lower surface of the strobe case 30, a ceiling strobe 24 is provided for illuminating the subject 2 from above when shooting a still image by shutter operation. The strobe case 30 is open at the rear, and a bounce strobe 29 for irradiating the strobe light rearward is accommodated therein.
[0056]
The bounce strobe 29 is irradiated toward the reflection plate 25 provided on the upper side of the screen 26. The reflection plate 25 is inclined obliquely downward, and radiates reflected light obliquely upward and rearward near the head of the subject 2.
[0057]
The front strobe 7, the back strobe 27, the ceiling strobe 24, and the bounce strobe 29 on the front of the housing 1 are used to select which strobe light is emitted by the switching buttons 22a and 22b and the decision button 14, and the combination or emission of strobes that emit light. The balance etc. can be selected.
[0058]
On the front side of the casing 1, the user 2 enters the shooting play space 31 and inserts coins into the coin insertion slot 15 to perform shooting play.
[0059]
In the shooting play, a moving image shot by the camera 6 and a stored image read from a stored image storage unit to be described later are synthesized in real time by the first synthesizing unit 90 (see FIGS. 4 and 5) and synthesized. The video is displayed in real time on the monitor 20 so that the subject 2 can be visually confirmed. At this time, a low-resolution confirmation image is used as a synthesis image such as a frame or background to be synthesized by the first synthesis unit 90.
[0060]
In addition, the stored image can be switched and input by the user 2 operating the switching buttons 22a and 22b, and the stored image to be combined with the captured moving image is switched in real time in accordance with the switching input. Then, the synthesized video synthesized in real time is switched and displayed on the monitor 20 in real time, and a synthesized video using a desired stored image is determined from the synthesized video displayed by switching by the shutter operation by the decision button 14 to be predetermined. Fixed as a still image 50 of timing.
[0061]
When the shooting play is completed, the subject 2 moves to the back side of the housing 1 and performs an edit play. Next, the rear side of the housing 1 where the edit play is performed will be described.
[0062]
An edit input panel 23 for performing edit input in edit play is provided on the back side of the housing 1. The edit input panel 23 displays a shot image as a still image 50 shot at a predetermined shutter timing in shooting play by the camera 6, and the edit display 8 that receives an edit input in that state, and the edit And a touch pen 12 for performing editing input to the display 8.
[0063]
At this time, the synthesized image displayed on the editing display 8 is synthesized by the second synthesizing unit 60 (see FIGS. 4 and 5) with the captured image as the still image 50 and the synthesis image such as the frame and the background. This is a composite image. Then, a high-resolution printing image is used as the combining image used by the second combining unit 60.
[0064]
For example, a liquid crystal tablet or the like is used as the editing display 8 and includes a display processor, a monitor unit, and a touch panel. Then, in accordance with the operation instructions displayed on the monitor unit of the editing display 8, various operation signals are input by bringing the tip of the touch pen lightly into contact with the touch panel on the surface of the editing display 8. Data can be input along with the display.
[0065]
The tip of the touch pen 12 is brought into contact with the touch panel on the surface of the editing display 8 so that characters and figures can be drawn and input. Image data such as handwritten characters and figures, stamp images, etc. Is synthesized with the still image 50 of the subject 2 photographed and fixed by the camera 6 by the second synthesizing means 60 (see FIGS. 4 and 5), and the edited image is displayed on the monitor unit of the editing display 8. In addition, as will be described later, it is printed out by the printer 9. Reference numeral 18b denotes a speaker for outputting a guide voice for editing play.
[0066]
The side face of the casing 1 is provided with a delivery port 19 through which the printed photographic print is discharged. The user 2 who has finished editing play waits for the printing to end before the delivery port 19. Photo prints are provided.
[0067]
Next, the system configuration of the photographic print providing apparatus will be described. FIG. 4 shows the outline of the system of the above apparatus, and FIG. 5 shows the details.
[0068]
As shown in FIG. 4, this apparatus includes a first synthesizing unit 90 that generates a synthesized video by synthesizing a captured moving image that is a moving image by the camera 6 and a composition image, and the captured moving image is a shutter by a decision button 14. A second synthesizing unit 60 for synthesizing the still image 50 fixed by the operation and the synthesis image to generate a synthesized image is provided. Then, the first synthesized image by the first synthesizing unit 90 is displayed in real time on the monitor 20 to allow visual confirmation of the synthesized video on the subject 2, and the synthesized image generated by the second synthesizing unit 60 is printed by the printer 9. It is now offered as a photo print.
[0069]
Here, the composition image used in the first composition unit 90 is a confirmation image that is displayed on the monitor 20 as a composition moving image and visually confirmed by the user 2, and is a relatively low-resolution frame image. And the background image are stored as a low-resolution image group 93 as the first storage unit of the present invention.
[0070]
Further, the composition image used in the second composition means 60 is a print image for composition and printing with the still image 50 fixed by the shutter operation, and has a resolution higher than the resolution of the confirmation image. Images are used. The high-resolution frame image and background image are stored as a high-resolution image group 94 as the second storage unit of the present invention.
[0071]
The printing image used in the second synthesizing unit 60 is substantially the same image corresponding to the confirmation image used in the first synthesizing unit 90, and the confirmation image stored in the low resolution image group 93. And a correspondence unit 92 for associating the print image of the high-resolution image group 94 corresponding to the confirmation image.
[0072]
In this way, the confirmation image used for the first composition unit 90 and the print image used for the second composition unit 60 are prepared separately, and the composition process for confirmation by the monitor 20 and the composition process for printing by the printer 9 are separately provided. Therefore, the load of the control process is distributed, the decrease in the processing speed is small, and the user is not stressed. In addition, by using a low-resolution image with few pixels for confirmation and using a high-resolution image with many pixels for printing, a low-resolution image with a small amount of data is used for composition processing and display processing for confirmation. Thus, processing is performed with a light load, and a beautiful photo print with excellent image quality can be created by using a high-resolution image in the composition processing or printing for printing.
[0073]
More specifically, as shown in FIG. 5, in this apparatus, the first computer device 37 is mainly used as a control means for controlling photographing play, and the second computer device 38 is mainly used as a control means for controlling editing play and printing. And. The first computer device 37 and the second computer device 38 are connected so as to be able to transmit data directly or via a network hub (not shown).
[0074]
First, the first computer device 37 will be described.
[0075]
A camera 6, a monitor 20, a strobe control circuit 36, and a first control circuit 39 are connected to the first computer device 37. The strobe control circuit 36 controls the front strobe 7, the back strobe 27, the ceiling strobe 24, the bounce strobe 29, the presence / absence of light emission, light emission balance, light emission timing, and the like.
[0076]
The first control circuit 39 controls the coin detector 34, the service panel 40a, the speaker 18a, and the operation panels 16a and 16b. As described above, the operation panels 16a and 16b are provided with the switching buttons 22a and 22b, the determination button 14, and the cancel button 13 (see FIG. 2).
[0077]
The service panel 40a is operated by a person who operates the installed device, and is necessary for a coin counter that counts the number of inserted coins, a volume adjustment knob that adjusts a volume output from a speaker, and a photographing side of the device. A maintenance button for performing a maintenance mode and a service button for enabling the apparatus to be used without inserting coins such as a test play are provided.
[0078]
The first computer device 37 includes a CPU 44, a memory 45, a driver 46, a communication unit 47, and the like. Specifically, the first computer device 37 includes a storage device 41 and a first synthesis unit 90.
[0079]
The storage device 41 stores a control program 48 for mainly controlling shooting play, an operation screen 49 displayed on the monitor 20 in accordance with the control program 48, and a still image 50 fixed by the camera 6 by a shutter operation. Yes. This still image 50 is not a frame or background synthesized, but is a photograph of the subject 2 in the photographing region as it is, and the subject 2 and the screen 26 behind it are reflected.
[0080]
In addition, the storage device 41 functions as first and third storage units that store storage images such as frames and backgrounds to be combined with a captured moving image that is a moving image by the camera 6, and the frame image and the background image are stored in the storage device 41. It is remembered. The frame image and the background image stored in the storage device 41 are low-resolution confirmation images that are displayed on the monitor 20 as composite images and are visually confirmed by the user 2. The resolution background image group 51 and the low resolution frame image group 52 are stored.
[0081]
The first combining unit 90 includes an underlay combining unit 42, an overlay combining unit 43, and a capture 91 (see FIG. 6) as necessary. The underlay synthesizing unit 42 and the overlay synthesizing unit 43 synthesize the stored image read from the stored image storage unit and the captured moving image as a moving image in real time.
[0082]
The underlay synthesizing means 42 includes first extracting means (not shown) for extracting the subject 2 from the image picked up by the camera 6, and a low resolution background is provided in a portion other than the subject extracted by the first extracting means. A background image is read from the image group 51 and synthesized in real time.
[0083]
The overlay composition unit 43 reads out a frame image from the low-resolution frame image group 52, and further synthesizes the frame image as a foreground with the image in which the background is synthesized with the moving image by the underlay synthesis unit 43. Then, the synthesized moving image obtained by combining the moving image synthesized by the overlay synthesizing unit 43 with the background and the frame image in real time is output to the monitor 20 and displayed in real time.
[0084]
In this manner, the frame that is the foreground of the subject 2 is overlay-synthesized, and the background of the subject 2 is underlay-synthesized. In this state, the captured moving image of the subject 2 is synthesized in real time and can be visually confirmed by the user. In this state, frame and background switching input and switching display are possible, so that it is possible to obtain a photographic print in which both the frame and the background are changed as well as the conventional frame. It is done. In addition, switching input and switching display for both the frame and the background are possible, and a more elaborate shooting play is possible. In particular, since low-resolution confirmation images with a small amount of data are used as frames and backgrounds, the processing load at the time of switching display can be reduced, and smooth switching display is realized and stress is applied to the user. Absent.
[0085]
Here, FIG. 6 shows an example of the underlay combining unit 42, the overlay combining unit 43, and the capture 91.
[0086]
6A, the live video from the camera 6 is synthesized with the background by the underlay synthesis means 42, the image is taken into the first computer device 37 by the capture 91, and the frame is synthesized by the overlay synthesis means 43. Display on the monitor 20.
[0087]
6B, the live video from the camera 6 is captured by the first computer device 37 by the capture 91, the background is synthesized by the underlay synthesis means 42, and the frame is synthesized by the overlay synthesis means 43. Display on the monitor 20.
[0088]
In FIG. 6C, the live video from the camera 6 is combined with the background by the underlay combining unit 42, and the frame is combined by the overlay combining unit 43, and then captured by the first computer device 37 by the capture 91. It is the aspect displayed on.
[0089]
FIG. 6D shows a mode in which the live video from the camera 6 is combined with the background by the underlay combining unit 42 and the frame combined by the overlay combining unit 43 is directly displayed on the monitor 20.
[0090]
As described above, the operation panels 16a and 16b include the switching buttons 22a and 22b, the determination button 14, and the cancel button 13. By operating the switching buttons 22a and 22b by the user 2, the switching input of the frame and the background can be performed from the list of frames and backgrounds stored in the low resolution background image group 51 and the low resolution frame image group 52.
[0091]
Then, in response to a frame or background switching input by the switching buttons 22a and 22b, the overlay combining unit 43 and the underlay combining unit 42 switch the frame and background to be combined with the captured moving image and combine them in real time. The synthesized video synthesized in real time is switched and displayed on the monitor 20 in real time.
[0092]
In this way, the user 2 can check the frame and background sequentially while visually confirming the real-time composite image of the captured moving image of the user 2 himself / herself displayed in real time and the frame and background to be switched and displayed. While performing the switching input, the composite image can be visually confirmed in real time. For this reason, it is possible to perform an elaborate shooting play such as searching for a desired frame or background, or determining a pose or facial expression that matches the background pattern.
[0093]
In the operation panels 16a and 16b, the left switching button 22a functions as background switching input means for performing the background switching input, and the right switching button 22b is used as frame switching input means for performing the switching input of the frame. Function. The background switching input and the frame switching input can be separately performed by the left and right switching buttons 22a and 22b in accordance with the course of shooting play.
[0094]
For example, when shooting with a plurality of users (for example, Mr. A and Mr. B), with one set of switching buttons, when the background and the frame are selected independently, if two people operate, the hands may collide or even one person The display layout with the background and frame divided to the left and right makes it difficult to grasp the operation image. By using two sets, for example, Mr. A can select a background image with the left switching button 22a, and Mr. B can select a frame with the right switching button 22b. In addition, operability is improved because the operation can be performed with a little distance between the two persons.
[0095]
And by switching input for the background and switching input for the frame, the user can freely select the combination of the frame and the background, making it possible to have a more elaborate shooting play and a variety of changes. Photo prints can be provided. Even at this time, since the low-resolution confirmation image with a small amount of data is used as the frame and background, the processing load at the time of switching display can be reduced, and smooth switching display can be realized to stress the user. Not give.
[0096]
Further, the first synthesizing unit 90 includes an overlay synthesizing unit 43 that synthesizes the frame with the captured moving image and an underlay synthesizing unit 42 that synthesizes the background. Since the synthesizing process is performed separately, the load of the control process is distributed, the processing speed is hardly lowered, and the user is not stressed.
[0097]
Also, it is possible to set a predetermined combination of the background and the frame in advance according to the shooting play course, and to perform switching input in units of the combination by operating the switching buttons 22a and 22b. In this case, in the case of an operation that does not require the two sets of switching buttons 22a and 22b, either one set of inputs may be accepted, or two sets of inputs may be accepted.
[0098]
In this way, by previously setting a combination that matches the pattern as a combination of the frame and the background, and performing switching input in units of the combination, the user 2 does not have to worry about selecting a combination that does not match the pattern or color. Therefore, it is possible to eliminate unnecessary operations and to substantially increase the time for searching and selecting a frame and a background. For this reason, it is possible to give the user 2 enough time to think, or conversely, to shorten the play time and improve the customer turnover rate.
[0099]
The shooting play course will be described later, but is selected by the user at the start of the shooting play, and a shooting play corresponding to the course is executed.
[0100]
The operation panels 16a and 16b are provided with a determination button 14 and a cancel button 13.
[0101]
The determination button 14 determines a composite image using a desired frame or background from among the composite images that are switched and displayed by the operation of the switch buttons 22a and 22b by the user, and forms a still image 50 at a desired moment. It functions as shutter means for fixing. By doing this, the still image 50 can be shot by selecting a desired frame or background from a number of frames or backgrounds in a state where the frame or background and the captured moving image are actually combined. It makes it easier to select the optimal frame and background according to the clothes, hairstyle, mood and play friends at that time.
[0102]
The still image 50 of the subject 2 photographed by the operation of the determination button 14 is, together with the identification information for identifying the frame and the background selected when the still image 50 is photographed when the photographing play is finished, the second computer device. 38. In the second computer device 38, an edit play using the still image 50 is executed.
[0103]
The cancel button 13 is operated when canceling the operation input once determined by operating the determination button 14 or returning the operation screen once advanced.
[0104]
Next, the second computer device 38 will be described.
[0105]
The second computer device 38 includes an editing display 8 that functions as an editing input unit that receives editing input at the time of editing play, a printer 9 that prints and outputs an image edited by editing play on the print medium 35, and a speaker. A second control circuit 62 for controlling 18b and the service panel 40b is connected. The editing display 8 is provided with a touch pen 12 for performing editing input and operation input.
[0106]
The service panel 40b is operated by a person who operates the installed apparatus, and is necessary on the editing side of the apparatus, a print counter for counting the number of printed prints, a volume adjustment knob for adjusting the volume output from the speaker, and the like. A maintenance button for performing a maintenance mode is provided.
[0107]
The second computer device 38 includes a CPU 44, a memory 45, a driver 46, a communication means 47, and the like. Specifically, the second computer device 38 includes a storage device 33 in which a control program 53 for mainly controlling edit play is stored.
[0108]
The storage device 33 includes an operation screen 57 displayed on the editing display 8 according to the control program 53, and a still image 50 of the subject 2 photographed by the shutter operation in the photographing play and transmitted from the first computer device 37. Is remembered.
[0109]
The storage device 33 functions as a second storage unit and a fourth storage unit of the present invention that store stored images such as frames and backgrounds to be combined with the still image 50. It is remembered. The frame image and the background image stored in the storage device 33 are displayed as a composite video on the editing display 8 so that the user 2 can visually confirm the frame image and the background image, and are used when the still image 50 is printed out on the print medium 35. The high-resolution print image is stored as a high-resolution background image group 55 and a high-resolution frame image group 54.
[0110]
Further, the storage device 33 stores an editing image 56 such as a hand-drawn image or a stamp image input to the editing display 8 with the touch pen 12 in the editing play.
[0111]
The control program 53 includes a subject extraction unit 59 that extracts the subject by removing the reflection of the screen 26 from the still image 50 (an image in which the screen 26 is reflected on the back of the subject 2), and the subject extraction unit 59. A high-resolution frame and background are read out and combined with the subject image extracted in step (2), and the editing image 56 input to the editing display 8 is further combined with the combined image. Means 60.
[0112]
The second synthesizing unit 60 includes a second extracting unit (not shown) for extracting the subject 2 from the still image 50 photographed by the camera 6, and the second synthesizing unit 60 is provided on a portion other than the subject extracted by the second extracting unit. A high resolution frame and background are combined to generate a composite image.
[0113]
The high-resolution frame and background to be combined with the subject image in the second combining unit 60 are stored in the storage device 33 as the high-resolution background image group 55 and the high-resolution frame image group 54. The high-resolution frame and background read out at this time have the same color pattern as the selected frame and background when the still image 50 of the subject 2 is shot by operating the enter button 14 in shooting play. Uses a low resolution frame and background (confirmation image), whereas a high resolution frame and background (print image).
[0114]
That is, the first computer device 37 and the second computer device 38 store the same frame image and background image, but in this example, they are not the same image data. At the time of shooting play, if the image data of about 640 × 480 dots is sufficiently used, the first computer device 37 stores a low resolution image. On the other hand, since high resolution images are required for editing play and printing, high resolution images of about 1280 × 1024 dots are stored and used.
[0115]
As described above, since the confirmation image and the printing image are prepared separately, the confirmation image combining process and the printing image combining process are performed separately, so that the load of the control process is distributed and the processing speed is reduced. There is little drop and does not let user feel stress. In addition, since a low-resolution image with few pixels was used as the confirmation image and a high-resolution image with many pixels was used as the print image, a low-resolution image with a small amount of data was used in the composition and display processing of the confirmation image. A high-resolution image can be used to create a beautiful photographic print with excellent image quality in the process of combining and processing a print image.
[0116]
Here, in the correspondence unit 92, for example, the correspondence between the high-resolution print image and the low-resolution confirmation image is performed as follows. That is, reading from the high-resolution frame and the background high-resolution background image group 55 and the high-resolution frame image group 54 is selected when the still image 50 transmitted from the first computer device 37 is captured by the shooting play. This is done based on the identification information for identifying the frame and the background.
[0117]
Specifically, a part of the file name of the image in the first computer device 37 and the image in the second computer device 38 is made common. For example, “PICT01_1.BMP” may be used for the first computer device 37 and “PICT01_2.BMP” may be used for the second computer device 38 to indicate that PICT01 is an image having the same picture. Also, information (table or the like) for associating a unique image number with an associated image file name or the like is defined, and the table is stored in the first computer device 37 and the second computer device 38 for reference. You can also In this way, it is possible to synchronize which frame or background is used in the shooting play.
[0118]
As described above, a plurality of computer devices are provided, and the confirmation image composition processing and the print image composition processing are performed by different computer devices, and the print composition processing is performed from the first computer device 37 that performs the confirmation composition processing. In the data transfer to the second computer device 38, since the image identification information is transferred and the image data itself is not transferred, the image data having a large amount of data is not transferred. Since only the identification information needs to be transmitted, the load required for the transmission process is reduced, the processing speed is hardly reduced, and the time lag between the plurality of control means can be reduced.
[0119]
Furthermore, an operation unit (for example, a power switch or the like) can be provided so that the power supplied to the plurality of computer devices can be turned on and off independently of each other. In such a case, even if a problem occurs in one computer device that cannot be recovered without turning off the power, only the power supply of the computer device with the abnormality can be turned on and off. Does not affect the other computer device. For example, as described above, when shooting play and editing play are played simultaneously in different places, even if an abnormality occurs on the shooting play side, the editing play side is not affected, and the device returns to normal. As a result, there is no wasted time for the user on the editing play side.
[0120]
The storage device 33 also has a still composite image 58 composed of the still image 50 synthesized by the second synthesis means 60, a high-resolution frame and background, and an editing image 56 such as a hand-drawn image or a stamp image. Remembered.
[0121]
At this time, the editing image 56 such as the stamp image is prepared and stored in a plurality of types according to the editing course. In this editing play, in the automatically selected editing course, the editing display 8 displays a stamp tool which is an editing input tool set to be different from other editing courses in relation to the selected shooting course. Thus, editing using a stamp image corresponding to the shooting course can be performed.
[0122]
The still composite image 58 that has been edited according to the editing course is output to the print medium 35 by the printer 9 and provided as a photographic print. At this time, since a higher-resolution printing image having a high image quality is used as a frame or background, a beautiful photo print can be provided.
[0123]
An example of the operation of the photographic print providing apparatus will be described with reference to the flowcharts of FIGS. Here, in FIGS. 7 to 10, “S” means a step.
[0124]
First, the entire process will be described with reference to FIG.
[0125]
In the apparatus described in this example, the user 2 performs a shooting play in the shooting play space 31, and when the shooting play ends, the user 2 moves to the editing play space 32 and performs an editing play. When the edit play is finished, it waits for the photographic print to be discharged in front of the sending port 19 on the side surface of the housing 1. The shooting play is controlled mainly by the first computer device 37, and the editing play is controlled mainly by the second computer device 38.
[0126]
First, when the device is turned on, the control programs 48 and 53 stored in the storage devices 41 and 33 of the first computer device 37 and the second computer device 38 are activated, and the devices start to operate. When the device is activated, the devices connected to the first computer device 37 and the second computer device 38 are checked, and if there is no abnormality, a title demonstration screen is displayed on the monitor 20 (S1). In the title demonstration screen display state, the machine always waits for coins to be inserted. If a coin is inserted, the process proceeds to the next step. If no coin is inserted, the display of the title demonstration screen is continued.
[0127]
When the user 2 enters the shooting play space 31, a coin is inserted into the coin insertion slot 15 and a coin is detected by the coin detection unit 34 (S <b> 2), the monitor 20 displays a shooting course selection screen shown in FIG. 11. It is displayed (S3). In this example, three types of menus 61 of “auto frame course”, “multi-frame course”, and “select frame course” are prepared and displayed as the shooting course menu.
[0128]
The shooting course is selected by switching the selection buttons 22a and 22b on the operation panels 16a and 16b, and the selection button 14 is operated to determine the selection input. The counter 81 displayed on the upper left of the screen is the remaining time during which a course can be selected. A specified time (for example, 20 seconds) is displayed first, and the count decreases as time elapses. The user 2 selects and decides the course until the counter reaches 0, but if it is not decided even when the count becomes 0, the course selected at the current cursor position is decided.
[0129]
Here, when “auto frame course” is selected, shooting of the auto frame course is executed (S4), and when “multi frame course” is selected, shooting of the multi frame course is executed (S5). When “Select Frame Course” is selected, shooting of the Select Frame Course is executed (S6). The shooting operation of each shooting course will be described later.
[0130]
In the shooting of each of the shooting courses, the still image 50 obtained by shooting the subject 2 and the frame and background identification information used for the shooting are stored in the first computer device 37 or the second computer device 38. Is transmitted.
[0131]
In this example, steps 4, 5, and 6 are shooting play, and when steps 4, 5, and 6 are completed, a message prompting movement to the edit play space 32 is displayed on the monitor 20 on the monitor 20. Then, the user 2 exits the shooting play space 31 and moves to the edit play space 32, and the edit play is started.
[0132]
At this time, when the second computer device 38 detects that the photographing play by the first computer device 37 is completed, the second computer device 38 detects the still image 50 in the first computer device 37 and the frame used for the photographing. And read background identification information. The method of synchronizing these operations may be performed for an inquiry from either computer device 37 or 38.
[0133]
When the shooting operation of each shooting course is completed and editing play is started, the second computer device 38, the still image 50 read from the first computer device 37, and the frame and background identification information used for shooting the still image 50 Based on the above, a high-resolution frame and background are read out, and a still synthesized image 58 is synthesized.
[0134]
The editing display 8 displays a photo selection screen, displays a list of still composite images 58 using still images 50 obtained by a plurality of shutter operations in the shooting course, and the user 2 displays the displayed images. A desired number of images (which may be all or a part) is selected from among the images with the touch pen 12 (S7). As a result, it is possible to delete a captured image that does not require subsequent editing or printing.
[0135]
When a photo is selected, the brightness adjustment screen for the photographed image is displayed on the editing display 8, and the touch pen 12 is operated to adjust the brightness of the selected photo (S8). Next, in S8, the orientation of the selected image can also be rotated.
[0136]
When the brightness adjustment is completed, a sticker division selection screen is displayed on the editing display 8. In accordance with the number of photos selected in S7, a plurality of seal layouts to be printed on the print medium 35, which are laid out in a predetermined arrangement according to the size of the photos, the number of photos, etc., are displayed, and a desired seal layout is displayed. Is selected by touching with the touch pen 12 (S9).
[0137]
In the edit play, a graffiti screen (see FIG. 20) is displayed on the edit display 8, and an edit play is performed (S10). Details of the graffiti screen and the edit play will be described later. When the edit play is completed, the image data of the edited still composite image 58 is sent to the printer 9, printed out on the print medium 35, and the photographic print is discharged from the delivery port 19 (S11).
[0138]
Next, the details of each of the shooting courses will be described.
[0139]
First, the “select frame course” will be described with reference to the flowchart of FIG.
[0140]
In this “select frame course”, the user 2 separately selects and inputs a favorite frame and a favorite background, and monitors an image in which the selected and input frame, the background, and a moving image captured by the camera 6 are combined. 20 can be taken while checking.
[0141]
When “Select Frame Course” is selected in S3 of FIG. 7, the genre selection screen shown in FIG. 12 is displayed on the monitor 20 (S300). On this genre selection screen, a genre selection unit 75 displaying a plurality of genre names is displayed, and the selection input is switched by operating the switch buttons 22a and 22b from the genres displayed here. During the selection, the frame image and background image of the currently selected genre are displayed in the genre description unit 76. Thereby, the user 2 can confirm what kind of image is in which genre, and can easily select a favorite genre. The genre is determined by the determination button 14, and the process proceeds to the next step. The cancel button 13 returns to the course selection screen of S3 in FIG.
[0142]
When the preferred genre is determined in S300, the shooting screen of FIG. 13 is displayed and shooting is performed (S301). On this shooting screen, a live video display unit 77 for displaying in real time a synthesized moving image in which a captured moving image that is a captured image taken by the camera 6 and a selected frame and background is synthesized in real time is displayed at the center of the screen. In addition, a background selection unit 78 for selecting a background by displaying a plurality of thumbnail images of the background vertically is displayed on the left side of the screen, and a frame is selected by displaying a plurality of thumbnail images of the frame vertically and on the right side of the screen. A frame selection unit 79 is displayed. Also, on the lower side of the center of the screen, there is displayed an illumination method selection unit 80 displayed as “normal flash”, “flash from above”, “bazooka flash”, and “all flash”. A counter 81 for displaying the remaining time is displayed on the upper center of the screen.
[0143]
On this shooting screen, the user 2 selects a background image with the left switching button 22a, and selects a frame image with the right switching button 22b (S302). In the selected background image and frame image, the thumbnails of the background selection unit 78 and the frame selection unit 79 are highlighted, and the captured moving image from the camera 6 is instantly synthesized and displayed on the live video display unit 77. In this image composition, the first computer device 37 reads the frame and background from the low-resolution background image group 51 and the low-resolution frame image group 52, and the underlay composition unit 42 and the overlay composition unit 43 from the camera 6. It is combined with the video and displayed. As described above, in the shooting play, the frame and the background are only displayed on the monitor 20, so that the processing load is reduced by using the low-resolution image.
[0144]
When switching the frame or background, the user 2 switches the background image with the left switching button 22a and switches the frame image with the right switching button 22b. In response to this, the frame and background selected by switching are combined with the moving image from the camera 6 in real time, and switched and displayed on the live video display unit 77 in real time. As a result, the user 2 can check the synthesized moving image while switching the background image or the frame image in various ways before the shutter operation, and can shoot while having fun.
[0145]
In addition, the apparatus is provided with strobes at a plurality of locations (see FIGS. 1 and 5), and it is possible to select which strobe light to irradiate at the time of shooting by operating the cancel button 13. In the “normal flash”, the front strobe 7 is irradiated to produce a normal shooting effect. In the “flash from above”, the ceiling strobe 24 of a point light source is irradiated, and the user's 2 head can be photographed with a shine like an angel ring. In the “bazooka flash”, the bounce strobe 29 emits light, illumination from an oblique upper back using the reflected light from the reflector 25 is performed, and the subject 2 is bright overall as if it is wrapped with light from the upper rear. The image is finished using the backlight effect with slightly blurred outlines. In “all flashes”, all of these effects are achieved by irradiating all of them, and being bright overall and optimizing the balance of light quantity.
[0146]
Here, the back strobe 27 emits light in any lighting method, and the shadow of the subject 2 is prevented from being formed on the screen 26 to improve the background synthesis accuracy. In addition, the back fluorescent lamp 28 always emits light when displaying a synthesized moving image of a captured moving image and a frame or background on the monitor 20 while switching the frame or background, and prevents the shadow of the subject 2 from being formed on the screen 26. In addition, the synthesis accuracy of the synthesized video that is switched and displayed in real time is improved.
[0147]
The frame and background switching selection and the lighting method selection input can be selected until the counter 81 becomes zero. When it becomes 0, it is forcibly decided by the contents selected at that time. If the OK button 14 is pressed as an instruction to start shooting before the counter reaches 0 (S303), the sound is displayed as "3.2.1" and the countdown display is based on the screen display. The shutter is operated and the still image 50 is photographed (S304).
[0148]
By the shutter operation, the camera 6 takes a still image 50 of the subject 2. At this time, the monitor 20 displays a composite image of the photographed still image 50 and the frame and background selected at that time. In addition, by the shutter operation, the camera 6 captures the still image 50 of the subject 2 and stores the image data, and stores the frame and background identification information selected at the time of the shutter operation in association with each other. These pieces of information are transmitted from the first computer device 37 to the second computer device 38 upon completion of the photographing play, and are used in the edit play in the second computer device 38. Thus, the composite image is created for confirmation at the time of shooting, and the composite image itself is not stored, but only the captured still image 50 is stored.
[0149]
In S305, it is determined whether or not a predetermined number of times (for example, six times) has been taken. If the number has not reached the prescribed number (NO in S305), the same frame / background / illumination method is used in S306. It is determined whether or not a predetermined number of times (for example, twice) has been taken with the selected content.
[0150]
If the predetermined number of times (in this case, twice) has not been reached for the same frame / background / lighting method selection in S306 (NO in S306), the process returns to S304 and the photographing operation is performed up to the predetermined number of times (in this case, twice). Repeated. If the specified number of frames / background / illumination method selections has been reached in S306 (YES in S306), the process returns to S302, and the frame image, background image, and illumination method can be selected again. In this case, the operation is repeated 6 times). On the other hand, when the specified number of times of shooting is finished, the shooting course is finished and the process proceeds to the next process. (YES in S305)
[0151]
Next, the “auto frame course” will be described based on the flowchart of FIG.
[0152]
In this “auto frame course”, a plurality of types of combinations of frame images and background images are prepared in advance, and shooting is performed by selecting the combination of the frame image and the background image. Since it is sufficient to select from combinations prepared in advance, it is not necessary to select the frame image and the composite image separately, which is convenient for the user 2.
[0153]
When “Auto Frame Course” is selected in S3 of FIG. 7, the shooting screen of FIG. 14 is displayed (S100). On this shooting screen, a live video display unit 77 for displaying in real time a combined moving image in which the moving image captured by the camera 6 and the selected frame and background are combined in real time is displayed in the center of the screen. On the left and right sides of the screen, a combination selection unit 82 for selecting a combination image by displaying a plurality of thumbnail images of the combination image in which the frame and the background are combined is displayed. Also, on the lower side of the center of the screen, there is displayed an illumination method selection unit 80 displayed as “normal flash”, “flash from above”, “bazooka flash”, and “all flash”. A counter 81 for displaying the remaining time is displayed on the upper center of the screen.
[0154]
On this shooting screen, the user 2 selects a combination image using the left and right switching buttons 22a and 22b (S101). In the selected combination image, the thumbnail of the combination selection unit 82 is highlighted, and the moving image from the camera 6 is instantaneously combined and displayed on the live video display unit 77. In this image composition, the first computer device 37 reads the frame and background from the low-resolution background image group 51 and the low-resolution frame image group 52, and the underlay composition means 42 and the overlay composition means 43 compose the moving image. And displayed on the monitor 20.
[0155]
When switching the combined image of the frame and the background, the user 2 switches the image with the left and right switching buttons 22a and 22b. In response to this, the combination image of the frame and background selected by switching is combined with the moving image from the camera 6 in real time, and is switched and displayed on the live video display unit 77 in real time. At this time, since a low-resolution confirmation image with a small amount of data is used as a frame or background, the processing load during switching display can be reduced, and smooth switching display can be realized. The counter 81 and the illumination method selection unit 80 are the same as those in the select frame course.
[0156]
When the enter button 14 is pressed (S102), after the sound of “3.2.1” and the countdown display by the screen display, the strobe is irradiated and the shutter of the camera 6 operates to take a still image 50 ( S103).
[0157]
Then, in S104, it is determined whether or not the prescribed number of times (for example, six times) has been taken. If the number of times has not reached the prescribed number (NO in S104), the same frame / background / lighting method in S105. It is determined whether or not a predetermined number of times (for example, twice) has been taken with the selected content.
[0158]
If the prescribed number of times (in this case, twice) has not been reached (NO in step S105) in the selection of the same frame / background / illumination method in S105 (NO in S105), the shooting operation is repeated up to the prescribed number (in this case, twice). Repeated. If the specified number of frames / background / illumination method selections has been reached in S105 (YES in S105), the process returns to S101 so that the frame image, background image, and illumination method can be selected again (the specified number of times In this case, the operation is repeated 6 times). On the other hand, when the prescribed number of times of shooting is finished (YES in S104), a preview screen shown in FIG.
[0159]
On this notice screen, the message “Preparing for graffiti, please wait for a while”, the message “Tomorrow is this frame, come again” and the frame and background that can be selected the next day will be displayed. The combination screen 83 is displayed in advance (S106). After being displayed for a predetermined count time by the counter 81, the shooting course ends and the process proceeds to the next process.
[0160]
In this way, the combination image of the frame and background that can be selectively input is a daily image that is changed every day, and the combination screen 83 that can be selected and input on the next day at the timing of the end of the shooting play during the play. Since the user 2 wants to use again if there is something he / she likes by seeing the notice display on the combination screen 83 that can be used on the next day, the repeat effect of the user 2 is increased. It leads to. In addition, it is possible to provide a timeless play for the user 2.
[0161]
The images that can be selected are not limited to daily changes, and can be changed as appropriate, such as weekly or monthly. In addition, here, the case where a combined image of a frame and a background is illustrated as an image to be displayed as a notification image as a daily image, but the present invention is not limited to this. You can also Such a notice display can also be performed in a multi-frame course or a select frame course.
[0162]
Next, the “multi-frame course” will be described with reference to FIG.
[0163]
In this “multi-frame course”, scenes are set for each genre, and images (frame images and background images) corresponding to the scenes are determined in advance. In this course, the user does not select the frame image or the background image directly, but simply selects the genre and the shooting is performed continuously.
[0164]
When “multi-frame course” is selected in S3 of FIG. 7, the genre selection screen of FIG. 16 is displayed (S200). On this genre selection screen, a genre selection unit 75 displaying a plurality of genre names is displayed, and the selection input is switched by operating the switch buttons 22a and 22b from the genres displayed here. During the selection, the frame image and background image of the currently selected genre are displayed in the genre description unit 76. The genre is determined by the determination button 14, and the process proceeds to the next step. The cancel button 13 returns to the course selection screen in S3 of FIG.
[0165]
When a favorite genre is determined in S200, an illumination method selection screen shown in FIG. 17 is displayed (S201). On this illumination method selection screen, an illumination method selection unit 80 displayed as “automatic flash”, “normal flash”, “flash from above”, “bazooka flash”, or “all flash” is displayed. A counter 81 that displays the remaining time is displayed at the upper left of the screen. The selection of the illumination method is performed with the left and right switching buttons 22a and 22b and the decision button 14.
[0166]
When the above “automatic flash” is selected, it is possible to shoot with an optimal illumination method suitable for a predetermined scene. Other “normal flash”, “flash from above”, “bazooka flash”, and “all flash” are the same as in the other shooting courses.
[0167]
When the illumination method is selected, the shooting screen of FIG. 18 is displayed (S202). On this shooting screen, a live video display unit 77 for displaying in real time a composite video in which a moving image captured by the camera 6 and a frame and background determined in the first scene of the selected genre are combined in real time is displayed. (S203). Also, on the right side of the screen, a setting scene display 85 in the selected genre is displayed so that a scene is shot once in one scene, and a scene to be shot from now on is displayed by highlighting or the like.
[0168]
On the left side of the screen, a shooting notice display section 84 is displayed. In the shooting notice display section 84, the arrow moves from the top to the bottom, and the shutter operates when the arrow comes to the “shooting” place. In this course, the shutter operation by the user 2 is not required, and shooting is continuously performed. In this case, it is necessary to secure time for charging the strobe to continuously shoot, but the display of the shooting notice section can make the user 2 feel bored.
[0169]
FIG. 19 shows a second example of the shooting notice display. In FIG. 18, the shooting preview display unit 84 is displayed on the screen of the monitor 20, but in this example, a plurality of LED lamps 86 are mounted side by side outside the monitor 20 to function as shooting shooting lamps. In this case, it is easier for the user 2 to use a lamp that displays a number when it is lit, and more easily understandable if the shooting timing is represented by a mark. The above-described shooting notice lamps can be arranged not only horizontally but also vertically. Note that the shooting notice section need not be provided.
[0170]
When one shooting (S204) is completed, shooting is automatically performed in the next scene, and shooting is continuously repeated until the number of scenes (for example, seven scenes) is completed (NO in S205). The frame and background to be used in the next scene are combined with the captured moving image from the camera 6 and displayed on the live video display unit 77. When “School” is selected as the genre, “School Gate”, “Classroom”, “Playground”, “Lunch”, “Gymnasium”, “Corridor”, “Back of School Building”, etc. are prepared as scenes. At this time, since a low-resolution confirmation image with a small amount of data is used as a frame or background, the processing load at the time of switching display can be reduced, and smooth continuous shooting can be realized. When shooting at the specified number of times ends, the process proceeds to the next step.
[0171]
When the photographing operation of any one of the “auto frame course” (S4), “multi-frame course” (S5), and “select frame course” (S6) is finished, the subject 2 is photographed in the photographing course. The shot still image 50 and the frame and background identification information used for the shooting are stored in the first computer device 37 and transmitted to the second computer device 38.
[0172]
On the other hand, a message prompting the user to move to the edit play space 32 is displayed on the sound and the monitor 20, and the user 2 exits the shooting play space 31 and moves to the edit play space 32, and the edit play is started. .
[0173]
When the edit play is started, the high-resolution frame and background in the second computer device 38 based on the still image 50 transmitted from the first computer device 37 and the frame and background identification information used for shooting the still image 50. Is read out and the still composite image 58 is synthesized.
[0174]
In the edit play, a postcard screen as shown in FIG. 20 is displayed on the edit display 8, and an edit play is performed (S10).
[0175]
In the graffiti screen, 63 is a graffiti input unit, which displays a still composite image 58 of a frame, a background, and a subject image captured in photographing play, and an editing image 56 such as a hand-drawn image or a stamp image by operating the touch pen 12. Accepts input. Reference numeral 64 denotes a counter that displays the remaining time of the edit play, and 66 is an end button that is operated before the counter reaches 0, that is, before the predetermined edit play time is reached, to end the edit play.
[0176]
An image switching unit 65 is an active state in which a plurality of thumbnail images are displayed for the still composite image 58 of the frame, background, and subject image captured in the shooting play and displayed on the graffiti input unit 63 for graffiti input. It becomes possible to switch the still composite image 58.
[0177]
Reference numeral 73 denotes a tool selection unit that selects an editing tool to be used for editing input. 73d is a pen button that is selected when a pen is input, and 73c is a stamp button that is selected when a stamp is input. 73a A background button to be selected when changing the background of the still synthetic image 58 displayed on the postcard input unit 63, and a frame to be selected when changing the frame of the still synthetic image 58 displayed on the postcard input unit 63. Button.
[0178]
Reference numeral 72 denotes an edit input selection unit, which displays an edit input menu such as a stamp image and a pen type that are actually input by the edit tool selected by the tool selection unit 73, and selects a menu for actual edit input.
[0179]
For example, when the pen button 73d is selected by the tool selection unit 73, the editing input selection unit 72 displays the pen type, thickness, color, and the like as icons 74, and the icon 74 is selected by the touch pen 12. Then, by drawing a picture on the surface of the graffiti input unit 63, a hand-drawn image in the selected pen input mode can be input.
[0180]
When the tool selection unit 73 selects the stamp button 73c, the edit input selection unit 72 displays the type, size, color, and the like of the stamp image as an icon 74, and the icon 74 is displayed with the touch pen 12. The stamp image in the selected stamp mode can be input by bringing the tip of the touch pen 12 into contact with the surface of the graffiti input unit 63 after selection.
[0181]
When the background button 73 a is selected by the tool selection unit 73, various background images are displayed as icons or thumbnails 74 on the editing input selection unit 72, and the icons or thumbnails 74 are selected by the touch pen 12. As a result, the background used in the static composite image 58 displayed on the graffiti input unit 63 can be changed to the background selected here. The frame and background to be replaced here may be selected in the shooting play, or a completely different image that is not displayed in the shooting play is prepared and can be replaced with the image. Good.
[0182]
When the frame button 73b is selected by the tool selection unit 73, various frames are displayed on the edit input selection unit 72 as icons or thumbnails 74, and the icons or thumbnails 74 are selected by the touch pen 12. Thus, the frame used in the still composite image 58 displayed on the graffiti input unit 63 can be changed to the background selected here.
[0183]
Reference numeral 67 denotes a frame erasure button which can erase a frame used in the still composite image 58 displayed on the graffiti input unit 63 by a single operation. Reference numeral 68 denotes a background erasing button, which can erase the background used in the still composite image 58 displayed on the graffiti input unit 63 by a single operation. The frame erasing button 67 and the background erasing button 68 are more operable than erasing with the touch pen 12 using a rubber band 69 to be described later because the frame and background are erased by a single operation. The frame erase button 67 and the background erase button 68 can also erase the replaced frame and background as described above.
[0184]
As described above, after a desired frame or background is determined by the shutter operation in the shooting play and fixed as the still image 50, the frame or background used for the still image 50 in the edit play before printing out by the printer 9 is performed. If you don't like the frame or background you selected while switching, you can replace it before printing. Prints can be provided.
[0185]
69 is a graffiti erasing button for erasing a hand-drawn image or stamp image that has already been input, 70 is a return button for returning to the previous operation and redoing, and 71 is a button for starting the operation from the beginning again.
[0186]
When the editing play for a predetermined time is completed, the image data of the edited still composite image 58 is sent to the printer 9, printed out on the print medium 35, and the photo print is discharged from the delivery port 19 (S11).
[0187]
As described above, according to the photographic print providing apparatus and method, the confirmation image used for the first composition unit 90 and the print image used for the second composition unit 60 are separately prepared, and the composition process for confirmation by the monitor 20 is performed. Since the synthesis processing for printing by the printer 9 is performed separately, the load of the control processing is distributed, the reduction in the processing speed is small, and the user is not stressed. In addition, by using a low-resolution image with few pixels for confirmation and using a high-resolution image with many pixels for printing, a low-resolution image with a small amount of data is used for composition processing and display processing for confirmation. Thus, processing is performed with a light load, and a beautiful photo print with excellent image quality can be created by using a high-resolution image in the composition processing or printing for printing.
[0188]
In addition, the user 2 does not perform a shutter operation according to a predetermined frame image as in the prior art, but the user 2 himself / herself displayed in real time, and a frame or background to be switched and displayed. While visually confirming the real-time composite image, the frame and background can be switched sequentially and the composite image can be visually confirmed in real time. For this reason, it is possible to perform shooting with elaborate tastes, such as searching for a desired frame or background memory image, or determining a pose or expression according to the frame or background pattern. In addition, since the frame and background and the captured video are actually combined, you can select the desired one from a number of frames and backgrounds. This makes it easier to select the optimal frame and background.
[0189]
21 and 22 show a second embodiment of the photo print creating apparatus of the present invention. FIG. 21 is a schematic diagram showing a system configuration, and FIG. 22 is a detailed system configuration diagram.
[0190]
In this example, as shown in FIG. 21, a frame image group 96 as a second storage unit of the present invention for storing a high-resolution print image and a high-resolution frame image stored in the frame image group 96 are read out. Image conversion means 95 for converting into a low-resolution confirmation image corresponding thereto.
[0191]
More specifically, as shown in FIG. 22, the present invention is realized by a single computer device 97. The control circuit 98 controls the coin detector 34, the service panels 40a and 40b, the speakers 18a and 18b, and the operation panels 16a and 16b. Further, the computer 97 is provided with a first synthesizing unit 90, a second synthesizing unit 60, and a frame image group 96.
[0192]
In this example, only the frame image is stored in the frame image group 96, and the first synthesizing unit 90 includes the overlay synthesizing unit 43 and the capture 91, and the background image is not synthesized.
[0193]
A high-resolution printing image is stored in the frame image group 96, and the printing image of the frame image group 96 is read and used in the synthesis by the second synthesis unit 60. In the synthesis by the first synthesis unit 90, the printing image is converted into a low resolution image by the image conversion unit 95, and the converted image is used. Other than that, it is the same as that of each said embodiment, and attaches | subjects the same code | symbol to the same part.
[0194]
In this example, since it is not necessary to prepare and store the confirmation image and the printing image for the same image, it is possible to save time and effort required for preparing the composition image. In particular, when the composition image used for the confirmation image or the print image is a period change image that is changed every predetermined period, it is not necessary to prepare two images for composition each time it is changed. This is convenient because it makes it easier to change and update data and saves maintenance costs. Other than that, there exists an effect similar to said each embodiment.
[0195]
FIG. 23 is a schematic diagram showing the system configuration of the third embodiment of the photo print creating apparatus of the present invention. This example is a modification of the apparatus shown in FIGS.
[0196]
In this example, a frame image group 96 as a first storage unit of the present invention that stores a low-resolution confirmation image, and a low-resolution frame image stored in the frame image group 96 is read out and a corresponding high-resolution image is read. Image conversion means 95 for converting into an image for printing.
[0197]
A low-resolution confirmation image is stored in the frame image group 96, and the confirmation image of the frame image group 96 is read and used in the synthesis by the first synthesis means 90. In the synthesis by the second synthesizing means 60, the confirmation image is converted into a high resolution image by the image converting means 95, and the converted image is used. Other than that, it is the same as that of each said embodiment, and there exists an effect similar to the apparatus shown to FIG.
[0198]
FIG. 24 is a schematic diagram showing the system configuration of the fourth embodiment of the photo print creating apparatus of the present invention.
[0199]
In this example, as a composition image used by the first composition means 90, a composition moving image displayed on the monitor 20 and visually observed by the user 2 is used. As the composition image used by the second composition means 60, A still image for synthesis in which the above-mentioned moving image for synthesis is fixed at the timing when the still image 50 is fixed by the shutter operation is used.
[0200]
The composition moving image used in the first composition unit 90 is stored in the moving image group 99 as the third storage unit, and the composition still image used in the second composition unit 60 is the still image as the fourth storage unit. The image group 100 is stored. The composition moving image is reproduced by a reproduction device such as a DVD player or software such as Direct Show, and is input to the first composition means 90.
[0201]
The image forming apparatus further includes correspondence means 101 for associating the composition moving image stored as the moving image group 99 with the composition still image of the still image group 100 corresponding to the moment of the shutter operation of the composition moving image. In this correspondence means 101, for example, a signal from the X contact used for interlocking the shutter of the camera 6 and the strobe is detected, and the frame number of the moving image for synthesis at the moment of the shutter operation is calculated and used for synthesis. Corresponding to a still image is performed.
[0202]
In this way, a composition image such as a background image is displayed as a moving image, and a shooting play is performed while a captured image of the subject 2 is displayed as a live image as a moving image in front of the moving image background. By fixing the image to a static image at any moment and printing it, the shooting play can be enjoyed with dynamic and dynamic play, and the photo print can also take pictures with unexpected movement, A certain interesting photograph is obtained.
[0203]
In addition, dynamic shooting play can be performed by using a moving image for composition for live video, and efficient processing can be performed by separately performing the composition for shooting and the composition for printing. . Other than that, it is the same as that of each said embodiment, and there exists the same effect.
[0204]
FIG. 25 is a diagram showing a photographic print providing apparatus according to a fifth embodiment of the present invention.
[0205]
This apparatus is basically the same as that shown in FIGS. 1 to 5, and the frame image that is the foreground of the subject 2 and the subject 2 are used as the synthesis image used in the first synthesis unit 90. The background image is stored as a low-resolution frame image group 52 and the background image is stored as a low-resolution background image group 51 in a low-resolution image group 93 serving as a first storage unit. .
[0206]
The first synthesizing unit 90 extracts the subject 2 from the moving image that is a captured image by the camera 6, and synthesizes a background image in real time with the portion other than the extracted subject 2, and the underlay synthesizing unit 90. An overlay combining unit 43 that combines the frame image with the frame image as a foreground is further added to the image in which the background is combined with the captured video by the ray combining unit 42.
[0207]
Further, the high-resolution frame image group 54 and the high-resolution background image group 55 are stored in the high-resolution image group 94 as the synthesis images used by the second synthesis unit 60.
[0208]
In this apparatus, the low resolution image group 93 stores mask data 102 corresponding to each frame image stored as the low resolution frame image group 52. The high resolution image group 94 also stores mask data 102 corresponding to each frame image, similar to the one stored in the low resolution image group 93.
[0209]
The mask data 102 defines an area that is hidden by the frame, an area that is not hidden by the frame, and an area that appears to be translucent among all the areas of the frame image to be overlaid according to the image pattern of each frame image, that is, the pattern. It is data.
[0210]
That is, as shown in FIG. 26 (a), a background image layer 105 in which a background image is developed is underlay-combined with a photographed image layer 103 in which a photographed image of the subject 2 photographed by the camera 6 is developed. A background image is combined with a portion other than the subject. The frame image layer 104 on which the frame image is developed is overlaid with the synthesized image, and the frame image is synthesized as a foreground.
[0211]
FIG. 26B shows an example of a state in which a frame image, a subject image, and a background image are developed on the frame image layer 104, the photographed image layer 103, and the background image layer 105, respectively. FIG. 26C shows an example of the mask data 102 corresponding to the frame image in this case. In this example, the frame image represents a sliding door pattern as an image pattern. As mask data 102 corresponding to the frame image, a region C where no sliding door exists is a transparent region, and the window glass of the sliding door. A region H corresponding to is defined as a translucent region, and a sliding door region M other than the window glass is defined as an opaque mask region.
[0212]
Then, when overlay synthesis by the overlay synthesis unit 43 of the first synthesis unit 90 is performed in real time, the underlay synthesis unit 42 is referred to as shown in FIG. The image in which the background is combined with the moving image that is the captured image is displayed so as to have an area hidden in the frame, an area that is not hidden behind the frame, and an area that appears to be translucent. In this way, it is possible to perform shooting play while viewing a real-time composite image of a moving image in the presence of an area hidden in the frame, an area that is not hidden behind the frame, and an area that appears translucent. Giving great play fun.
[0213]
Also, the second synthesizing unit 60 performs synthesizing with reference to the mask data 102 similar to the first synthesizing unit 90, generates a synthetic image 106 as shown in FIG. 9 to print.
[0214]
Here, for the photographed image (moving image or still image) to appear translucent, the transparency is not limited, and it is sufficient that the photographed image can be recognized at least. Further, a special synthesis can be performed in the region where the synthesis is performed so as to appear translucent. This special composition can be performed in combination with translucent composition, or only special composition can be performed without performing translucent composition. As the above-mentioned special composition, for example, the photographed image is subjected to optical conversion such as telephoto or wide-angle lens, shape conversion such as enlargement, reduction, deformation, etc., painting style, emboss, negative, positive, sepia, monochrome etc. For example, color tone conversion. Furthermore, the special synthesis can be performed alone or in combination of two or more as appropriate.
[0215]
By doing in this way, at the time of shooting play that obtains the still image 50 by the shutter operation while displaying the composite image 106 of the frame image with respect to the image obtained by combining the captured image that is a moving image by the camera 6 and the background on the monitor 20. An image in which the captured image and the background are synthesized can be played while viewing the synthesized video synthesized so as to have an area hidden in the frame, an area that is not hidden behind the frame, and an area that appears to be translucent. The background of the subject 2 is combined with a desired background, and a frame having a translucent portion is combined as a foreground of the subject to provide a play where a variety of composite expressions can be enjoyed. It is possible to provide a photographic print with an expression. Furthermore, by performing special composition, it is possible to provide a play that allows you to enjoy more diverse composition expressions.
[0216]
FIG. 27 shows an example of a shooting screen displayed on the monitor 20 when shooting with the apparatus of this embodiment.
[0217]
This shooting screen is basically the same as that shown in FIG. 18, but the setting scene display 85 displayed on the right side of the screen shows a state where the scene setting of “amusement park” is selected as the genre. Has been.
[0218]
For example, in this shooting course, the shutter operation by the user 2 is not required, and shooting is continuously performed. When one shooting (S204 in FIG. 10) is completed, shooting is automatically performed in the next scene. The shooting is continuously repeated until the number of scenes (for example, 6 scenes) is completed (NO in S205 of FIG. 10). The frame and background to be used in the next scene are combined with the captured moving image from the camera 6 and displayed on the live video display unit 77.
[0219]
In this example, when “amusement park” is selected as the genre, “gate”, “ferris wheel”, “merry-go-round”, “lunch box”, “roller coaster”, “go-cart”, etc. are prepared as scenes. In shooting play, a combination of a frame image and a background image corresponding to each scene is selected and displayed on the monitor 20.
[0220]
In the shooting play, when the first combining unit 90 combines the combination used in a specific (in this example, “roller coaster”) scene with the captured image and displays it on the monitor 20. Then, a composite image in which the top and bottom of the captured image is reversed and the frame and background are left as they are is generated and displayed on the monitor 20, and the shutter operation is performed in that state.
[0221]
That is, in the scene “roller coaster”, the frame image and the background image of the image pattern suitable for a state in which the top and bottom of the captured image are reversed, and in other scenes, the image that is suitable for the normal state of the captured image. It is a frame image and background image of the pattern.
[0222]
FIG. 28A shows a frame layer 104 in which a frame image in the case of the “roller coaster” is developed, a background layer 105 in which a background image in the same scene is developed, and the subject 2 on this screen. An example of the photographed image layer 103 in which the picked-up image is developed is shown.
[0223]
As shown in FIG. 28A, the frame image and the background image are image patterns suitable for a state in which the top and bottom of the captured video are inverted. In shooting in this scene, the top and bottom of the captured video is automatically reversed, and a composite image 106 that matches the image pattern of the frame and background is displayed on the monitor 20 as shown in FIG.
[0224]
In this way, the composite image 106 having an image pattern that looks normal in a state where the top and bottom of the photographed image is reversed can be used, and the normal composite video can be confirmed when confirming the composite video before the shutter operation. it can.
[0225]
In this example, out of 6 shots in 6 scenes, a frame and background of an image pattern suitable for inverting the top and bottom of the shot image are used in one shot of each scene. At this time, the composite image 106 in which the top and bottom of the captured image is reversed is automatically generated.
[0226]
By doing so, shooting is performed with the composite image 106 in which the captured image is reversed during a plurality of shootings, and a play with change can be provided, and a photo print with various composite expressions is provided. can do. In addition, the mask data 102 is referred to and combined as described above even when shooting with the top and bottom of the shot image reversed.
[0227]
In addition, when editing input by the editing display 8, the frame and background are combined with the still image 50 by the second synthesizing unit 60, and when the editing input is received by the editing display 8, the frame and background are When the image pattern is suitable for reversing the top and bottom of the photographed image as in the “roller coaster” scene, the composite image (with the top and bottom of the frame and the background left unchanged while the top and bottom of the still image 50 is reversed) The editing input is accepted in a state where the state (FIG. 28B) is generated and displayed. Then, the edited image is printed by the printer 9.
[0228]
In this way, when using a composite image of an image pattern that looks normal with the top and bottom of the captured image reversed, it is possible to perform edit input while viewing the normal composite video in the editing operation, Photo prints with various expressions can be provided.
[0229]
29 and 30 show a sixth embodiment of the present invention.
[0230]
In this example, as shown in the figure, as an image group of each situation such as “school”, “shopping”, “amusement park”, etc. A basic image in which a plurality of unit images having continuity are grouped is prepared. When shooting by the camera 6, a unit image is selected from the basic image, and a frame and background, which are the selected unit images, and the shot image are combined to generate a combined image.
[0231]
Specifically, the illustrated example is an image group of a “school” situation, and 1, 2, and 3 in FIG. 29 are prepared for use in scenes 1, 2, and 3 of the situation, respectively. Nos. 4, 5, and 6 are prepared for use in scenes 4, 5, and 6 of the situation. That is, scene 1 is an image pattern of a “school gate” scene, scene 2 is an image pattern of a “classroom” scene, scene 3 is an image pattern of a “corridor” scene, scene 4 is an image pattern of a “train” scene, Scene 5 is an image pattern of a “ticket gate” scene, and scene 6 is an image pattern of a “go to school” scene.
[0232]
The images of the scenes 1, 2, 3, 4, 5, and 6 are basic images each composed of three sets of unit images, and each unit image is a combined image of a frame and a background. In addition, the unit images belonging to the basic image that is the image group of each scene have image patterns associated with each other, and the image patterns are continuous with each other in a state where a plurality of images are arranged. Yes. In one-cut shooting, a set of unit images is selected from the basic image and used.
[0233]
In this case, the storage device 41 stores a frame and a background, and a basic image that is a set of the unit images (a combination of the frame and the background) is stored as a plurality of sets. Also, although the “school” situation is shown in the figure, the image group of each scene is also a basic image composed of a plurality of unit images in the “shopping” and “amusement park” situations.
[0234]
For example, in the case of shooting in each scene of the “auto frame course”, in this example, shooting is performed for each of six scenes from scene 1 to scene 6, but in this case, the basic image group of scene 1 is used. Any one unit image is selected from the images and used for photographing.
[0235]
At this time, one of the unit images (combination of frame and background) is selected from the basic images of each scene and displayed on the live monitor 20 or the like, and shooting is performed. A combined image of the still image 50 and the selected unit image (combination of frame and background) is printed out by the printer 9.
[0236]
In this way, a shooting play is performed with any unit image, and the still image 50 and the combined image of the frame and the background are provided as a photographic print. The photo prints provided in this way have continuity in the image pattern with each other in a state where a plurality of sheets are arranged, so the photo prints provided after play are arranged side by side with friends or continuous with the image pattern You can exchange things that have sex.
[0237]
FIG. 31 shows an example of an edit screen used in the seventh embodiment of the present invention.
[0238]
This example includes course selection means for selecting a user-desired shooting course from among a plurality of shooting courses prepared in advance. In the shooting play, the monitor 20 is different from other shooting courses according to the selected shooting course. Different frames and backgrounds are displayed, and a plurality of editing courses are prepared in the editing play according to the plurality of shooting courses, and the editing display 8 in each of the editing courses is related to the selected shooting course. Control is performed so that a display screen set different from other editing courses is displayed.
[0239]
Specifically, in this example, in the edit play, an edit course corresponding to the shooting course is automatically executed, and in this edit course, a stamp image unique to the edit course corresponding to the scene of the shooting course is prepared and used. The person can perform editing input using the stamp image.
[0240]
In the editing screen, 63 is a graffiti input unit, which displays a still image 58 of a frame, a background, and a subject image captured in shooting play, and an editing image 56 such as a hand-drawn image or a stamp image by operating the touch pen 12. Accepts input. Reference numeral 64 denotes a counter that displays the remaining time of the edit play, and 66 is an end button that is operated before the counter reaches 0, that is, before the predetermined edit play time is reached, to end the edit play.
[0241]
In the editing screen, displays necessary for input operations are provided on the left and right of the screen, the left screen is operated with the left touch pen 12, the right screen is operated with the right touch pen 12, and the left touch pen 12 is operated with the right side. The screen cannot be operated. Conversely, the left screen cannot be operated with the right touch pen 12. An image switching unit 65 that can be operated in common with the left and right touch pens 12 is arranged in the center.
[0242]
An image switching unit 65 is an active state in which a plurality of thumbnail images are displayed for the still composite image 58 of the frame, background, and subject image captured in the shooting play and displayed on the graffiti input unit 63 for graffiti input. It becomes possible to switch the still composite image 58.
[0243]
Reference numeral 73 denotes a tool selection unit that selects an editing tool to be used for editing input. 73D is a pen button that is selected when a pen is input, and 73C is a stamp button that is selected when a stamp is input. Although not shown, a background button to be selected when changing the background of the static composite image 58 displayed on the graffiti input unit 63 or a frame to be selected when changing the frame of the static composite image 58 displayed on the graffiti input unit 63 is selected. A frame button may be provided.
[0244]
Reference numeral 72 denotes an edit input selection unit, which in this example is a pop-up menu that is displayed when the pen button 73D or stamp button 73C is pressed. The state shown in the figure appears when the stamp button 73C is pressed. The edit input selection unit 72 displays an edit input menu such as a stamp image and a pen type to be actually input by the editing tool selected by the tool selection unit 73 as an icon, and selects the menu to be actually edited and input. To do.
[0245]
For example, in the illustrated example, the stamp button 73C is selected by the tool selection unit 73, and the edit input selection unit 72 displayed at this time displays “school”, “heart”, “star” as the types of stamp images. Menus such as “flowers” and “various” are displayed. Then, when the “school” menu is selected, a stamp image 115 related to the “school” situation is displayed as shown in the figure, and the stamp image 115 is selected with the touch pen 12 and then displayed on the surface of the graffiti input unit 63. By bringing the tip of the touch pen 12 into contact, the selected stamp image 115 can be input.
[0246]
In this example, when the “school” situation is selected as the shooting course in the shooting play, an edit course that can select the stamp image 115 related to the “school” situation is automatically selected in the edit play, as described above. It is executed. Similarly, when the “shopping” and “amusement park” situations are selected as shooting courses in the shooting play, an editing course in which stamp images 115 related to the “shopping” and “amusement park” situations can be selected in each editing play. Is automatically selected and executed as described above. As described above, the editing course according to the present invention includes a menu having a menu that enables the stamp image 115 corresponding to the shooting course.
[0247]
When another stamp menu (heart, star, etc.) is selected by the tool selection unit 73, a stamp image belonging to the stamp menu is displayed as an icon on the edit input selection unit 72, and the icon is displayed on the touch pen. The stamp image 115 according to the selected stamp mode can be input by bringing the tip of the touch pen 12 into contact with the surface of the graffiti input unit 63 after selecting at 12.
[0248]
When the pen button 73D is selected by the tool selection unit 73, the editing input selection unit 72 displays the pen type, thickness, color, and the like as icons, and the icons are selected by the touch pen 12. A hand-drawn image in the selected pen input mode can be input by writing a picture on the surface of the Karakaki input unit 63.
[0249]
When a background button is selected by the tool selection unit 73, various background images are displayed as icons or thumbnails on the edit input selection unit 72, and the icons or thumbnails are selected by the touch pen 12, The background used in the static composite image 58 displayed on the graffiti input unit 63 can be changed to the background selected here. The frame and background to be replaced here may be selected in the shooting play, or a completely different image that is not displayed in the shooting play is prepared and can be replaced with the image. Good.
[0250]
When a frame button is selected by the tool selection unit 73, various frames are displayed on the editing input selection unit 72 as icons or thumbnails. By selecting the icons or thumbnails with the touch pen 12, the graffiti is displayed. The frame used in the static composite image 58 displayed on the input unit 63 can be changed to the background selected here.
[0251]
Reference numeral 67 denotes a frame erasure button which can erase a frame used in the still composite image 58 displayed on the graffiti input unit 63 by a single operation. Reference numeral 68 denotes a background erasing button, which can erase the background used in the still composite image 58 displayed on the graffiti input unit 63 by a single operation. The frame erasing button 67 and the background erasing button 68 are easier to operate than erasing with the touch pen 12 with a graffiti erasing button 69 described later, because the frame and background are erased by a single operation. The frame erase button 67 and the background erase button 68 can also erase the replaced frame and background as described above.
[0252]
As described above, after a desired frame or background is determined by the shutter operation in the shooting play and fixed as the still image 50, the frame or background used for the still image 50 in the edit play before printing out by the printer 9 is performed. If you don't like the frame or background you selected while switching, you can replace it before printing. Prints can be provided.
[0253]
69 is a graffiti erasing button for erasing a hand-drawn image or stamp image that has already been input, 70 is a return button for returning to the previous operation and redoing, and 71 is a button for starting the operation from the beginning again.
[0254]
When the editing is completed, the brightness adjustment screen for the photographed image is displayed on the editing display 8 and the touch pen 12 is operated to adjust the brightness of the selected photo. In this screen, the orientation of the selected image can be rotated next.
[0255]
When the brightness adjustment is completed, a sticker division selection screen is displayed on the editing display 8. Depending on the number of edited pictures, a plurality of sticker layouts laid out in a predetermined arrangement depending on the size and number of pictures are displayed, and a desired sticker layout is touched with the touch pen 12 and selected.
[0256]
When the selection of the sheet layout is completed, the image data of the edited still composite image 58 is sent to the printer 9, printed out on the print medium 35, and the photographic print is discharged from the sending port 19.
[0257]
As described above, in this embodiment, the shooting play can be performed while looking at the composite image in which the stored image corresponding to the shooting course selected by the user's preference is synthesized in real time on the background and the frame. Shoot and play while enjoying the unique atmosphere of the course. In addition to this, in the edit play, an edit input tool related to a stored image synthesized as a background or a frame in the selected shooting course is displayed, and a stamp image related to the selected shooting course is input. Edit play can be performed. In this way, it is possible to create a photographic print with a unique atmosphere while enjoying a consistent atmosphere in shooting play and editing play.
[0258]
In addition to being able to select a shooting course according to the user's preference, in edit play, an edit play is performed in an edit course prepared in accordance with the selected shooting course. Can be edited. Therefore, the user can perform shooting play while tasting a unique atmosphere different from other shooting courses according to the selected shooting course by selecting a desired shooting course. Then, when shooting play is completed and editing play is started, an edit play corresponding to the selected shooting play is automatically selected, and a display screen related to the atmosphere of the selected shooting course is displayed. You can continue to enjoy the original atmosphere of the course while editing. In this manner, the user can perform shooting play while fully enjoying the atmosphere of the course, and can continue to perform editing play in that atmosphere. At this time, the edit play is automatically selected according to the selected shooting play, so the user can play in a consistent atmosphere from shooting to editing by simply selecting the shooting course at the start of shooting play. The operation will not be more complicated than necessary.
[0259]
As described above, in each embodiment, the image displayed on the background selection unit 78, the frame selection unit 79, or the combination selection unit 82 displayed on the shooting screen at the time of shooting is a person image and an image to be combined such as a background or a frame. It is also possible to create an image in which In this case, a composite image stored in advance in the storage device may be displayed, or a person image stored in advance at the time of display may be combined with an image to be combined such as a background or a frame. It is difficult to tell which part of the image is to be combined with the foreground and which part is to be combined with the background by simply displaying an image such as a background or a frame that does not include a human image. In this way, by displaying and selecting an image including a person image, it is possible to confirm the combined image and to easily pose at the time of shooting.
[0260]
Further, when the portion of the person image is displayed in a blinking display or the like, the position where the captured image is synthesized can be visually recognized, and it becomes easier to confirm the synthesized image and to easily induce a pose. Further, at the time of shooting, a composite image is displayed on the live video display unit 77, and at the same time, if an image including a person image is displayed on the background selection unit 78, the frame selection unit 79, and the combination selection unit 82, a pose is further induced. It becomes easy.
[0261]
In general, the term “frame” in a frame image means a frame or the like. However, in the present invention, the term “frame” is not limited to the meaning of an image surrounding the periphery of the subject. That is the meaning. Similarly, the background image is an overall image synthesized with the background of the subject. Therefore, as a frame image, in addition to decorating the surroundings of the subject, use an image that disguises the subject such as clothes, glasses, footwear, and a headwear, or an image that creates a scene such as a tear, a speech bubble image, or a glove. Can do.
[0262]
Next, an eighth embodiment of the photo print providing apparatus of the present invention will be described.
[0263]
That is, in the photo print providing apparatus of the present invention, the image for synthesis (the frame image or the background image stored as the low resolution image group 93) synthesized as the synthesized video (the synthesized image 106) by the first synthesizing unit 90 is It is an image for synthesis composed of colors according to the display state of the display means (including the color reproducibility of the monitor 20, the lighting environment (environment light) state in the photographing space, the adjustment state of the monitor 20), or the second synthesis An image for synthesis (a frame image or a background image stored as the high-resolution image group 94) synthesized as a synthesized image by the means 60 includes the printing state of the printer (the color reproducibility of the printer 9 and the adjustment state of the printer 9). Is an image for synthesis having a color tone corresponding to (). Thereby, the color reproducibility between different devices (between a display device such as the monitor 20 and a printing device such as the printer 9) can be matched.
[0264]
More specifically, the synthesis image synthesized as the synthesized video by the first synthesis unit 90 has a color tone according to the display state of the monitor 20, and the synthesis image synthesized by the second synthesis unit 60 as the synthesized image is The color tone according to the printing state of the printer 9 does not give a sense of incongruity due to the difference in color tone between the color tone of the synthesis image displayed on the monitor 20 and the color image of the synthesis image printed on the printer 9, and It is possible to prevent a sense of incongruity due to a difference in color tone as a video or a composite image.
[0265]
In addition, the user does not faithfully represent the still composite image 58 including the captured image captured by the camera 6 (for example, a known color matching method) but as a consistently pleasant image or creative image. Photo prints preferred by the user 2 can be provided, and the entertainment of the user 2 can be further enhanced. In addition, for example, to make it easier for the user 2 to confirm the synthesized video (including the synthesized image) synthesized by the first synthesizing unit 90, the monitor 20 having excellent color reproducibility to improve the enjoyment of photographing. And when a clear and large composite image is displayed or a composite image in which contrast is emphasized to the extent that it is not inferior to the bright illumination environment necessary for photographing is displayed on the monitor 20 It is possible to prevent the user from feeling uncomfortable due to the difference in color between the color tone of the image and the composition image printed by the printer 9, and to prevent the sense of incongruity due to the difference in color tone between the composite video and the composite image.
[0266]
Thereby, the interest of a user's play can be heightened. Here, the color reproducibility (color reproduction characteristics) is the degree of the expression range of the color that can be displayed by the display device or the color that can be printed by the printing device. That is, this degree indicates the ability (color reproduction region) of the display device or the printing device to reproduce a true color (for example, a predetermined color of the image for synthesis). Therefore, the color reproducibility of the monitor 20 is the degree of the color expression range of the composite video (including the composite image) displayed on the monitor 20. The color reproducibility of the printer 9 is the degree of the color gamut of the synthesized image (including the synthesized image) printed by the printer 9.
[0267]
Further, the photographic print providing apparatus of the present invention includes a first correction unit 131 (to be described later) that corrects the color tone of an image for synthesis synthesized by the first synthesis unit 90 according to the display state of the monitor 20, and the printer 9. And a second correcting unit 133 (to be described later) that corrects the color tone of the image to be synthesized that is synthesized as a synthesized image by the second synthesizing unit 60 in accordance with the printing state of the image. That is, the photographic print providing apparatus according to the present invention includes a first correction unit that corrects the color tone of a composite image synthesized as a composite video by the first synthesis unit 90 according to the display state of the monitor 20, and the print state of the printer 9. Accordingly, at least one of the second correction unit that corrects the color tone of the synthesis image synthesized as a synthesized image by the second synthesis unit 60 is provided. Thus, the color tone of the image for synthesis synthesized as the synthesized video by the first synthesis unit 90 is conveniently adjusted according to the display state of the monitor 20, and the second synthesis unit 60 performs the synthesis according to the printing state of the printer 9. For the sake of convenience, the color tone of the image for synthesis synthesized as an image is corrected. Therefore, since it is possible to save the labor and time for adjusting the photographic print providing device, etc., to correct the color tone, the player can perform stable play and contribute to the improvement of sales at amusement stores and the like. Can do.
[0268]
Next, with reference to FIG. 32 and FIG. 33, correction of the color tone of the image for synthesis will be described. FIG. 32 (a) shows that a shooting moving image shot by the camera 6 and a stored image (frame image, background image, etc.) read from the stored image storage unit (storage device 41) are being shot during shooting. The image) is synthesized in real time by the first synthesizing means 90 (see FIGS. 4 and 5), and the synthesized image (synthesized video) 106 is displayed on the live video display unit 77 of the monitor 20 in real time. FIG. 32 (b) shows a state in which the frame, the background, and the still composite image 58 of the subject image are displayed on the graffiti input unit 63 of the editing display 8 during the editing play. Indicates.
[0269]
FIG. 33 shows a state in which the edit play is finished, the edited still synthesized image 58 image data is sent to the printer 9, printed out on the print medium 35, and discharged from the delivery port 19 as a photographic print 121. Show.
[0270]
The composite image 106 shown in FIG. 32A and the still composite image 58 shown in FIG. 32B and the photographic print 121 (printed static composite image 58) shown in FIG. Reproducibility is generally the same (including the same). That is, the color tone correction described above prevents the color reproducibility (color reproducibility) from being different due to different devices (apparatuses), such as the display device such as the monitor 20 and the printing device such as the printer 9. To be done.
[0271]
In the photographic print providing apparatus of the present invention, at least one of the first correction unit 131 and the second correction unit 133 has a color tone of the composite image when a predetermined condition is satisfied (for example, when an individual difference described later occurs). Is to be corrected. This makes it possible to automatically correct the color tone when there is a variation in color reproducibility due to individual differences among display devices or printing devices, or when there is a change in color reproducibility due to aging of various devices. That is, by automatically correcting the color tone, it is possible to prevent the color reproducibility from being different due to different models of the same device or individual differences between the same device and the same model. Accordingly, it is possible to provide a photographic print that displays a composite image in a desired color tone and includes a composite image in a desired color tone. Here, the individual difference includes a product difference such as a difference depending on a manufacturing lot, a difference in aging deterioration, an adjustment difference, a difference in elapsed time from power ON, and the like. The color tone includes the degree and hue of color shading, light and darkness, strength and the like.
[0272]
In addition, when the color tone is corrected, for example, when the color reproducibility of the printer 9 is inferior to that of the monitor 20, the substantially same composition image is used by the first composition unit 90 and the second composition unit 60. Sometimes, even if the user 2 is satisfied with the enjoyment of shooting while confirming the colorfully expressed image on the monitor 20, the photographic print (sticker) 121 printed by the printer 9 is dull. It is prevented from being aroused and dissatisfied as a result.
[0273]
Next, with reference to FIG. 34, a system configuration of a photographic print providing apparatus that performs the above-described color tone correction will be described. As shown in the figure, this apparatus includes a first correction unit 131 that corrects the color tone of a synthesis image synthesized as a synthesized video by the first synthesis unit 90 in accordance with the display state of the monitor 20, and the printing state of the printer 9. Correspondingly, a second correcting means 133 for correcting the color tone of the image for synthesis synthesized as a synthesized image by the second synthesizing means 60 is provided. That is, the first correction unit 131 corrects the color tone of the synthesis image (the frame image or the background image stored as the low resolution image group 93) used by the first synthesis unit 90, and the second correction unit 133 The color tone of the synthesis image (the frame image or the background image stored as the high resolution image group 94) used by the second synthesis unit 60 is corrected. Note that the CPU 44 of the first computer device 37 may be employed as the first correction unit 131, and the CPU 44 of the second computer device 38 may be employed as the second correction unit 133.
[0274]
The color tone correction of the first correction unit 131 and the second correction unit 133 will be described in more detail. When the printer 9 is, for example, a light fixing type thermal printing method (so-called TA method), the first correction unit 131 performs the first synthesis. The composition image is corrected so as to reduce the color density of the composition image used in the means 90, and the second correction means 133 performs composition so as to increase the color density of the composition image used in the second composition means 60. Correct the image. That is, the color density of the synthesis image displayed on the display device such as the monitor 20 having high color reproducibility is lowered, and the color density of the synthesis image printed by the printer 9 having low color reproducibility is increased. As a result, the user 2 is not given a sense of incongruity due to the difference in color tone between the color tone of the composite image displayed on the display device and the composite image printed by the printer 9, and the color tone of the composite video and the composite image is also eliminated. It is possible to prevent a sense of incongruity due to the difference between the two, and it is possible to enhance the fun of the user 2's play.
[0275]
On the other hand, when the color representation gamut (color reproducibility) of the display device such as the monitor 20 is lower than the color representation gamut of the printer 9 (for example, the printer 9 is a so-called sublimation printer, the color representation power (color When the reproducibility is excellent), the first correction unit 131 corrects the synthesis image so as to increase the color density of the synthesis image used in the first synthesis unit 90, and the second correction unit 133 The composition image is corrected so as to reduce the color density of the composition image used in the second composition means. Accordingly, as described above, the user is not given a sense of incongruity due to the difference in color tone between the color tone of the composite image displayed on the display device and the composite image printed by the printer 9, and the composite video image and the composite image are displayed. As an image, it is possible not to give a sense of incongruity due to a difference in color tone, and it is possible to enhance the interest of the user's play. In this case, the correction of the color tone is limited in the expression range of the sublimation printer due to the factors of the printing material such as the print medium and the ink, and is substantially the expression range of the sublimation printer rather than the color expression range of the display device. In the case where the area is narrower, it is preferable when the color expression area of the printing material of the sublimation printer is improved.
[0276]
In addition, color tone correction according to the color expression of an ink jet printer may be performed. Specifically, in an inkjet printer, colors other than yellow, magenta, cyan, and black can be used to reproduce colors that cannot be represented by red, green, and blue colors on display devices. It is preferable to correct it. Specifically, the color tone to be converted may be saturation, lightness, hue, contrast, or the like. For example, when the color density is increased, the saturation may be increased, the hue may be changed to a vivid color direction of the same color, or the brightness may be decreased. Further, the color tone may be corrected for each color component. For example, the magenta component may be reduced and the red component may be added. In this case, it is not necessary to convert all these color tones, and only the necessary color tones may be converted.
[0277]
These color tone conversions may be performed based on the color tone of one of the synthesis images used by the first synthesis unit 90 or the synthesis image used by the second synthesis unit 60. As a result, only one of them needs to be corrected, and the labor required for correction can be saved. Further, it is easy to adjust the color tone between the two (between the first correction unit 131 and the second correction unit 133). These tone conversion methods include the so-called perceptual conversion method that converts the pre-conversion color relationship, the so-called saturation conversion method that prioritizes the brightness and saturation of the image before conversion, and the color representation range. Tone conversion may be performed using a so-called relative conversion method in which only a non-existent color is converted so as to be within the color expression range.
[0278]
Alternatively, a composition image that has been subjected to color tone correction in advance may be used. That is, the composition image synthesized as the synthesized video by the first composition unit 90 is stored in advance in the storage device 41 (see FIG. 5) as a composition image having a color tone according to the display state of the monitor 20, or The composition image synthesized as the composite image by the two composition means 60 may be stored in advance in the storage device 33 (see FIG. 5) as a composition image having a color tone according to the printing state of the printer 9. This eliminates the time required for color conversion (color correction) during composition (during play), thereby reducing the processing load on the photo print providing device and preventing the play time from being prolonged. Can do. In addition, since a variety of images are prepared for the composition, and the optimum color tone differs for each of these images, the user's play can be performed by correcting the color tone according to the display state and the print state in advance. Can be further enhanced. Further, a composition image having a color tone according to the display state of the monitor 20 is stored as a low resolution image group 93, and a composition image having a color tone according to the print state of the printer 9 is stored as a high resolution image group 94. These compositing images may be stored in separate storage means.
[0279]
Further, as shown in FIG. 35, an image processing unit 132 that performs image processing on an image for synthesis (a frame image or a background image) synthesized as a synthesized image by the second synthesizing unit 60 may be provided. In this case, the image processing unit 132 performs image processing on the synthesis image that has been subjected to the tone correction by the second correction unit. Further, without providing the image processing means 132, the image for synthesis used in the second synthesis means 60 may be subjected to image processing in advance and stored in the storage device 33 as the high resolution image group 94. As the image processing, for example, blur processing performed by averaging the surrounding pixel values may be employed. By subjecting the image (background image) synthesized with the background of the subject 2 to blurring, the subject 2 of the still composite image 58 to be photographic printed (the subject 2 of the still composite image 58 displayed on the editing display 8). ) Is lifted (conspicuous), and a still composite image 58 with a sense of perspective is obtained.
[0280]
Further, a blurring process may be performed on the image (frame image) synthesized with the foreground of the subject 2 according to the sharpness (sharpness) of the still image 50 captured by the camera 6. As a result, it is difficult to understand at first glance as a composite image, and the still image 50 including the subject 2 becomes an image familiar with the composite image or the like as the still composite image 58, and a satisfactory photographic print can be provided to the user 2. As the blurring process, for example, a blurring effect may be applied to the entire image. Thereby, a satisfactory photographic print can be provided. In addition, since the still composite image 58 including the captured image captured by the camera 6 is not faithfully expressed, a photographic print can be provided to the user 2 as a creative image. Interest can be further enhanced.
[0281]
Further, a correction operation means for an operator such as the user 2 to correct the color tone may be provided. As a result, the color tone or the like of the composition image displayed on the display device such as the monitor 20 or the editing display 8 can be adjusted in real time, and the image resulting from the adjustment can be printed. That is, if the composition image displayed on the display device is adjusted to a desired color tone, a print result of the desired color tone can be obtained. Here, the correction operation means can be realized specifically by the operation panels 16a and 16b, the touch pen 12 for the editing display 8, and the like.
[0282]
The synthesized video generated by the first synthesizing unit 90 is a synthesized video having a color tone corresponding to the display state of the monitor 20, and the synthesized image generated by the second synthesizing unit 60 is the printer 9. It may be a composite image having a color tone according to the printing state. Thereby, the color reproducibility between different devices can be matched. That is, the synthesized video generated by the first synthesizing unit 90 has a color tone corresponding to the display state of the monitor 20, and the synthesized image generated by the second synthesizing unit 60 corresponds to the printing state of the printer 9. Therefore, it is possible to prevent a sense of incongruity due to a difference in color tone between the composite video displayed on the monitor 20 and the composite image printed by the printer 9. Thereby, the interest of the game of the user (player) 2 can be enhanced.
[0283]
In this case, as shown in FIG. 36, the synthesized video correcting means 135 for correcting the color tone of the synthesized video generated by the first synthesizing means 90 according to the display state of the monitor 20, and the first according to the printing status of the printer 9. A composite image correction unit 137 that corrects the color tone of the composite image generated by the two synthesis unit 60 may be provided. As a result, it is possible to prevent the user 2 from feeling uncomfortable due to the difference in color tone between the color tone of the synthesized video displayed on the monitor 20 and the synthesized image printed by the printer 9, and to prevent the user 2 from feeling uncomfortable due to the color tone difference. be able to.
[0284]
In addition, the other structure in the photo print providing apparatus of this embodiment is the same as that of each embodiment mentioned above, and there exists the same effect.
[0285]
37 to 39 are views showing a ninth embodiment of the photo print providing apparatus of the present invention.
[0286]
In this example, the side surface of the housing 1 is a pre-shooting play section, and the front surface of the housing 1 is a shooting play space. Moreover, the side surface on the opposite side of the housing 1 is a pre-editing play section, and the back surface of the housing 1 is an editing play space. An editing unit is provided on the rear surface of the casing 1, and a side surface of the editing unit is a print waiting space in which a photographic print is discharged.
[0287]
In the case of the layout as shown in FIG. 39, it is necessary to provide spaces for the user to play in the four directions surrounding the housing 1, but the pre-photographing unit 88 or the pre-editing unit 87 can be moved as described above. In such a case, as shown in FIG. 40, one surface of the housing 1 may be installed on the wall side and a space may be provided in only three directions, and installation according to the situation of the store becomes possible.
[0288]
The pre-photographing unit 88 for performing the pre-photographing play is movable with a caster, and the pre-editing unit 87 for performing the pre-editing play is configured to be removable and removable by bolting or the like. 40 and 41 show layout examples in which the pre-photographing unit 88 and the pre-editing unit 87 are moved to different locations.
[0289]
In this example, in the pre-shooting play in the pre-shooting unit 88, the course selection which is a part of the shooting play described above is performed, and in the pre-editing play in the pre-editing unit 87, the photo selection which is a part of the editing play described above is performed. The brightness can be adjusted. The pre-photographing unit 88 is attached with a direction display 89 indicating the moving direction of the user 2. Other than that is the same as each embodiment mentioned above, and there exists the same effect.
[0290]
42 to 44 show an embodiment of the print paper unit of the present invention. Each print paper unit described below is a print paper unit that is supplied to the photo print providing apparatus described in FIG. 1 to FIG. 41 and the like and used in the printer 9 to generate a photo print.
[0291]
The print paper unit shown in FIG. 42 is a set in which a storage unit 112 such as an IC chip or an IC card and a print paper 110 used in the printer 9 of the photo print providing apparatus are supplied to the photo print providing apparatus as a set. . In this example, the print paper 110 has a roll shape. The storage means 112 records the number of photographic prints that can be printed out by the apparatus that is the supply target, that is, the number of prints that can be supplied, on the print paper 110 that is set and supplied to the storage means 112. On the other hand, the photographic print providing apparatus is provided with a reading unit 111 that reads information stored in the storage unit 112.
[0292]
When the print paper unit is used in a photographic print providing apparatus, the storage means 112 is set in the reading means 111 and the print paper 110 is loaded in the printer 9. Then, the reading means 111 reads the number of prints that can be supplied from the storage means 112, and the printer 9 prints on the printing paper 110 supplied as a set to supply a photographic print. The number of prints supplied from the storage unit 112 set and supplied by the reading unit 111 is printed, and a photographic print is supplied. Thereafter, until the next storage unit 112 and the printing paper 110 are supplied, the printing is performed. The supply is stopped.
[0293]
Although not shown, the system configuration for realizing the operation as described above supplies the read data from the reading unit 111 to the output number limiting unit provided in the computer device, and the output number limiting unit reads the data. When the photographic print is printed by the number of prints that can be supplied, the output of the print is limited until the next storage unit 112 is supplied. When the remaining number of printable sheets reaches a predetermined number, an alarm can be issued to prepare the next print sheet. By doing so, it is possible to operate a photography apparatus having a high turnover without waiting for the customer. When the reading unit 111 is provided inside the printer 9, information detected inside the printer 9 is transmitted to and controlled by the computer device. When the reading unit 111 is provided outside the printer 9, the information is read and controlled by the computer device.
[0294]
The print paper unit shown in FIG. 43 does not include storage means 112 such as an IC chip or an IC card, and print paper 110 used in the printer 9 of the photo print providing apparatus is supplied to the photo print providing apparatus. is there. In this example, the print paper 110 has a roll shape. Identification information for identifying the authenticity of the print paper 110 is attached to the print paper 110 by a barcode or the like (not shown). The photo print providing apparatus is provided with reading means 111 for reading the identification information of the print paper 110 loaded in the printer 9.
[0295]
When the print paper unit is used in a photo print providing apparatus, the print paper 110 is loaded into the printer 9. The identification information of the print paper 110 is read by the reading means 111, and the identification information is supplied to the determination means provided in the computer device. The determination means prints the photo print only when the read identification information is correct. Printing is not performed if the print is not authentic.
[0296]
The print paper unit shown in FIG. 44 includes a print paper 110 used in the printer 9 of the photo print providing apparatus and a recording material 113 such as an ink ribbon for printing an image on the print paper 110 in a set state. It is supplied to the providing device. In this example, the print paper 110 has a roll shape. In the figure, reference numeral 114 denotes a print head. Identification information for identifying the authenticity of the recording material 113 is attached to the recording material 113 by a barcode or the like (not shown). The photo print providing apparatus is provided with reading means 111 for reading the identification information of the recording material 113 loaded in the printer 9.
[0297]
When the print paper unit is used in a photographic print providing apparatus, the print paper 110 and the recording material 113 are loaded into the printer 9. Then, the identification information of the recording material 113 is read by the reading means 111, and the identification information is supplied to the determination means provided in the computer device. The determination means prints a photographic print only when the read identification information is correct. Printing is not performed if the print is not authentic.
[0298]
In this example, identification information such as a barcode may be attached to the print paper 110 instead of the recording material 113, and the reading unit 111 may read the identification information of the print paper 110 loaded in the printer 9. The illustrated example is an example of a sublimation printer or the like in which the printer 9 uses an ink ribbon as a recording material. However, the printer 9 can also be applied to an ink jet type printer or the like using a cartridge type ink as a recording material. .
[0299]
According to these print paper units, it is possible to determine whether or not the print paper 110 is optimal for the performance unique to the above-mentioned photo print providing apparatus and the excellent finish quality of the photo print, based on the identification information or the like. The photo print providing apparatus can be made not to operate according to the reading result of the identification information and the like, and the photo print with better quality can be provided to the user. In addition, counterfeit products such as paper can be prevented from leaking to the market.
[0300]
In each of the above embodiments, the printer 9 includes various types of printers such as sublimation printers, ink jet printers, laser printers, thermal transfer printers, fusion printers, thermal printers, photographic paper printers, and instant film printers. It can be applied and is not particularly limited. Further, a plurality of the printers 9 may be provided so that the user can select a favorite printer 9 that the user desires to print.
[0301]
Further, in each of the above embodiments, the photographic print to be output is not particularly limited, and can be output as a sticker print, a card or the like, and is not intended to limit the material and configuration of the print medium 35.
[0302]
In each of the above embodiments, shooting is started by inserting coins. However, the present invention is not limited to this, and can be paid as a price for shooting, such as bills, prepaid cards, medals, credit cards, cash cards, etc. If it is a thing, it is the meaning containing various aspects. In addition, these are intended to include not only the case of using alone but also the case of using in combination.
[0303]
【The invention's effect】
As described above, according to the present invention, the first combining unit that combines the image captured by the camera and the combining image to generate the combined image, the still image fixed by the shutter unit and the combining image are combined. A second compositing means for generating a composite image, and the first composite image by the first compositing means is displayed on the display means in real time to allow visual confirmation of the composite video on the subject. The generated composite image is printed by a printer and provided as a photographic print.
[0304]
For this reason, the composition image used for the first composition means and the composition image used for the second composition means can be prepared separately, and the confirmation composition process and the print composition process are performed separately. The load on the system is distributed, so that the processing speed is hardly lowered and the user is not stressed. In addition, for example, by using a low-resolution image with a small number of pixels for confirmation and using a high-resolution image with a large number of pixels for printing, a low-resolution image with a small amount of data can be used for confirmation composition processing and display processing The processing is performed in a state where the load is low, and a high-resolution image is used in the composition processing or printing for printing, thereby making it possible to create a beautiful photographic print with excellent image quality.
[Brief description of the drawings]
FIG. 1 is a sectional view showing an embodiment of a photographic print providing apparatus of the present invention.
FIG. 2 is a perspective view showing the casing.
FIG. 3 is a perspective view of the photographic print providing apparatus.
FIG. 4 is a schematic diagram of a system configuration of the photographic print providing apparatus.
FIG. 5 is a system configuration diagram of the photographic print providing apparatus.
FIG. 6 is a diagram showing details of first synthesis means.
FIG. 7 is a flowchart for explaining an example of the operation of the photographic print providing apparatus.
FIG. 8 is a flowchart of a select frame course.
FIG. 9 is a flowchart of an auto frame course.
FIG. 10 is a flowchart of a multi-frame course.
FIG. 11 is a diagram illustrating an example of a course selection screen.
FIG. 12 is a diagram illustrating an example of a genre selection screen.
FIG. 13 is a diagram illustrating an example of a shooting screen.
FIG. 14 is a diagram illustrating an example of a shooting screen.
FIG. 15 is a diagram illustrating an example of a notice display screen.
FIG. 16 is a diagram illustrating an example of a genre selection screen.
FIG. 17 is a diagram illustrating an example of an illumination method selection screen.
FIG. 18 is a diagram illustrating an example of a shooting screen.
FIG. 19 is a diagram showing a second example of a shooting notice display.
FIG. 20 is a diagram illustrating an example of a graffiti screen.
FIG. 21 is a schematic diagram showing a system configuration of a second embodiment of a photo print creating apparatus of the present invention.
FIG. 22 is a system configuration diagram of the photo print creation apparatus.
FIG. 23 is a schematic diagram showing a system configuration of a third embodiment of the photo print creating apparatus of the present invention.
FIG. 24 is a schematic diagram showing a system configuration of a fourth embodiment of a photo print creating apparatus of the present invention.
FIG. 25 is a schematic diagram showing a system configuration of a fifth embodiment of the photo print creating apparatus of the present invention;
FIGS. 26A and 26B are diagrams for explaining the operation of the photographic print creating apparatus, where FIG. 26A is a schematic diagram showing a combined state of images, FIG. 26B is an example of each image, FIG. 26C is an example of mask data; d) is an example of a composite image.
FIG. 27 is a diagram for explaining the operation of the photo print creation apparatus, and is an example of a shooting screen.
FIGS. 28A and 28B are diagrams for explaining the operation of the photo print creation apparatus, wherein FIG. 28A is an example of each image, and FIG. 28B is an example of a composite image.
FIG. 29 is a diagram for explaining a sixth embodiment of the present invention, and is a diagram illustrating a basic image composed of a combination of a frame and a background unit image.
FIG. 30 is a diagram illustrating the basic image.
FIG. 31 is a diagram showing an example of an edit screen according to the seventh embodiment of the present invention.
FIG. 32 is an enlarged view of the screen of the monitor and editing display of the photo print providing apparatus of the eighth embodiment of the present invention.
FIG. 33 is an enlarged view of a delivery port of the photographic print providing apparatus.
FIG. 34 is a schematic diagram of a system configuration of the photo print providing apparatus.
FIG. 35 is a schematic diagram of a system configuration of the photo print providing apparatus.
FIG. 36 is a schematic diagram of a system configuration of the photo print providing apparatus.
FIG. 37 is a diagram showing a ninth embodiment of a photo print providing apparatus of the present invention.
FIG. 38 is a diagram showing the apparatus.
FIG. 39 is a diagram showing the apparatus.
FIG. 40 is a diagram showing another layout by the device.
FIG. 41 is a diagram showing another layout by the device.
FIG. 42 is a diagram illustrating a first example of a print paper unit according to the invention.
FIG. 43 is a diagram illustrating a second example of the print paper unit according to the invention.
FIG. 44 is a diagram illustrating a third example of the print paper unit according to the invention.
[Explanation of symbols]
1 housing
2 Subject, user, user
3 Back screen unit
4a Ceiling
4b Support frame material
4c Support frame material
5a curtain
5b curtain
6 Camera
7 Front strobe
8 Editing display
9 Printer
10 Transparent plate
11 Milky white board
12 Touch pen
13 Cancel button
14 OK button
15 Coin slot
16a Operation panel
16b Operation panel
17 Front fluorescent lamp
18a speaker
18b Speaker
19 Outlet
20 Monitor
21 half mirror
22a Switching button (left side)
22b Switching button (right side)
23 Edit input panel
24 Ceiling strobe
25 Reflector
26 screens
27 Back strobe
28 Back fluorescent lamp
29 Bounce strobe
30 Strobe case
31 Space for shooting play
32 Editing play space
33 Storage device
34 Coin detector
35 Print media
36 Strobe control circuit
37 First computer device
38 Second computer device
39 First control circuit
40a Service panel
40b Service panel
41 Storage device
42 Underlay synthesis means
43 Overlay composition means
44 CPU
45 memory
46 drivers
47 Communication means
48 Control program
49 Operation screen
50 still images
51 Low resolution background images
52 Low resolution frame images
53 Control program
54 High-resolution frame images
55 High resolution background images
56 images for editing
57 Operation screen
58 Still composite image
59 Subject extraction means
60 Second synthesis means
61 Menu
62 Second control circuit
63 Graffiti input section
64 counters
65 Image switching section
66 Exit button
67 Frame Erase button
68 Background Erase button
69 Graffiti erase button
70 Back button
71 Button from the beginning
72 Edit input selection section
73 Tool selection part
73a Background button
73b Frame button
73c Stamp button
73d pen button
74 icons, thumbnails
75 Genre selection part
76 Genre Description
77 Live video display
78 Background selection section
79 Frame selector
80 Illumination method selector
81 counter
82 Combination selection part
83 screens
84 Shooting preview display
85 Setting scene display
86 LED lamp
87 Unit before editing
88 Pre-shooting unit
89 Direction display
90 First synthesis means
91 Capture
92 Correspondence means
93 Low resolution images
94 High-resolution images
95 Image conversion means
96 frame images
97 Computer equipment
98 Control circuit
99 videos
100 still images
101 Corresponding means
102 Mask data
103 Shooting layers
104 frame layers
105 Background layer
106 Composite image
110 Print paper
111 Reading means
112 Storage means
113 Recording material
114 print head
115 Stamp image
121 Photo print
131 1st correction means
132 Image processing means
133 Second correction means
135 Composite video correction means
137 Composite image correction means

Claims (27)

A camera that captures a subject including a user in an imaging area, a first combining unit that generates a combined image by combining a captured image by the camera and a combining image, and a first combined image by the first combining unit Display means for enabling real-time display of a composite video on a subject, shutter means for fixing the captured video as a still image at a predetermined timing, a still image fixed by the shutter means, and a composite image. 2. A photographic print providing apparatus comprising: a second synthesizer for synthesizing and generating a synthesized image; and a printer for printing the synthesized image generated by the second synthesizer and providing the photographic print. 2. The photographic print providing apparatus according to claim 1, wherein the composition image used in the second composition means is substantially the same image corresponding to the composition image used in the first composition means. The composition image used by the first composition means is a confirmation image for displaying as a composite image on the display means and allowing the user to visually confirm the composition image. The composition image used by the second composition means is 3. The photographic print providing apparatus according to claim 1, wherein the photographic print providing apparatus is a print image for combining and printing with a still image fixed by a shutter means. 4. The photo print providing apparatus according to claim 3, wherein the resolution of the print image is higher than the resolution of the confirmation image. A first storage unit that stores the confirmation image, a second storage unit that stores the printing image, a confirmation image stored in the first storage unit, and a second storage unit corresponding to the confirmation image The photographic print providing apparatus according to claim 1, further comprising: a correspondence unit that associates the print image with each other. The photographic print provision according to any one of claims 1 to 4, further comprising: a first storage unit that stores the confirmation image; and an image conversion unit that converts the confirmation image into a printing image corresponding to the first storage unit. apparatus. The photographic print provision according to any one of claims 1 to 4, further comprising: a second storage unit that stores the print image; and an image conversion unit that converts the print image into a corresponding confirmation image. apparatus. The first synthesizing unit synthesizes the synthesis image with the foreground of the image captured by the camera in real time, and the second synthesis unit generates a synthesized image by overwriting and synthesizing the synthesis image with the foreground of the captured still image. The photographic print providing apparatus according to any one of claims 1 to 7. The first synthesizing means includes first extracting means for extracting a subject from an image captured by the camera, and synthesizes an image for synthesis on a portion other than the subject extracted by the first extracting means in real time, and the second synthesis. A means for extracting a subject from a still image photographed by the camera; and generating a synthesized image by synthesizing a synthesis image with a portion other than the subject extracted by the second extracting means. The photographic print providing apparatus according to any one of 1 to 8. There are provided a plurality of images for composition used in the first composition means, and switching means for switching a composition image used in the first composition means from among the plurality of composition images by a user's operation. The photographic print providing apparatus according to any one of claims 1 to 9. The photographic print providing apparatus according to claim 10, comprising a plurality of the switching means. The photographic print providing apparatus according to claim 10 or 11, wherein the switching means is arranged in a casing including the camera and the display means, and further provided with the switching means on a wall surface inside the photographic print providing apparatus. A frame image that is the foreground of the subject as the composition image,
The first synthesizing unit includes an overlay synthesizing unit that synthesizes a captured image with a frame image as a foreground in real time,
When the frame image is synthesized in real time by the overlay synthesizing means, by referring to the mask data of the frame image, the captured image is an area that is hidden in the frame, an area that is not hidden by the frame, and an area that appears to be translucent To have
The photographic print providing apparatus according to any one of claims 1 to 12, wherein the second synthesizing unit performs synthesizing with reference to mask data similar to the first synthesizing unit and prints the synthesized image by a printer. A frame image that is a foreground of a subject and a background image that is a background of the subject as the composition image;
The first synthesizing unit extracts a subject from the image captured by the camera, and synthesizes a background image in real time with a portion other than the extracted subject, and a background in the captured image by the underlay synthesizing unit. Overlay combining means for combining the frame image with the combined image in real time as a foreground,
When a frame image is synthesized in real time by the overlay synthesizing unit, an image in which the background is synthesized with the captured video by the underlay synthesizing unit is hidden in the frame by referring to the mask data of the frame image. Display with no visible area and semi-transparent visible area,
The photographic print providing apparatus according to any one of claims 1 to 12, wherein the second synthesizing unit performs synthesizing with reference to mask data similar to the first synthesizing unit and prints the synthesized image by a printer. 2. An edit input means for displaying a composite image by the second composite means and receiving an edit input by a user, and editing the composite image based on the edit input by the second composite means. The photographic print providing apparatus according to any one of -14. In the first synthesizing unit, when synthesizing an image for synthesizing a predetermined image pattern among a plurality of synthesizing images with the captured image and displaying it on the display unit, the top and bottom of the captured image is reversed and the synthesized image is left unchanged The photographic print providing apparatus according to any one of claims 1 to 15, wherein the photographic print providing apparatus is configured to generate a composite image in the state and display the composite image on a display unit and perform a shutter operation in that state. When the still image is combined with the image for combining by the second combining means, and when the edit input is received by the editing input means, if the image for combining is the predetermined image for combining, the top of the still image is reversed. 17. The photographic print providing apparatus according to claim 16, wherein the photographic print providing apparatus is configured to receive an editing input while generating and displaying a composite image in which the top and bottom of the image for synthesis are left as they are, and to print the edited image with a printer. The first control means for controlling photographing by the first composition means and the camera, and the second control means for controlling edit input by the second composition means and the edit input means. The photographic print providing apparatus according to any one of the above. The photo print according to any one of claims 1 to 18, wherein the photo print is configured to provide the user with at least one of photographing by the camera, reception of the edit input, and print output by the printer at a different location. Providing device. The synthesis image synthesized as the synthesized video by the first synthesis unit is a synthesis image having a color tone corresponding to the display state of the display unit, or is synthesized as a synthesized image by the second synthesis unit. The photographic print providing apparatus according to any one of claims 1 to 19, wherein the image is a composite image having a color tone according to a printing state of the printer. A first correction unit that corrects the color tone of the image to be synthesized that is synthesized as a synthesized video by the first synthesis unit in accordance with the display state of the display unit, and a synthesis by the second synthesis unit in accordance with the printing state of the printer. The photographic print providing apparatus according to any one of claims 1 to 20, further comprising at least one of a second correction unit that corrects a color tone of a synthesis image to be synthesized as an image. The photographic print providing apparatus according to claim 21, wherein at least one of the first correction unit and the second correction unit corrects the color tone of the composite image when a predetermined condition is satisfied. The photographic print providing apparatus according to any one of claims 1 to 22, wherein the synthesis image synthesized as the synthesized image by the second synthesizing unit is an image subjected to a predetermined blurring process. An imaging step in which a subject including a user in the imaging region is imaged by a camera, a first synthesis step in which a synthesized image is synthesized with an image captured by the camera and an image for synthesis, and a first step by the first synthesis step. A display step for displaying a composite image in real time and enabling visual confirmation of the composite image on a subject; a shutter step for fixing the captured image as a still image at a predetermined timing; and a still image fixed by the shutter step for composition A photographic print comprising: a second combining step for generating a combined image by combining with an image; and a printing step for printing the combined image generated in the second combining step and providing it as a photographic print. How to provide. The photographic print providing apparatus according to any one of claims 1 to 23, wherein a print sheet used in the printer and a storage unit in which the printable number of print sheets are recorded are set. A printing paper unit configured such that the number of prints that can be supplied from the storage unit is read by the reading unit and the number of photo prints is supplied. The printing paper used in the printer and a recording material such as an ink ribbon for printing an image on the printing paper are set, and the printing paper or the recording material has identification information for identifying the printing paper or the recording material. 24. A print sheet attached to the photo print providing apparatus according to claim 1, wherein the photo print is supplied by reading the identification information by a reading unit provided in the photo print providing apparatus. unit. 24. A print paper unit including print paper used in the printer, wherein the print paper is provided with identification information for identifying the print paper, and the print paper unit according to any one of claims 1 to 23. A printing paper unit configured to supply a photographic print when the identification information is read by a reading unit provided in the photographic print providing apparatus.

Images