Source: https://patents.google.com/patent/JP5449460B2/en
Timestamp: 2019-12-12 14:20:14
Document Index: 31877246

Matched Legal Cases: ['art 14', 'art 16', 'art 18', 'art 20', 'art 22', 'art 24', 'art 26', 'art 28']

JP5449460B2 - Image processing apparatus, image processing method, and image processing program - Google Patents
JP5449460B2
JP5449460B2 JP2012135393A JP2012135393A JP5449460B2 JP 5449460 B2 JP5449460 B2 JP 5449460B2 JP 2012135393 A JP2012135393 A JP 2012135393A JP 2012135393 A JP2012135393 A JP 2012135393A JP 5449460 B2 JP5449460 B2 JP 5449460B2
JP2012135393A
JP2013033453A (en
啓 山路
徹也 松本
2011-06-28 Priority to JP2011143005 priority Critical
2011-06-28 Priority to JP2011143005 priority
2012-06-15 Application filed by 富士フイルム株式会社 filed Critical 富士フイルム株式会社
2012-06-15 Priority to JP2012135393A priority patent/JP5449460B2/en
2013-02-14 Publication of JP2013033453A publication Critical patent/JP2013033453A/en
2014-03-19 Publication of JP5449460B2 publication Critical patent/JP5449460B2/en
The present invention relates to an image processing apparatus, an image processing method, and an image processing program for editing the arrangement of images on each page of photo content such as a photobook.
The photo book creates a photo book of a layout desired by the user (photographer) by transmitting a plurality of images (image data) taken by the user with a digital camera or the like to the service provider via the Internet. It is a service. When creating a photo book, for example, the user selects a desired template from a plurality of templates having a layout in which positions where images can be arranged are determined in advance, and includes the number of pages of the photo book and the images to be included in each page. The arrangement of images on each page can be freely determined.
As a conventional photobook creation method, considering the continuity and relevance of images, for example, based on shooting time, etc., a plurality of images are classified into groups, and the images included in each group are each corresponding pages. There are known automatic placement (automatic layout).
For example, Patent Literature 1 classifies an acquired image and a selected image selected by the user from the acquired images for each attribute such as a subject, a shooting time zone, or a shooting scene. In accordance with the comparison result between the number of images and the number of selected images, an index indicating the importance of the selected image is created, an index is assigned to the selected image, and an image is assigned to each assigned area of the album template according to the index of the selected image. An album automatic layout method for arranging and synthesizing is described.
Patent Document 2 reads information including a plurality of pieces of image information, and automatically searches for information such as GPS information, date and time information, and search keywords (such as athletic meet) based on the read information for each image information. Create and record both in association with each other, collate the input search conditions with the search information, search and extract image information that meets the search conditions, and display the image indicated by the extracted image information on the screen An image search device to be displayed is described.
Further, in Patent Document 3, a condition for classifying each page is set based on information data related to image data capturing, which is attached to the image data when the image data is captured. An image display method has been proposed in which image data is classified for each page based on incidental information data and conditions, and the classified image data is displayed on a display screen for each page.
In Patent Document 4, similar image data is searched from a plurality of image data, and one of the similar image data is displayed as representative similar image data in an editing area corresponding to the page of the electronic album. An electronic album that displays similar image data in a save area independent of the page of the electronic album, and displays similar image data related to the designated representative similar image data separately from other image data displayed in the save area An editing device control method is described.
JP 2009-223864 A Japanese Patent Laid-Open No. 11-175533 Japanese Patent No. 3528214 Japanese Patent No. 4438061
As a conventional image processing apparatus, an apparatus that automatically selects a predetermined number of images from a plurality of images and arranges them on a corresponding page of a photobook is known. However, even if such automatic image selection and automatic layout are enhanced, it is difficult to fully understand the user's feelings (preferences) and reflect them in the image arrangement. Therefore, the image layout editing work by the user is indispensable based on the automatic layout.
An object of the present invention is to provide an image processing apparatus, an image processing method, and an image processing program that allow a user to easily edit an image layout on each page after automatically placing the image on a photo content page. There is to do.
In order to achieve the above object, the present invention provides an image processing apparatus that edits the arrangement of images on each page of a plurality of pages of photo content,
An image dividing unit for dividing the plurality of images into a predetermined number of groups based on the incidental information of the images;
An image analysis unit that analyzes each image and generates image analysis information;
For each group, an image extraction unit that extracts a predetermined number of images from the images included in the group based on the image analysis information;
For each group, an image placement unit that places an image extracted from the group by the image extraction unit on a page corresponding to the group;
An image display unit for displaying a page on which an image is arranged by the image arrangement unit;
An image editing unit that edits the arrangement of images on the page where the image is arranged by the image arrangement unit based on a user instruction,
The image display unit is included in an image editing area in which an image arranged on the first page to be edited designated by the user is displayed, and a first group corresponding to the first page. A candidate image display area in which candidate images used in image layout editing are displayed is displayed on the display screen.
The image editing unit edits the arrangement of the images on the first page displayed in the image editing area using the candidate images displayed in the candidate image display area based on a user instruction. An image processing apparatus is provided.
Here, it is preferable that the image display unit displays only candidate images that are included in the first group corresponding to the first page and are not arranged on the first page in the candidate image display area. .
Further, the image display unit displays candidate images so that all images included in the first group corresponding to the first page can be discriminated from images arranged on the first page and images not arranged. It is preferable to display in the area.
Moreover, it is preferable that an image display part is what displays image analysis information in a candidate image display area.
Moreover, it is preferable that an image display part attach | subjects the identification information showing the group in which each candidate image is included to the candidate image of all the groups, and it displays on a candidate image display area collectively for every group.
Moreover, it is preferable that an image display part displays the candidate image contained in the 1st group corresponding to a 1st page in the head position of a candidate image display area.
Further, the image display unit further includes a template display area in which a template having an image arrangement area for arranging an image equal to or less than the number of images included in the first group corresponding to the first page is displayed in the display screen. Is to display
The image placement unit applies the first template designated by the user from the templates displayed in the template display area to the first page, and the first group corresponding to the first page by the image extraction unit. It is preferable that the image extracted from is placed in the image placement area of the first template.
In addition, when the number of image placement areas increases when the image editing unit is changed from the first template to the second template, the image editing unit selects from the candidate images included in the first group corresponding to the first page. , Based on the image analysis information, to obtain a first candidate image for an increase in the number of image placement areas,
The image placement unit applies the second template to the first page, and places the image extracted from the first group and the first candidate image in the image placement area of the second template. Is preferred.
In addition, when the number of image placement areas is reduced due to the change from the first template to the third template, the image editing unit, based on the image analysis information, from the images placed on the first page. , To obtain a first image for the reduction of the image arrangement area,
The image placement unit applies the third template to the first page, and places the remaining image obtained by deleting the first image from the image extracted from the first group in the image placement area of the third template. It is preferable that
The image display unit displays a first image addition button in the display screen.
When the first image addition button is pressed by the user, the image editing unit selects a second candidate from candidate images included in the first group corresponding to the first page based on the image analysis information. It is preferable that the image is designated and the second candidate image is added to the first page.
The image display unit displays a second image addition button in the display screen.
The image editing unit selects one or more candidate images when the user designates one or more candidate images from the candidate images displayed in the candidate image display area and then presses the second image addition button. Is preferably added to a page corresponding to a group including one or more candidate images.
The image display unit displays an image replacement button in the display screen.
The image editing unit selects the first group corresponding to the first page when the image replacement button is pressed after one or more images are designated by the user from the images displayed in the image editing area. The same number of third candidate images as the one or more images are designated based on the image analysis information, and the third candidate image and the one or more images are replaced. preferable.
Moreover, it is preferable that an image arrangement | positioning part arrange | positions the image extracted from the group by the image extraction part on the page corresponding to a group based on image analysis information.
The image arrangement unit arranges the images extracted from the group by the image extraction unit in the order of the shooting time of the images on the page corresponding to the group,
Furthermore, it is preferable that after the third candidate image and one or more images are replaced, the images displayed in the image editing area are rearranged in order of photographing time.
Further, the image editing unit selects a template different from the template applied to the first page displayed in the image display unit, based on the user's re-layout instruction, from the template displayed in the template display area. Select from among the images used on the first page and place them in the image placement area of another template.
The image display unit is preferably configured to display, in the image editing area, the first page in which the image is arranged in the image arrangement region of another template by the image editing unit.
Further, it is preferable that the image editing unit preferentially arranges the image designated by the user when the image used on the first page is arranged in the image arrangement area of another template.
The image analysis information is preferably an evaluation value generated based on at least one analysis result of each image analysis item.
The image analysis information is preferably an analysis result of each image analysis item itself.
The photo content is a photo book consisting of a predetermined number of pages, a calendar consisting of a predetermined number of pages, or a shuffle consisting of a predetermined number of pages in which a predetermined number of images are randomly shuffled and printed on each page. A print is preferred.
Further, the present invention is an image processing method for editing the arrangement of images on each page of photo content consisting of a plurality of pages,
An image dividing step for dividing the plurality of images into a predetermined number of groups based on the incidental information of the images;
An image analysis step of analyzing each image and generating the image analysis information;
For each group, an image extraction step for extracting a predetermined number of images from the images included in the group based on the image analysis information;
For each group, an image placement step for placing the image extracted from the group in the image extraction step on a page corresponding to the group;
An image display step for displaying the page on which the image is arranged in the image arrangement step;
An image editing step for editing the arrangement of the images on the page where the image is arranged in the image arrangement step based on a user instruction,
The image display step includes an image editing area in which an image arranged on the first page to be edited designated by the user is displayed, and a first group corresponding to the first page. A candidate image display area in which candidate images used for editing the image layout of the image are displayed on the display screen,
The image editing step edits the arrangement of the images on the first page displayed in the image editing area using the candidate images displayed in the candidate image display area based on a user instruction. A processing method is provided.
The present invention also provides a program for causing a computer to execute each step of the image processing method described above.
In addition, the present invention provides a computer-readable recording medium on which a program for causing a computer to execute each step of the image processing method described in is recorded.
According to the present invention, among the images included in the group corresponding to the page to be edited, only the remaining images not extracted by the image extraction unit or all the images included in the group are used as the page to be edited. Displayed in the candidate image display area as a candidate image for editing work so that the arranged image and the non-placed image can be identified, so that the user can use it for editing the image layout of the page to be edited. Editing operations such as selection, addition, and replacement of images can be easily performed without considering whether the image is a candidate image.
It is a block diagram of one embodiment showing composition of an image processing device of the present invention. 3 is a flowchart illustrating an example of an operation of the image processing apparatus. It is an example conceptual diagram showing a mode that a some image is divided | segmented into a predetermined number of groups based on the incidental information of an image. It is an example conceptual diagram showing a mode that a predetermined number of images are extracted from the image contained in a group for every group based on the evaluation value of an image. It is an example conceptual diagram showing a mode that the image extracted from the group is arrange | positioned for every group on the corresponding page of a photobook. It is a conceptual diagram of an example showing the display screen of an image display part. It is an example flowchart showing operation | movement in the case of changing a template. It is an example flowchart showing the operation | movement in the case of changing a candidate image. It is an example conceptual diagram showing a mode that the identification information of a group is provided to each candidate image. FIG. 10 is a conceptual diagram illustrating an example of a state in which candidate images included in a group corresponding to a page to be edited are displayed after being moved to the top position of a candidate image display area. It is a flowchart of another example showing operation | movement in the case of changing a candidate image. It is a conceptual diagram of an example showing a state where an image addition button is displayed in the image editing area of the page editing screen. It is a conceptual diagram of an example showing a state where an image addition button is displayed in a candidate image display area of a page editing screen. It is a conceptual diagram of an example showing a state in which an image replacement button is displayed in the image editing area of the page editing screen. It is a conceptual diagram showing a mode that the evaluation value of 12 images contained in the group 1 was determined with a perfect score of 1000 points. It is an example conceptual diagram showing a mode that seven images extracted from the group 1 are arrange | positioned on the corresponding page of a photo book based on the evaluation value of an image. It is a conceptual diagram of an example showing a state where the replacement of images is performed. It is an example conceptual diagram showing a mode that the image after replacement is rearranged in order of photographing time. It is a conceptual diagram of an example showing a state where the image replacement button is pressed again and images are replaced again. (A) is a page to be edited before relayout, and (B) and (C) are conceptual diagrams showing examples of the page to be edited after relayout.
Hereinafter, an image processing apparatus, an image processing method, and an image processing program of the present invention will be described in detail based on preferred embodiments shown in the accompanying drawings.
FIG. 1 is a block diagram of an embodiment showing a configuration of an image processing apparatus of the present invention. An image processing apparatus 10 shown in FIG. 1 automatically arranges images on each page of a photo book, and then edits the arrangement of images on each page. The image processing unit 10 includes an image acquisition unit 12 and an image division unit 14. The image analysis unit 16, the image extraction unit 18, the image placement unit 20, the image display unit 22, the input unit 24, and the image editing unit 26.
The image acquisition unit 12 acquires a plurality of images (image data) that can be used in a photo book (arranged on each page of the photo book). The image acquisition unit 12 acquires an image via, for example, a USB (Universal Serial Bus) memory, a memory card, an optical disk, a wired / wireless network, or the like. Although not shown, the image acquired by the image acquisition unit 12 is stored in a storage device such as a hard disk, for example.
The image dividing unit 14 divides the plurality of images acquired by the image acquiring unit 12 into a predetermined number of groups based on the incidental information of each image.
Here, the supplementary information of the image is various pieces of information including a photographing time, a photographing position, and the like acquired by the photographing device or the like when photographing the image. The incidental information may be a separate file from the image as long as it is associated with the corresponding image. For example, an image captured by a digital camera or the like is recorded in an image file format such as Exif (Exchangeable Image File Format). In this case, as the header information (Exif information), these various types of information are appended to the captured image data and recorded.
Subsequently, the image analysis unit 16 analyzes a plurality of predetermined analysis items for each image acquired by the image acquisition unit 12, and based on at least one of the analysis results of the plurality of analysis items. The evaluation value of the image is determined.
Here, the image evaluation value is a reference (index) for extracting an image having high utility value for the user. The analysis item, analysis method, evaluation method, evaluation value determination method, and the like of the image are not limited in any way. For example, as described in JP-A-2006-229682, JP-A-2008-84047, etc. Analyzes whether the image contains a person's face, and if so, detects the face area from the image and detects the face size, face position, face orientation, face skin color, facial expression, Based on the number of persons included in the image, the positional relationship between the persons, and the like, the evaluation value of each image can be converted into a numerical value (10 points, etc.), flagged (good, average, bad, etc.), and the like. When there is no face in the image, the evaluation value of the image may be determined based on, for example, the brightness and hue of the image, the degree of blurring and blurring, and the like. Further, for example, the evaluation value may be determined based on supplementary information such as a photographing time, a photographing position, a photographer, a photographing device (camera), a user instruction, or the like. The evaluation value may be determined by weighting.
Here, whether or not a person's face is included in the image is determined by, for example, “H. Schneiderman et al.,“ A statistical method for 3d object detection applied to faces and cars, “in IEEE Conf. on Computer Vision and Pattern Recognition, 2000, pp. 746-51”, using a face detection method using DWT coefficients obtained by wavelet transforming an image. it can.
The size of the face can be obtained using, for example, the number of pixels in the face area, the ratio of the face area to the entire image, the ratio of the face area to the width of the image, and the like.
As the face position, for example, a value representing the ratio of the coordinate value of the center position of the face area (for example, the intersection of diagonal lines when the face area is rectangular) to the horizontal and vertical length of the image in percentage is used. can do.
The orientation of the face can be obtained by using information indicating that the orientation of the face included in the face area is front or side, for example. Further, the eyes may be further detected from the face area, and when there are two detected eyes, the face may be in front, and in the case of one, it may be in landscape orientation. In addition, a feature amount representing the face direction may be obtained from the face area, and the feature amount may be used to determine whether the face direction is front or side.
As for the skin color of the face, the face is detected from the image by the method described in Japanese Patent Application Laid-Open No. 2004-348733, and the color of the detected face is determined by the method described in Japanese Patent Application Laid-Open No. 2004-180114. It is determined whether or not a predetermined preferable skin color reference value set in the space is exceeded, and an image exceeding the reference value is determined to be an image having a preferable skin color.
For facial expressions, for example, using a technique described in Japanese Patent Laid-Open No. 2001-43345, it is determined whether the face included in the image is laughing or not laughing. Specifically, for facial images exhibiting various facial expressions, pre-store feature vectors for identifying facial expressions based on epidermal movement patterns, calculate feature vectors from the target images, A distance between this and a feature vector stored in advance is calculated, and the facial expression corresponding to the feature vector having the closest distance is determined as the facial expression included in the target image.
The positional relationship between persons is obtained using an angle formed by a line segment connecting the center of the face of the person to be evaluated and the center of the face of another person with the horizontal line of the image. Can do.
As for the brightness of the image, for example, the average value of all the pixels is calculated for all the images, it is determined whether or not the average value exceeds a predetermined threshold value Th1, and the average value is the threshold value Th1. An image exceeding the threshold value is determined as an image satisfying a predetermined brightness.
As for blurring and blurring of an image, for example, as described in JP-A-2004-295236, an image is decomposed into a high-frequency component, a medium-frequency component, and a low-frequency component, A technique for determining the degree can be used. For example, it is determined whether or not the gain of the high frequency component exceeds the threshold value Th2, and an image whose gain exceeds the threshold value Th2 is determined as an image without blur.
Subsequently, the image extraction unit 18 includes, for each group divided by the image division unit 14, for example, in descending order of evaluation value based on the evaluation value of the image determined by the image analysis unit 16. A predetermined number of images (recommended images) are extracted from the images to be displayed.
Similarly, for each group, the image placement unit 20 places (automatic layout) the image extracted from the group by the image extraction unit 18 on a page corresponding to the group from which the image is extracted. Images extracted from the group are arranged, for example, on one page or two pages. The image placement unit 20 may place an image based on an evaluation value, a shooting time, or the like when placing an image on a page of a photo book.
The image display unit 22 displays the page on which the image is arranged by the image arrangement unit 20. As will be described later, the image display unit 22 displays an editing screen for the user to edit the image layout of each page of the photo book.
The input unit 24, for example, specifies (selects) pages to be edited, specifies (selects) a template to be used on each page, specifies (selects) candidate images, specifies (selects) an image to be edited, and performs image editing. This is for the user to input various instructions such as instructions. As the input unit 24, for example, an input unit that inputs an instruction or the like by operating a screen displayed on the image display unit 22 using an input unit such as a mouse, a keyboard, or a touch panel can be used.
The image editing unit 26 edits the image arrangement on the page on which the image is arranged by the image arrangement unit 20 based on a user instruction.
Next, the operation of the image processing apparatus 10 will be described according to the image processing method of the present invention.
First, with reference to the flowchart shown in FIG. 2, an operation when an image is automatically arranged on each page of the photo book will be described.
In the image processing apparatus 10, first, the image acquisition unit 12 acquires a plurality of images that can be arranged on each page of the photo book (step S1).
When the image acquisition by the image acquisition unit 12 is completed, the image analysis unit 16 analyzes each image and determines its evaluation value (step S2).
Subsequently, the image dividing unit 14 divides the acquired plurality of images into a predetermined number of groups based on the supplementary information of each image (step S3).
The image dividing unit 14 divides the plurality of acquired images into groups among images having a relatively large shooting interval when the shooting time is used as supplementary information. In the example of FIG. 3, a plurality of images are grouped into groups of shooting times 9:00 to 10:00, 11:30 to 11:40, 12: 0 to 13:00,. It is divided. Group 1 includes 12 images, group 2 includes 2, image 3 includes 8 images, and so on. When the shooting position is used as the auxiliary information, a plurality of images are divided into groups for each shooting position.
Subsequently, for each group divided by the image dividing unit 14, a predetermined number of images (from the images included in the group (based on the evaluation value of the image determined by the image analyzing unit 16) by the image extracting unit 18 ( A recommended image) is extracted (step S4). In the example shown in FIG. 4, as recommended images, 7 images from 12 images (A) in group 1, 2 images from 2 images (B) in group 2, and 8 images (C) in group 3 are recommended images. 4 images are extracted from.
Subsequently, for each group, the image placement unit 20 places (automatic layout) the image extracted from the group by the image extraction unit 18 on the corresponding page of the photo book (step S5). In the example shown in FIG. 5, images extracted from each group are arranged on two pages of spread.
Subsequently, a page on which an image extracted from the corresponding group is arranged is displayed by the image display unit 22 (step S6).
Next, an operation when image layout editing is performed after automatic image layout has been performed will be described.
For each group, the image placement unit 20 places an image extracted from the group on a corresponding page of the photo book, and then, based on a user instruction input via the input unit 24, the image editing unit 26 The arrangement of images on each page is edited.
FIG. 6 is a conceptual diagram illustrating an example of a display screen of the image display unit. The display screen of the image display unit 22 shown in the figure represents the editing screen 28 when the image layout editing work is performed on each page of the photobook. This figure is a spread page corresponding to group 1 shown in FIG. The page editing screen 28 includes a page designation area 30, a template designation area 32, a candidate image display area 34, and an image editing area 36.
The page designation area 30 is an area where a list of pages 38 to be edited, which is designated (selected) by the user via the input unit 24, is displayed in a reduced size, and is an area of about 2/3 on the right side of the editing screen 28. It is provided at the top. Only a predetermined number of pages 38 are displayed on the editing screen 28, but the range of the predetermined number of pages 38 displayed on the editing screen 28 can be changed by a scroll bar.
The template designation area 32 is an area where a list of templates 40 used on the page to be edited, which is designated (selected) by the user via the input unit 24, is reduced and displayed on the left half of the editing screen 28. It is provided in the area. Similarly, only a predetermined number of templates 40 are displayed on the editing screen 28, but the range of the predetermined number of templates 40 displayed on the editing screen 28 can be changed by a scroll bar.
Here, in the template designation area 32, one or more templates 40 having an image arrangement area for arranging the number of images included in the group corresponding to the editing target page displayed in the image editing area 36 are displayed. . That is, in the example shown in the figure, since 12 images are included in the group 1 corresponding to the page to be edited, the template 40 having 12 or less image arrangement areas is displayed in the template designation area 32. The
In this way, by displaying only the templates 40 that can be used on the page to be edited in the template designation area 32, the user can easily select the desired template 40 without considering whether or not it is a usable template. can do.
Subsequently, the candidate image display area 34 is an area in which a list of candidate images 42 that are designated (selected) by the user via the input unit 24 and used in image layout editing work is displayed in a reduced size. 28 is provided in the lower half region of the left side. Similarly, only a predetermined number of candidate images 42 are displayed on the editing screen, but the range of the predetermined number of candidate images 42 displayed on the editing screen 28 can be changed by a scroll bar.
Here, the candidate image 42 is an image that is included in the group corresponding to the page to be edited and is not arranged on the page to be edited. In the example shown in the figure, among the 12 images (A) included in the group 1 corresponding to the page to be edited, seven images extracted by the image extraction unit 18 are arranged (displayed) in the image editing area 36. ) And only the remaining five images not extracted by the image extraction unit 18 are arranged (displayed) in the candidate image display area 34.
In this way, only the remaining images that have not been extracted by the image extraction unit 18 among the images included in the group corresponding to the page to be edited are displayed in the candidate image display area 34 as the candidate images 42 for editing work. Thus, the user can easily perform editing operations such as selection, addition, and replacement of images without considering whether the image is a candidate image that can be used for editing the image layout of the page to be edited.
Finally, the image editing area 36 is an area in which the page to be edited designated in the page designation area 30 by the user, that is, the image 44 arranged on the page is displayed. / 3 area. In the same figure, as described above, seven images 44 extracted by the image extraction unit 18 among the 12 images (A) included in the group 1 corresponding to the page to be edited are displayed. .
Next, an operation when image layout editing on each page is performed will be described.
First, the operation when the editing target page is changed will be described.
First, a page editing screen 28 as shown in FIG. 6 is displayed on the image display unit 22.
Subsequently, the user clicks the desired page 38 with the mouse, for example, from the list of the pages 38 displayed in a reduced size in the page designation area 30 on the page editing screen 28 using a mouse or the like. Thus, the page 38 is designated. When the user designates a desired page 38 from the list of pages 38, the designated page 38 is displayed in the image editing area 36 as a page to be edited.
Thereafter, similarly, when another page 38 is designated, the designated page 38 is displayed in the image editing area 36 as a page to be edited.
Next, the operation when the template is changed will be described with reference to the flowchart shown in FIG.
Similarly, the page editing screen 28 is displayed on the image display unit 22 (step S7).
Subsequently, the image editing unit 26 acquires information on the group corresponding to the editing target page displayed in the image editing area 36 (step S8), and further sets the group corresponding to the group information acquired in step S8. The number of included images is acquired (step S9).
Subsequently, one or more templates 40 having an image placement area for placing an image equal to or smaller than the number of images included in the group acquired in step S9 are displayed in the template designation area 32 (step S10).
Subsequently, the user designates a desired template 40 from the list of templates 40 displayed in a reduced size in the template designation area 32 by using an input unit such as a mouse (step S11).
Subsequently, before and after the template is changed in step S11, it is checked whether or not the number of image placement areas of the template has increased or decreased (step S12).
As a result, when the number of image arrangement areas decreases after the template is changed, the image editing unit 26 generates the image 44 corresponding to the reduction in the number of image arrangement areas from among the images 44 arranged on the page to be edited. Based on the evaluation value of the image, for example, it is acquired (selected) in order from the image 44 having the lowest evaluation value. Then, the image placement unit 20 applies the changed template to the page to be edited, and the image 44 acquired by the image editing unit 26 is deleted from the image extracted from the group corresponding to the page to be edited. The remaining images are arranged in the image arrangement area of the template after the change (step S13).
If there is no change in the number of image placement areas after the template is changed, the image placement unit 20 applies the changed template to the page to be edited and the image placed on the page to be edited before the change. 44, that is, the image 44 extracted from the group corresponding to the page to be edited by the image extraction unit 18 is arranged in the image arrangement area of the changed template designated by the user. That is, the same image 44 as that before the template change is used (displayed) as it is (step S14).
When the number of image arrangement areas increases after the template is changed, the image editing unit 26 selects an image arrangement from the candidate images 42 included in the group corresponding to the editing target page displayed in the candidate image display area 34. Candidate images 42 corresponding to the increase in the number of regions are acquired (selected) in order from, for example, candidate images 42 having the highest evaluation value, based on the evaluation value of the image. Then, the changed template is applied to the page to be edited by the image placement unit 20, and the image extracted from the group corresponding to the page to be edited and the candidate image 42 acquired by the image editing unit 26 are changed. Are arranged in the image arrangement area of the template (step S15).
Thereafter, similarly, when the template is changed, the changed template is applied to the page to be edited.
Next, the operation when a candidate image is changed will be described with reference to the flowchart shown in FIG.
Similarly, the page editing screen 28 is displayed on the image display unit 22 (step S16).
Subsequently, the image editing unit 26 acquires (1) group information corresponding to the editing target page displayed in the image editing area 36 (step S17), and (2) displays it in the candidate image display area 34. Information on the group corresponding to the candidate image 42 is acquired (step S18).
Subsequently, the image editing unit 26 checks whether (1) the group corresponding to the page to be edited matches (2) the group corresponding to the candidate image 42 (Step S19).
As a result, if the two match, the candidate image 42 displayed in the candidate image display area 34 is used (displayed) as it is (step S20).
On the other hand, if the two do not match, the candidate image 42 included in the group corresponding to the page to be edited is displayed in the candidate image display area 34 (step S21).
The image display unit 22 assigns identification information representing a group including each candidate image 42 to all the group candidate images 42, that is, all candidate images 42 that are not arranged on the page of the photobook. Then, it may be displayed in the candidate image display area 34.
In this case, as shown in FIG. 9, the same identification information is assigned to all candidate images 42 included in the same group, and different identification information is assigned to each group, so that the candidate images 42 of all groups are Each group is displayed together in the candidate image display area 34. Further, the candidate image 42 included in the group corresponding to the editing target page displayed in the image editing area 36 is displayed at the head position of the candidate image display area 34.
In the example of FIG. 9, a mark 46 is given to each candidate image 42 displayed in the candidate image display area 34 as identification information. For example, a mark (A) is assigned to five candidate images 42 included in group 1, and a mark (B),... Is assigned to two candidate images 42 included in group 2 that follows. The user can easily identify which candidate image 42 is an image included in a group corresponding to which editing target page by looking at the mark 46 attached to the candidate image 42.
When the user changes the editing target page, the candidate image 42 included in the group corresponding to the changed editing target page is moved to the top position of the candidate image display area 34 and displayed. As shown in FIG. 10, when the group corresponding to the page to be edited is changed from group 1 to group 2, the candidate image 42 included in group 2 is moved to the top position of the candidate image display area 34. Is displayed.
Hereinafter, with reference to the flowchart shown in FIG. 11, an operation when the candidate images 42 of all groups are displayed in the candidate image display area 34 will be described.
Similarly, the page editing screen 28 is displayed on the image display unit 22 (step S22).
Subsequently, the image editing unit 26 obtains (1) information on the group corresponding to the page to be edited displayed in the image editing area 36 (step S23), and (2) at the head position of the candidate image display area 34. Information on the group corresponding to the displayed candidate image is acquired (step S24).
Subsequently, the image editing unit 26 checks whether (1) the group corresponding to the page to be edited matches the (2) group corresponding to the candidate image displayed at the head position ( Step S25).
As a result, if the two match, the candidate image displayed in the candidate image display area 34 is used (displayed) as it is (step S26).
On the other hand, if the two do not match, group identification information is assigned to the candidate images of all groups, and the candidate images included in the group corresponding to the page to be edited move to the top position of the candidate image display area 34. Is displayed (step S27).
As described above, since the candidate images included in the group corresponding to the editing target page are always displayed at the top position of the candidate image display area 34, the user can immediately select candidate images that can be used on the editing target page. Can be identified.
Note that it is not essential to add the mark 46 to each candidate image as identification information. For example, the color of the mark 46 is changed for each group, the color of the frame of each candidate image is changed, and the like. The group of candidate images may be displayed so that the user can identify them.
Finally, the operation when the image layout of the page to be edited is edited will be described.
The image editing unit 26 uses the candidate images displayed in the candidate image display area 34 based on a user instruction input via the input unit 24 to edit the arrangement of images on each page.
First, the operation when an image is added to a page to be edited will be described.
A first embodiment for adding an image will be described.
First, the image display unit 22 displays a first image addition button in the image editing area 36 in the page editing screen 28. In the example illustrated in FIG. 12, the first image addition button 48 is disposed at the lower right position of the image editing area 36.
Subsequently, when the user presses (clicks) the first image addition button 48 displayed in the image editing area 36 using an input means such as a mouse, the image editing unit 26 displays the page to be edited. Based on the evaluation value, for example, one candidate image 42 with the highest evaluation value is acquired (selected) from the candidate images 42 included in the corresponding group. Then, one candidate image 42 acquired by the image editing unit 26 is added (arranged) to the page to be edited by the image arrangement unit 20.
In the example shown in FIG. 12, a page corresponding to group 1 is displayed in the image editing area 36, and candidate images included in group 1 are also displayed in the candidate image display area 34. In this case, when the first image addition button 48 is pressed, one candidate image automatically selected from the candidate images included in the group 1 corresponding to the editing target page based on the evaluation value is displayed. , Added to the page to be edited corresponding to group 1.
As described above, since the automatically selected candidate image 42 is added to the page to be edited without selecting the candidate image 42 displayed in the candidate image display area 34, the user can easily edit the object. You can add an image to the page.
Note that, instead of the evaluation value, the image editing unit 26 may acquire one candidate image based on the image shooting time, such as the image having the earliest image shooting time.
Subsequently, a second embodiment in which an image is added will be described.
First, the image display unit 22 displays a second image addition button in the candidate image display area 34 in the page editing screen 28. In the example shown in FIG. 13, the second image addition button 50 is arranged at the lower right position of the candidate image display area 34.
Subsequently, after the user selects one or more candidate images 42 from the candidate images 42 displayed in the candidate image display area 34 using an input unit such as a mouse, the second image addition button 50 is displayed. When pressed, the candidate image 42 selected by the user is acquired (selected) by the image editing unit 26. The candidate image 42 acquired by the image editing unit 26 becomes a page corresponding to the group including the candidate image 42 regardless of the page to be edited displayed in the image editing area 36 by the image arranging unit 20. Added (arranged).
In the example shown in FIG. 13, a page corresponding to group 2 is displayed in the image editing area 36, and candidate images included in group 1 are displayed in the candidate image display area 34. In this case, when one or more candidate images are selected from the candidate images included in the group 1 by the user and then the second image addition button 50 is pressed, the one or more candidate images selected by the user Is added to the page corresponding to group 1, not the page corresponding to group 2.
In this way, regardless of the page displayed in the image editing area 36, the candidate image selected by the user is added to the page corresponding to the group including the candidate image. A desired candidate image can be added quickly and easily.
Next, an operation when the image of the page to be edited and the candidate image are exchanged will be described.
First, the image display unit 22 displays an image replacement button in the image editing area 36 in the page editing screen 28. In the example illustrated in FIG. 14, the image replacement button 52 is disposed at the lower right position of the image editing area 36.
Subsequently, after the user selects one or more images (images to be edited) from the images displayed in the image editing area 36 using an input unit such as a mouse, the image replacement button 52 is pressed. From the candidate images 42 included in the group corresponding to the page to be edited by the image editing unit 26, for example, based on the evaluation value, one or more from the highest evaluation value (the editing target selected by the user) The same number of candidate images 42 are obtained (selected). Then, the image placement unit 20 replaces one or more editing target images selected by the user with one or more candidate images 42 acquired by the image editing unit 26.
In this way, the user can select the image to be edited without selecting the replacement candidate image 42, and can perform the image replacement simply by pressing the image replacement button 52. Can be replaced.
Hereinafter, the replacement of images will be described with reference to an example in which evaluation values are assigned with a maximum score of 1000 to 12 images included in group 1.
As shown in FIG. 15, the image analysis unit 16 determines evaluation values of 12 images included in the group 1 with a maximum score of 1000 points. In the figure, 12 images are arranged from the left side to the right side in order of photographing time. The evaluation values of the images are 123, 345, 937, 49, 879, 712, 810, 632, 238, 254, 445, and 213 in order from the leftmost image (image with the earliest photographing time) in the figure.
Subsequently, based on the evaluation value of the image, for example, seven images having the highest evaluation value, that is, 2, 3, 5 are selected from the 12 images included in the group 1 by the image extraction unit 18. , 6, 7, 8, and 11th images are extracted.
Subsequently, the image placement unit 20 places the seven images extracted by the image extraction unit 18 on the corresponding pages of the photo book based on the evaluation value of the image and the shooting time. In the example shown in FIG. 16, the third image having the highest evaluation value among the seven images is arranged in a large size in the center portion of the spread page, and 2, 5, The sixth image, and then the seventh, eighth, and eleventh images are arranged in a small size in order of photographing time from the upper side of the right portion.
Although not shown in the drawing, the candidate image display area 34 includes the remaining five images not extracted by the image extraction unit 18 among the 12 images included in the group 1, that is, 1, 4, 9, 10, The twelfth image is displayed.
In this state, for example, an operation when the user selects the sixth image (image to be edited) from the seven images displayed in the image editing area 36 and presses the image replacement button will be described. .
In this case, as shown in FIG. 17, the image editing unit 26 automatically selects the tenth image having the highest evaluation value from among the five candidate images displayed in the candidate image display area 34, The tenth image is replaced with the tenth image. When the image is exchanged, the tenth image exchanged with the sixth image and displayed in the image editing area 36 is selected.
Note that when the sixth image and the tenth image are exchanged, the time series of the six images arranged on the left and right of the third image with the highest evaluation value collapses, as shown in FIG. In addition, it is desirable to rearrange the six images after the replacement of the images again in the order of the photographing times. As a result, as shown in the figure, the second, fifth, and seventh images are arranged in order of shooting time from the upper left side of the third image arranged in the center portion of the spread page, and then the upper right side portion. The eighth, tenth, and eleventh images are arranged in order of photographing time.
Subsequently, when the image replacement button is pressed again by the user, as shown in FIG. 19, the image editing unit 26, for example, has the next highest evaluation value after the tenth image in the selected state shown in FIG. The tenth candidate image is automatically selected, and the tenth image and the ninth image are switched. Also, as shown in FIG. 18, when the six images after the image replacement are rearranged in the order of the photographing time, similarly, the selected tenth image and the ninth image are switched. Is done.
Thereafter, every time the image replacement button is pressed by the user, the image replacement is performed in the same manner. Then, the image replacement ends when the user does not press the image replacement button.
As described above, the user can easily perform editing operations such as designation of a page to be edited, designation of a template used in the page to be edited, addition of an image to each page, and replacement in the image processing apparatus 10. It can be carried out.
The image processing method of the present invention can be realized as an image processing program for causing a computer to execute each step. Further, a computer-readable recording medium on which the image processing program is recorded may be used.
In the above-described embodiment, the case where the present invention is applied to a photobook has been described. However, the present invention is not limited to this, and in addition to a photobook (or photo album), for example, a calendar including a predetermined number of pages, Photo content consisting of multiple pages (physical photobooks, etc.), such as a shuffle print (template composite print) consisting of a predetermined number of pages, in which a number of images are randomly shuffled and printed on each page It is equally applicable to tangible products and intangible products such as photo book data processed on a computer).
Here, the photo content composed of a plurality of pages may be in a state in which a plurality of pages are bound into one like a photo book, or a plurality of pages are not bound into one and are combined. It may be in a state (each page can be separated).
Moreover, the photo content displayed on the display is also included in the scope of the photo content of the present invention.
In the above embodiment, the image analysis unit determines the evaluation value of the image based on at least one of the analysis results of the plurality of analysis items. This evaluation value is the value of the image analysis information of the present invention. It is an example, and it is not essential for the image analysis unit to determine the evaluation value as the image analysis information.
The image analysis unit of the present invention analyzes each image to generate image analysis information, and the image extraction unit extracts a predetermined number of images from the images included in the group based on the image analysis information. To do.
The image analysis information may be, for example, the analysis results of individual image analysis items including face detection, similar image determination, blur / blur determination, or at least one of the analysis results of individual image analysis items. It may be an image evaluation value generated based on one.
In the above embodiment, the image display unit includes only images that are included in the group corresponding to the page to be edited in the candidate image display area and are not arranged on the page to be edited, that is, the image arrangement in the image editing unit. Only the images used in the editing work are displayed, but the present invention is not limited to this.
For example, the image display unit displays all the images included in the group corresponding to the page to be edited in the candidate image display area, for example, adds identification information to an image that is not arranged on the page to be edited, and edits it. You may display the image arrange | positioned on the object page, and the image which is not arrange | positioned so that identification is possible.
In this way, by displaying the images arranged on the page to be edited and the images not arranged in an identifiable manner, the user can immediately select candidate images that can be used for editing the image arrangement on the page to be edited. Identification and editing operations such as image selection, addition, and replacement can be easily performed.
The image display unit desirably displays the above-described image analysis information in the candidate image display area as a support function when the user selects a candidate image. In this case, the image display unit displays, for example, the evaluation value of the candidate image, the face detection result (for example, circles the face portion), and the blur / blur determination result (for example, blur mark on the blurred image) in the candidate image display area. Display).
Thus, by displaying the image analysis information in the candidate image display area, the user can select an optimal candidate image in consideration of the contents of the image analysis information.
In addition, when the user feels dissatisfied with the layout result, it is desirable that the user instructs the re-layout to change the template to be used and automatically perform the re-layout.
In this case, based on the user's re-layout instruction, the image editing unit uses a template displayed in the template display area, which is different from the template applied to the editing target page displayed in the image display unit. Is automatically selected, and the image used on the page to be edited is automatically rearranged in the image arrangement area of another selected template.
The editing target page in which the image is arranged in the image arrangement area of another template by the image editing unit is displayed in the image editing area by the image display unit for confirmation by the user.
As described above, from the template selection to the re-layout automatically based on the user's re-layout instruction, the user can greatly save the trouble of manually selecting the template and re-laying the image. it can.
When performing re-layout, it is desirable that the user can designate an image (priority image) that the user wants to preferentially arrange.
When the priority image is specified by the user when performing re-layout, the image editing unit is specified by the user when the image used in the page to be edited is placed in the image placement area of another template. Priority images are preferentially arranged.
For example, as shown in FIG. 20A, when an image 3 that is a user's favorite and has been arranged in a large size before the re-layout is simply re-layed out, as shown in FIG. In addition, there is a possibility of being arranged in a small size after the re-layout. On the other hand, when the user designates the image 3 as the priority image, it can be arranged in a large size even after the re-layout as shown in FIG.
As described above, by enabling the user to designate the priority image, the priority image can be preferentially arranged even when the re-layout is performed.
On the contrary, it is also possible to arrange another image 1 arranged in a small size before the re-layout in a large size after the re-layout.
Although the present invention has been described in detail above, the present invention is not limited to the above-described embodiment, and it is needless to say that various improvements and modifications may be made without departing from the gist of the present invention.
DESCRIPTION OF SYMBOLS 10 Image processing apparatus 12 Image acquisition part 14 Image division part 16 Image analysis part 18 Image extraction part 20 Image arrangement part 22 Image display part 24 Input part 26 Image editing part 28 Editing screen 30 Page designation area 32 Template designation area 34 Candidate image display Area 36 Image editing area 38 Page 40 Template 42 Candidate image 44 Image 46 Mark 48 First image addition button 50 Second image addition button 52 Image replacement button
An image processing apparatus that edits the arrangement of images on each page of a plurality of pages of photo content,
An image dividing unit that divides a plurality of images into a predetermined number of groups based on incidental information of the images;
An image analysis unit that analyzes each of the images and generates image analysis information;
An image extracting unit that extracts a predetermined number of images from the images included in the group based on the image analysis information for each group;
An image editing unit that edits the arrangement of images on the page where the image is arranged by the image arrangement unit based on a user instruction;
The image display unit is included in an image editing area in which an image arranged on a first page to be edited designated by the user is displayed, and a first group corresponding to the first page, A candidate image display area in which candidate images used in image layout editing by the image editing unit are displayed is displayed in the display screen.
The image editing unit edits the arrangement of the images on the first page displayed in the image editing area using the candidate images displayed in the candidate image display area based on an instruction from the user. An image processing apparatus comprising:
The image display unit is configured to display only candidate images that are included in a first group corresponding to the first page and are not arranged on the first page in the candidate image display area. The image processing apparatus according to 1.
The image display unit can identify all images included in the first group corresponding to the first page from images arranged on the first page and images not arranged on the first page. The image processing apparatus according to claim 1, wherein the image processing apparatus is displayed in an image display area.
The image processing apparatus according to claim 1, wherein the image display unit displays the image analysis information in the candidate image display area.
The image display unit attaches identification information indicating a group including each candidate image to candidate images of all the groups, and collectively displays the candidate images in the candidate image display area. Item 8. The image processing apparatus according to Item 1.
The image processing apparatus according to claim 5, wherein the image display unit displays a candidate image included in a first group corresponding to the first page at a head position of the candidate image display area.
The image display unit further includes a template display area in the display screen for displaying a template having an image arrangement area for arranging an image equal to or less than the number of images included in the first group corresponding to the first page. Displayed on the
The image placement unit applies a first template designated by the user from the templates displayed in the template display area to the first page, and the image extraction unit applies the first template to the first page. The image processing apparatus according to claim 1, wherein an image extracted from a corresponding first group is arranged in an image arrangement area of the first template.
When the number of image arrangement areas is increased by changing from the first template to the second template, the image editing unit includes a candidate image included in the first group corresponding to the first page. To obtain a first candidate image corresponding to an increase in the number of the image placement areas based on the image analysis information,
The image placement unit applies the second template to the first page, and uses the image extracted from the first group and the first candidate image as an image placement area of the second template. The image processing apparatus according to claim 7, which is arranged.
When the image editing unit is changed from the first template to the third template and the number of image arrangement areas is reduced, the image editing unit uses the image analysis information from the images arranged on the first page. Based on the first image to reduce the image arrangement area,
The image placement unit applies the third template to the first page, and removes the first image from the image extracted from the first group as the third template. The image processing apparatus according to claim 7, wherein the image processing apparatus is arranged in the image arrangement area.
The image display unit displays a first image addition button in the display screen,
The image editing unit, based on the image analysis information, out of candidate images included in the first group corresponding to the first page when the user presses the first image addition button. The image processing apparatus according to claim 2 or 3, wherein a second candidate image is designated and the second candidate image is added to the first page.
The image display unit displays a second image addition button in the display screen,
The image editing unit, when one or more candidate images are designated by the user from among the candidate images displayed in the candidate image display area, when the second image addition button is pressed, The image processing apparatus according to claim 5, wherein the one or more candidate images are added to a page corresponding to a group including the one or more candidate images.
The image display unit displays an image replacement button in the display screen,
The image editing unit responds to the first page when the user selects one or more images from the images displayed in the image editing area and then presses the image replacement button. From the candidate images included in the first group, the same number of third candidate images as the one or more images are designated based on the image analysis information, and the third candidate image and the one or more images are specified. The image processing apparatus according to claim 2, wherein the image processing apparatus replaces an image.
The said image arrangement | positioning part arrange | positions the image extracted from the group by the said image extraction part on the page corresponding to the said group based on the said image analysis information. Image processing device.
The image arrangement unit arranges the images extracted from the group by the image extraction unit in the order of photographing times of the images on a page corresponding to the group,
The image processing apparatus according to claim 12, further comprising rearranging the images displayed in the image editing area in order of the photographing time after the third candidate image and the one or more images are replaced.
The image editing unit displays a template different from the template applied to the first page displayed on the image display unit in the template display area based on the user's re-layout instruction. Selecting from the template, and placing the image used in the first page in the image placement area of the other template,
The said image display part displays the 1st page by which the image was arrange | positioned by the said image editing part in the image arrangement | positioning area | region of this another template in the said image edit area. Image processing apparatus.
The image editing unit preferentially arranges an image designated by the user when an image used on the first page is arranged in an image arrangement area of the another template. 15. The image processing device according to 15.
The image processing apparatus according to claim 1, wherein the image analysis information is an evaluation value generated based on at least one of analysis results of individual image analysis items.
The image processing apparatus according to claim 1, wherein the image analysis information is an analysis result itself of each image analysis item.
The photo content is a photo book composed of a predetermined number of pages, a calendar composed of a predetermined number of pages, or a shuffle print composed of a predetermined number of pages in which a predetermined number of images are randomly shuffled and printed on each page. The image processing apparatus according to claim 1.
An image processing method for editing the arrangement of images on each page of a plurality of pages of photo content,
An image dividing step of dividing the plurality of images into a predetermined number of groups based on the incidental information of the images;
An image analysis step of analyzing each of the images and generating the image analysis information;
An image extraction step for extracting a predetermined number of images from images included in the group based on the image analysis information for each group;
An image editing step for editing the arrangement of images on the page on which the image is arranged in the image arrangement step based on a user instruction;
The image display step includes an image editing area in which an image arranged on the first page to be edited designated by the user is displayed, and a first group corresponding to the first page, A candidate image display area in which candidate images used for image layout editing in the image editing step are displayed on the display screen.
The image editing step edits the arrangement of the images on the first page displayed in the image editing area using the candidate images displayed in the candidate image display area based on an instruction from the user. A featured image processing method.
A program causing a computer to execute each step of the image processing method according to claim 20.
A computer-readable recording medium on which a program for causing a computer to execute each step of the image processing method according to claim 20 is recorded.
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