1. Field of the Invention
The present invention relates to an image processing method for specifying image data to be printed out by a recording unit according to information described in a mark-sensing sheet that is read by an image reading unit, and also to an image processing apparatus that uses the image processing method.
2. Description of the Related Art
Some conventional printing apparatuses, such as printers, are configured to be able to perform printing on a recording medium other than paper, for example, a plastic sheet for an overhead projector (OHP).
In addition, in recent years, various types of storage medium disks, such as a compact disk—recordable (CD-R) and a digital versatile disk—recordable (DVD-R), that have a label side on which printing can be performed are provided. In addition, printers that are capable of performing printing on the label side of a storage medium disk described above are already marketed.
With such a printer, a user can print, on the label side of a storage medium disk, such as a CD-R or a DVD-R, that stores photograph data taken by a digital camera or moving image data taken by a video camera, a user's favorite image (for example, a still image or a clip image of moving image data stored in the storage medium disk) or a character string, such as a caption or a title of the image.
Meanwhile, in controlling an image printing of an image photographed by a digital camera that is capable of photographing a moving image or a still image or in performing printing on a label, label printing-dedicated application software that is installed on a personal computer (PC) is commonly used. In this regard, however, recently, in a multifunction peripheral (hereinafter referred to as an “MFP”) type printer to which a digital camera or a memory card can be directly connected, such printing processing (print control processing such as a direct print) can be performed with the printer alone instead of using a PC.
The above-mentioned MFP includes various types of interfaces, such as a universal serial bus (USB) or an IEEE1394 serial bus for connecting to a digital camera, and a card slot for a storage medium such as a memory card (for example, a secure digital (SD) card or a compact flash (CF) card), and is capable of printing an image stored in the digital camera or the memory card on the label-side surface of a storage medium disk while applying a desired layout thereto.
In addition, a type of MFP that includes a display unit having a limited area of display and has an image reading unit such as a scanner, as discussed in Japanese Patent Application Laid-Open No. 2002-273973, is configured to print a mark-sensing sheet that contains thumbnail images and mark fields. A user can put a mark on a mark filed and cause the scanner of the MFP to read the mark-sensing sheet so as to print a photograph marked by the user.
Such a mark-sensing sheet has a configuration such as is shown in
The user causes the MFP to print the mark-sensing sheet and marks a desired image shown in the thumbnail field B. Then, the user designates the size and kind of paper, a print option, and the number of prints to make via the mark field A. The user then allows the scanner to read the mark-sensing sheet. Thus, the user can print the desired image under conditions that the user desires.
Standardized storage medium disks, such as a CD-R and a DVD-R, have a specification such that the center of the storage medium disk is perforated with a hole for a spindle. In printing a photographic image on the surface of a storage medium disk, it is a concern if a portion of the photograph is in the portion of the storage medium disk where the hole is located. For example, in the case of printing an image of a person, if the face of the person shown in the center of the photograph is located at the position of the hole, the user cannot obtain a satisfactory result of printing of a label.
That is, when the shape of a print medium is a rectangle, just as a conventional paper (or a plastic sheet) medium of a standard size, a whole part of the photograph can be laid out without a large unpresented part. Accordingly, the user does not necessarily need to confirm a printed result in advance.
On the other hand, the storage medium disk has a special circular shape having a hole in the center thereof. Accordingly, unless a photograph is printed in a very small size, there is always an unprinted portion of an image to be printed, corresponding to the central hole of the storage medium disk. In performing printing on the label side of the storage medium disk, considering the unordinary special shape of the disk, the user needs to confirm the unprinted portion prior to printing.
For countermeasures against such confirmation, the MFP can include a color display unit so as to display a printed result prior to printing. However, with the color display unit installed, the cost of the entire apparatus will increase.
If software for causing a PC to display a print preview image is used, a printed result of the label side can be displayed. However, especially for an MFP for use at home, it is desired that the MFP adapts a product specification such that print control such as a direct print can be performed without using an external host device such as a PC to perform basic print control without using a PC as far as possible.
In this regard, Japanese Patent Application Laid-Open No. 2004-114485, Japanese Patent Application Laid-Open No. 2004-255760, and Japanese Patent Application Laid-Open No. 2003-30670 discuss a method for printing a photographic image while applying a layout thereto. However, they neither discuss the above problem nor propose any solution.
At least one exemplary embodiment of the present invention is directed to a method for easily and securely controlling a form of printing on a label side (a surface on which no data is recorded) of a recording medium whose printable area has an unordinary shape, such as, a storage medium disk including a CD-R and a DVD-R, with a printing apparatus that includes a limited user interface unit.
According to an aspect of the present invention, an image processing method includes: printing out a layout mark-sensing sheet including a plurality of sample image layout options that graphically indicate different layouts of an image to be printed on a recording medium that has a specific shape, the layout mark-sensing sheet allowing a user to mark the layout mark-sensing sheet to designate a specific image layout option from among the plurality of different sample image layout options; reading the layout mark-sensing sheet marked by the user; and printing out the image on the recording medium based on the specific image layout option designated by the user on the layout mark-sensing sheet.
Further features of the present invention will become apparent from the following detailed description of exemplary embodiments with reference to the attached drawings.
The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments, features, and aspects of the invention and, together with the description, serve to explain the principles of the invention.
Various exemplary embodiments of the present invention, which relate to a multifunction peripheral (MFP) including an image reading unit (scanner) and an image recording unit (scanner), will now be described in detail with reference to the drawings. It should be noted that the relative arrangement of the components, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention unless it is specifically stated otherwise.
Referring to
In addition, the MFP includes a display unit 105, an operation unit 106, a color reading unit 108, a recording unit 107, a card slot 111, and a USB interface 112. The display unit 105 includes a liquid crystal display (LCD) that displays a state of the MFP and a message for guiding an operation. The operation unit 106 includes a cursor key. The reading unit 108 includes a color charge-coupled device (CCD). The recording unit 107 includes an inkjet printer. The card slot 111 is capable of reading a memory card for a digital camera. The USB interface 112 is used for connecting to a PC when the MFP is used as a scanner, a printer, or a memory card reader.
Each of the units described above are mutually connected via a system bus 110.
In addition, in the present exemplary embodiment, the operation unit 106 includes a mark-sensing sheet key 501. The mark-sensing sheet key 501 is used for print control using a mark-sensing sheet.
The mode keys 507, in the present exemplary embodiment, include three keys for respectively designating three modes, namely, a “copy” mode, a “scan” mode, and a “photo print” mode. Hereinbelow, each one of the mode keys 507 is referred to as the mode key 507.
Here, with respect to print control using a mark-sensing sheet, an example of a user interface that uses the mode key 507 and the mark-sensing sheet key 501 is described.
When a user presses the photo print key, for example, among the mode keys 507 and presses the mark-sensing sheet key 501, a menu for allowing the user to select processing such as “1. Print mark-sensing sheet” (an item 71 in
A print operation for printing on a storage medium disk according to the present exemplary embodiment is described next. The storage medium disk is a storage medium such as a CD-R and a DVD-R, as described above. Hereinbelow, a CD-R is referred to as an example of the storage medium disk. However, the exemplary embodiments described below can be applied to another of storage medium disk as long as the storage medium disk has a similar outer shape.
In performing printing on a label side of the CD-R while applying a layout thereto, there are two different cases. One is a case where an image to be printed on the label side is already stored in the CD-R. The other is a case where an image to be printed on the label side is stored in another storage medium or in another storage area (in this case, the image to be printed on the label side can be the same image stored in the CD-R or another different image).
However, the present invention is not limited by an input route of an image to be printed on the label side of the CD-R. That is, the route of input of the image to be printed on the label side can be arbitrarily determined.
For example, an image to be printed on the label side can be input via a given interface from an external digital camera. In addition, an image that is previously stored in a storage unit (DRAM or an HDD (not shown)) of the MFP can be input as an image to be printed on the label side. In addition, if the MFP incorporates therein a drive that can read from and write to the storage medium (CD-R) or if the drive can be connected to the MFP via an interface such as a USB, an image to be printed on the label side of the CD-R can surely be input by reading from the CD-R.
Supposing that an image to be printed on the label side is stored in a memory card (in this case, the image can be an arbitrary image and is not necessarily an image that is already (or to be) stored in the CD-R), the user inserts the memory card storing the image to be printed into the card slot 111, and then presses the photo print key 507 of the operation unit 106 shown in
Then, the user presses the mark-sensing sheet key 501 and selects the printing of a mark-sensing sheet by using the menu interface described above so as to print a mark-sensing sheet.
In response to the operation by the user described above, the MFP prints out a mark-sensing sheet such as the one shown in
That is, in the case of the mark-sensing sheet shown in
In the present exemplary embodiment, the user can mark a desired image shown in the thumbnail field B and put a mark on the mark field A1. When the user has the mark-sensing sheet shown in
In the present exemplary embodiment, up to two images can be designated by putting a mark on the mark field A1. However, the number of images to be designated can be arbitrarily restricted. That is, the restriction on the number of images to be designated can be appropriately determined based on whether the number of images is prioritized or whether the number of layouts is prioritized on a single second mark-sensing sheet shown in
The second mark-sensing sheet shown in
In the mark-sensing sheet shown in
That is, in a portion indicated by “F” in
In the second mark-sensing sheet shown in
In addition, a portion “G” shown in
In addition, in arranging a plurality of photographs, a mutual relationship of the photographs in the layout is significant. That is, one of the two photographs may be vertically oriented or may be upside down in some cases. In this regard, in the portion G in
In addition, the layout state in the portion F or the portion G shown in
In the layouts shown in the portion F according to the present exemplary embodiment, a circumferential circle of a CD-R is drawn so as to inscribe the circle at a side or sides that configure a rectangular area of an image. The layouts shown in the portion F are produced by changing a form of inscribing in a manner such that the outer circumferential circle is inscribed at the right side, at the central portion of the rectangular area, at the left side, at three sides of the rectangular area, at three sides of the rectangular area with an image being disposed upside down, and the like. The layouts shown in the portion G are produced in a manner such that two images are arranged so that a central portion of each image is covered largest on the printing side except for the portion of the hole in the center of the CD-R and that the orientation of one image is changed by 90 degrees.
The forms of the plural layouts in the mark-sensing sheet can be formed as plural different print forms on the mark-sensing sheet by image processing for changing a position of the image to be printed in the concentric printable area of the label side of the CD-R, changing a magnification ratio of the image to be printed in the printable area of the label side of the CD-R, or changing a state of rotation or a state of flip of the image (reversed state as to a vertical or horizontal direction of the image).
In addition, by presenting the layouts in the number shown in
In the example shown in
Next, a description is made as to the processing for controlling printing performed by using the first and the second mark-sensing sheets with reference to
First, the user places the marked first or second mark-sensing sheet on a platen glass of the reading unit 108, and then performs an operation for reading the mark-sensing sheet via the operation unit 106 (step S301).
Then, in step S302, the CPU 100 determines a type of the read mark-sensing sheet. In the present exemplary embodiment, the mark-sensing sheet includes the first mark-sensing sheet shown in
If the first mark-sensing sheet shown in
In step S303, the CPU 100 checks a state of marking in the mark field A and the mark field A1 and determines a designation as to the type and size of a print medium.
When it is determined that CD-R label printing is designated by marking in the mark field A1, the processing advances to step S304. In step S304, the second (layout navigation) mark-sensing sheet shown in
On the other hand, when it is determined that CD-R label printing is not designated by the mark field A1, the CPU 100 performs image printing on a print medium designated in step S305 in an ordinary manner. After the printing is completed, the processing returns to a standby state.
After the second mark-sensing sheet (
In this manner, the processing shown in
A condition for synthesizing an image for producing the layout, for example, a processing condition such that the outer circumferential circle is inscribed at the right side, at the central portion of the rectangular area, at the left side, at three sides of the rectangular area, at three sides of the rectangular area with an image being disposed upside down, and the like, as shown in the portion F in
Then, in step S307, the CPU 100 causes the recording unit 107 to print the image obtained in step S306 on the label side of a CD-R. A mechanism for directly printing an image by inserting a CD-R medium into a printing mechanism such as an inkjet printer is publicly known, and accordingly, a detailed description thereof is not included here.
As described above, according to the present exemplary embodiment, when the user designates an image via the first mark-sensing sheet (
In addition, in the present exemplary embodiment, the layouts in the second mark-sensing sheet (
In the above description, a CD-R is used as a storage medium disk for easier understanding. However, similar print control can be implemented on another similar storage medium disk. In addition, in the above description, an image is directly printed on a storage medium disk. However, a similar method can also be applied in the case of printing on a sticker sheet that can be used as a label for a CD-R by trimming to a given printing area.
In the first exemplary embodiment, when the label side of a storage medium disk (CD-R) is designated as a print medium via the first mark-sensing sheet (
However, the type of the mark-sensing sheet printed in this case is not necessarily selected by control described in the first exemplary embodiment.
That is, for example, supposing that a hardware configuration of the MFP is similar to the hardware configuration of the first exemplary embodiment, the configuration of a second exemplary embodiment can be arranged such that a menu interface such as the one shown in
Referring to
A menu item 91 is provided for designating the printing of a mark-sensing sheet for a paper medium. A menu item 92 is provided for designating the printing of a layout navigation sheet (in the present exemplary embodiment, the term “layout navigation sheet” is principally used) for a storage medium disk.
If the printing of a layout navigation sheet for a storage medium disk can be directly designated via the menu shown in
Images that are output to the layout navigation sheet (
The mark-sensing sheet for a paper medium that is printed with the designation via the menu item 91 can be the same mark-sensing sheet as the conventional mark-sensing sheet shown in
The layout navigation sheet for a storage medium disk to be printed with the designation via the menu item 92 has a configuration shown in
The layout navigation sheet shown in
For example, in the layouts in the columns H1 through H3, the circumferential circle of a storage medium disk is inscribed at two sides of the rectangle of an image, and the circumferential circle of a storage medium disk is located in a right portion, a central portion, and a left portion of the image, respectively. In the layouts in the columns H4 and H5, an image is magnified so that the circumferential circle of a storage medium disk is inscribed at three sides of the rectangle of the image. In the layout in the column H4, the circumferential circle of a storage medium disk is inscribed at an upper side of the rectangle of the image. In the layout in the column H5, the circumferential circle of a storage medium disk is inscribed at a lower side of the rectangle of the image.
In the layout in the column H6, an image is magnified to be disposed so that the area of the image is contained as much as possible in one region of the concentric label side (printable area) ranging from a central portion to a left portion thereof. In the example shown in
If all of the layouts of an image cannot be output in one layout navigation sheet, control can be performed so that a plurality of layout navigation sheets are output. This configuration can also be implemented in the first exemplary embodiment in a similar manner.
In addition, in the bar code portion E of the layout navigation sheet shown in
Next, a print control procedure performed by using the mark-sensing sheet (layout navigation sheet) shown in
First, the user selects and marks a desired layout from among the layouts shown in the mark-sensing sheet shown in
Then, in step S302, the CPU 100 determines the type of the read mark-sensing sheet based on the image of the read mark-sensing sheet. The mark-sensing sheet that is determined in step S302 can be the mark-sensing sheet for a paper medium (the conventional mark-sensing sheet shown in
If the mark-sensing sheet for a paper medium is detected in step S302, then in step S305, printing on a paper medium is performed, and then the processing returns to a standby state.
On the other hand, if the read mark-sensing sheet is the layout navigation sheet shown in
In step S306, the CPU 100 performs processing such that a nonprinting portion of the image of a selected photograph is masked according to the designated layout and, when it is necessary, performs magnification processing according to an actual dimension of a CD-R so as to produce the obtained image on the DRAM 102.
Then, in step S307, the CPU 100 causes the recording unit 107 (
According to the present exemplary embodiment, the layout navigation sheet for the label side of a storage medium disk can be directly output via the menu user interface. Accordingly, the user can easily and immediately begin a consideration on the print layout. In addition, in the layout navigation sheet, the images to be laid out and the types of the layout are arranged in a given order in the directions of the column and the row in a given regulation. Accordingly, the user can readily understand the significance of the output of the layout and finds a desirable layout in a short period of time.
The image processing method according to an exemplary embodiment of the present invention is not limited by a type of image processing apparatus (for example, an MFP according to the exemplary embodiments described above) that implements the image processing method. That is, the image processing method according to an exemplary embodiment of the present invention can be implemented by various image processing apparatuses having a reading unit and a recording unit. The control program according to an exemplary embodiment of the present invention can be stored in a medium such as a ROM of the image processing apparatus at the time of shipment of the image processing apparatus, and can also be supplied to the image processing apparatus from various external storage media (a CD-ROM and a flexible disk, for example), or can also be supplied to the image processing apparatus from an arbitrary server via a network.
According to the above configuration, the user can confirm a plurality of different print forms of an image to be printed on a recording medium having a specific shape via the layout mark-sensing sheet, and can also designate a desirable printing form from among the plural different print forms by marking the desirable printing form so as to use the designated print form for printing. In addition, the form of printing on the label side (the side on which no data is recorded) of a recording medium whose printable area has an unordinary shape, such as a storage medium disk including a CD-R and a DVD-R, can be readily and securely controlled by a printing apparatus that has a limited user interface unit.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all modifications, equivalent structures, and functions.
This application claims priority from Japanese Patent Application No. 2005-317858 filed Nov. 1, 2005, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2005-317858 | Nov 2005 | JP | national |