Source: https://patents.google.com/patent/JP5314887B2/en
Timestamp: 2020-01-29 18:14:28
Document Index: 685559863

Matched Legal Cases: ['art 114', 'art 116', 'art 118', 'art 120', 'art 124', 'art 126', 'art 130']

JP5314887B2 - Setting method of output image including image processing information and setting control program thereof - Google Patents
Setting method of output image including image processing information and setting control program thereof Download PDF
JP5314887B2
JP5314887B2 JP2007328262A JP2007328262A JP5314887B2 JP 5314887 B2 JP5314887 B2 JP 5314887B2 JP 2007328262 A JP2007328262 A JP 2007328262A JP 2007328262 A JP2007328262 A JP 2007328262A JP 5314887 B2 JP5314887 B2 JP 5314887B2
JP2007328262A
JP2009152818A (en
奈緒 竹川
和人 山藤
2007-12-20 Application filed by インターナショナル・ビジネス・マシーンズ・コーポレーションＩｎｔｅｒｎａｔｉｏｎａｌ Ｂｕｓｉｎｅｓｓ Ｍａｃｈｉｎｅｓ Ｃｏｒｐｏｒａｔｉｏｎ filed Critical インターナショナル・ビジネス・マシーンズ・コーポレーションＩｎｔｅｒｎａｔｉｏｎａｌ Ｂｕｓｉｎｅｓｓ Ｍａｃｈｉｎｅｓ Ｃｏｒｐｏｒａｔｉｏｎ
2007-12-20 Priority to JP2007328262A priority Critical patent/JP5314887B2/en
2009-07-09 Publication of JP2009152818A publication Critical patent/JP2009152818A/en
2013-10-16 Publication of JP5314887B2 publication Critical patent/JP5314887B2/en
The present invention relates to an output setting method in an image processing apparatus such as a printer, a scanner, a facsimile machine, and a copying machine. Specifically, the present invention relates to a method for directly setting various functions in an output image including image processing information on a display screen, and a program for controlling the settings.
Multifunctional peripherals (including a scanner function that reads originals, a copy function that copies originals, a communication function, a printer function that prints externally input image data, and a facsimile function) MFP) or digital multifunction peripherals have become popular in recent years.
On the operation screen of this digital multi-function peripheral, originals such as settings related to image quality such as monochrome, gray level (density), color, and resolution, enlargement / reduction ratio, margin (margin), vertical / horizontal original direction (printing direction), etc. It is necessary to make settings for an extremely large number of functions, such as settings relating to printing pages, settings relating to print finishing such as single-sided / double-sided, stapling, punching holes, and aggregation functions. The user had to open the display screens of various setting items in turn, individually examine which function should be used, and how to set that function, and have to do the work to confirm. . In other words, each menu screen must be opened and set, the menu is closed after setting, and another menu is opened and set. For this reason, the setting work has become very time consuming.
At present, as a device for displaying many functions on a small operation screen, a method of effectively using the operation screen by using a tab or the like is taken, but this method increases the number of user operations. It tends to be difficult to understand where the necessary functions are and what functions should be used.
When setting the image processing information, the user must look for the desired function from a large number of menu items while considering what the result will be, and input the settings accurately in each setting menu. is the current situation. In terms of the finished screen, there are “preview screens” and the like, but these can only be confirmed after various functions are set in the respective setting menus.
In addition, if the desired finish setting could not be made, it was necessary to return to the wrong menu screen, reset it, reconfirm it on the preview screen, or cancel it many times. The work is extremely inefficient.
In Patent Document 1, an output image icon (an icon associated with a print setting condition item indicated by a pointer) set in the icon display area is displayed on the print setting screen before the input value is determined. At this time, it is described that the output image icon is displayed in a screen area different from the setting item.
In Patent Document 2, a finished screen is displayed on the display panel, and position information is acquired for touch panel input. A method is described in which a character menu is displayed according to a correspondence table for processing items that can be set from the position information, and the processing items are set.
As described above, in the image information output setting, a method is used in which a setting menu is displayed and a setting item is selected on the setting menu. At that time, the setting operation by the user repeatedly displays and selects setting processing items in a deeper hierarchy. Further, since the selection of the setting menu is, for example, a character expression, the function of the setting item cannot be understood, and trial and error may be repeated. In other words, in the current output setting process, the final setting drawn by the user and the actual operation process are not directly related.In other words, the operation is not intuitively appealing to the user. There is a problem of becoming. In particular, as digital multifunction peripherals have become more multifunctional in recent years, the difficulty of setting operations in addition to the complexity of operation screens has become a serious problem in the output setting of image processing information.
JP 2007-87166 A JP 2006-67235 A
The present invention provides a method that does not require a setting operation in a deep hierarchy in an output setting operation of various functions of an image processing system having multiple functions, and is capable of performing settings that have excellent operability and are easy to understand intuitively. The purpose is to provide.
Another object of the present invention is to provide a display screen that can perform setting processing on an output image related to an actual output image, determine the output mode, and realize a method for setting the output image. The purpose is to do.
In the present invention, an output image displayed on a display screen is set as a setting target in order to determine an output setting item related to image processing. That is, in order to make a setting closer to the operator's thought process, the setting operation is performed directly on the graphically represented output image. According to the present invention, in the setting work of various functions by the operator, an output represented by lines and pictures in response to the position on the display screen corresponding to the actual setting operation and the setting operation related to the position information. Display the setting menu. Next, the setting menu for various functions is updated, and the final output image is set. Alternatively, the output setting can be performed by directly updating the output image without displaying the setting menu.
In order to solve the above problems, a method according to the present invention is a method for performing output setting using an output image displayed on a display screen, and displays an initial output image for setting the output image on the display screen. In response to an instruction input by the operator to a predetermined position of the output image, in accordance with a setting operation following the instruction input by the operator, Updating the output image, and displaying the updated output image when the operation is stopped as the final output image by the stop of the setting operation by the operator, and completing the setting. Further, in response to an instruction input by the operator to a predetermined position of the output image, a step of displaying a setting menu relating to the position, and in response to a setting operation by the operator on the setting menu, the output image is displayed. A step of being updated.
The method according to the present invention is a method of performing output setting using an output image displayed on a display screen, the step of displaying an initial output image on the display screen to perform setting of the output image, and by an operator A step of displaying an output setting menu related to the position according to an instruction input to the predetermined position of the output image, and a step of updating the output image according to a setting operation by the operator to the setting menu And displaying the updated output image as a final output image and completing the setting.
Preferably, a setting menu is displayed in response to the instruction input by the operator to the predetermined position of the output image and the setting operation related to the position by the operator being input, and the setting menu is displayed. The output image is updated in accordance with a subsequent setting operation by the operator.
In addition, the method according to the present invention includes the step of determining whether or not the setting operation is valid, and includes the step of displaying the output image immediately before the setting operation again when it is determined that the setting operation is not valid. Furthermore, the method according to the present invention further includes a step of determining whether or not the output setting based on the setting operation is valid, and when it is determined that the output setting is not valid, an error is displayed and the output immediately before the setting operation is performed. Displaying the output image again.
The output setting item is preferably determined by a predetermined position and the setting operation related to the position. Output settings consist of monochrome / color selection, density, image quality information, enlargement / reduction, aggregation function, margin, double-sided, centering, frame erase, document orientation, staple, punch hole, document size, paper size, and sorting. Includes at least one setting selected from the group.
The predetermined position is a position to be set, and is selected from the group consisting of a central portion, a corner portion, a peripheral region, an edge of the display region, and an external peripheral region of the display region of the output image.
The instruction input includes a point instruction to a predetermined position by the operator, and the setting operation includes a continuous point instruction or intermittent point instruction to the predetermined position by the operator, and a point level at the predetermined position. It is selected from the group consisting of movement, point vertical movement, point rotation movement, linear point movement in an oblique direction, and point movement across the display area of the output image.
Preferably, the method according to the present invention further includes displaying an operation icon for guiding the setting operation, and further includes resetting the output image by a predetermined setting operation to return to the initial output image.
According to the present invention, a program for performing output setting using an output image displayed on a display screen, the image processing system or computer system including at least one of a printer, a scanner, a facsimile, and a copying machine. A step of displaying an initial output image for setting an output image on a display screen, and a step of switching to an input mode of the output setting of the image according to an instruction input to a predetermined position of the output image by an operator And a step of updating the output image in response to a setting operation following the instruction input by the operator, and a final output of the output image updated when the operation is stopped by stopping the setting operation by the operator. A program that displays the output image and completes the settings. It is.
Further, according to the present invention, there is provided a program for performing output setting using an output image displayed on a display screen, and an image processing system or computer including at least one of a printer, a scanner, a facsimile, and a copying machine The system displays an initial output image on the display screen for setting an output image, and displays an output setting menu related to the position in response to an instruction input to the predetermined position of the output image by the operator. Executing a step, a step of updating the output image in response to a setting operation on the setting menu by an operator, and a step of displaying the updated output image as a final output image and completing the setting. A program is provided.
The program according to the present invention may further cause the image processing system or the computer system to determine whether or not the setting operation is valid and to determine whether or not the output setting based on the setting operation is valid. it can.
In the output image setting method according to the present invention, the transition of the display screen can be reduced. In other words, it is possible to avoid menu display in a deep hierarchy, and there is an advantage that operability is improved. Further, since a setting menu is displayed as necessary, the entire display screen can be made clear. The setting operation using the output image according to the present invention is intuitive, and the actual operation can be visually performed on the screen. At that time, it is possible to provide an environment that is easy to set even for a beginner who does not fully understand the technical terms of the setting function. Further, it is possible to make a setting closer to the thought process associated with the setting operation by the operator. In other words, it is possible to make an output setting with excellent usability so that the operator can realize that the output mode is created.
A method for performing output setting using an output image displayed on a display screen according to the present invention including printer print settings and the like will be described below with reference to the drawings. Note that the present invention is not limited to the embodiments.
FIG. 1 is a configuration example of an image processing system 100 for setting various functions on a display screen including an output image according to the present invention. In the following description, output settings related to the printer 120 will be mainly described. However, it should be noted that output settings for the scanner 110, the facsimile machine 130, and a copying machine (not shown) can be similarly performed. According to the present invention, an output image that is an output mode image including various types of image processing information data can be displayed on the display screen 200 (see FIG. 2) of the display 140, and output setting can be performed. The configuration of the image processing system 100 will be described later.
FIG. 2 shows an example of a display screen 200 for making various output settings using an output image. That is, it is a schematic diagram showing a display screen for inputting data related to various output setting items and setting the output mode directly on the output image. Here, the output image can display output modes of various setting items. The display screen 200 is a display area of a liquid crystal display, for example, equipped with a touch panel. The display screen 200 includes an output image 210 (in other words, an image for displaying a finished image of output) that is a target for performing a setting operation, and a setting menu 230 that includes lines and diagrams that assist the setting operation. . Further, an auxiliary menu 290 that is optionally displayed to create a desired output image 210 may be included. The auxiliary menu 290 may be, for example, an auxiliary tool box in which various tool icons are arranged. The area where the output image 210, the setting menu 230, and the auxiliary menu 290 are displayed is collectively referred to as a canvas area 220. In the canvas area 220, an additional icon or the like necessary for the operator to create an output mode may be displayed.
Further, the output image 210 includes an image quality icon 240 for displaying image quality information, for example, at the center. The image quality information includes monochrome / color selection, density, resolution, and the like. For simplicity, the image quality icon 240 is represented by the shaded letter A in FIG. 2, but it may be an icon of another aspect that is devised to express the image quality in more detail. Preferably, the setting menu 230 is displayed directly on the output image 210. If necessary, an operation icon that is a line or a figure for guiding the setting operation may be displayed on the output image 210. Further, the setting menu 230 may be displayed not in the output image 210 but in another area in the canvas area 220 as shown in FIG.
The method of performing output setting using the output image 210 including the output mode displayed on the display screen 200 is roughly divided into the following two modes. These are the A mode in which the setting items are directly displayed as an update image on the output image, and the B mode in which the setting items are displayed as a setting menu. In the following description, “update image” means an output image in the setting process. That is, the A mode is a method in which the output image is directly updated and set in at least a part of the output image. The B mode is a method in which a setting menu 230 is displayed on the output image 210 and output setting is performed by a setting operation by the operator to the setting menu.
One feature of the present invention is that various setting items for output setting are determined by a combination of a predetermined setting target position of the output image and a setting operation related to the position. Although the setting menu is displayed on the output image, it may be displayed outside the area of the output image. The input by the operator includes an instruction input for selecting a predetermined position of the output image and an input by a setting operation related to the position.
FIG. 3 is a flowchart for setting various setting items related to image processing using an output image according to the present invention. The dotted line step shown in FIG. 3A shows a part of the method according to the A mode in which the output image is directly updated and set. This method is as follows. First, an initial output image for setting an output image is displayed on the display screen (step 302). Next, an instruction is input by the operator to a predetermined setting target position of the output image (step 304). For example, when the touch panel is touched with a finger as an instruction input, a setting target position (or a setting target item corresponding to the position) is determined according to the instruction input, and an input mode for setting an output for an output image is entered (step 318). . Subsequently, a setting operation is input to the position by the operator (step 308). This setting operation is, for example, an operation of continuously pressing the position on the touch panel with a finger. In response to the input of this setting operation, an update image of the setting item is displayed (step 314). At that time, the update image can be sequentially updated according to the input of the setting operation. In order to confirm the output of each setting item, the setting operation is stopped, for example, an operation of releasing a finger is performed. In accordance with this operation, the update image displayed at that time is determined as an output image. If necessary, the above steps are repeated for other setting items, the desired output setting is performed by stopping the setting operation for each item, and the setting is completed by confirming the desired final output image (step 320). ). The initial output image can be set as a reference setting (default value) output image for the entire setting. Alternatively, the initial output image may be an output image for which the latest setting has been completed.
The solid line step shown in FIG. 3B shows a method in the B mode in which a setting menu is displayed and setting is performed by a setting operation. In this method, as in the A mode, first, an initial output image for setting an output image is displayed on the display screen (step 302). In response to an instruction input by the operator to a predetermined setting target position of the output image (step 304), a setting menu related to the position is displayed (step 306). In response to the input of the setting operation by the operator to the setting menu (step 308), the output image for displaying various setting items is updated (step 314). If necessary, the above steps are repeated to determine a desired updated output image, that is, an output image in which various setting items are determined, as a final output image, and the setting is completed (step 320). The display of the setting menu indicates that an instruction input by the operator to a predetermined position of the output image (step 304) and a setting operation input by the operator related to the position (step 305), that is, instruction input and setting operation It may be performed in response to a combination of inputs.
Preferably, after inputting the setting operation, it is determined whether or not the setting operation such as an operation of continuously pressing a predetermined setting target position on the touch panel by the operator is valid (step 310). Here, when it is determined that the setting operation is not valid (for example, the operation of continuously pressing is not permitted), the output image immediately before the setting operation is displayed again, and the setting menu is displayed without being updated by the setting operation. . Here, another allowable setting operation, for example, intermittently pressing (tapping) the position of the setting target on the touch panel can proceed to the next step.
More preferably, it is determined whether the output setting itself based on the setting operation is valid (step 312). If it is determined that the setting is not valid (for example, the document size is not allowed to be enlarged), an error is displayed (step 316), the output image immediately before the setting operation is displayed again, and the setting menu is returned. Determining whether the setting is valid is referred to as prohibition determination, and an error displayed by this determination is referred to as prohibition error. These determination steps 310 and 312 are applied to the normal B mode setting method, but can also be used for the A mode setting method.
Further, the methods shown in FIGS. 3A and 3B, that is, methods using the A mode and the B mode may be used in combination.
The instruction input to the predetermined setting target position of the output image by the operator includes, for example, a point instruction by touching a position on the touch panel with a finger to specify the position. In addition, the setting operation includes continuous point instruction at a predetermined position, intermittent point instruction by an operator, horizontal point movement starting from a predetermined position, vertical point movement, rotation point movement, and a linear point in an oblique direction. Movement, point movement across the display area of the output image, and the like. However, the operation is not limited to the above-described operation, and an instruction input other than the above-described operation and an input of a setting operation may be used. The pointing device selected from the group consisting of a touch panel, a pointing stick, a stylus pen, a mouse, and a joystick can be used for instruction input and setting operation. Further, a digitizer, a tablet, or the like may be used to detect position information.
The present invention is characterized in that setting items related to various outputs displayed on the output image as described above are determined by a predetermined position on the output image and a setting operation corresponding to the position. Therefore, an operation corresponding to the position can be easily performed at a position on the output image where various setting items are normally performed. For example, assuming a punch hole in a document to be printed, pressing the touch panel surface that touches the left edge of the output image with a finger (tap) to create a hole while envisioning punch hole processing to the left edge position of the output image The output setting proceeds. That is, according to the present invention, it is possible to provide a graphical user interface (GUI) capable of performing final output settings, that is, finish settings in accordance with the operator's thoughts.
FIG. 1 is a configuration example of an image processing system 100 used in the present invention. The image processing system 100 includes a system control unit 102, a communication control unit 104, a scanner 110 as an image processing device, a printer 120, a facsimile 130, a display 140 as an input / output device, and a pointing device 150. The system further includes an output image setting control unit 500 for controlling the setting of the output image. The output image setting control unit 500 performs control related to output setting based on various setting items, position information, and setting operation information. The system control unit 102 controls the entire image processing system 100, and includes a CPU 103, a ROM 105, a RAM 107, and the like for this control. The communication control unit 104 controls data communication with an external device connected to the network 106. The system may further include a scanner control unit 112, a printer control unit 114, a facsimile control unit 116, and the like for controlling each image processing apparatus. Image processing system 100 is preferably a multifunction peripheral (MFP).
The printer 120 includes a finishing processing unit 122, a layout processing unit 124, an image quality printing processing unit 126, and the like. The finishing processing unit 122 performs document orientation, stapling processing, punch hole processing, and the like. The layout processing unit 124 performs enlargement / reduction, aggregation (N in 1) function, margin (margin) processing, double-side processing, and the like. Further, the image quality print processing unit 126 performs processing related to image quality such as density, monochrome / color selection, and photo printing distinction.
A display 140 that is an input / output device includes an operation panel 142 that displays a display screen 200 and is equipped with a touch panel 144. Preferably, the operation panel 142 is a flat display such as a liquid crystal display. For example, when the operator presses with a finger at a predetermined position of the touch panel 144 on the display screen including the output image of the operation panel 142, position information that is an instruction input is input. Further, for example, the setting operation can be input by continuously pressing the predetermined position with a finger. Digitizer capable of detecting position information instead of touch panel 144 and input by operator's finger (structure combining pen-type device for indicating position on screen and panel-shaped device for detecting position) ) Or a tablet can also be used. Further, various pointing devices 150 such as a mouse, a joystick, a stylus pen may be used.
Hereinafter, an example of an output setting method relating to printing will be specifically described while displaying an output image as an output mode on a display screen according to the present invention. In the following description, for the sake of simplicity, description will be made with an input means by an operator's finger on the touch panel surface. Various pointing devices such as a stylus, a touch pen, and a mouse may be used instead of the operator's finger. Moreover, it may replace with a touchscreen and may use the input device which can acquire the operator's spatial motion used for a game machine etc. as input information. It should be noted that the method according to the present invention can be used not only for output settings relating to printing but also for setting various functions relating to image processing such as facsimiles, copiers, and scanners.
An example of setting items related to print output is shown in FIG. The print setting items include image quality related items, layout related items, finishing setting items, and other items. The image quality-related items include image quality information such as monochrome / color selection, density representing density, photo or character printing. The layout-related items include enlargement / reduction, an aggregation function for collecting number (n) pages per page (indicated as n in 1), margin (margin), double-sided, centering, frame erasing, and the like. The finishing setting items include document orientation, staples, punch holes, and the like. Other items include document size, paper size, and sorting.
The predetermined setting target position of the output image can be selected from the center, corner, peripheral area, edge of the output image display area, and external peripheral area of the output image display area (see FIG. 2). Preferably, the setting target position can be made to correspond to the position where the setting related to actual printing is supposed to be normally performed. Here, the setting target position is an area where input (position instruction input and setting operation input to the position) can be performed by, for example, the operator touching the touch panel with a finger. That is, access to various setting items is started by inputting an instruction to the setting target position. Further, in addition to an instruction input to the position, access to various setting items may be started by an input of a setting operation subsequent to the instruction input. Here, the instruction input includes, for example, touching the setting target position with a touch panel. The setting operation includes, for example, an operation of pressing the setting target position again on the touch panel or sliding a finger from the position.
The print quality related settings will be described below. FIG. 5 is a diagram illustrating an operation for setting the density of image quality. As shown in FIG. 5A, the output image 210 represents a finished image area for output settings. For example, when the operator performs an operation of pressing and holding on the touch panel covering the image quality icon 240 in the output image 210 for a long time, the image quality icon 240 itself is “light”, “intermediate darkness”, and “dark” in order. The concentration changes. Furthermore, after “dark”, “light” may be circulated and displayed again. By stopping the setting operation with a desired output image, the output image at the time of stopping can be used as the final output image for density setting. It is more preferable in terms of visualization of the setting that the color of the letter A of the image quality icon 240 is actually changed sequentially from the “light” state to the “dark” state. In addition, you may display the number and character information showing a darkness together.
Further, as shown in FIG. 5B, an output setting menu (also referred to as a setting icon in the following description) 230 is displayed. In the setting menu 230, for example, selection display icons 232 representing various density displays are displayed. At that time, a desired density may be selected from the selection display icon 232 by a touch input operation by the operator.
In the method of FIG. 5A, the input mode of the output setting is set by performing touch input to the image quality icon 240 without displaying the setting menu 230. Subsequently, by performing touch input intermittently (tapping), the image quality icon 240 itself of the output image 210 can be updated in order, and a desired density can be selected. In this case, the density of the image quality icon 240 at the time when the touch input is stopped can be used as the final output image. That is, this setting method is an A mode in which the content of the setting item is directly displayed as an update image by touch input. This setting flow corresponds to the step indicated by the dotted line in FIG.
In the method of FIG. 5B, the setting menu 230 is displayed and the operator moves the point in the vertical direction. At that time, the point movement can be stopped at the desired selection display icon 232, the selection display icon 232 can be selected, and the final output image can be set. That is, in the B mode in which setting items are displayed as setting menus. This setting flow corresponds to the step indicated by the solid line in FIG. A setting method using both the A mode and the B mode is also possible.
FIG. 6 shows an example of setting other image quality information. An example of a method for setting monochrome and color display is shown in FIG. For example, the operator performs a setting operation of moving the finger by moving the finger to the left or right on the upper surface of the touch panel covering the image quality icon 240 in the output image 210. An image quality icon that displays “monochrome (black and white)” when the position of the finger touching the left side of the image quality icon 240 is left, “gray display” when it is at the center, and “color” when it is right. 240 update images can be obtained. Note that an operation icon 260 (for example, a horizontal arrow) may be displayed for guiding a setting operation of setting monochrome and color when the finger is moved left and right.
Further, FIG. 6B shows a method for setting image quality information such as characters and photographs. For example, on the touch panel covering the image quality icon 240 in the output image 210, the operator performs a setting operation of moving the finger up and down. The setting icon 230 is displayed by this setting operation. At that time, if the position of the finger touching the entire image quality icon 240 moves upward, “text information” is displayed, “photograph” is displayed at the center, and “text and photo” is displayed downward. Individual selection display icons 232 are displayed in the setting menu 230 in order. In this case, it can be set by stopping at a desired selection display icon 232. Alternatively, the three selection display icons 232 may be displayed at the same time, and the selected items may be highlighted (highlighted). In any display method, output setting can be performed by stopping the finger at a desired position while confirming the selection display icon.
FIG. 7 shows a setting example in which monochrome / color and image quality settings are collectively performed. As shown in FIG. 7, a setting operation is performed in which a finger is drawn to draw a circle along a region including the image quality icon 240 on the touch panel surface of the output image 210. At that time, directly corresponding to the position of the finger (the position on the circumference, for example, the position at the angle indicated by the short hand corresponding to 0:00, 2:00, 6:00, 8:00, 10:00 on the clock display) The output image 210 can be sequentially displayed with an updated image in which the state of the monochrome / color setting and the image quality setting is changed. In this case, it is possible to select a desired setting at a position where the finger is stopped. In addition, the setting menu 230 including the selection display icon 232 is displayed once by a setting operation of moving in a circle with a finger along the area including the image quality icon. Then, a desired setting may be selected by touch input while confirming the selection display icon 232. Furthermore, as shown in FIG. 7, the selection display icon may be updated or changed in order by clicking the selection display icon 232 that is the operation target of the setting icon 230 with a mouse.
Next, settings relating to the print layout will be described. Layout settings include enlargement / reduction, aggregation function, margin, double-sided, and the like. FIG. 8 shows an example of a method for explaining enlargement / reduction of the document size. When a finger touches the position of the upper right end, which is the setting target position 250 corresponding to the setting of enlargement / reduction of the output image 210 (see FIG. 8A), an operation icon 260 of an oblique arrow representing enlargement / reduction is displayed. The update image that contains it is displayed (see FIG. 8B). In accordance with the instruction of the operation icon 260, the operator inputs a setting operation 270 (the operation of moving a finger for the sake of simplicity is indicated by a dotted arrow). Here, an operation input that is an operation of pulling a finger in an oblique direction is performed on the touch panel. It is also possible to drag with a mouse instead of a finger operation. By this setting operation, the output image 210 is directly updated, and the entire output image is enlarged or reduced (see FIG. 8C). At the same time as the size of the output image 210 is updated, it is preferable to add a display so that the sizes of B5, A4, B4, A3, etc. can be recognized. For this purpose, confirmation display icons 235 for confirming settings such as B5 and A4 which are character information can be used here.
Next, FIG. 9 shows an example of setting a printing margin (also called a margin). When a finger is touched at a position about 1 cm away from the side of the peripheral area of the output image 210, a setting icon 230 for displaying a margin line for setting a margin is displayed along the side. A margin line operation icon 260 may be displayed as necessary. When the operator touches the dotted line and moves the setting operation 270 up and down or left and right, the size of the margin can be set. Note that a dotted line indicating a margin may be displayed around the output image in advance. Further, the set margin size may be displayed as a number. For this purpose, it is preferable to use a touch panel in combination with an input device having a function of digitizing positional information such as a touch pad and a digitizer.
Furthermore, FIG. 10 shows an example of a method for setting the aggregation function. FIG. 10A shows a setting example of the function for collecting vertically long originals. In the vicinity of the entire center line of the output image 210, a setting operation is performed in which the finger is slid horizontally to move the output image 210 so as to be divided into two (S1). Based on this setting operation, two vertically long images that have been rotated 90 degrees are displayed (S2). Subsequently, an output image 210 ′ including two upright images is automatically displayed by rotating 90 degrees in the reverse direction (S <b> 3). Further, when the finger is slid in the vicinity of the center line of the output image 210 'so as to divide the output image into two, a four-sided image once rotated 90 degrees is displayed (S4). Subsequently, the image is automatically rotated 90 degrees in the reverse direction, and an output image 210 ″ including upright four-sided portrait images is displayed (S 5). Here, for example, if the finger is moved from left to right, the number of divisions is increased and aggregation is performed (indicated by a solid arrow A). Conversely, if the finger is moved from right to left, the aggregation is restored (dotted arrow). (Displayed with B). Or you may set so that aggregation may be returned when moving to the direction opposite to the direction moved initially.
FIG. 10B shows a setting example of the function for collecting horizontally long originals. In the vicinity of the entire center line of the output image 210, a setting operation is performed in which the finger is slid vertically from top to bottom and moved across the output image 210 so as to be divided into two vertically (S1). Based on this setting operation, two horizontally long images once rotated by 90 degrees are displayed (S2). Subsequently, the output image 210 'is automatically rotated 90 degrees in the reverse direction and includes two upright horizontal images (S3). Further, when the finger is slid in the vicinity of the center line of the output image 210 'so as to divide the output image into two parts, a horizontally long image of four sides once rotated by 90 degrees is displayed (S4). Subsequently, the image is automatically rotated 90 degrees in the reverse direction, and an output image 210 ″ including upright four horizontally long images is displayed (S 5). Here, for example, if you move your finger from the top to the bottom, the aggregation will proceed (indicated by a solid arrow A). Conversely, if you move your finger from the bottom to the top, the aggregation will be restored (indicated by a dotted arrow B). May be set. Alternatively, the aggregation may be restored when moved in the direction opposite to the direction in which it was first moved. Similarly, it is possible to set a three-sided image by selecting a position where the crossing position is divided into about three equal parts. In addition, it is possible to set 3 screen images (3 in 1) to 6 screen images (6 in 1) by combining 3 and 2 screens, and in addition, 3 screen images by combining 3 and 3 screens. (3 in 1) et al. Can also be applied to 9-sided images (9 in 1). By repeating this method, it is possible to achieve an aggregation function including images of a plurality of surfaces.
Next, settings regarding the finishing process will be described. The finishing processing includes document orientation, stapling processing, punch hole processing, and the like. First, an example of setting the orientation of a document using a touch panel is shown in FIG. As shown in FIG. 11, the setting target position 250 of the output image 210 in the canvas area 220 is first selected by touch input (see (a) of FIG. 11). In this example, when a finger touches the position 250 at the upper end of the output image 210 representing the document setting in the vertical direction, an operation icon 260 of “an arrow indicating clockwise rotation” is displayed. In accordance with this operation icon, the operator slides his / her finger clockwise (see FIG. 11B). When this setting operation 270 is performed on the touch panel, an output image 210 ′ in which the original is set in the horizontal direction is displayed in the canvas area 220 in response to the position and setting operation (see FIG. 11C). ). On the contrary, when the right end 250 ′ of the output image 210 ′ indicating the document in the horizontal direction is touched with a finger, an operation icon 260 ′ corresponding to the position is displayed. When the operator performs a setting operation 270 'that causes the finger to slide counterclockwise in accordance with the operation icon, the output image 210 indicating the document setting in the vertical direction is displayed again.
A setting example of the staple processing function is shown in FIG. Staple processing includes, for example, one stop (position is near the upper left end, near the upper right end) and two stop (positions are near the upper end, left end, and right end). Touch input is performed at a position where the output image 210 is to be stapled (see FIG. 12A). In response to this touch input, a stapling setting icon 230 (shown here by a short dotted line) is displayed. On this screen, for example, when the finger is moved so as to draw a short line, a short solid line indicating that the staple setting has been performed is displayed (see FIG. 12C). Note that an operation icon representing staple processing, for example, a staple icon (for example, a stapling in picture display) may be displayed when the touch surface is touched. Alternatively, a short dotted line (corresponding to a setting icon) 230 indicating the staple position may be displayed on the output image 210 in advance. In this case, the setting completion can be distinguished by updating the dotted line at the position where the staple setting operation is completed to a solid line or a thick line.
An example of setting the punch hole function is shown in FIG. The punch hole function includes, for example, 2 holes (positions near the upper end, near the upper left end, and near the upper right end) and 3 holes (positions near the left end and the right end). A touch input is made by touching the output image 210 with a finger at a position to be punched (see FIG. 13A). In response to this touch input, a dotted small circle 230, which is a punch hole setting icon, is displayed (see FIG. 13B). On this screen, when the panel surface is further touched and the corresponding position is lightly pressed (tapped) with a finger, a solid small circle is displayed, and punch holes can be set (see FIG. 13C). An operation icon 260 (for example, a punching machine icon) representing the punch function may be displayed when the touch panel surface is touched, or a dotted small circle 230 indicating a punch hole in advance (corresponding to a setting icon) ) May be displayed on the output image 210. In this case, whether or not the setting is completed can be distinguished by updating the dotted small circle at the location where the setting operation has been completed to a thick small circle (or a filled small circle). In addition, for example, if you define a setting operation that taps twice in the case of 2 holes to a preset position and further taps 3 times in the case of 3 holes, the number of taps with a finger is reduced. Is also possible.
A case where the stapling process and the punch hole process are set at substantially the same position will be described. For example, in the case of performing two-hole punching with two staples near the left end, the staple function setting and the punch hole function setting are distinguished depending on whether a short line is drawn or the corresponding position is tapped lightly. That is, a setting icon (a short dotted line or a small dotted circle) corresponding to each setting can be displayed in response to selection of a predetermined position by instruction input and subsequent input of a setting operation to the position. it can. In this case, the setting flow is a series of steps in which the setting menu in step 306 is displayed in accordance with the combination of the instruction input to the predetermined position in step 304 in FIG. 3 and the setting operation input in step 305. It corresponds to.
An example of setting (not shown) of the duplex printing function will be described. For example, when the vicinity of the lower left corner of the output image 210 is touched with a finger, a page turning rotation arrow (clockwise semicircle starting from the left) is displayed as an operation icon. By sliding your finger to the right, you can set both sides for right binding. Similarly, both sides of the left binding can be set by touching the vicinity of the lower right end with a finger and sliding the finger to the left. At this time, a page turning rotation arrow (for example, a counterclockwise semicircle starting from the right) may be displayed as an operation icon. In the case of upper binding, for example, the vicinity of the lower left end may be touched with a finger and the finger may be slid upward to set the upper binding. At this time, a page turning rotation arrow (for example, a clockwise semicircle starting from the bottom) may be displayed as the operation icon.
Returning the entire output image setting to the reference setting (default value), that is, “returning all settings to the default setting” is referred to as “reset setting”. This reset setting is performed, for example, by sliding the finger diagonally with respect to the four corners and moving the finger so as to draw a cross (marked X) with respect to the entire display area of the output image 210. Anyway.
Thus, in the output setting method using the output image according to the present invention, the operator has a predetermined function from the predetermined setting target position and the setting operation at the position without depending on the character information. A setting item setting icon (or an update image of the image quality icon) can be displayed and visually confirmed. When the desired setting is reached, the operation is stopped (or selected from the selection display icon), whereby the output image can be set. Further, in order to make the setting easier, an auxiliary toolbox may be displayed in the canvas area 220 as an auxiliary menu 290 in addition to the setting icon 230 (see FIG. 2). This auxiliary menu includes tools for assisting setting, for example, icons of punching machines, icons for explaining setting icons and setting operations, or character information.
As described above, when various functions related to printing are selected and set, various setting items can be determined by a predetermined setting target position in the output image 210 and a setting operation at the position. . FIG. 14 shows an example of the output image 210 after the desired function setting is confirmed. In this example, the staple is set to the upper left, the 3-hole punch is set to the left end, the margins are set to the top and bottom, and the right side, and the A4 size is set to print in the vertical direction with four pages of the vertically long document combined into one page. Indicates. Here, a confirmation display icon 235 such as “A4” representing the paper size is displayed in order to facilitate the confirmation of the setting before the setting is confirmed.
As an example of settings relating to printing, the setting item correspondence table in FIG. 15 is a collection of print setting items and setting target positions on the output image 210, setting operations corresponding to the positions, operation icons, and the like. The actual setting operation is not limited to setting items related to printing. For example, it is possible to set in advance how various function settings such as a scanner and a facsimile are performed, create this setting item correspondence table, and store it in the output image setting control unit 500 of the image system 100. is there. Then, according to this table, the procedure can be determined so that the setting input is determined by the instruction to the position on the output image and the setting operation. It is also possible to update the set value table every time various item settings are confirmed, and to update the display on the output image as necessary.
FIG. 16 is a configuration example of an output image setting control unit 500 (showing the position in the overall configuration in FIG. 1) for realizing the method according to the present invention. In other words, this is a configuration example of an apparatus that controls the setting of the output image on the display screen. The output image setting control unit 500 includes a printer 120, a facsimile 130, and a scanner via a printer control unit 114, a facsimile control unit 116, a scanner control unit 112, and a copier control unit (not shown) connected by a bus 160, respectively. 140, and output settings related to image processing with a copying machine (not shown). The setting control unit 500 can be incorporated into an image processing system such as a multifunction peripheral (MFP) capable of realizing a composite function or a computer system connected to the printer 120, the facsimile 130, and the scanner 140.
The setting control unit 500 controls the setting of the output image. That is, it has a function of determining an operator's setting input (instruction input and setting operation input), storing setting values and other information for various settings, and updating a display screen including an output image. Therefore, the setting control unit 500 includes a setting value control unit 510, an input analysis unit 520, and a display control unit 530. Further, the setting control unit 500 is connected to the display 140 or the pointing device 150 which is an input / output device for performing setting input, via the bus 160 and the input / output control unit 118.
The setting value storage unit 510 stores setting values relating to various settings, and collates the setting values with actual settings. The setting value storage unit 510 includes a setting storage unit 512 and a prohibition determination unit 514. The setting storage unit 512 performs management (including inquiry, setting, and change) of setting values such as storing reference setting values or setting values determined by setting operations, and corresponds to the database. The prohibition determination unit 514 determines matters or values that are prohibited in the setting input. That is, the prohibition determination unit 514 determines whether setting is possible based on information to be set and information stored in the setting storage unit 512.
The input analysis unit 520 performs processing related to setting input. The input analysis unit 520 includes an operation analysis unit 522, a position information analysis unit 524, and a setting item analysis unit 526. The operation analysis unit 522 determines what kind of operator setting operation (for example, long-pressing a point, horizontal movement of a point, etc.) is. The position information analysis unit 524 determines which position or which part of the output image the instruction input from the operator is made, and determines the setting target item. The setting item analysis unit 526 determines what setting item is to be set based on the position information and the analysis result of the corresponding setting operation.
The display control unit 530 performs control related to a display screen including generation of an output image. The display control unit 530 includes an image generation unit 532, an operation management unit 534, and a prohibition control unit 536. The image generation unit 532 generates an output image screen that reflects the setting status. The operation management unit 534 manages the operation associated with the setting, that is, the entire setting operation, and manages the movement of the screen using the image generation unit 532 and a prohibition control unit 536 described later. The forbidden control unit 536 displays an error, a selection screen for other options, and the like according to whether or not the setting by the set value control unit 510 is possible.
An instruction is input to a predetermined position of the output image 210 by touching the touch panel by an operator, for example, and a setting operation is further input. In response to the input, in the input analysis unit 520, the position information analysis unit 5224 analyzes the position information touched by the finger. Then, the operation analysis unit 522 analyzes whether the setting operation corresponding to the selected position is correct. Further, the setting item analysis unit 526 analyzes the setting information corresponding to the position information and the setting operation. As described above, the above three components 522, 524, and 526 work together to analyze the setting input. At this time, for example, the analysis is performed according to the definition of the set value correspondence table shown in FIG. Following the analysis of these setting inputs (instruction input and setting operation input), in the display control unit 530, the image generation unit 532 generates an output image screen based on the setting input, and the operation management unit 534 performs the setting operation. For this purpose, the screen is updated by displaying setting icons and operation icons for guiding setting operations. Further, the prohibition control unit 536 determines whether setting is possible in conjunction with the set value control unit 510, determines a display screen (error display, option display, etc.) associated therewith, and prohibits setting operations that cannot be set. Control forbidden behavior.
FIG. 17 shows the relationship between the output image setting flow (S600) performed in the image processing system 100 and each component of the output image setting control unit 500. First, in steps S602 to S606, an initial output image is set. First, a reference set value is acquired from the setting storage unit 512 (S602). Based on the setting value, the image generation unit 532 generates a setting image. Next, the operation management unit 534 displays the generated setting image as an initial image (S606). Subsequently, a setting input by the operator, that is, an instruction input to a predetermined position on the output image and a setting operation input corresponding to the position are performed via an input / output device (for example, an operation panel and a touch panel). (S608). In response to this setting input, the position information analysis unit 524 and the operation analysis unit 522 analyze the position and the operation related to the position (S610). Next, the operation analysis unit 522 determines whether the setting operation is valid (S612). If the setting operation is not valid, the process returns to the operator setting input. If this operation is valid, the prohibition determination unit 514 then determines whether the setting is valid (S614). If the setting itself is valid and not a prohibition (a setting that is not allowed, for example, the paper size setting is too large), the operation management unit 534 updates the display screen to the next stage (S616). At this time, the setting value in the setting storage unit 512 is updated (S618), the image generation unit 532 generates an output image, and the screen display is updated by the operation management unit 534 (S620). If the setting is not valid in step S614, that is, if the prohibition control unit 536 determines that the setting is prohibited, the operation management unit 534 displays a prohibition error (S615). Following the display of the prohibition error, the operator returns to the setting input again. By repeatedly performing steps S608 to S620, various output setting items are determined, and the output image is updated accordingly.
The present invention includes an output image setting control unit and performs output setting using an output image displayed on a display screen of an image processing system or a computer system including at least one of a printer, a scanner, a facsimile machine, and a copier. Includes a program to do. This program can cause the system to execute the steps shown in FIG. 3 (or FIG. 17). More specifically, an initial output image for setting the output image is displayed on the display screen, and the output setting of the image is set according to an instruction input by the operator to a predetermined position of the output image. A step of switching to an input mode; a step of updating the output image in response to a setting operation by an operator accompanying the instruction input; and a final output image by updating the setting operation by the operator And completing the setting can be executed by the system.
Further, the program causes the system to display an initial output image on the display screen in order to set an output image, and in response to an instruction input by an operator to a predetermined position of the output image, A step of displaying a setting menu, a step of updating the output image in response to a setting operation by an operator to the setting menu, and displaying the updated output image as a final output image to perform setting. And completing the steps.
The output image setting program executed in the image processing system can be recorded in a readable recording medium such as a CD-ROM, a flexible disk, and a CD-R as a file in an installable or executable format. The CPU 103 included in the system control unit 102 in FIG. 1 reads the setting program from the storage medium and loads it onto the main storage device, causes each component of the output image control unit 500 to execute each step, and sets various output settings. Can be realized.
The output image setting program can also be provided by being stored on a computer connected to a network such as the Internet and downloaded via the network.
The present invention has been described with reference to FIGS. However, the present invention is not limited to these examples. It will be apparent to those skilled in the art that any modification can be made without departing from the spirit of the present invention.
The present invention is useful for image processing technology, and is particularly useful for output setting related to image processing in an image processing system having multiple functions.
1 is a block diagram of a multifunctional image processing system used in the present invention. It is a figure which shows an example of the display screen containing the output image which is the output mode of the image processing information by this invention. 4 is a flowchart illustrating an output image setting method according to the present invention. It is a figure which shows an example of the various print setting items by this invention. It is a figure which shows an example of the setting method regarding the image quality information by this invention. It is a figure which shows an example of the setting method of the monochrome color image quality by this invention. It is a figure which shows an example of the setting method regarding the monochrome color image quality and image quality information by this invention. It is a figure which shows an example of the setting method of the expansion / reduction by this invention. It is a figure which shows an example of the setting method of the margin (margin) by this invention. It is a figure which shows an example of the setting method of the aggregation function by this invention. It is a figure which shows an example of the setting method of the direction of the original by this invention. It is a figure which shows an example of the setting method of the staple process by this invention. It is a figure which shows an example of the setting method of the punch hole process by this invention. It is a schematic diagram which shows an example of the display screen of the state which completed various print settings. FIG. 6 is a diagram illustrating an example of a setting item correspondence table showing a relationship between print setting items, positions of output images, and setting operations. It is an example of the functional block diagram of the output image setting control part by this invention. It is a figure which shows the relationship between the output setting procedure seen from the system side by this invention, and the component of an output image setting control part.
DESCRIPTION OF SYMBOLS 100 Image processing system 110 Scanner 112 Scanner control part 114 Printer control part 116 Facsimile control part 118 Input / output control part 120 Printer 122 Finishing process part 124 Layout processing part 126 Image quality print processing part 130 Facsimile 140 Display 142 Operation panel 144 Touch panel 150 Pointing device 200 Display screen 210 Output image 220 Canvas area 230 Setting menu (setting icon)
232 selection display icon 235 confirmation display icon 240 image quality icon 250 setting target position 260 operation icon 270 setting operation 500 output image setting control unit 510 setting value control unit 512 setting storage unit 514 prohibition determination unit 520 input analysis unit 522 operation analysis unit 524 position Information analysis unit 526 Setting item analysis unit 530 Display control unit 532 Image generation unit 534 Operation management unit 536 Prohibition control unit
A method for setting image quality using an output image displayed on a display screen which is a touch panel ,
Displaying an output image and an image quality icon representing image quality information of the output image on the display screen so as to include the image quality icon in the output image, and according to a touch operation by an operator to the image quality icon Switching to a setting mode of image quality information of the output image,
Updating the image quality information in response to a setting operation on the image quality icon following the touch operation by an operator;
Displaying the output image and the image quality icon on the display screen based on the updated image quality information.
The method according to claim 1 , wherein the setting operation is a long press operation on the image quality icon.
The method according to claim 2 , wherein the image quality information includes density information, and the density information is sequentially updated from “light” to “dark” during the long press operation.
The method according to claim 3 , wherein the density information is cyclically updated sequentially from “light” to “dark” and from “dark” to “light” during the long press operation.
Wherein the image quality information includes density information, the method according to any one of claims 1 to 4 in the image quality icon including numbers or letters represent the concentration.
The image quality information includes monochrome / color information,
The method according to any one of claims 1 to 5 is an operation of the setting operation is moved by shifting the finger to the left and right with respect to the image quality icon.
The image quality information includes text / photo information,
The method according to any one of claims 1 to 6 , wherein the setting operation is an operation of moving a finger up and down with respect to the image quality icon.
The image quality information includes monochrome / color information and text / photo information,
The method according to any one of claims 1 to 5 is an operation of the setting operation is moved in a circle the finger around the image quality icon.
In the updating step, the image quality information is sequentially updated,
Wherein in the step of displaying, on the basis of the sequentially updated image quality information, the display screen sequentially displaying the output image and the image quality icon on method according to any one of claims 1 to 8.
Depending on the stop of the setting operation by the operator, the method according to any one of claims 1 to 9 further comprising the step of terminating the setting mode.
The method according to any one of claims 1 to 10 wherein the image quality icon is one character.
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