JP5540691B2 - Image processing apparatus, image processing method, and program - Google Patents

Description

  The present invention relates to an image processing device, an image processing method, and a program.

  Before outputting image data with a multi-function peripheral (MFP), an image of the output result of the image data (preview image data) is displayed on the display unit, so that image processing related to the image quality of the output image data can be performed. Confirm in advance whether the processing results and editing (binding, aggregation, double-sided printing, etc.) and post-processing (staple position, punch hole position) image processing results regardless of image quality are the desired output results A preview function is known (see Patent Document 1).

  However, in the conventional preview function, image data that has not been subjected to image processing related to image quality or image data that has been subjected to image processing in a different path from the output image data is displayed as an image of the output result of the image data. Therefore, the image of the processing result not related to the image quality matches the output result of the actually output image data, but the image of the processing result of the image processing related to the image quality is the actual output image data. There was a problem that it did not match the output result of.

  The present invention has been made in view of the above, and an image processing apparatus, an image processing method, and a program capable of enhancing the identity between an image displayed on a display unit and image data actually output The purpose is to provide.

In order to solve the above-described problems and achieve the object, the present invention generates actual image data obtained by performing image processing related to image quality on input image data in accordance with image processing settings for image processing related to image quality. In addition, image processing means for generating first preview image data obtained by performing image processing relating to the image quality for preview on the generated actual image data, and the image quality according to the processing settings for processing not related to image quality. Generating means for generating second preview image data indicating a processing result of no processing; combining means for generating preview image data obtained by combining the generated first preview image data and the generated second preview image data; a preview image data the generated display unit, concentration predetermined concentration than the preview image data the product If it, characterized by comprising a display control means for displaying to dilute the concentration of the preview image data.

The present invention is also an image processing method to be executed by an image processing apparatus, wherein the image processing means has an image processing unit configured to improve the image quality of input image data according to an image processing setting of image processing related to image quality. A step of generating real image data on which the related image processing is performed, generating first preview image data on which the image processing related to the image quality for preview is performed on the generated real image data; A step of generating second preview image data indicating a processing result of the processing not related to the image quality in accordance with the processing setting of the processing not related to the processing; and a synthesizing unit configured to generate the generated first preview image data and the generated second preview data. A step of generating preview image data obtained by combining the preview image data, and a display control means, Displays radical 113, when the concentration of the preview image data the product is below a predetermined concentration, characterized in that it comprises a, and displaying to dilute the concentration of the preview image data.

According to the present invention, the computer generates real image data obtained by performing the image processing related to the image quality on the input image data according to the image processing setting of the image processing related to the image quality, and the generated real image data On the other hand, image processing means for generating first preview image data that has been subjected to image processing related to the image quality for preview, and a second processing result indicating the processing result of the processing not related to the image quality according to the processing settings of the processing not related to the image quality. Generation means for generating preview image data, synthesis means for generating preview image data obtained by synthesizing the generated first preview image data and the generated second preview image data, and a display unit for displaying the generated preview image data displayed on, when the concentration of the preview image data the product is below a predetermined concentration, the flop Display control means for displaying to dilute the concentration of view image data, to function as a.

  According to the present invention, real image data obtained by performing image processing related to image quality on input image data is generated in accordance with image processing settings for image processing related to image quality, and preview image data is generated for previewing the generated real image data. An image processing unit that generates first preview image data that has been subjected to image processing related to image quality, and second preview image data that indicates a processing result of processing that is not related to image quality in accordance with processing settings for processing that is not related to image quality. Generating means; combining means for generating preview image data obtained by combining the generated first preview image data and the generated second preview image data; and display control means for displaying the generated preview image data on a display unit. By preparing, the first preview image data is generated in the same image processing path as the actual image data. It is possible to enhance the identity of the actual output image data and displayed on the display unit an image (preview image data) (real image data), an effect that.

FIG. 1 is a block diagram showing a configuration of a multifunction machine according to the first embodiment of the present invention. FIG. 2 is a diagram illustrating an example of the operation unit. FIG. 3 is a diagram illustrating an example of the display unit. FIG. 4 is a diagram showing a flow of display processing of preview image data in the multifunction machine according to the present embodiment. FIG. 5 is a block diagram illustrating a detailed configuration of the image processing unit. FIG. 6 is a diagram illustrating a flow of preview image data display processing in the multi-function peripheral according to the present embodiment. FIG. 7 is a block diagram showing a detailed configuration of the image processing unit. FIG. 8 is a diagram showing a flow of preview image data display processing in the multi-function peripheral according to the present embodiment. FIG. 9 is a block diagram illustrating a detailed configuration of the image processing unit. FIG. 10 is a diagram illustrating a display example of a message displayed together with the preview image data. FIG. 11 is a diagram illustrating a display example of preview image data. FIG. 12 is a diagram illustrating a display example of preview image data. FIG. 13 is a diagram illustrating a display example of preview image data.

  Exemplary embodiments of an image processing apparatus, an image processing method, and a program according to the present invention are explained in detail below with reference to the accompanying drawings. In the above embodiment, the image processing apparatus, the image processing method, and the program according to the present invention are applied to a multifunction machine having at least two functions of a copy function, a printer function, a scanner function, and a facsimile function. As will be described, the present invention can be applied to any image forming apparatus such as a copying machine, a printer, a scanner device, and a facsimile device.

(First embodiment)
FIG. 1 is a block diagram showing a configuration of a multifunction machine according to the first embodiment of the present invention. A multi function peripheral (MFP) 100 according to the present embodiment includes a reading device 101 that reads a document and obtains digitized image data (input image data), a writing device 107 that prints the image data on transfer paper, A memory 104 that temporarily stores image data via a bus via a CPU (Central Processing Unit) 103, a storage device 105 that stores image data, an image processing unit 102 that performs image processing on the read image data, An editing processing unit 106 that performs editing processing such as margining, aggregation, and duplex printing, a network interface unit 109 that transmits / receives image data to / from an external device such as another MFP 110 or a personal computer (PC) 111 via a network line, a facsimile (FAX) 113 and other external devices and image data via a telephone line. Image processing settings related to image quality performed by the modem unit 112 and the image processing unit 102, and editing processing settings (processing settings not related to image quality) performed by the editing processing unit 106 ) And post-processing executed in the post-processing unit 108 (processing not related to image quality) post-processing setting (processing setting) and other setting information, setting from the image data preview and operation unit 114 A display unit 115 that displays the set information, a post-processing unit 108 that performs post-processing such as punching holes and stapling the transfer paper on which image data is printed by the writing device 107.

  The user can cause the display unit 115 to display preview image data indicating the processing results of the image processing in the image processing unit 102 and the processing results of the editing processing and post-processing in the editing processing unit 106 and the post-processing unit 108. Then, when the user looks at the preview image data displayed on the display unit 115 and differs from the desired image, the user resets setting information (image processing setting, editing setting, post-processing setting, etc.) on the operation unit 114. Can do.

  In addition, the user can cause the display unit 115 to display preview image data that combines the processing result of the editing processing in the editing processing unit 106 and the processing result of the post-processing in the post-processing unit 108. Then, the user resets the setting information on the operation unit 114 until the desired preview image data including post-processing is displayed on the display unit 115 while viewing the preview image data displayed on the display unit 115. Can do.

  For example, when setting information for simultaneously performing stapling and punching holes is set in the operation unit 114, the user causes the display unit 115 to display preview image data indicating the result of stapling and punching holes in the post-processing unit 108. Then, the user looks at the preview image data displayed on the display unit 115 and confirms whether the punch hole and the staple interfere with each other, and then sets the setting information for stopping the punch hole. Accordingly, it is possible to prevent a desired output result from being obtained after the image data is printed on the transfer paper and the image data being output again.

  FIG. 2 is a diagram illustrating an example of the operation unit. FIG. 3 is a diagram illustrating an example of the display unit. As shown in FIG. 2, the operation unit 114 includes a button 201 for setting image processing settings, a button 202 for setting editing settings, a button 203 for setting post-processing settings, and the like. As shown in FIG. 3, the display unit 115 performs processing results related to image quality according to the image processing settings set from the operation unit 114, processing not related to image quality according to editing settings and post-processing settings. The preview image data 301 indicating the processing result is displayed. The user can confirm the output result by setting the setting information from the operation unit 114 and viewing the preview image data displayed on the display unit 115.

  Next, the flow of preview image data display processing in the multifunction peripheral 100 according to the present embodiment and details of various processing performed on the image data will be described with reference to FIGS. 4 and 5. FIG. 4 is a diagram showing a flow of display processing of preview image data in the multifunction machine according to the present embodiment. FIG. 5 is a block diagram illustrating a detailed configuration of the image processing unit.

  Input image data obtained by the reading device 101 is transferred to the image processing unit 102, and image processing is performed in the image processing unit 102.

  The image processing unit 102 (image processing unit) includes an operation unit 114 including a filter processing unit 501 that performs enhancement and smoothing of an image, a color correction processing unit 502 that performs color space conversion, and a γ conversion processing unit 503 that performs density adjustment. In accordance with the image processing setting set from, actual image data obtained by performing image processing related to image quality on the input image data is generated. Further, the image processing unit 102 (image processing unit) generates first preview image data obtained by performing image processing related to the image quality for preview on the generated actual image data by the preview generation unit 504.

  The preview generation unit 504 includes a preview γ conversion processing unit 505 and a preview resolution conversion processing unit 506.

  The preview gamma conversion processing unit 505 performs data value conversion on the generated actual image data, and performs brightness adjustment of the first preview image data displayed on the display unit 115.

  Also, the preview resolution conversion processing unit 506 provides a preview for image data having the same resolution as the generated actual image data (that is, the actual image data subjected to data value conversion in the preview γ conversion processing unit 505). Perform resolution conversion to a suitable resolution. For example, the preview resolution conversion processing unit 506 performs resolution conversion of image data having the same resolution (600 dpi) as the generated actual image data to image data having a resolution (75 dpi) suitable for preview.

  The preview generation unit 504 outputs the real image data and the first preview image data to the CPU 103 simultaneously, and further transfers the real image data and the first preview image data to the memory 104 via the CPU 103.

  The CPU 103 (generating unit) generates second preview image data indicating the processing result of the editing process and post-processing according to the editing process setting and post-processing setting set from the operation unit 114, and the generated second preview image data Is transferred to the memory 104.

  In addition, the CPU 103 (combining means) generates preview image data obtained by combining the first preview image data generated by the preview generation unit 504 and the second preview image data generated by the CPU 103. Then, the CPU 103 (display control means) transfers the generated preview image data to the general-purpose bus and displays it on the display unit 115 as a finished image.

  Accordingly, the user can confirm whether the output result of the actual image data is a desired output result by confirming the finished image displayed on the display unit 115. When the output result of the actual image data is not the desired output result, the user resets the setting information from the operation unit 114, and the above-described preview image data display process is performed until the desired output result is obtained. The setting information can be reset while repeatedly checking.

  As described above, according to the MFP 100 according to the present embodiment, the real image data in which the image processing related to the image quality is performed on the input image data according to the image processing setting of the image processing related to the image quality is generated and generated. Image processing unit 102 for generating first preview image data obtained by performing image processing related to the image quality for preview on the actual image data, and processing for processing not related to image quality according to processing settings for processing not related to image quality Generating means (CPU 103) for generating second preview image data indicating the result; combining means (CPU 103) for generating preview image data obtained by combining the generated first preview image data and the generated second preview image data; Display control means (CPU 103) for displaying the generated preview image data on the display unit 115; Thus, since the first preview image data is generated in the same image processing path (image processing unit 102) as the actual image data, it is possible to improve the identity between the preview image data and the actual image data to be actually output. it can.

(Second Embodiment)
In the present embodiment, when the actual image data stored in the storage device is output, the first preview image data stored in the storage device in association with the output image data, and the second preview image generated by the CPU It is an example of displaying preview image data synthesized with data. The description of the same parts as those of the multifunction machine 100 according to the first embodiment will be omitted, and only the parts different from the multifunction machine 100 according to the first embodiment will be described.

  FIG. 6 is a diagram illustrating a flow of preview image data display processing in the multi-function peripheral according to the present embodiment. FIG. 7 is a block diagram showing a detailed configuration of the image processing unit.

  Input image data obtained by the reading device 101 is transferred to the image processing unit 102, and image processing is performed in the image processing unit 102.

  The image processing unit 102 (image processing unit) includes an operation unit 114 including a filter processing unit 501 that performs enhancement and smoothing of an image, a color correction processing unit 502 that performs color space conversion, and a γ conversion processing unit 503 that performs density adjustment. In accordance with the image processing setting set from, actual image data obtained by performing image processing related to image quality on the input image data is generated. Further, the image processing unit 102 (image processing means) generates, by the preview / thumbnail generation unit 701, first preview image data obtained by performing image processing related to the image quality for preview on the generated actual image data. Thumbnail image data is generated by performing image processing related to the image quality for thumbnails on the actual image data.

  The preview / thumbnail generation unit 701 includes a preview γ conversion processing unit 505, a preview resolution conversion processing unit 506, a thumbnail γ conversion processing unit 702, and a thumbnail resolution conversion processing unit 703.

  The thumbnail gamma conversion processing unit 702 performs data value conversion on the generated actual image data, and adjusts the luminance of the thumbnail image data displayed on the display unit 115.

  The thumbnail resolution conversion processing unit 703 is suitable for thumbnails with respect to image data having the same resolution as the generated actual image data (that is, actual image data subjected to data value conversion in the thumbnail γ conversion processing unit 702). Perform resolution conversion to resolution. For example, the thumbnail resolution conversion processing unit 703 performs resolution conversion of image data having the same resolution (600 dpi) as the generated actual image data to image data having a resolution (37.5 dpi) suitable for thumbnails. .

  The preview / thumbnail generation unit 701 transfers actual image data, first preview image data, and thumbnail image data to the memory 104 via the CPU 103. Then, the CPU 103 (storage control means) stores the actual image data transferred to the memory 104, the first preview image data, and the thumbnail image data in the storage device 105 in association with each other.

  When the operation unit 114 requests the output of actual image data stored in the storage device 105, the CPU 103 transfers the thumbnail image data stored in the storage device 105 to the general-purpose bus and displays it on the display unit 115. .

  Next, the CPU 103 acquires the first preview image data stored in association with the thumbnail image data selected from the thumbnail image data displayed on the display unit 115 from the storage device 105, and acquires the acquired first preview image. Data is transferred to the memory 104. Further, the CPU 103 (generating unit) generates second preview image data indicating the processing result of the editing process and the post-processing according to the editing process setting and the post-processing setting set from the operation unit 114, and generates the generated second preview. The image data is transferred to the memory 104.

  Further, the CPU 103 (combining means) generates preview image data obtained by combining the first preview image data acquired from the storage device 105 and the generated second preview image data. Then, the CPU 103 (display control means) transfers the generated preview image data to the general-purpose bus and displays it on the display unit 115 as a finished image.

  Accordingly, the user can confirm whether the output result of the actual image data is a desired output result by confirming the finished image displayed on the display unit 115. When the output result of the actual image data is not the desired output result, the user resets the setting information from the operation unit 114, and the above-described preview image data display process is performed until the desired output result is obtained. The setting information can be reset while repeatedly checking.

  As described above, according to the MFP 100 according to the present embodiment, when the actual image data stored in the storage device 105 is output, the first image stored in the storage device 105 is associated with the output actual image data. Preview image data obtained by combining the preview image data and the second preview image data generated by the CPU 103 is generated, and the generated preview image data is displayed on the display unit 115, thereby being stored in the display storage device 105. Even when the actual image data is reused, the same effects as those of the first embodiment can be obtained.

(Third embodiment)
In the present embodiment, when the image processing setting is reset, an actual image in which image processing related to image quality is performed on the actual image data stored in the storage device according to the reset image processing setting. It is an example which produces | generates data. Further, in the present embodiment, when the editing process setting and the post-processing setting are reset, the processing result of the process irrespective of the image quality according to the reset editing process setting and the post-processing setting is shown. This is an example of generating 2 preview image data. Note that the description of the same parts as those of the MFP 100 according to the second embodiment will be omitted, and only the parts different from those of the MFP 100 according to the second embodiment will be described.

  FIG. 8 is a diagram showing a flow of preview image data display processing in the multi-function peripheral according to the present embodiment. FIG. 9 is a block diagram illustrating a detailed configuration of the image processing unit.

  When the operation unit 114 requests the output of actual image data stored in the storage device 105, the CPU 103 transfers the thumbnail image data stored in the storage device 105 to the general-purpose bus and displays it on the display unit 115. .

  Next, the CPU 103 acquires the first preview image data stored in association with the thumbnail image data selected from the thumbnail image data displayed on the display unit 115 from the storage device 105, and acquires the acquired first preview image. Data is transferred to the memory 104. Further, the CPU 103 generates second preview image data indicating the processing result of the editing process and the post-processing according to the editing process setting and the post-processing setting set from the operation unit 114, and stores the generated second preview image data in the memory. 104.

  Further, the CPU 103 (combining means) generates preview image data obtained by combining the first preview image data acquired from the storage device 105 and the generated second preview image data. Then, the CPU 103 (display control means) transfers the generated preview image data to the general-purpose bus and displays it on the display unit 115 as a finished image.

  Here, when the image quality of the finished image displayed on the display unit 115 is different from the desired image quality, the user can reset the image processing setting from the operation unit 114. When the image processing setting is reset, the image processing unit 102 acquires actual image data from the storage device 105 via the CPU 103. The image processing unit 102 (image processing unit) then stores the actual processing stored in the storage device 105 in accordance with the image processing settings reset by the filter processing unit 501, the color correction processing unit 502, and the γ conversion processing unit 503. Real image data in which image processing related to image quality is performed on the image data is generated again.

  Also, the preview / thumbnail generation unit 701 (image processing means) performs first preview image data obtained by performing image processing related to the image quality for preview on the regenerated real image data, and the generated real image data. Then, thumbnail image data obtained by performing image processing related to the image quality for thumbnails is generated again.

  Further, the preview / thumbnail generation unit 701 transfers real image data, first preview image data, and thumbnail image data to the memory 104 via the CPU 103.

  The CPU 103 generates second preview image data indicating the processing result of the editing process and the post-processing performed according to the editing process setting and the post-processing setting set from the operation unit 114, and stores the generated second preview image data in the memory 104. Forward.

  Further, the CPU 103 (compositing means) regenerates preview image data obtained by combining the first preview image data regenerated by the preview / thumbnail generating unit 701 and the second preview image data generated by the CPU 103. Then, the CPU 103 (display control means) transfers the regenerated preview image data to the general-purpose bus and displays it on the display unit 115 as a finished image.

  Accordingly, the user can confirm whether the output result of the actual image data is a desired output result by confirming the finished image displayed on the display unit 115. If the output result of the actual image data is not the desired output result, the user resets the image processing setting from the operation unit 114 and displays the preview image data described above until the desired output result is obtained. It is possible to reset the image processing settings while repeatedly confirming the processing.

  On the other hand, when the processing result of the finishing image displayed on the display unit 115 and the processing result of the post-processing are different from the desired processing result, the user can reset the editing processing setting and the post-processing setting from the operation unit 114. . When the editing process setting or the post-processing setting is reset, the CPU 103 (generating unit) generates second preview image data indicating the processing result of the editing process and the post-processing according to the reset processing setting. fix. Further, the CPU 103 (compositing means) regenerates preview image data obtained by combining the first preview image data generated by the preview / thumbnail generation unit 701 and the regenerated second preview image data. Then, the CPU 103 (display control means) transfers the regenerated preview image data to the general-purpose bus and displays it on the display unit 115 as a finished image.

  Accordingly, the user can confirm whether the output result of the actual image data is a desired output result by confirming the finished image displayed on the display unit 115. When the output result of the actual image data is not the desired output result, the user resets the editing process setting and the post-processing setting from the operation unit 114, and the preview described above until the desired output result is obtained. Editing processing settings and post-processing settings can be set again while repeatedly confirming the display processing of image data.

  As described above, according to the MFP 100 according to the present embodiment, when the image processing setting is reset, the real image data stored in the storage device 105 is processed according to the reset image processing setting. Re-generate real image data that has been subjected to image processing related to image quality, and regenerate first preview image data that has been subjected to image processing related to image quality for preview to the regenerated real image data, Preview image data obtained by synthesizing the regenerated first preview image data and the generated second preview image data is generated again, and the regenerated preview image data is displayed on the display unit 115. Further, when the editing process setting or the post-processing setting is reset, the second preview image data indicating the processing result of the process not related to the image quality according to the reset editing process setting or the post-processing setting is generated. Then, by regenerating preview image data obtained by combining the generated first preview image data and the regenerated second preview image data, and displaying the regenerated preview image data on the display unit 115. Since the image quality of the preview image data displayed on the display unit 115 can be brought close to the image quality of the actual image data actually output, the preview image data displayed on the display unit 115 and the actual image data actually output are displayed. Can improve the identity of the image after image processing, editing processing and post-processing related to image quality, and the desired output Until fruit is obtained, it can be repeated to confirm the preview image data.

(Fourth embodiment)
In the present embodiment, when the density of the generated preview image data is equal to or lower than a predetermined density, a message for warning that the density of the actual image data becomes light is displayed together with the preview image data. The description of the same parts as those of the multifunction machine 100 according to the first to third embodiments will be omitted, and only the parts different from the multifunction machine 100 according to the first to third embodiments will be described.

  FIG. 10 is a diagram illustrating a display example of a message displayed together with the preview image data. As shown in FIG. 10, when the density of the preview image data is equal to or lower than the predetermined density, the CPU 103 (display control means) issues a message 1002 that warns that the density of the actual image data is reduced together with the preview image data 1001. It is displayed on the display unit 115.

  When the density of the preview image data 1001 is equal to or lower than a predetermined density, if the actual image data is output as it is, the density of the output result becomes light, and in some cases, such as a character disappears and cannot be read. However, as in the present embodiment, by displaying a message 1002 that warns that the density of the actual image data is low and alerting the user, information such as characters included in the actual image data is still missing. It can be prevented from being output. Further, the user confirms the preview image data 1001 and, if necessary, the output result of the actual image data can be confirmed again with the preview image data 1001 by setting the image processing setting again to increase the density. .

  When the output result of the actual image data is not the desired output result, the user resets the image processing setting from the operation unit 114, and the preview image data 1001 described above is set until the desired output result is obtained. The image processing setting can be reset while repeatedly confirming the display processing.

  As described above, according to the multifunction peripheral 100 according to the present embodiment, when the density of the preview image data 1001 is equal to or lower than the predetermined density, a warning is given that the density of the actual image data is reduced together with the preview image data 1001. By displaying the message 1002 on the display unit 115, it is possible to prevent an image such as characters of actual image data from being output in a state that is not intended against the user's intention.

(Fifth embodiment)
In the present embodiment, when the density of preview image data is equal to or lower than a predetermined density, a mark is displayed at a location where the density is low in the preview image data. The description of the same parts as those of the multifunction machine 100 according to the first to third embodiments will be omitted, and only the parts different from the multifunction machine 100 according to the first to third embodiments will be described.

  FIG. 11 is a diagram illustrating a display example of preview image data. As shown in FIG. 11, when the density of the preview image data is equal to or lower than a predetermined density, the CPU 103 (display control means) reduces the density of the actual image data in a portion of the preview image data 1001 where the density is low. A mark such as a message 1101 for warning that the image is to be displayed and a frame 1102 surrounding a portion where the density is low is displayed.

  When the density of the preview image data 1001 is equal to or lower than a predetermined density, if the actual image data is output as it is, the density of the output result becomes light, and in some cases, such as a character disappears and cannot be read. However, as in the present embodiment, by displaying a mark at a low-density part and alerting the user, it is possible to prevent the information such as characters included in the actual image data from being output without being lost. And the user can confirm which part of the density is light. Further, the user confirms the preview image data 1001 and, if necessary, the output result of the actual image data can be confirmed again with the preview image data 1001 by setting the image processing setting again to increase the density. .

  When the output result of the actual image data is not the desired output result, the user resets the image processing setting from the operation unit 114, and the preview image data 1001 described above is set until the desired output result is obtained. The image processing setting can be reset while repeatedly confirming the display processing.

  As described above, according to the multifunction peripheral 100 according to the present embodiment, when the density of the preview image data is equal to or lower than the predetermined density, the density of the actual image data is in a portion of the preview image data 1001 where the density is low. By displaying a message such as a message 1101 warning that lightness is reduced or a mark such as a frame 1102 surrounding a portion where the density is low, the location where the density is low can be clearly indicated. It is possible to confirm whether the image is a line drawing, and it is possible to confirm whether or not the output of the light density is as intended by the user.

(Sixth embodiment)
In the present embodiment, when the density of preview image data is equal to or lower than a predetermined density, a portion with low density in the preview image data is enlarged and displayed. The description of the same parts as those of the multifunction machine 100 according to the first to third embodiments will be omitted, and only the parts different from the multifunction machine 100 according to the first to third embodiments will be described.

  FIG. 12 is a diagram illustrating a display example of preview image data. As illustrated in FIG. 12, when the density of the preview image data 1001 is equal to or lower than a predetermined density, the CPU 103 (display control unit) enlarges the portion 1201 having a low density in the preview image data 1001 and displays the display unit 115. To display. Further, in the present embodiment, the CPU 103 (display control means) displays a message 1101 for warning that the density of the actual image data is reduced, or a location where the density is low, in the low density portion of the preview image data 1001. A mark such as a surrounding frame 1102 is displayed.

  When the density of the preview image data 1001 is equal to or lower than a predetermined density, if the actual image data is output as it is, the density of the output result becomes light, and in some cases, such as a character disappears and cannot be read. However, as shown in the present embodiment, by enlarging and displaying a low-density part and alerting the user, the user can specifically check which part of the density is thin, and the low-density part It is possible to confirm in detail how much is reproduced.

  When the output result of the actual image data is not the desired output result, the user resets the image processing setting from the operation unit 114, and the preview image data 1001 described above is set until the desired output result is obtained. The image processing setting can be reset while repeatedly confirming the display processing.

  As described above, according to the multifunction peripheral 100 according to the present embodiment, when the density of the preview image data 1001 is equal to or lower than the predetermined density, the portion of the preview image data 1001 having a low density is enlarged and displayed. Since the location where the density is output lightly can be clearly indicated, it can be confirmed whether the location where the density is output lightly is a pattern or a character / line drawing, and the reproducibility of small characters can be confirmed, Further, it can be confirmed whether or not the light output is as intended by the user.

(Seventh embodiment)
In the present embodiment, when the density of preview image data is equal to or lower than a predetermined density, the preview image data is displayed with a reduced density. The description of the same parts as those of the multifunction machine 100 according to the first to third embodiments will be omitted, and only the parts different from the multifunction machine 100 according to the first to third embodiments will be described.

  FIG. 13 is a diagram illustrating a display example of preview image data. As shown in FIG. 13, when the density of the preview image data 1301 is equal to or lower than a predetermined density, the CPU 103 (display control means) diminishes the density of the preview image data 1301 and displays it on the display unit 115. As a method of reducing the density of the preview image data 1301, the preview γ conversion processing unit 505 included in the preview generation unit 504 (or the preview / thumbnail generation unit 701) converts the data value of the actual image data. There is a method of adjusting the luminance so that the density of the preview image data is thinned. As a result, in the first preview image data, the line image at the low density portion is interrupted, and the preview image data obtained by synthesizing the first preview image data and the second preview image data is displayed on the display unit 115. Thus, it is possible to guide the user to set the density to a darker eye.

  As a result, when the user resets the image processing setting, the user is guided to set the density setting to a darker eye, and the characters disappear from the output result of the actual image data, and the information such as characters is lost. It is possible to prevent the output as it is.

  As described above, according to the MFP 100 according to the present embodiment, when the density of the preview image data 1301 is equal to or lower than the predetermined density, the density of the preview image data 1301 is reduced and displayed, thereby allowing the user to perform image processing. Resetting the settings can guide the actual image data to be output to darker eyes, and ensure that the characters and line drawings are reproduced. Can be prevented.

  Note that the program executed by the MFP 100 according to the present embodiment is provided by being incorporated in advance in a ROM or the like (the memory 104 and the storage device 105).

  The program executed by the multifunction peripheral 100 according to the present embodiment is a file in an installable format or an executable format, and is a computer such as a CD-ROM, flexible disk (FD), CD-R, DVD (Digital Versatile Disk). The information may be provided by being recorded on a recording medium that can be read by the user.

  Furthermore, the program executed by the MFP 100 according to the present embodiment may be provided by being stored on a computer connected to a network such as the Internet and downloaded via the network. Further, the program executed by the multifunction peripheral 100 of the present embodiment may be configured to be provided or distributed via a network such as the Internet.

  The program executed by the multifunction peripheral 100 according to the present embodiment has a module configuration including the above-described units (image processing means, generation means, composition means, display control means, storage control means, etc.). As the hardware, the CPU 103 (processor) reads out the program from the ROM and executes it, so that the above-described units are loaded on the main storage device, and the image processing means, generation means, composition means, display control means, storage control means, etc. 105 is generated.

100 MFP 102 Image Processing Unit 103 CPU
105 Storage Device 106 Editing Processing Unit 108 Post Processing Unit 115 Display Unit 501 Filter Processing Unit 502 Color Correction Processing Unit 503 γ Conversion Processing Unit 504 Preview Generation Unit 505 Preview Gamma Conversion Processing Unit 506 Preview Resolution Conversion Processing Unit 701 Preview / Thumbnail Generator

JP 2007-150597 A

Claims (9)

In accordance with image processing settings for image processing related to image quality, real image data obtained by performing image processing related to the image quality on input image data is generated, and an image related to preview image quality is generated for the generated actual image data Image processing means for generating processed first preview image data;
Generating means for generating second preview image data indicating a processing result of the process not related to the image quality according to the processing setting of the process not related to the image quality;
Combining means for generating preview image data obtained by combining the generated first preview image data and the generated second preview image data;
Display control means for displaying the generated preview image data on a display unit and , when the density of the generated preview image data is equal to or lower than a predetermined density , displaying the preview image data with a reduced density ;
An image processing apparatus comprising: Storage control means for associating and storing the generated actual image data and the generated first preview image data in a storage device;
The synthesizing unit generates the first preview image data stored in the storage device in association with the actual image data to be output when the actual image data stored in the storage device is output. Generating the preview image data obtained by combining the second preview image data,
The image processing apparatus according to claim 1, wherein the display control unit displays the generated preview image data on the display unit. When the image processing setting is reset, the image processing means performs image processing related to the image quality on the actual image data stored in the storage device according to the reset image processing setting. Re-generating the actual image data that has been performed, and re-generating the first preview image data that has undergone image processing related to the image quality for previewing the re-generated real image data,
The synthesizing unit regenerates the preview image data obtained by synthesizing the regenerated first preview image data and the generated second preview image data;
The image processing apparatus according to claim 2, wherein the display control unit displays the regenerated preview image data on a display unit. The generation unit regenerates the second preview image data indicating a processing result of processing not related to the image quality according to the reset processing setting when the processing setting is reset,
The synthesizing unit regenerates the preview image data obtained by synthesizing the first preview image data stored in the storage device and the regenerated second preview image data;
The image processing apparatus according to claim 2, wherein the display control unit displays the regenerated preview image data on the display unit.   When the density of the generated preview image data is equal to or lower than a predetermined density, the display control means displays a message warning that the density of the actual image data will be reduced together with the generated preview image data. The image processing apparatus according to claim 1, wherein:   6. The display control unit according to claim 1, wherein when the density of the generated preview image data is equal to or lower than a predetermined density, a mark is displayed at a location where the density is low in the preview image data. The image processing apparatus according to any one of the above.   The display control means enlarges and displays a portion of the preview image data having a low density when the density of the generated preview image data is equal to or lower than a predetermined density. The image processing apparatus according to any one of the above. An image processing method executed by an image processing apparatus,
The image processing apparatus includes:
The image processing means generates real image data obtained by performing the image processing relating to the image quality on the input image data according to the image processing setting of the image processing relating to the image quality, and for previewing the generated actual image data. Generating first preview image data subjected to image processing related to the image quality of
A step of generating second preview image data indicating a processing result of the process not related to the image quality according to the processing setting of the process not related to the image quality;
A step of generating preview image data by combining the generated first preview image data and the generated second preview image data;
Display control means for displaying the generated preview image data on a display unit, and when the density of the generated preview image data is equal to or lower than a predetermined density, reducing the density of the preview image data ;
An image processing method comprising: Computer
In accordance with image processing settings for image processing related to image quality, real image data obtained by performing image processing related to the image quality on input image data is generated, and an image related to preview image quality is generated for the generated actual image data Image processing means for generating processed first preview image data;
Generating means for generating second preview image data indicating a processing result of the process not related to the image quality according to the processing setting of the process not related to the image quality;
Combining means for generating preview image data obtained by combining the generated first preview image data and the generated second preview image data;
Display control means for displaying the generated preview image data on a display unit and , when the density of the generated preview image data is equal to or lower than a predetermined density , displaying the preview image data with a reduced density ;
Program to function as.

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