JP5622466B2 - Image forming apparatus and control method thereof - Google Patents

Description

  Embodiments described herein relate generally to an image forming apparatus that prints an image on paper.

  The image forming apparatus can print image data scanned from a document or image data input from a network-connected external device (for example, a personal computer) on a sheet of paper or store it by compressing it to a small size ( For example, Patent Document 1).

JP 2009-71832 A

  Image data scanned from a document or image data input from an external device includes, in addition to images to be printed such as characters, photographs, and backgrounds, unnecessary point images that are scattered in the image area, so-called isolated point images. May be included. This isolated point image is generated because the original is poor in paper quality, for example, a semi-finished paper, or dust or dirt adheres to the original table.

  An object of an embodiment of the present invention is to provide an image forming apparatus capable of reliably removing an isolated point image included in image data and a control method thereof.

An image forming apparatus according to an embodiment of the present invention has a low-resolution conversion processing function for reducing the resolution of an input image, and detects an edge of a character image area in image data that has undergone the processing of the low-resolution conversion processing function. Edge detection / binarization processing function for binarizing data, and characters corresponding to edge detection of the edge detection / binarization processing function among the image data binarized by the edge detection / binarization processing function First isolated point removal processing function that removes isolated point images in regions other than image regions, second isolated point removal processing function that removes isolated point images included in character image data, photos that compress photos and background image data background compression processing function, the same image data character image data and photograph-back by analyzing the layout of a character image area in the image data has been processed in the first isolated-point removal processing function A layout analysis processing function that separates image data, gives the separated character image data to the second isolated point removal processing function, and gives the separated photograph / background image data to the photograph / background compression processing function; Character compression processing function for compressing character image data that has undergone the processing of the second isolated point removal processing function, photo / background image data compressed by the photo / background compression processing function, and characters compressed by the character compression processing function Image processing means having at least the first isolated point removal processing function and the second isolated point removal processing function that can be selectively set, out of file processing functions for converting image data into files,
When inputting the image data, the image processing unit is instructed to set the first isolated point removal processing function, and the second isolated point removal processing function is set to the image processing in accordance with the end of the layout analysis processing function. Control means for instructing the means.

The block diagram of the control circuit of one Embodiment. The block diagram which shows the specific structure of the dynamic reconfiguration processor in one Embodiment. The figure which shows the change of the function of the dynamic reconfiguration processor in one embodiment. The figure which shows the example of the image data which enters into the 1st isolated point removal process part of one Embodiment. The figure which expands and shows the one part area | region in the image data of FIG. The figure which expands and shows the one part area | region in the image data which passed through the 1st isolated point removal process part of one Embodiment. The figure which expands and shows the one part area | region in the image data which passed through the 2nd isolated point removal process part of one Embodiment.

  DESCRIPTION OF SYMBOLS 1 ... MFP (image forming apparatus), 10 ... CPU, 11 ... Bus, 12 ... Main memory, 13 ... External interface, 14 ... Hard disk drive, 15 ... Local memory, 16 ... Scanner, 17 ... Printer, 30 ... Image processor (Image processing means), 40 ... logic unit, 41 ... low resolution conversion processing unit, 42 ... edge detection / binarization processing unit, 43 ... first isolated point removal processing unit, 44 ... second isolated point removal processing unit, 50 ... Software processing unit 51 ... Layout analysis processing unit 52 ... Character compression processing unit 53 ... Photo / background compression processing unit 54 ... File processing unit

  Hereinafter, an embodiment will be described with reference to the drawings.

  In FIG. 1, reference numeral 1 denotes a composite image forming apparatus, a so-called MFP, which has a plurality of functions such as a copy function, a scan function, and a print function. The MFP 1 connects a bus 11 to a CPU 10 that is a main control unit, and an external interface 13, a hard disk drive (HDD) 14, a local memory 15, a scanner 16, a printer (also referred to as a printer engine) 17, and a control panel. 20 and an image processor 30 are connected.

  The local memory 15 is for temporarily storing image data processed by the image processor 30. The scanner 16 optically reads an image of a document set on the MFP 1. The printer 17 prints image data on paper. The control panel 20 is used for setting operation conditions by the user, and includes a display unit 21 and an operation unit 22.

  A plurality of client terminals such as personal computers 61 are connected to the external interface 13 via the network cable 60. These personal computers 61 generate image data using various built-in application programs (word processor, spreadsheet, presentation, DTP software, etc.), and send the generated image data to the MFP 1.

  The image processor 30 is a dynamic reconfigurable processor, and includes a logic circuit unit 40 capable of selectively setting a plurality of functions and a software processing unit 50 having a plurality of functions. That is, as illustrated in FIG. 2, the logic circuit unit 40 includes a low resolution conversion processing unit 41, an edge detection / binarization processing unit 42, a first isolated point removal processing unit 43, and a second isolated point removal processing unit 44. It can be set selectively. The software processing unit 50 has a layout analysis processing unit 51, a character compression processing unit 52, a photograph / background compression processing unit 53, and a file processing unit 54.

  The low resolution conversion processing unit 41 reduces the resolution of input image data. The edge detection / binarization processing unit 42 detects the edge of the character image area in the image data that has undergone the processing of the low resolution conversion processing unit 41 and binarizes the image data. The first isolated point removal processing unit 43 selects a character image area corresponding to the edge detection of the edge detection / binarization processing unit 42 from the image data binarized by the edge detection / binarization processing unit 42. The isolated point image in the excluded area is detected and removed. The layout analysis processing unit 51 analyzes the layout of the character image area in the image data that has undergone the processing of the first isolated point removal processing unit 43, and the image data that has undergone the processing of the first isolated point removal processing unit 43 in accordance with the analysis result. The character image data and the photograph / background image data are separated.

  The second isolated point removal processing unit 44 detects and removes isolated point images included in the character image data separated by the layout analysis processing unit 51. The character compression processing unit 52 compresses the character image data that has undergone the processing of the second isolated point removal processing unit 44. The photograph / background compression processing unit 53 compresses the photograph / background image data separated by the layout analysis processing unit 51. The file processing unit 54 converts the photo / background image data compressed by the photo / background compression processing unit 53 and the character image data compressed by the character compression processing unit 52 into a PDF file.

  When inputting image data, the CPU 10 instructs the image processor 30 to set the low resolution conversion processing unit 41, and sets the edge detection / binarization processing unit 42 at the end of the processing of the low resolution conversion processing unit 41. The image processor 30 is instructed to instruct the image processor 30 to set the first isolated point removal processing unit 43 in accordance with the end of the processing of the edge detection / binarization processing unit 42, and the layout analysis processing unit 51 The image processor 30 is instructed to set the second isolated point removal processing unit 44 at the end of the process.

  Next, the operation will be described. A change in the function of the image processor 30 is shown in FIG.

  When inputting image data, the CPU 10 instructs the image processing processor 30 to set the low resolution conversion processing unit 41. In accordance with the instruction, the image processor 30 newly sets a low resolution conversion processing unit 41 in place of the second isolated point removal processing unit 44 that has been set so far in the logic circuit unit 40. The set low resolution conversion processing unit 41 reduces the resolution of the input image.

  The CPU 10 instructs the image processor 30 to set the edge detection / binarization processing unit 42 at the end of the processing of the low resolution conversion processing unit 41. In accordance with the instruction, the image processor 30 newly sets an edge detection / binarization processing unit 42 in place of the low resolution conversion processing unit 41 set up to that time in the logic circuit unit 40. The set edge detection / binarization processing unit 42 detects the edge of the character image area in the image data that has undergone the processing of the low resolution conversion processing unit 41 and binarizes the image data.

  The CPU 10 instructs the image processor 30 to set the first isolated point removal processing unit 43 at the end of the processing of the edge detection / binarization processing unit 42. In accordance with the instruction, the image processor 30 newly sets the first isolated point removal processing unit 43 in place of the edge detection / binarization processing unit 42 that has been set in the logic circuit unit 40 so far. The set first isolated point removal processing unit 43 sets the character corresponding to the edge detection of the edge detection / binarization processing unit 42 out of the image data binarized by the edge detection / binarization processing unit 42. An isolated point image in an area excluding the image area is detected and removed.

  As an example of the image data binarized by the edge detection / binarization processing unit 42, image data D including a plurality of character images W is shown in FIG. FIG. 5 shows an enlarged region D1 including a part of the character image W in the image data D. In addition to a part of the character image W, the area D1 includes unnecessary point images, so-called isolated point images P1, P2, and P3. These isolated point images P1, P2, and P3 are generated because the original is poor in paper quality, for example, a half paper, or dust or dirt is attached to the original table. In FIG. 6, the isolated point images P1 and P2 far from the character image W are removed by the first isolated point removal processing unit 43, and the isolated point image P3 near the character image W remains without being removed. Indicates the state.

  As the processing of the first isolated point removal processing unit 43 proceeds, the processing of the layout analysis processing unit 51 is sequentially executed. This is so-called pipeline processing. The layout analysis processing unit 51 analyzes the layout of the character image area in the image data that has undergone the processing of the first isolated point removal processing unit 43, and the image data that has undergone the processing of the first isolated point removal processing unit 43 in accordance with the analysis result. The character image data and the photograph / background image data are separated.

  The CPU 10 instructs the image processor 30 to set the second isolated point removal processing unit 44 at the end of the processing of the layout analysis processing unit 51. In accordance with the instruction, the image processor 30 newly sets a second isolated point removal processing unit 44 in place of the first isolated point removal processing unit 43 that has been set in the logic circuit unit 40 so far. The set second isolated point removal processing unit 44 detects and removes the isolated point image included in the character image data separated by the layout analysis processing unit 51, for example, the isolated point image P3. FIG. 7 shows the character image data from which the isolated point image P3 has been removed.

  The character image data that has been processed by the second isolated point removal processing unit 44 is compressed by the character compression processing unit 52. The photograph / background image data separated by the layout analysis processing unit 51 is compressed by the photograph / background compression processing unit 53. The compressed character image data and the compressed photograph / background image data are converted into a PDF file by the file processing unit 54. The PDF file is stored in the main memory 12 and then stored in, for example, the hard disk drive 14.

  As described above, in the logic circuit unit 40 of the image processor 30, the first isolated point removal processing unit 43 and the second isolated point removal processing unit 44 are sequentially switched and set to execute the two-stage isolated point removal processing. The isolated point image included in the image data can be reliably removed. In particular, since the function of the first isolated point removal processing unit 43 and the function of the second isolated point removal processing unit 44 can be realized by one image processor 30, the first isolated point removal processing unit 43 and the second isolated point removal processing are performed. The configuration can be simplified and the cost can be reduced as compared with the case where fixed hardware such as an ASIC provided with each unit 44 is used.

  Moreover, not only the first isolated point removal processing unit 43 and the second isolated point removal processing unit 44 but also the low resolution conversion processing unit 41 and the edge detection / binarization processing unit 42 include the logic circuit unit 40 of the image processor 30. Therefore, the configuration can be further simplified and the cost can be reduced.

The above embodiment is presented as an example, and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, rewrites, and changes can be made without departing from the scope of the invention. The scope of the invention is included in the gist of the embodiments and modifications, and is included in the invention described in the claims and the equivalent scope thereof.
Hereinafter, the invention described in the scope of claims of the present application will be appended.
[1] A first isolated point removal processing function for removing an isolated point image included in input image data, and analyzing the layout of a character image area in the image data subjected to the processing of the first isolated point removal function. A layout analysis processing function for separating image data into character image data and photograph / background image data; a second isolated point removal processing function for removing isolated point images included in the character image data separated by the layout analysis processing function; A character compression processing function for compressing the character image data that has undergone the processing of the second isolated point removal processing function, a photo / background compression processing function for compressing the photograph / background image data separated by the layout analysis processing function, Photo / background image data compressed by the background compression processing function and character image data compressed by the character compression processing function Of the file processing functions to be filed, image processing means capable of selectively setting at least the first isolated point removal processing function and the second isolated point removal processing function, and the first data input when inputting the image data Control means for instructing the image processing means to set the isolated point removal processing function, and instructing the image processing means to set the second isolated point removal processing function at the end of the processing of the layout analysis processing function; An image forming apparatus comprising the image forming apparatus.
[2] The image processing means fixedly has the layout analysis processing function, the character compression processing function, the photo / background compression processing function, and the file processing function, and the first isolated point removal processing function and The image forming apparatus according to appendix [1], wherein the second isolated point removal processing function can be selectively set.
[3] The image processing means detects the edge of the character image area in the image data that has undergone the processing of the low resolution conversion processing function, the low resolution conversion processing function for reducing the resolution of the input image, and the image data Binarized edge detection / binarization processing function, and character image area corresponding to edge detection of the edge detection / binarization processing function among the image data binarized by the edge detection / binarization processing function A first isolated point removal function for removing isolated point images in the region excluding the region, and analyzing the layout of the character image region in the image data that has undergone the processing of the first isolated point removal function, thereby converting the image data into character image data. Layout analysis processing function that separates photos and background image data, and removes isolated point images included in character image data separated by this layout analysis processing function 2 isolated point removal processing function, character compression processing function for compressing character image data that has undergone the processing of the second isolated point removal processing function, and photo / background image data compressed by the layout analysis processing function At least the first isolated point of the compression processing function and the file processing function for converting the photograph / background image data compressed by the photograph / background compression processing function and the character image data compressed by the character compression processing function into a file The image forming apparatus according to [1], further including a removal processing function and a second isolated point removal processing function that can be selectively set.
[4] The image processing means fixedly has the layout analysis processing function, the character compression processing function, the photo / background compression processing function, and the file processing function, the low resolution conversion processing function, the edge The image forming apparatus as set forth in [3], wherein the detection / binarization processing function, the first isolated point removal processing function, and the second isolated point removal processing function can be selectively set.
[5] The image forming apparatus according to any one of [1] to [4], wherein the image processing unit is a dynamic reconfigurable processor.
[6] A first isolated point removal processing function for removing an isolated point image included in input image data, and analyzing the layout of the character image area in the image data that has undergone the processing of the first isolated point removal function. A layout analysis processing function for separating image data into character image data and photograph / background image data; a second isolated point removal processing function for removing isolated point images included in the character image data separated by the layout analysis processing function; A character compression processing function for compressing the character image data that has undergone the processing of the second isolated point removal processing function, a photo / background compression processing function for compressing the photograph / background image data separated by the layout analysis processing function, Photo / background image data compressed by the background compression processing function and character image data compressed by the character compression processing function In the image forming apparatus comprising an image processing unit capable of selectively setting at least the first isolated point removal processing function and the second isolated point removal processing function among the file processing functions to be filed, the image data A procedure for instructing the image processing means to set the first isolated point removal processing function at the time of input, and the setting of the second isolated point removal processing function in accordance with the end of the processing of the layout analysis processing function. And a procedure for instructing the image forming apparatus.

Claims (4)

Low resolution conversion processing function that lowers the resolution of an input image, edge detection that detects the edge of a character image area in image data that has undergone the processing of this low resolution conversion processing function, and binarizes the image data Image processing function, removes isolated point images in the area excluding the character image area corresponding to the edge detection of the edge detection / binarization processing function from the image data binarized by the edge detection / binarization processing function A first isolated point removal processing function, a second isolated point removal processing function for removing an isolated point image included in character image data, a photo / background compression processing function for compressing a photograph / background image data, and the first isolated point removal the same image data is separated into the character image data and the photographic-background image data by analyzing the layout of a character image area in the image data has been processed in the processing function, separated A layout analysis processing function that provides the written image data to the second isolated point removal processing function and the separated photograph / background image data to the photograph / background compression processing function; and processing of the second isolated point removal processing function Compression processing function for compressing the character image data that has undergone processing, the photo / background image data compressed by the photo / background compression processing function, and the file processing function for converting the character image data compressed by the character compression processing function into a file Image processing means that can selectively set at least the first isolated point removal processing function and the second isolated point removal processing function,
When inputting the image data, the image processing unit is instructed to set the first isolated point removal processing function, and the second isolated point removal processing function is set to the image processing in accordance with the end of the layout analysis processing function. Control means for instructing means;
An image forming apparatus comprising: The image processing means fixedly has the layout analysis processing function, the character compression processing function, the photo / background compression processing function, and the file processing processing function, the low resolution conversion processing function, the edge detection / 2 A value processing function, the first isolated point removal processing function, and the second isolated point removal processing function can be selectively set.
The image forming apparatus according to claim 1. The image processing means is a dynamic reconfigurable processor.
The image forming apparatus according to claim 1, wherein the image forming apparatus is an image forming apparatus. Low resolution conversion processing function that lowers the resolution of an input image, edge detection that detects the edge of a character image area in image data that has undergone the processing of this low resolution conversion processing function, and binarizes the image data Image processing function, removes isolated point images in the area excluding the character image area corresponding to the edge detection of the edge detection / binarization processing function from the image data binarized by the edge detection / binarization processing function A first isolated point removal processing function, a second isolated point removal processing function for removing an isolated point image included in character image data, a photo / background compression processing function for compressing a photograph / background image data, and the first isolated point removal the same image data is separated into the character image data and the photographic-background image data by analyzing the layout of a character image area in the image data has been processed in the processing function, separated A layout analysis processing function that provides the written image data to the second isolated point removal processing function and the separated photograph / background image data to the photograph / background compression processing function; and processing of the second isolated point removal processing function Compression processing function for compressing the character image data that has undergone processing, the photo / background image data compressed by the photo / background compression processing function, and the file processing function for converting the character image data compressed by the character compression processing function into a file Among these, in an image forming apparatus provided with an image processing unit that can selectively set at least the first isolated point removal processing function and the second isolated point removal processing function,
A procedure for instructing the image processing means to set the first isolated point removal function when inputting the image data;
A procedure for instructing the image processing means to set the second isolated point removal processing function at the end of the processing of the layout analysis processing function;
An image forming apparatus control method comprising:

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