US20010043749A1 - Image processing apparatus - Google Patents
Image processing apparatus Download PDFInfo
- Publication number
- US20010043749A1 US20010043749A1 US09/075,534 US7553498A US2001043749A1 US 20010043749 A1 US20010043749 A1 US 20010043749A1 US 7553498 A US7553498 A US 7553498A US 2001043749 A1 US2001043749 A1 US 2001043749A1
- Authority
- US
- United States
- Prior art keywords
- image
- processing
- half tone
- binary conversion
- density
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Classifications
-
- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N1/00—Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
- H04N1/40—Picture signal circuits
- H04N1/405—Halftoning, i.e. converting the picture signal of a continuous-tone original into a corresponding signal showing only two levels
Definitions
- the present invention relates to an image processing apparatus which carries out predetermined image processing on input image data and outputs them.
- FIG. 2 is a block diagram showing a configuration of the image processing apparatus disclosed therein.
- Image data having been read by an image sensor 50 are input to binary conversion means 51 for character processing and binary conversion means 52 for photograph processing.
- the binary conversion means 51 for character processing outputs the result of simple binary conversion on the input image data by using a single threshold value.
- a plurality of density conversion curves (A, B, C, and D) shown in FIG. 3 are stored in advance in gamma correction means 55 .
- judging means 56 Prior to binary conversion by the binary conversion means 52 for photograph processing, judging means 56 selects one of the density conversion curves for each target pixel based on the input image data. Some of the density conversion curves are appropriate for processing a character image and some are not. As a result, the binary conversion means 52 for photograph processing appropriately carries out binary conversion on each target pixel in the image data comprising both characters and photographs by use of the appropriately selected density conversion curves.
- image data selected in advance by an operator are output selectively by image processing selecting means 53 .
- the above apparatus is configured so that binary conversion of a half tone image is carried out by the binary conversion means 52 for photograph processing which uses a predetermined error diffusion method.
- the dither method excels in tone expression of a half tone image, while it has a problem in reproducing an edge or a character when the edge or the character is located in a half tone image area on an original. Furthermore, since it fundamentally has periodicity, it has a drawback that it tends to create moiré of a mesh dot original.
- the error diffusion method is good at reproducing an edge or a character when the edge or the character is located in a half tone image area in an original, and it has a characteristic that it is not prone to created moiré when a mesh dot original is processed by this method.
- tone expression of a half tone image graininess becomes worse and a problem in smoothness occurs.
- the present invention has been created in order to solve the problems described above.
- the object of the present invention is to provide an image processing apparatus which enables an operator to select image processing on a half tone image area among a plurality kinds of image processing, and carries out image processing suitable for the content of an image.
- an image processing apparatus of the present invention which comprises judging means which judges the degree of likelihood of being a half tone image pixel or a character image pixel of a target pixel in an original and outputs a judged degree in stepwise values, gamma correction means which has a plurality of density conversion curves showing relations between input density of image data and output density thereof and converts the image data by using the density conversion curve corresponding to the judgment result by the judging means, and binary conversion means for photographic processing which carries out binary conversion on a half tone image by using a predetermined method, is characterized in that it further comprises:
- an image processor installed in the binary conversion means for photographic processing, which carries out binary conversion processing on the half tone image by using at least two different kinds of image processing methods and outputs binary-converted image data;
- a selector which selects a binary-converted image data output by any one of said at least two kinds of image processing methods.
- the binary conversion means for photographic processing may comprise
- error diffusion processing means which carries out an error diffusion method wherein density difference created when input image data as a target pixel are binary converted by using a threshold value is dealt with as an error and the target pixel is diffused to its surrounding pixels scanned afterwards;
- dither processing means which carries out dither processing wherein a half tone image is expressed by changing density of black pixels in a minute area.
- the density-converted image data are processed according to the half tone image processing which has been set.
- FIG. 1 is a block diagram showing an embodiment of an image processing apparatus of the present invention
- FIG. 2 is a block diagram showing a configuration of a conventional image processing apparatus.
- FIG. 3 shows an example of density conversion curves set in judging means of the image processing apparatus of the present invention.
- FIG. 1 is a block diagram showing a configuration of an image processing apparatus of the present invention.
- An image sensor 1 having a built-in scanner means reads an original and outputs image data thereof.
- image data for example, 8-bit
- density signals in 256 gray levels wherein white is represented by “0” and black is represented by “255” are output, and the density signals are input to binary conversion means 2 for photograph processing and binary conversion means 3 for character processing.
- the image data which have been binary converted by these means are input into image processing selecting means 5 .
- the image processing selecting means 5 selectively outputs image data input through scanning from either binary conversion means 2 or 3 corresponding to a judgment result based on a judgment signal showing whether an image area having been output from a CPU is a half tone image area or a character area.
- a threshold value (for example, the mean 128 of the density signals) is set in the binary conversion means 3 for character processing, and image data having been input are simply binary converted to white “0” if the density of the image data does not exceed the threshold value, and to black “1” if exceeds.
- signals output from the binary conversion means 3 for character processing have completely separated areas of black and white, and contour of a character is clear, while half tones are not expressed by this means.
- the binary conversion means 2 for photographic processing judges the likelihood of a binary image according to the means described in Japanese Unexamined Patent Publn. No. 8(1996)-51538.
- the binary conversion means for photograph processing comprises degree calculating means which calculates the degree of likelihood of being a thin line pixel, that of being an edge pixel, and the degree of edge sharpness or the like by operations using density of neighboring pixels in image data, length calculating means which calculates length of a line segment if the line segment which catches a target pixel between a pixel thereon with density rise and a pixel thereon with density descent along the main or vertical scanning directions exists, distance calculating means which calculates distance between the target pixel and an edge pixel closest to the target pixel, and density conversion means which includes a binary image density conversion curve, a half tone image density conversion curve, and density conversion curves interpolating the two density conversion curves (see FIG. 3) and selects the density conversion curve corresponding to features of the target pixel.
- the state of the target pixel is judged by (1) detecting edge sharpness thereof based on density of neighboring pixels, (2) by judging whether or not the target pixel is an edge pixel based on the density of the neighboring pixels and calculating the distance between the target pixel and the edge pixel closest to the target pixel, and (3) by features of the target pixel which are obtained by whether or not the target pixel is a thin line pixel, whether or not the target pixel is an edge pixel, the degree of edge sharpness of the target pixel, the distance from the target pixel to the edge pixel, and the length of the line segment on which the target pixel lies in the middle.
- the length of the line segment is then calculated. The shorter the line segment is, the more likely the line is a line composing a character. The distance between the target pixel and the edge pixel closest to the target pixel is also calculated. The shorter the distance is, the more likely the target pixel is in a character image, while the longer, the more likely in a half tone image.
- a binary image density conversion curve A is selected if the feature indicative values show high “likelihood of a binary image”. If the feature indicative values show high “likelihood of a half tone image”, a half tone image density conversion curve B is selected. If the feature indicative values show the likelihood of neither of the images, an appropriate density conversion curve is selected between density conversion curves C and D which interpolate the two density conversion curves A and B, in response to the degree of the “likelihood of a binary image” or the “likelihood of a half tone image” shown by the feature indicative values.
- Judging means 6 installed in the input stage of the binary conversion means 2 for photograph processing judges the likelihood of a binary image based on the image data input through the above processing, and the judgment result is input to a CPU and gamma address controlling means 7 .
- the gamma address controlling means 7 outputs an address signal to show which of the density conversion curves is selected based on the judgment result.
- Gamma correction means 8 stores each of the density conversion curves A ⁇ D in different addresses in a memory.
- the gamma correction means 8 carries out gamma correction on input image data by using the density conversion curve corresponding to the address signal having been input, and outputs the gamma-corrected image data.
- Binary conversion means for photograph processing which carries out image processing on a half tone image in different methods takes over the processing from the gamma correction means 8 .
- the binary conversion means for photograph processing includes error diffusion processing means 10 and dither processing means 11 .
- the error diffusion processing means 10 carries out binary conversion on image data by using the error diffusion method.
- input image data as a target pixel are binary converted by using a threshold value, and the density difference created upon the conversion between the target pixel density and the threshold value is dealt with as an error.
- the target pixel is then diffused to surrounding pixels which will be scanned thereafter.
- the dither processing means 11 carries out binary conversion on image data by using the dither method.
- a half tone image is represented by changing the density of black pixels in a minute area.
- a square area of n ⁇ n pixels (a dot matrix) is dealt with as a unit of tone expression, and a threshold value to judge whether each pixel therein is black or white is changed for each pixel.
- the whole threshold values are represented by an n ⁇ n matrix which is called a dither matrix.
- the dither processing means 11 in this embodiment carries out binary conversion by using a systematic dither method.
- the systematic dither method makes a threshold value array according to a rule, and by assigning different threshold values to n 2 pixels, (n 2 +1) tones can be expressed.
- the image processing selecting means 5 selects any one of output from the error diffusion processing means 10 , the dither processing means 11 , or binary conversion means 3 for character processing, based on setting set by setting means 13 .
- the setting means 13 is installed in an operation panel or the like of the image processing apparatus, and to enable an operator to set an appropriate binary conversion processing.
- the error diffusion processing means 10 and the dither processing means 11 have both the advantages and the disadvantages. Therefore, binary conversion processing with fidelity to an original image can be carried out by choice made by an operator of appropriate binary conversion means corresponding to the original image.
- the error diffusion method preserves the density of image data. Therefore, reproduction of a character or an edge portion of an original is fine, and it is not prone to create moiré when a mesh dot original is processed. However, graininess in tone expression of a half tone image becomes poor, and there is a problem in smoothness.
- a hardware configuration for the dither processing is simple and does not create a heavy processing load.
- the dither processing is also good at tone expression of a half tone image.
- the dither processing has a problem in reproducing characters or an edge portion of an original. Furthermore, since it basically has periodicity, moiré tends to occur in a mesh dot original.
- an operator selects the appropriate processing between the error diffusion processing and the dither processing by looking at a half tone image in an original when the operator places the original on the image processing apparatus to read image data thereof. For example, to prevent moiré of a half tone image from occurring, the error diffusion processing is selected, while the dither processing is selected to put weight on tone expression of the half tone image.
- the image processing apparatus is configured so that either the error diffusion processing or the dither processing is selected. However, it may be configured so that other kinds of processing is selected.
- the dither methods include a) conditional decision methods and b) individual decision methods.
- the conditional decision methods include a mean error minimizing method, the error diffusion method having been described above, a mean value limiting method, and a dynamic threshold value method.
- the individual decision methods include a random dither method and the systematic dither method (which has been described above).
- the density pattern methods include a random pattern method and a systematic pattern method.
- the pixel distribution methods include a mesh pixel distribution method and a multi-step division quantization method.
- the binary conversion means 2 for photograph processing including a variety of binary conversion methods such as the above and using the configuration wherein the binary conversion methods can be selected by the setting means 13 , choice of image processing on a half tone image area is extended, and image processing appropriate for reproducing an original image can be selected.
- the binary conversion means for photograph processing includes the processing means which outputs binary-converted data of a half tone image by using different methods and the image processing apparatus is configured so that the binary conversion output by using any one of the processing means is selected by the setting means, a half tone image area in image data are binary converted by the processing means which has been selected upon image data input.
- image processing appropriate for the content of the image area can be carried out, and an output image desired by the operator can be obtained.
- the image processing apparatus of the present invention is configured so that the image processing based on either the error diffusion method or the dither method can be selected, the advantages of the error diffusion method, such as prevention of moiré of a half tone image, can be utilized if the error diffusion method is selected, while the advantages of the dither method, such as excellent tone expression, can be utilized if the dither method is selected.
- the image processing apparatus of the present invention is configured so that image processing according to output desired by an operator can be carried out thereby, functions and convenience of the image processing apparatus can be improved.
Abstract
An operator can select image processing for a half tone image area among a plurality of processing methods, and image processing appropriate for the image can be carried out thereby. An original image is read by an image sensor 1 and output through either simple binary conversion by binary conversion means 3 for character processing or half tone image processing by binary conversion means 2 for photograph processing. Judging means 6 judges whether image data are of a character image area or a half tone image area, and switches output between the binary conversion means 3 for character processing and the binary conversion means 2 for photograph processing. The binary conversion means 2 for photograph processing includes error diffusion processing means 10 and dither processing means 11. By setting of setting means 13 carried out by an operator, output from either the error diffusion processing means 10 or the dither processing means 11 is selected for a half tone image.
Description
- 1. Field of the Invention
- The present invention relates to an image processing apparatus which carries out predetermined image processing on input image data and outputs them.
- 2. Description of the Related Art
- In an original to be used in a printer, PPC (plane paper copier), or the like, a half tone image having density, such as a photograph, and a character image comprising drawings and characters sometimes coexist.
- Image processing which is appropriate for either a half tone image or a character image needs to be carried out thereon respectively. Therefore, in the case of such an original, it is necessary to judge the areas of photographs and characters and to switch to image processing appropriate for each.
- In Japanese Unexamined Patent Publn. No. 8(1996)-51538, the present applicant has proposed an image processing apparatus which judges a binary image area and a half tone image area by a grade and converts density by selecting a density conversion curve appropriate for each of the images above.
- FIG. 2 is a block diagram showing a configuration of the image processing apparatus disclosed therein.
- Image data having been read by an
image sensor 50 are input to binary conversion means 51 for character processing and binary conversion means 52 for photograph processing. - The binary conversion means51 for character processing outputs the result of simple binary conversion on the input image data by using a single threshold value.
- A plurality of density conversion curves (A, B, C, and D) shown in FIG. 3 are stored in advance in gamma correction means55. Prior to binary conversion by the binary conversion means 52 for photograph processing, judging means 56 selects one of the density conversion curves for each target pixel based on the input image data. Some of the density conversion curves are appropriate for processing a character image and some are not. As a result, the binary conversion means 52 for photograph processing appropriately carries out binary conversion on each target pixel in the image data comprising both characters and photographs by use of the appropriately selected density conversion curves.
- Among the image data having been binary converted by the both means, image data selected in advance by an operator are output selectively by image processing selecting means53.
- The above apparatus is configured so that binary conversion of a half tone image is carried out by the binary conversion means52 for photograph processing which uses a predetermined error diffusion method.
- As in the above case, when there is only one image processing method for a half tone image area, the choice made by an operator is very limited and it is not guaranteed that desired print is obtained with certainty.
- As a method of image processing for a half tone image, 2 kinds of methods, namely the error diffusion method and a dither method, have been generally used.
- The dither method excels in tone expression of a half tone image, while it has a problem in reproducing an edge or a character when the edge or the character is located in a half tone image area on an original. Furthermore, since it fundamentally has periodicity, it has a drawback that it tends to create moiré of a mesh dot original.
- On the contrary, the error diffusion method is good at reproducing an edge or a character when the edge or the character is located in a half tone image area in an original, and it has a characteristic that it is not prone to created moiré when a mesh dot original is processed by this method. However, in tone expression of a half tone image, graininess becomes worse and a problem in smoothness occurs.
- A variety of image processing methods other than the above have been proposed as half tone image processing, and each of them has advantages and disadvantages.
- As described above, a configuration wherein an optimal image processing whose advantages are utilized in response to the content of a half tone image in an original is carried out by switching has been desired.
- The present invention has been created in order to solve the problems described above. The object of the present invention is to provide an image processing apparatus which enables an operator to select image processing on a half tone image area among a plurality kinds of image processing, and carries out image processing suitable for the content of an image.
- To solve the problems described above, an image processing apparatus of the present invention which comprises judging means which judges the degree of likelihood of being a half tone image pixel or a character image pixel of a target pixel in an original and outputs a judged degree in stepwise values, gamma correction means which has a plurality of density conversion curves showing relations between input density of image data and output density thereof and converts the image data by using the density conversion curve corresponding to the judgment result by the judging means, and binary conversion means for photographic processing which carries out binary conversion on a half tone image by using a predetermined method, is characterized in that it further comprises:
- an image processor installed in the binary conversion means for photographic processing, which carries out binary conversion processing on the half tone image by using at least two different kinds of image processing methods and outputs binary-converted image data; and
- a selector which selects a binary-converted image data output by any one of said at least two kinds of image processing methods.
- The binary conversion means for photographic processing may comprise
- error diffusion processing means which carries out an error diffusion method wherein density difference created when input image data as a target pixel are binary converted by using a threshold value is dealt with as an error and the target pixel is diffused to its surrounding pixels scanned afterwards; and
- dither processing means which carries out dither processing wherein a half tone image is expressed by changing density of black pixels in a minute area.
- An operator sets in advance which half tone image processing is used for binary conversion of image data of an original.
- Whether the input image data are likely to be of a character or a half tone image are judged by the judging means on each pixel in the input image data. Based on the judgment result, an optimal density conversion curve is selected among the plurality of density conversion curves, and the density of the target pixel is converted by the density conversion curve having been selected.
- The density-converted image data are processed according to the half tone image processing which has been set.
- FIG. 1 is a block diagram showing an embodiment of an image processing apparatus of the present invention;
- FIG. 2 is a block diagram showing a configuration of a conventional image processing apparatus; and
- FIG. 3 shows an example of density conversion curves set in judging means of the image processing apparatus of the present invention.
- FIG. 1 is a block diagram showing a configuration of an image processing apparatus of the present invention.
- An image sensor1 having a built-in scanner means reads an original and outputs image data thereof.
- As the image data (for example, 8-bit), density signals in 256 gray levels wherein white is represented by “0” and black is represented by “255” are output, and the density signals are input to binary conversion means2 for photograph processing and binary conversion means 3 for character processing.
- The image data which have been binary converted by these means are input into image processing selecting means5. The image processing selecting means 5 selectively outputs image data input through scanning from either binary conversion means 2 or 3 corresponding to a judgment result based on a judgment signal showing whether an image area having been output from a CPU is a half tone image area or a character area.
- A threshold value (for example, the mean128 of the density signals) is set in the binary conversion means 3 for character processing, and image data having been input are simply binary converted to white “0” if the density of the image data does not exceed the threshold value, and to black “1” if exceeds. In this manner, signals output from the binary conversion means 3 for character processing have completely separated areas of black and white, and contour of a character is clear, while half tones are not expressed by this means.
- A configuration of the binary conversion means2 for photograph processing will be explained hereinbelow.
- The binary conversion means2 for photographic processing judges the likelihood of a binary image according to the means described in Japanese Unexamined Patent Publn. No. 8(1996)-51538.
- The binary conversion means for photograph processing comprises degree calculating means which calculates the degree of likelihood of being a thin line pixel, that of being an edge pixel, and the degree of edge sharpness or the like by operations using density of neighboring pixels in image data, length calculating means which calculates length of a line segment if the line segment which catches a target pixel between a pixel thereon with density rise and a pixel thereon with density descent along the main or vertical scanning directions exists, distance calculating means which calculates distance between the target pixel and an edge pixel closest to the target pixel, and density conversion means which includes a binary image density conversion curve, a half tone image density conversion curve, and density conversion curves interpolating the two density conversion curves (see FIG. 3) and selects the density conversion curve corresponding to features of the target pixel.
- To judge the state of the target pixel, a variety of methods have been used. For example, the state of the target pixel is judged by (1) detecting edge sharpness thereof based on density of neighboring pixels, (2) by judging whether or not the target pixel is an edge pixel based on the density of the neighboring pixels and calculating the distance between the target pixel and the edge pixel closest to the target pixel, and (3) by features of the target pixel which are obtained by whether or not the target pixel is a thin line pixel, whether or not the target pixel is an edge pixel, the degree of edge sharpness of the target pixel, the distance from the target pixel to the edge pixel, and the length of the line segment on which the target pixel lies in the middle.
- If there is the line segment which catches the target pixel between a pixel thereon with density rise and a pixel thereon with density descent along the main or vertical scanning direction, the length of the line segment is then calculated. The shorter the line segment is, the more likely the line is a line composing a character. The distance between the target pixel and the edge pixel closest to the target pixel is also calculated. The shorter the distance is, the more likely the target pixel is in a character image, while the longer, the more likely in a half tone image.
- Based on the above feature indicative values estimated for each pixel, a binary image density conversion curve A is selected if the feature indicative values show high “likelihood of a binary image”. If the feature indicative values show high “likelihood of a half tone image”, a half tone image density conversion curve B is selected. If the feature indicative values show the likelihood of neither of the images, an appropriate density conversion curve is selected between density conversion curves C and D which interpolate the two density conversion curves A and B, in response to the degree of the “likelihood of a binary image” or the “likelihood of a half tone image” shown by the feature indicative values.
- In this manner, incongruity due to an abrupt change in output image data caused by misjudgment of an image area because of feature indicative values having been calculated in a limited portion of the image, or caused by feature indicative values which do not show high likelihood of a binary image or a half tone image can be reduced.
- Furthermore, by selecting the density conversion curve C closer to the binary image density conversion curve A when the target pixel is closer to an edge, and by selecting the density conversion curve D closer to the half tone image density conversion curve B when the target pixel is farther from an edge, a character in thick lines or a flatly blackened portion is made to look darker, and tone characteristics of a half tone image portion in high density can be preserved.
- Judging means6 installed in the input stage of the binary conversion means 2 for photograph processing judges the likelihood of a binary image based on the image data input through the above processing, and the judgment result is input to a CPU and gamma address controlling means 7.
- The gamma address controlling means7 outputs an address signal to show which of the density conversion curves is selected based on the judgment result.
- Gamma correction means8 stores each of the density conversion curves A˜D in different addresses in a memory. The gamma correction means 8 carries out gamma correction on input image data by using the density conversion curve corresponding to the address signal having been input, and outputs the gamma-corrected image data.
- Binary conversion means for photograph processing which carries out image processing on a half tone image in different methods takes over the processing from the gamma correction means8. In this embodiment, the binary conversion means for photograph processing includes error diffusion processing means 10 and dither processing means 11.
- The error diffusion processing means10 carries out binary conversion on image data by using the error diffusion method. In the error diffusion method, input image data as a target pixel are binary converted by using a threshold value, and the density difference created upon the conversion between the target pixel density and the threshold value is dealt with as an error. The target pixel is then diffused to surrounding pixels which will be scanned thereafter.
- The dither processing means11 carries out binary conversion on image data by using the dither method. In the dither method, a half tone image is represented by changing the density of black pixels in a minute area. A square area of n×n pixels (a dot matrix) is dealt with as a unit of tone expression, and a threshold value to judge whether each pixel therein is black or white is changed for each pixel. The whole threshold values are represented by an n×n matrix which is called a dither matrix.
- The dither processing means11 in this embodiment carries out binary conversion by using a systematic dither method. The systematic dither method makes a threshold value array according to a rule, and by assigning different threshold values to n2 pixels, (n2+1) tones can be expressed.
- The image
processing selecting means 5 selects any one of output from the error diffusion processing means 10, the dither processing means 11, or binary conversion means 3 for character processing, based on setting set by settingmeans 13. - The setting means13 is installed in an operation panel or the like of the image processing apparatus, and to enable an operator to set an appropriate binary conversion processing.
- As has been described above, the error diffusion processing means10 and the dither processing means 11 have both the advantages and the disadvantages. Therefore, binary conversion processing with fidelity to an original image can be carried out by choice made by an operator of appropriate binary conversion means corresponding to the original image.
- The error diffusion method preserves the density of image data. Therefore, reproduction of a character or an edge portion of an original is fine, and it is not prone to create moiré when a mesh dot original is processed. However, graininess in tone expression of a half tone image becomes poor, and there is a problem in smoothness.
- On the other hand, a hardware configuration for the dither processing is simple and does not create a heavy processing load. The dither processing is also good at tone expression of a half tone image. However, the dither processing has a problem in reproducing characters or an edge portion of an original. Furthermore, since it basically has periodicity, moiré tends to occur in a mesh dot original.
- Therefore, an operator selects the appropriate processing between the error diffusion processing and the dither processing by looking at a half tone image in an original when the operator places the original on the image processing apparatus to read image data thereof. For example, to prevent moiré of a half tone image from occurring, the error diffusion processing is selected, while the dither processing is selected to put weight on tone expression of the half tone image.
- In the above embodiment, the image processing apparatus is configured so that either the error diffusion processing or the dither processing is selected. However, it may be configured so that other kinds of processing is selected.
- Other methods for binary conversion of a half tone image is listed below. To classify roughly, there are dither methods, density pattern methods, and pixel distribution methods.
- The dither methods include a) conditional decision methods and b) individual decision methods. The conditional decision methods include a mean error minimizing method, the error diffusion method having been described above, a mean value limiting method, and a dynamic threshold value method. The individual decision methods include a random dither method and the systematic dither method (which has been described above).
- The density pattern methods include a random pattern method and a systematic pattern method.
- The pixel distribution methods include a mesh pixel distribution method and a multi-step division quantization method.
- By installing the binary conversion means2 for photograph processing including a variety of binary conversion methods such as the above and using the configuration wherein the binary conversion methods can be selected by the setting means 13, choice of image processing on a half tone image area is extended, and image processing appropriate for reproducing an original image can be selected.
- According to the present invention, since the binary conversion means for photograph processing includes the processing means which outputs binary-converted data of a half tone image by using different methods and the image processing apparatus is configured so that the binary conversion output by using any one of the processing means is selected by the setting means, a half tone image area in image data are binary converted by the processing means which has been selected upon image data input. As has been described above, since an operator can select image processing for a half tone image area in an original, image processing appropriate for the content of the image area can be carried out, and an output image desired by the operator can be obtained.
- Furthermore, since the image processing apparatus of the present invention is configured so that the image processing based on either the error diffusion method or the dither method can be selected, the advantages of the error diffusion method, such as prevention of moiré of a half tone image, can be utilized if the error diffusion method is selected, while the advantages of the dither method, such as excellent tone expression, can be utilized if the dither method is selected.
- In other words, the image processing apparatus of the present invention is configured so that image processing according to output desired by an operator can be carried out thereby, functions and convenience of the image processing apparatus can be improved.
Claims (2)
1. An image processing apparatus of the present invention which comprises judging means which judges the degree of likelihood of being a half tone image pixel or a character image pixel of a target pixel in an original and outputs a judged degree in stepwise values, gamma correction means which has a plurality of density conversion curves showing relations between input density of image data and output density thereof and converts the image data by using one of the density conversion curves corresponding to the judgment result by the judging means, and binary conversion means for photographic processing which carries out binary conversion on a half tone image by using a predetermined method, is characterized in that it further comprises:
an image processor installed in the binary conversion means for photographic processing, which carries out binary conversion processing on the half tone image by using at least two different kinds of image processing methods and outputs binary-converted image data; and
a selector which selects a binary-converted image data output by any one of said at least two kinds of image processing methods.
2. The image processing apparatus as claimed in , wherein error diffusion processing means and dither processing means are installed in the image processing means for photograph processing.
claim 1
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP9-121028 | 1997-05-12 | ||
JP9121028A JPH10313407A (en) | 1997-05-12 | 1997-05-12 | Image processing unit |
JP121028/1997 | 1997-05-12 |
Publications (2)
Publication Number | Publication Date |
---|---|
US20010043749A1 true US20010043749A1 (en) | 2001-11-22 |
US6385344B2 US6385344B2 (en) | 2002-05-07 |
Family
ID=14801037
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US09/075,534 Expired - Lifetime US6385344B2 (en) | 1997-05-12 | 1998-05-11 | Image processing apparatus |
Country Status (3)
Country | Link |
---|---|
US (1) | US6385344B2 (en) |
EP (1) | EP0878959A3 (en) |
JP (1) | JPH10313407A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100134809A1 (en) * | 2008-12-03 | 2010-06-03 | Sharp Laboratories Of America, Inc. | Gamma correction method for error diffusion |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AU745942B2 (en) * | 1999-01-04 | 2002-04-11 | Canon Kabushiki Kaisha | A system for performing halftoning |
US7079687B2 (en) * | 2003-03-06 | 2006-07-18 | Seiko Epson Corporation | Method and apparatus for segmentation of compound documents |
JP2005094740A (en) * | 2003-08-08 | 2005-04-07 | Ricoh Co Ltd | Image processing apparatus, image forming apparatus and image processing method |
US7684633B2 (en) * | 2005-06-28 | 2010-03-23 | Xerox Corporation | System and method for image file size control in scanning services |
JP2007110690A (en) * | 2005-09-14 | 2007-04-26 | Ricoh Co Ltd | Image processing method, program, image processor, image forming apparatus and image forming system |
JP5675253B2 (en) | 2009-12-28 | 2015-02-25 | キヤノン株式会社 | Image processing apparatus, image processing method, and computer program |
JP2017184197A (en) * | 2016-03-31 | 2017-10-05 | 船井電機株式会社 | Printer |
Family Cites Families (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5450438A (en) | 1993-07-26 | 1995-09-12 | At&T Corp. | Fallback method to 1200 bits per second for use in mobile radio |
US5909512A (en) * | 1993-11-18 | 1999-06-01 | Canon Kabushiki Kaisha | Method and apparatus to reduce scintillation in dithered display systems |
US5579446A (en) * | 1994-01-27 | 1996-11-26 | Hewlett-Packard Company | Manual/automatic user option for color printing of different types of objects |
JPH07264402A (en) * | 1994-03-18 | 1995-10-13 | Dainippon Screen Mfg Co Ltd | Method for making form plate image |
JP3479161B2 (en) * | 1994-06-03 | 2003-12-15 | 理想科学工業株式会社 | Image processing device |
US5548415A (en) * | 1994-06-03 | 1996-08-20 | Riso Kagaku Corporation | Image processing apparatus |
US5701366A (en) * | 1996-09-04 | 1997-12-23 | Canon Information Systems, Inc. | Halftoning with gradient-based selection of dither matrices |
-
1997
- 1997-05-12 JP JP9121028A patent/JPH10313407A/en active Pending
-
1998
- 1998-05-11 US US09/075,534 patent/US6385344B2/en not_active Expired - Lifetime
- 1998-05-11 EP EP98108558A patent/EP0878959A3/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20100134809A1 (en) * | 2008-12-03 | 2010-06-03 | Sharp Laboratories Of America, Inc. | Gamma correction method for error diffusion |
Also Published As
Publication number | Publication date |
---|---|
EP0878959A3 (en) | 1999-01-07 |
EP0878959A2 (en) | 1998-11-18 |
JPH10313407A (en) | 1998-11-24 |
US6385344B2 (en) | 2002-05-07 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP0648040B1 (en) | Image-dependent exposure enhancement | |
US5068746A (en) | Image processing apparatus | |
US6285464B1 (en) | Apparatus and method for producing a half-tone image | |
US4958238A (en) | Image processing method and apparatus with conditional correction of error data | |
US5408338A (en) | Image processing unit processing pixel data according to scan line density | |
EP0696129A2 (en) | Method and system for image conversion utilizing dynamic error diffusion | |
US5226096A (en) | Digital halftoning with selectively applied dot-to-dot error diffusion | |
US6011878A (en) | Image processing method and apparatus | |
US7064862B2 (en) | Printer and printing method for image-quality correction | |
US6078697A (en) | Method and apparatus for segmenting image data into contone, text and halftone classifications | |
US5157741A (en) | Image processing method and apparatus for out-putting dot-processed data with suppression of false contours and other noise | |
US6385344B2 (en) | Image processing apparatus | |
US6519367B2 (en) | Method and system for propagating selective amounts of error in a hybrid screening device | |
US6285800B1 (en) | Apparatus and method for processing image | |
US6134355A (en) | Binarization using a local average, and using error diffusion | |
US8339673B2 (en) | Method and apparatus for improving edge sharpness with error diffusion | |
US5748772A (en) | Image processing method and apparatus including an error calculation for calculating a difference between the values of error correction data and stored representative values | |
EP1077572B1 (en) | Image forming apparatus selectively applying a smoothing operation to image data | |
JPH01276970A (en) | Picture signal processor | |
JP3468966B2 (en) | Image processing device | |
JPH0644800B2 (en) | Image processing device | |
JP2900907B2 (en) | Image processing device | |
JPS63164570A (en) | Image processing method | |
JP3679522B2 (en) | Image processing method and apparatus | |
JPH05176168A (en) | Adaptive halftone processing system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: RISO KAGAKU CORPORATION, JAPAN Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:IRIE, YUKIO;OKADA, SHINYA;NAKADAI, AYA;AND OTHERS;REEL/FRAME:009164/0918 Effective date: 19980430 |
|
STCF | Information on status: patent grant |
Free format text: PATENTED CASE |
|
FEPP | Fee payment procedure |
Free format text: PAYOR NUMBER ASSIGNED (ORIGINAL EVENT CODE: ASPN); ENTITY STATUS OF PATENT OWNER: LARGE ENTITY |
|
FPAY | Fee payment |
Year of fee payment: 4 |
|
FPAY | Fee payment |
Year of fee payment: 8 |
|
FPAY | Fee payment |
Year of fee payment: 12 |