Image processing apparatus, image forming system, image forming apparatus, and image processing method for correcting density of image information
First Claim
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1. An image processing apparatus comprising:
- an acquisition unit that acquires image information having a plurality of pixels, each pixel having density information;
a first detection unit that detects sub-scanning-direction boundary pixels in accordance with the image information, the sub-scanning-direction boundary pixels being located on a boundary extending in a density change direction from a high-density pixel area to a low-density pixel area having a density lower than the high-density pixel area in a preset sub-scanning direction;
a first determination unit that determines whether or not a development-related defect occurs in a preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, in accordance with the number of pixels in a high-density area located upstream of the sub-scanning-direction boundary pixels in the sub-scanning direction;
a second detection unit that detects, in a case where a set of sub-scanning-direction boundary pixels among the sub-scanning-direction boundary pixels in which it is determined that a development-related defect occurs is arranged in a main scanning direction, an end pixel in the main scanning direction among the set of sub-scanning-direction boundary pixels;
a second determination unit that determines whether or not each of the set of sub-scanning-direction boundary pixels arranged in the main scanning direction is close to the end pixel in the main scanning direction, by determining whether or not a distance between each of the set of sub-scanning-direction boundary pixels and the end pixel in the main scanning direction is within a preset value;
a correction unit that corrects a density for the preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction,the correction unit correcting the image information so that an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels is smaller than an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined not to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels; and
a transmitting unit that transmits the image information corrected by the correction unit to an image forming apparatus.
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Abstract
An image processing apparatus includes an acquisition unit, a first detection unit, a first determination unit, a second detection unit, a second determination unit, a correction unit, and a transmitting unit. The acquisition unit acquires image information having multiple pixels. The first detection unit detects sub-scanning-direction boundary pixels in accordance with the image information. The first determination unit determines whether or not a development-related defect occurs in a preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction. The second detection unit detects an end pixel in the main scanning direction. The second determination unit determines whether or not each of sub-scanning-direction boundary pixels arranged in the main scanning direction is close to the end pixel in the main scanning direction. The correction unit corrects the image information. The transmitting unit transmits the image information corrected by the correction unit to an image forming apparatus.
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Citations
6 Claims
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1. An image processing apparatus comprising:
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an acquisition unit that acquires image information having a plurality of pixels, each pixel having density information; a first detection unit that detects sub-scanning-direction boundary pixels in accordance with the image information, the sub-scanning-direction boundary pixels being located on a boundary extending in a density change direction from a high-density pixel area to a low-density pixel area having a density lower than the high-density pixel area in a preset sub-scanning direction; a first determination unit that determines whether or not a development-related defect occurs in a preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, in accordance with the number of pixels in a high-density area located upstream of the sub-scanning-direction boundary pixels in the sub-scanning direction; a second detection unit that detects, in a case where a set of sub-scanning-direction boundary pixels among the sub-scanning-direction boundary pixels in which it is determined that a development-related defect occurs is arranged in a main scanning direction, an end pixel in the main scanning direction among the set of sub-scanning-direction boundary pixels; a second determination unit that determines whether or not each of the set of sub-scanning-direction boundary pixels arranged in the main scanning direction is close to the end pixel in the main scanning direction, by determining whether or not a distance between each of the set of sub-scanning-direction boundary pixels and the end pixel in the main scanning direction is within a preset value; a correction unit that corrects a density for the preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, the correction unit correcting the image information so that an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels is smaller than an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined not to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels; and a transmitting unit that transmits the image information corrected by the correction unit to an image forming apparatus. - View Dependent Claims (2, 3, 4)
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5. An image forming apparatus comprising:
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an image bearing member; a charging member that charges a surface of the image bearing member; a latent image forming device that forms a latent image on the charged surface of the image bearing member; a developing device that develops the latent image on the surface of the image bearing member with developer to produce a visible image; a transfer device that transfers the visible image on the surface of the image bearing member onto a medium; a fixing device that fixes, on the medium, the visible image transferred onto the medium; an acquisition unit that acquires image information having a plurality of pixels, each pixel having density information; a first detection unit that detects sub-scanning-direction boundary pixels in accordance with the image information, the sub-scanning-direction boundary pixels being located on a boundary extending in a density change direction from a high-density pixel area to a low-density pixel area having a density lower than the high-density pixel area in a preset sub-scanning direction; a first determination unit that determines whether or not a development-related defect occurs in a preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, in accordance with the number of pixels in a high-density area located upstream of the sub-scanning-direction boundary pixels in the sub-scanning direction; a second detection unit that detects, in a case where a set of sub-scanning-direction boundary pixels among the sub-scanning-direction boundary pixels in which it is determined that a development-related defect occurs is arranged in a main scanning direction, an end pixel in the main scanning direction among the set of sub-scanning-direction boundary pixels; a second determination unit that determines whether or not each of the set of sub-scanning-direction boundary pixels arranged in the main scanning direction is close to the end pixel in the main scanning direction, by determining whether or not a distance between each of the set of sub-scanning-direction boundary pixels and the end pixel in the main scanning direction is within a preset value; a correction unit that corrects a density for the preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, the correction unit correcting the image information so that an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels is smaller than an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined not to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels; a creation unit that creates print information in accordance with the image information corrected by the correction unit; and a controller that controls the latent image forming device in accordance with the print information.
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6. An image processing method comprising:
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acquiring image information having a plurality of pixels, each pixel having density information; detecting sub-scanning-direction boundary pixels in accordance with the image information, the sub-scanning-direction boundary pixels being located on a boundary extending in a density change direction from a high-density pixel area to a low-density pixel area having a density lower than the high-density pixel area in a preset sub-scanning direction; determining whether or not a development-related defect occurs in a preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, in accordance with the number of pixels in a high-density area located upstream of the sub-scanning-direction boundary pixels in the sub-scanning direction; detecting, in a case where a set of sub-scanning-direction boundary pixels among the sub-scanning-direction boundary pixels in which it is determined that a development-related defect occurs is arranged in a main scanning direction, an end pixel in the main scanning direction among the set of sub-scanning-direction boundary pixels; determining whether or not each of the set of sub-scanning-direction boundary pixels arranged in the main scanning direction is close to the end pixel in the main scanning direction, by determining whether or not a distance between each of the set of sub-scanning-direction boundary pixels and the end pixel in the main scanning direction is within a preset value; correcting a density for the preset number of pixels downstream of the sub-scanning-direction boundary pixels in the sub-scanning direction, the image information being corrected so that an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels is smaller than an amount of correction to increase a density for a sub-scanning-direction boundary pixel determined not to be close to the end pixel in the main scanning direction among the sub-scanning-direction boundary pixels; and transmitting the corrected image information to an image forming apparatus.
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Specification
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Current AssigneeFujifilm Business Innovation Corp. (Fujifilm Holdings Corporation)
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Original AssigneeFuji Xerox Company Limited (Fujifilm Holdings Corporation)
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InventorsArai, Shigeru, Hara, Tomoshi, Kubo, Masahiko, Takahashi, Nobukazu, Fujimori, Shinichiro, Ochi, Takashi
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Primary Examiner(s)Tieu, Benny Q
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Assistant Examiner(s)Ngo, Quyen V
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Application NumberUS14/615,035Publication NumberTime in Patent Office362 DaysField of Search358/1.2, 358/3.27, 358/2.1US Class Current1/1CPC Class CodesG06K 15/1242 on one main scanning lineG06K 15/128 generating or processing pr...G06K 15/14 by electrographic printing,...G06K 15/1871 with provisions for image f...G06K 15/1872 Image enhancementG06K 15/1876 Decreasing spatial resoluti...
