An example image scanning apparatus includes a lighting unit to irradiate light onto a manuscript using an LED light source, a scan unit to generate a scan image by scanning image information of manuscript using light reflected by the manuscript, and a processor to control the lighting unit to irradiate light on each unit pixel by a predetermined duty during a movement process of the manuscript in a sub-scan direction.

A device and method for improving the reproducibility of image captures are provided. The device comprises a guide device (1) configured to guide at least one object (2) in an object plane (1a); at least one driving device (3) configured to transport the object (2) in the object plane (1a) in a transport direction (8); an image plane (5); at least one contact image sensor comprising at least one light source (4) for illuminating the object (2); a plurality of rod-shaped lenses (6) arranged between the object plane (1a) and the image plane (5) and in a row along a direction transverse to the transport direction (8) of the object (2); and at least one light-sensitive in-line pixel array (7) arranged in the image plane (5); a control device (9) configured to control at least one of the light source (4) and the light-sensitive in-line pixel array (7) and to capture a signal generated by the light-sensitive in-line pixel array (7). A light emitted from the light source (4) may be at least partially scattered by the object (2) toward the rod-shaped lenses (6), imaged by means of the rod-shaped lenses (6), and incident on at least a region of the light-sensitive in-line pixel array (7). The photosensitive in-line pixel array (7) may comprise a plurality of one-dimensional in-line pixel arrays (7a, 7b), each extending along the direction transverse to the transport direction (8) of the object (2), arranged parallel to each other and adjacent to each other. Each in-line pixel array (7a, 7b) may comprise a length transverse to the transport direction (8) of the object (2) that completely covers the object (2) to be captured.

An example image scanning apparatus includes a lighting unit to irradiate light onto a manuscript using an LED light source, a scan unit to generate a scan image by scanning image information of manuscript using light reflected by the manuscript, and a processor to control the lighting unit to irradiate light on each unit pixel by a predetermined duty during a movement process of the manuscript in a sub-scan direction.

An image processing system performs correction of shifting bitmap data in a sub-scanning direction so as to cancel bending of an electro-photographic laser scanning line. A line command conversion unit converts a first line drawing command defining a line width as an even-number pixel width less than a predetermined even-number pixel width into a second line drawing command defining a line width as the predetermined even-number pixel width, and converts a third line drawing command defining a line width as an odd-number pixel width less than the predetermined even-number pixel width into the second line drawing command. A generation unit generates binary bitmap data with first resolution on a basis of drawing data including the second line drawing command. A correction unit performs the correction with respect to the generated binary bitmap data. A resolution conversion unit converts the binary bitmap data.

In a case where a line width defined by a drawing command that is given to draw the line is smaller than a predetermined width, a line width of the drawing command is changed to a predetermined even-number pixel width.

A read image processing apparatus is provided for processing a read image read by line image sensors arranged such that one end parts of which adjacent to each other are overlapped in a sub-scanning direction. The read image processing apparatus includes a density variation detector, a seam processor, and a line image generator. The density variation detector detects whether a density variation occurs for not less than a predetermined number of times or not in each of a plurality of regions in a seam-read image. The seam processor generates a seam image by synthesizing the seam-read images read by the line image sensors adjacent to each other in accordance with a detection result made by the density variation detector. The line image generator generates a read image corresponding to one line based on read images read by the line image sensors and the seam image generated by the seam processor.

An image processing apparatus includes an intermediate image generator configured to generate intermediate image data with the same resolution in both scanning directions by performing resolution conversion on read image data obtained by reading a document with a document reading device, a character area detector configured to detect a character area within an image represented by the intermediate image data, an image corrector configured to correct the intermediate image data so that a density of low-density character areas having a density lower than a predetermined reference density is increased and a density of high-density character areas having a density higher than the reference density is decreased in the character area, and an output image generator configured to convert the resolution of the corrected intermediate image data into a predetermined output resolution and generate output image data.