A printing apparatus includes a print unit configured to perform printing on the print medium held by a holding unit, the holding unit being capable of holding multiple types of print medium, a detecting unit capable of detecting the print medium and the holding unit, and a movement unit capable of relatively moving the detecting unit and the holding unit in a first direction and in a second direction intersecting the first direction. In addition, a control unit controls the detecting unit and the movement unit in a case where a first print medium is held by the holding unit, to obtain position information of the first print medium before the print unit performs printing and, in a case where a second print medium different from the first print medium is held by the holding unit, not to obtain position information of the second print medium.

A printing apparatus includes a print unit configured to perform printing on the print medium held by a holding unit, the holding unit being capable of holding multiple types of print medium, a detecting unit capable of detecting the print medium and the holding unit, and a movement unit capable of relatively moving the detecting unit and the holding unit in a first direction and in a second direction intersecting the first direction. In addition, a control unit controls the detecting unit and the movement unit in a case where a first print medium is held by the holding unit, to obtain position information of the first print medium before the print unit performs printing and, in a case where a second print medium different from the first print medium is held by the holding unit, not to obtain position information of the second print medium.

A system, method, and non-transitory computer readable medium are disclosed for mitigating dot placement errors for a given print job. The method includes processing tone values on a per pixel basis to determine whether to implement plane dependence. Plane independence is implemented if the tone value exceeds a predetermined threshold. The method may be performed on a pixel by pixel basis and/or a print object or region basis. Determining whether to implement plane dependence may involve de-asserting or partially de-asserting a plane dependence component of an executed half-toning instruction between sequentially processed color planes of a printing system.

The present invention relates to a device which can measure, induce, and correct perturbations acting on an electromagnetic (EM) propagation source. Piezoelectric transducers are used to measure and control perturbations within a system to improve operation of an EM source. Perturbation measurements can be used to determine the environmental and system impacts on the EM source. Moreover, measurements can be used to correct or nullify perturbations applied to the EM source, through active or passive means.

The present invention relates to a device which can measure, induce, and correct perturbations acting on an electromagnetic (EM) propagation source. Piezoelectric transducers are used to measure and control perturbations within a system to improve operation of an EM source. Perturbation measurements can be used to determine the environmental and system impacts on the EM source. Moreover, measurements can be used to correct or nullify perturbations applied to the EM source, through active or passive means.

An optical writing device and an image forming apparatus incorporating the optical writing device. The optical writing device includes two or more light sources, a pixel clock generator to measure a scanning speed of one of the two or more light sources and generate a pixel clock of a cycle corrected according to the measured scanning speed, a pulse data generation and output unit to generate pulse width data and shift data for the pixel clock generated by the pixel clock generator to output the generated pulse width data and the generated shift data for each one of the two or more light sources, and a plurality of image pulse generation and output units to generate an image pulse. In the optical writing device, the plurality of image pulse generation and output units are supplied with the pixel clock in common.

A movement control device configured to determine whether the moving unit moved by a driving unit is in a stopped state at a position before a predetermined target stop position, and whether a difference between the detection position and the target stop position is equal to or smaller than a threshold difference, based on a detection position of the moving unit, after the moving unit starts deceleration operation, and switch a control of the driving unit to a position control based on the difference between the detection position and the target stop position, from a speed control based on a designated speed associated with the detection position to the target stop position, if the moving unit is in the stopped state at a position before the predetermined target stop position, and the difference is equal to or smaller than the threshold difference.

A movement control device configured to determine whether the moving unit moved by a driving unit is in a stopped state at a position before a predetermined target stop position, and whether a difference between the detection position and the target stop position is equal to or smaller than a threshold difference, based on a detection position of the moving unit, after the moving unit starts deceleration operation, and switch a control of the driving unit to a position control based on the difference between the detection position and the target stop position, from a speed control based on a designated speed associated with the detection position to the target stop position, if the moving unit is in the stopped state at a position before the predetermined target stop position, and the difference is equal to or smaller than the threshold difference.

An image processing device includes: a compression unit that compresses original image data in units of a block; a first position correction unit that shifts positions of respective pixels contained in the original image data compressed by the compression unit such that the positions are shifted in a sub scanning direction; an expansion unit that expands the original image data shifted by the first position correction unit; and a second position correction unit that converts resolution of the original image data into higher resolution, and shifts the positions of the respective pixels of the converted original image data, wherein the first shift amount is a shift amount set in units of a shift corresponding to an integral multiple of the block, and the second shift amount is a shift amount set in units of a shift corresponding to one pixel with high resolution converted by the second position correction unit.

An image reading device includes: an image reading unit configured to, in a process of reciprocating relative to a fixed document, read a document image using one or a plurality of reading colors, and when a plurality of reading colors are used, read the document image while successively switching the reading colors in a process of moving; a moving unit configured to move the image reading unit; a moving speed changing unit configured to change moving speeds of the image reading unit in an outgoing path and a return path based on a number “N” (where N is a positive integer) of the reading colors by the image reading unit; and a reading color number changing unit configured to change reading color numbers of the image reading unit in the outgoing path and the return path based on the number “N” of the reading colors.