An image forming apparatus includes a photosensitive member; a scan unit configured to scan the photosensitive member with light based on image data, and form a latent image on the photosensitive member; a developing unit configured to form an image on the photosensitive member by attaching toner to the latent image formed on the photosensitive member; and a correction unit configured to correct an exposure amount of the photosensitive member such that a density change of the image in a main scanning direction due to a configuration of the scan unit and a density of the image to be formed is reduced.

An optical writing device includes a light source, a deflector, an imager, and a casing, wherein the imager includes a scanning optical member, the casing includes an optical axis direction positioner, the optical axis direction positioner includes two one side positioners, and one other side positioner, a central position in a sub-scanning direction of the one other side positioner is located between central positions in the sub-scanning direction of the two one side positioners, the scanning optical member is bonded to the casing at a bonding position, and a position in the sub-scanning direction of the bonding position and a position in the sub-scanning direction of the optical axis direction positioner overlap with each other, a main-scanning direction positioner is further provided, and the main-scanning direction positioner is located on the other side with respect to the central position of the scanning optical member in the main-scanning direction.

An image forming apparatus includes a photosensitive member; an exposure portion configured to expose the photosensitive member to light depending on image information to form a latent image on the photosensitive member; a developing portion configured to develop the latent image into a toner image with toner; and a transfer portion configured to transfer the toner image from the photosensitive member onto a recording material. The image forming apparatus changes a surface movement speed of the photosensitive member at timing prior to predetermined timing, when a moving speed of a recording material at the transfer portion changes, by a predetermined time.

An optical writing device includes a light source, a deflector, an imager, and a casing, wherein the imager includes a scanning optical member, the casing includes an optical axis direction positioner, the optical axis direction positioner includes two one side positioners, and one other side positioner, a central position in a sub-scanning direction of the one other side positioner is located between central positions in the sub-scanning direction of the two one side positioners, the scanning optical member is bonded to the casing at a bonding position, and a position in the sub-scanning direction of the bonding position and a position in the sub-scanning direction of the optical axis direction positioner overlap with each other, a main-scanning direction positioner is further provided, and the main-scanning direction positioner is located on the other side with respect to the central position of the scanning optical member in the main-scanning direction.

A light emission control device includes an acquisition unit and a processor. The acquisition unit is configured to acquire image data. The processor is configured to (i) select a respective light emission region from a plurality of light emission regions to be shifted in a direction of a light-emitting element array within a maximum light emission region corresponding to the light-emitting element array of a print head in accordance with printing of images in a unit of a predetermined number of prints based on the image data, and (ii) control light emission of the respective light emission region based on the image data.

Provided is an information processing apparatus, which is configured to correctly detect a polygon face being scanned even when noise occurs in a synchronization signal. The information processing apparatus is connected to an image forming apparatus including: a laser light source configured to receive image data and output light; a photosensitive member; a polygon mirror, which has a plurality of reflection faces, and is configured to rotate to deflect a laser beam through use of the plurality of reflection faces, to thereby scan the photosensitive member; and a generator configured to generate a marking BD signal based on the deflected laser beam. The information processing apparatus receives a marking signal, and determines whether or not the received marking signal is a signal corresponding to a specific reflection face among the reflection faces of the polygon mirror.

An image forming apparatus includes a laser scanner unit configured to deflect a laser beam with a reflection surface of a polygon mirror to scan a photosensitive drum, an engine controller, and an image controller. The engine controller generates an image formation BD signal synchronized with a BD signal output from the laser scanner unit. The image controller masks an assertion period of the image formation BD signal, and determines a specific reflation face based on the masked assertion period. The image controller sets a mask period of the image formation BD signal at the time of the specific reflation face to be longer than a mask period at the time of another reflation face. The image controller corrects image data based on the identified reflection face to control image forming processing.

An image forming apparatus includes an image forming unit configured to form an image on an image carrier using a developer, an image sensor configured to detect the image formed on the image carrier, and a correction controller configured to control the image forming unit to form an imaging correction pattern, and perform an imaging correction using a detection result of the image sensor detecting the image correction pattern. The correction controller is configured to control the image forming unit to form a first imaging correction pattern including a first number of one or more sub-patterns for an imaging correction until a predetermined condition is satisfied, and upon the predetermined condition being satisfied, form a second imaging correction pattern including a second number of sub-patterns more than the first number for a subsequent imaging correction.

An image forming apparatus includes: a photosensitive member; a charger unit configured to charge the photosensitive member; an exposing unit configured to form a latent image by scanning the photosensitive member by laser light which has a different spot diameter in accordance with a scanning position of the photosensitive member in a main scanning direction; a developing unit configured to develop an image by adhering a toner to the photosensitive member on which the latent image is formed; and a control unit configured to control a luminance of the laser light and a resolution of the photosensitive member in a sub-scanning direction in accordance with the scanning position of the photosensitive member in the main scanning direction.

An image processing apparatus includes a memory, a scanner, and a processor configured to: control the scanner to read an image formed on a sheet along a reading direction, and store data of the read image in the memory, determine a plurality of regions of the image, select one of the regions based on a whiteness or saturation level of color thereof, and add a first image indicating the reading direction to said one of the regions, and store data of the image to which the first image has been added in the memory.