An information processing apparatus includes a processor configured to: acquire physical property information on physical properties of a recording medium and physical properties of ink to be ejected onto the recording medium and setting information on a setting of a device configured to eject the ink onto the recording medium; derive an action amount using the physical property information and the setting information, the action amount relating to action of the recording medium applied by the ink ejected onto the recording medium; and output the action amount.

A printing system is disclosed. The printing system includes at least one physical memory device to store ink model logic and one or more processors coupled with the at least one physical memory device to execute the ink model logic to generate first ink model parameter data for a first print medium based on first ink deposition data for a second print medium and first optical density measurement data for the first print medium.

A liquid discharge apparatus includes a head having multiple nozzles arrayed in a nozzle array direction, a conveyor configured to convey a linear medium in a conveyance direction, circuitry configured to control the head to discharge a liquid droplet to the linear medium from the multiple nozzles based on image data, and a droplet detector configured to detect the liquid droplet discharged from the multiple nozzles. The circuitry is further configured to select discharge nozzles, from the multiple nozzles, used to discharge the liquid droplet to the linear medium according to a detection result of the droplet detector, and correct the image data according to the discharge nozzles selected by the circuitry.

In an embodiment, a method for controlling a printer is provided. The method includes: receiving a set of parameters associated with a printer by a computing device, wherein the printer is depositing ink on a substrate to generate a line; measuring a width of the line by the computing device; receiving a duty cycle associated with the printer by the computing device; using the received duty cycle, the set of parameters, and a model, estimating one or more unknown parameters of the set of parameters by the computing device; receiving a desired width of the line by the computing device; and if the desired width is not the same as the measured width: adjusting the duty cycle associated with the printer based on the set of parameters and the model so that the measured width is closer to the desired width by the computing device.

Provided is a recording device including a recording head, and a control unit. The control unit is configured to cause the recording head to record each of a raster lines of an overlapping region of an image by an overlap mode of recording one raster line using a plurality of a first nozzles, record a penetrant liquid in at least a portion of an overlapping region by a second nozzles, and record the penetrant liquid in a region of the image other than the overlapping region in an amount less than that of the penetrant liquid recorded in the at least a portion of the overlapping region.

An inkjet printing device includes a stage part including a stage, an inkjet head part including at least one inkjet head that disposes an ink on the stage, the ink including dipoles and a solvent having the dipoles, a heat treatment device that removes the solvent, a first sensing part that measures a position of the ink disposed on the stage, a second sensing part that measures a position of the inkjet head, and a third sensing part that measures a position of each of the dipoles disposed on the stage. A dipole aligning method includes disposing an ink on a substrate, the ink including dipoles and a solvent having the dipoles, generating an electric field on the substrate and disposing the dipoles on the substrate by the electric field, removing the solvent, and measuring a position of each of the dipoles disposed on the substrate.

An example of an apparatus is provided. The apparatus includes a printhead to dispense drops of print fluid on a media. The drops are to travel along a drop path through air from the printhead. In addition, the apparatus includes a light source to emit light across the drop path. The apparatus also includes a detector to detect an intensity of the light received from the light source. The drop path is to intersect an optical path from the light source to the detector. Furthermore, the apparatus includes a coating disposed on the optical path between the drop path and the detector. The coating is to absorb a threshold amount of the light.

In a method and a device for synchronizing a first printing device with a second component (e.g. second printing device), based on a property of a print image printed by the first printing device, which the property is detected by an optical sensor, a first print image is printed and at least one part of the first print image is detected using the optical sensor to generate a corresponding sensor signal. A virtual sensor signal is determined based on first print data and a known position of the optical sensor. The virtual sensor signal is compared with a curve of the sensor signal and a position signal is generated based on the result of the comparison. A second component is started depending on the position signal.

An example of an apparatus is provided. The apparatus includes a printhead to dispense drops of print fluid on a media. The drops are to travel along a drop path through air from the printhead. In addition, the apparatus includes a light source to emit light across the drop path. The apparatus also includes a detector to detect an intensity of the light received from the light source. The drop path is to intersect an optical path from the light source to the detector. Furthermore, the apparatus includes a coating disposed on the optical path between the drop path and the detector. The coating is to absorb a threshold amount of the light.

An ink impact point correction apparatus for automatically measuring and correcting an impact point of ink using a pattern on a substrate, on which a coordinate system is displayed, and a substrate treating system including the same are provided. The ink impact point correction apparatus includes a recognition unit for acquiring information on the impact point of ink at a plurality of points located on a substrate; and a correction unit for correcting a position of an ink discharge point on the substrate based on the information on the impact point, wherein a coordinate pattern in the form of a coordinate system is formed at the plurality of points.