System and methods for page alignment for tractorless paper. In one embodiment, an apparatus receives a print job to be printed on a continuous web of print media in a duplex format with multiple first pages across a front of the web and multiple second pages across a back of the web which correspond with the multiple first pages. The apparatus maps pages to sheetlet regions, and applies first offsets to the sheetlet regions on the front of the virtual continuous forms based on operator input. The controller also determines second offsets for the sheetlet regions on the back of the virtual continuous forms based on an additive inverse of the first offsets, and modifies processing of the print job by applying the second offsets to the sheetlet region on the back of the virtual continuous forms to maintain alignment of front pages and back pages across the web.

A touchless motion activated printer including a housing for receiving a stock of labels supported within the housing; a controller having a computer readable medium and in communications with a display, touchless input assembly, and a printer; and, a set of computer readable instructions stored on the computer readable medium adapted for receiving input from a user, printing a label, storing the label information and ejecting the label. The printer can include an input area. The printer can be in communications with one or more of IoT device, portable computer device, local area network, wide area network, local computer server, home automation system or any combination.

System and methods for page alignment for tractorless paper. In one embodiment, an apparatus receives a print job to be printed on a continuous web of print media in a duplex format with multiple first pages across a front of the web and multiple second pages across a back of the web which correspond with the multiple first pages. The apparatus maps pages to sheetlet regions, and applies first offsets to the sheetlet regions on the front of the virtual continuous forms based on operator input. The controller also determines second offsets for the sheetlet regions on the back of the virtual continuous forms based on an additive inverse of the first offsets, and modifies processing of the print job by applying the second offsets to the sheetlet region on the back of the virtual continuous forms to maintain alignment of front pages and back pages across the web.

A printing apparatus for printing on a front surface of a printing medium, and thereafter printing on a back surface of the printing medium. The apparatus includes the following elements: a front surface print head for printing a front surface image based on front surface image data, over a surface page length on the front surface of the printing medium; a back surface print head for printing a back surface image based on back surface image data, on the back surface of the printing medium; a data corrector for creating corrected front surface image data by correcting an image size of the front surface image data based on elasticity information in the transport direction; and a printing controller for causing printing based on the corrected front surface image data, and controlling the back surface print head to perform printing on the back surface.

In an example, a method includes rasterizing a seed image using a processor. A plurality of rasterized modified images may be generated from the rasterized seed image. Generating each rasterized modified image may include determining an image attribute modification and applying the determined image attribute modification to at least a portion of the rasterized seed image to generate the rasterized modified image.

A method for evaluating a print quality of a printed document that is printed by a printer is provided. The printer comprises a pre-print image scanner, a post-print image scanner, and a printhead disposed between the pre-print image scanner and the post-print image scanner. The method comprises generating a pre-printing image of a print media, generating the printed document, generating a post-printing image of the printed document, generating a validation image by comparing the post-printing image with the pre-printing image, and comparing the validation image with the source image.

The image forming apparatus includes a printing device, an image reading device, a job management unit, and a document detection processing unit. The image reading device reads an image in a predetermined range in which a document can be arranged, as a read image. The job management unit acquires a front side image and a back side image of a card document, and prints the front side image and the back side image on both sides of a print sheet using the printing device. The document detection processing unit specifies a document image area of the front side image and a document image area of the back side image. The job management unit selects a larger size as the common image area size when a difference in size between the document image areas of the front side and the back side exceeds a predetermined threshold.

A printing system and method of printing are provided herein. The printing system may generate custom user designs for printing. The designs may be associated with a selected print medium. The print medium may have a particular layout. The printing system may convert the design for printing on other print media without requiring user alteration or input of the design. In another aspect, the printing system may facilitate printing the designs via local printers and/or via professional printers. Accordingly, printing of designs on different print-receptive media items can be accomplished.

The subject matter discloses examples of a print interface manager. The print interface manager comprises a print area selection engine to receive a user instruction for printing print data on 5 a user defined print area of a print media. In response to the user instruction for printing print data, the print interface manager obtains a print area input defining the print area, wherein the print area input indicates a matrix block corresponding to user defined print area of the print media. The print 10 interface manager further provides the print area input to a print unit to print the print data in the user defined print area of the print media.

A flatbed printer and a method for a flatbed printer are disclosed. The flatbed printer includes a print controller configured to receive a digital image intended to be printed by the flatbed printer, to receive position information entered by a parameter window of the user interface of the position of the image on the flatbed area, to receive an indication entered by the parameter window that the image has to be positioned on the media piece, to open the parameter window for entry of a set of parameters allowing to define a size of the media piece and a position of the media piece on the flatbed surface, and the image position relative to the media piece, to receive the entered set of parameters, to show the media piece and the image on the flatbed area in the preview window, and, when moving the media piece or the image over the flatbed area in the preview window, the relative position of the image with respect to the media piece is preserved.