Producing mail batches on inserters located at multiple production sites, includes: preparing a print job and a job file for a mail batch; allocating the mail batch to at least one production site with production software running on a production server; flagging the mailpieces for the production site; sending the print job to a printer of the production site; printing the documents; delivering the documents an inserter of the production site; scanning a first mailpiece identifier on a first document; sending an initial request to the production server including the first mailpiece identifier and identifying the inserter and the production site; verifying via the production software that the first mailpiece identifier is valid; and sending back to the inserter a confirmation message for processing the mailpiece wherein the confirmation message includes a list of valid mailpiece identifiers neighbouring the first mailpiece identifier in the job file.

A device for printing information at multiple predetermined positions of a flat object including a registration wall, a print module including print nozzles and a print plate and displaceable along an horizontal axis perpendicular to the registration wall, fixed upper drive members for moving the flat object in a direction of transport along the registration wall, the print plate and the fixed upper drive members together forming an upper reference in a vertical direction, and lower pressing members for pressing the flat object against the upper reference, the device further comprises at least one mobile upper drive member and, for avoiding contact with the flat object immediately after printing, the at least one mobile upper drive member is vertically mobile and configured to be moved from a lower to an upper position above the upper reference when the displaceable print module is positioned along the horizontal axis ahead of the at least one mobile upper drive member in the direction of transport.

A system for receiving and delivering packages to a building having a package receiving station, a delivery robot and a control system. The package receiving station having a display, an input device, a package receiving area, a robot loading area, at least one package manipulation devices, and a computing device, and the delivery robot capable of interacting with the package receiving station to receive packages to be delivered, such that the package receiving station is capable of receiving a package at the package receiving area, moving it to the robot loading area and loading the package onto the delivery robot and the control system is capable of notifying a recipient of the arrival of the package, coordinating a delivery time, and initiating a package delivery whereby the package is loaded onto the delivery robot and delivered to a location within the building and delivers the package.

A method for franking mail items fed to a franking machine. The mail items are drawn from the underside of a stack for separation or are fed individually on a conveying section upstream of the franking machine to a printing unit for franking, after franking, are discharged in the opposite direction from the printing unit. The mail items are fed via a diverter section to the conveying section, after franking, are conveyed via the diverter section which is switched over to change the conveying direction into a depositing apparatus below the diverter section. The mail items are guided in the opening region of the franking machine into the printing position and are returned out of the printing position. The printing position of a mail item fed to the printing unit is determined by a print head movement-controlled from a readiness position pursuant to the format length of the mail item.

In an embodiment, an apparatus comprises one or more processors and one or more memories communicatively coupled to the one or more processors and storing instructions which, when processed by the one or more processors, cause: evaluating historical mail fulfillment data for a plurality of physical mail items delivered to a plurality of recipients; dynamically assigning mail bins for the plurality of recipients based, at least in part, on the historical mail fulfillment data for the plurality of recipients; and distributing mail into the dynamically assigned mail bins for the plurality of recipients using the mail distribution mechanism.

A system and method for estimating dimensions of an approximately cuboidal object from a 3D image of the object acquired by an image sensor of the vision system processor is provided. An identification module, associated with the vision system processor, automatically identifies a 3D region in the 3D image that contains the cuboidal object. A selection module, associated with the vision system processor, automatically selects 3D image data from the 3D image that corresponds to approximate faces or boundaries of the cuboidal object. An analysis module statistically analyzes, and generates statistics for, the selected 3D image data that correspond to approximate cuboidal object faces or boundaries. A refinement module chooses statistics that correspond to improved cuboidal dimensions from among cuboidal object length, width and height. The improved cuboidal dimensions are provided as dimensions for the object. A user interface displays a plurality of interface screens for setup and runtime operation.

A method includes distributing a number of printer devices across a computer network with corresponding logistical nodes, and, through a server, dynamically extracting, from a number of digital pre-print files, metadata related to documents and pre-conditions based on scanning thereof, and classifying the number of digital pre-print files into groups based on an extent to which the dynamically extracted metadata is shared between constituents thereof. The method also includes, through the server, matching each classified group to a logistical node based on the dynamically extracted metadata shared between the constituents and dynamically tracked printer characteristics, commingling the extracted metadata within the each classified group into a master document in which the extracted metadata is laid out to enable printing through a printer device associated with the matched logistical node, and reclassifying a constituent of the classified group under another group based on a status of unsuitability of the printer device.

A system and method for estimating dimensions of an approximately cuboidal object from a 3D image of the object acquired by an image sensor of the vision system processor is provided. An identification module, associated with the vision system processor, automatically identifies a 3D region in the 3D image that contains the cuboidal object. A selection module, associated with the vision system processor, automatically selects 3D image data from the 3D image that corresponds to approximate faces or boundaries of the cuboidal object. An analysis module statistically analyzes, and generates statistics for, the selected 3D image data that correspond to approximate cuboidal object faces or boundaries. A refinement module chooses statistics that correspond to improved cuboidal dimensions from among cuboidal object length, width and height. The improved cuboidal dimensions are provided as dimensions for the object. A user interface displays a plurality of interface screens for setup and runtime operation.

Assemblies, systems, and methods for applying postage indicia to one or more sequential mailpiece on a high speed mail sorter are disclosed. In some aspects, a system for franking one or more sequential mailpiece using a postal security device (PSD) hub assembly on a high speed mail sorter includes a plurality of PSDs configured to generate a coded digital signature for the one or more sequential mailpiece during a latency period, a plurality of photo sensors configured to define the latency period, a PSD host configured to receive the generated coded digital signature, wherein the generated coded digital signature is encoded in a data matrix, and an indicia printer configured to receive printer control data and to print the printer control data on the one or more sequential mailpiece in an order in which the plurality of PSDs are tasked during the latency period.

According to the present embodiment, a control device of a conveyor system controls a moving device and a suction device to suction the transport target article so that an approximate center of an opening of at least one suction unit is located on a first imaginary line, and remaining suction unit is located on one end side in a longitudinal direction of the transport target article with respect to the first imaginary line, controls a turning-over section to be in a front-back reversing orientation, and performs control so that suction of the transport target article by the suction units is released after the suction device is in the front-back reversing orientation.