Abstract: The methods and systems for direct printing at kiosks. The method includes: at an application accessible at a computing device: receiving a document from a user for printing and one or more print attributes. At a server communicatively coupled to the application, the method includes: calculating and displaying a cost for the printing the document based on the print attributes; providing a user interface to the user to input payment details; validating the payment details; encrypting the document with the payment details; and allowing the user to download the encrypted document in the form of a print job to a portable storage device. At a print workflow running at a kiosk, the method includes: receiving the portable storage device including the encrypted job; reading and decrypting the encrypted print job; and printing the job directly at the kiosk without requiring any input from the user.

Abstract: A method of managing a personalized data storage on a multi-function device (MFD), the method including receiving a request for a new personalized data entry, determining if available storage space exists on the personalized data storage, if available storage space does not exist on the personalized data storage, identifying an existing personalized data entry unused for a first predetermined period of time, determining a user associated with the existing personalized data entry, and sending a query to the user. In some embodiments, the personalized data entry is associated with a consolidated work-flow.

Abstract: An image based correction system compensates for the image quality artifacts induced by thermal ghosting. With thermal ghosting directly tied to previous image content, a feed forward control system predicts the thermal ghosting artifact based on the images previous printed and generates an open loop, 2-D correction to the gray-level image that mitigates the undesirable ghosting artifacts. For example, the correction system compensates for the thermal ghosting by making the current digital image “lighter” in areas that will be imaged onto warmer blanket regions, thereby cancelling out TRC differences between different temperature regions.

Abstract: The disclosure discloses methods and systems for handling content of a document based on one or more identifiers. The method includes receiving the document having content marked using one or more starting identifiers and corresponding one or more ending identifiers, the content marked between each starting identifier and corresponding ending identifier indicates content for one of: extraction, deletion, replacement and sharing, the content in the document is marked using braille symbols. The content is marked using an erasable marking device without affecting the document. A selection of a function to be performed on the marked content is received. The document is scanned to generate a scanned document. The scanned document is analyzed to identify the one or more starting identifiers and the one or more ending identifiers. Based on the selection of the function to be performed on the marked content, perform one of: extraction, deletion, replacement and sharing.

Abstract: A toner including toner particles comprising at least one resin, in combination with an optional colorant, and an optional wax; and a copolymer toner additive on at least a portion of an external surface of the toner particles, the copolymer toner additive comprising a first monomer having a high carbon to oxygen ratio of from about 3 to about 8; and a second monomer comprising two or more vinyl groups, wherein the second monomer is present in the copolymer in an amount of from greater than about 8 percent by weight to about 60 percent by weight, based on the weight of the copolymer; wherein the copolymer toner additive has a volume average particle diameter of from about 20 nanometers to less than about 70 nanometers. An emulsion aggregation toner process including the copolymer as a toner surface additive.

Abstract: An information processing device including a processor is provided. The processor is configured to transmit a first message to a chat with a user, receive a user response to the first message, and transmit a second message to the chat, where the user response indicates selection from among candidates presented to the user, the candidates are determined based on a location of the user, and content of the second message is determined based on at least a part of the selection.

Abstract: A printing apparatus, such as a large-scale ink jet printer, includes two removable, interchangeable dryer modules, which may be operated separately or in series. Each dryer module permits a sheet or web to pass therethrough in a process direction. Each dryer module includes a lamp mount, suitable for holding one or more heating or curing lamps, the lamp mount being slidably disposed within the module for easy access to the lamps. Each dryer module defines a top portion suitable for maintaining an airflow above the lamp mount, and a bottom portion suitable for maintaining an airflow below the lamp mount. A plate having a pattern of openings therein enables an airflow through the lamps.

Abstract: A system for applying video data to a neural network (NN) for online multi-class multi-object tracking includes a computer programed to perform an image classification method including the operations of receiving a video sequence; detecting candidate objects in each of a previous and a current video frame; transforming the previous and current video frames into a temporal difference input image; applying the temporal difference input image to a pre-trained neural network (NN) (or deep convolutional network) comprising an ordered sequence of layers; and based on a classification value received by the neural network, associating a pair of detected candidate objects in the previous and current frames as belonging to one of matching objects and different objects.

Abstract: A surface treatment module is positioned within a printing system to treat the surface of three-dimensional objects prior to printing of the objects. The surface treatment module includes an actuator operatively connected to an applicator so operation of the actuator presses a portion of a cleaning membrane against the surfaces of the three-dimensional objects to remove material from the object surfaces and retracts the applicator and cleaning membrane from the object surface before the objects pass by an array of printheads in the printing system for printing.

Abstract: Provided herein is conductive adhesive composition comprising at least one epoxy resin, at least one polymer chosen from polyvinyl phenols and polyvinyl butyrals, at least one melamine resin, a plurality of metal nanoparticle shaving an average particle size ranging from about 0.5 nanometers to about 100 nanometers, and at least one solvent. Also provided herein is an electronic device comprising a substrate, conductive features disposed on the substrate, a conductive electrical component disposed over the conductive features, and a conductive adhesive composition disposed between the conductive features and the conductive electrical component. Further disclosed herein are methods of making a conductive adhesive composition.

Abstract: Methods and apparatuses receive, into a user interface, an instruction to combine multiple scanned pages into one or more n-up sheets. In response to receiving the instruction to combine multiple scanned pages, a resolution field is output from the user interface. A user-set resolution for the scanned pages on the n-up sheets is received into the resolution field. With this, the scanned pages are scanned at the user-set resolution using a scanner. A processor is used to combine the scanned pages together into the n-up sheets at the user-set resolution of the scanned pages resolution, and the processor outputs the n-up sheets in an electronic file.

Abstract: A process including providing a substantially flat printed image on a substrate; disposing a curable gellant composition onto the printed image in registration with the printed image, successively depositing additional amounts of the gellant composition to create a raised image in registration with the printed image; and curing the deposited raised image. A process including providing a printed image on a substrate; disposing a curable non-gellant composition onto the printed image in registration with the printed image; and disposing a curable gellant composition onto the printed image in registration with the printed image; to create a raised image in registration with the printed image; and curing the deposited raised image. An ultraviolet curable phase change gellant composition including a radiation curable monomer or prepolymer, a photoinitiator, a silicone polymer or pre-polymer, and a gellant.

Abstract: An electronic device and a method for predicting water ingress employ a water damage indicator including a water-dispersible coating layer which includes a water-dispersible, radiation-cured polymer. Electronic components of the device, which may be susceptible to water damage, are disposed within a casing. The water damage indicator may contact the casing of the electronic device and/or the electronic components. When water enters the casing, the water dispersible coating layer is at least partially removed, revealing the surface beneath, thereby providing an indication of potential water damage to the electronic components. The water damage indicator is not readily replaceable after manufacture, making it more difficult for a customer to disguise potential water damage to the device.

Abstract: A method of calibrating ejectors in an ejector head in a three-dimensional object printer normalizes the masses of the drops ejected by the ejectors. The method operates the plurality of ejectors to eject drops of material to form a plurality of pixels corresponding to a test pattern on the surface. Each ejector in the plurality of ejectors is operated to form a group of adjacent pixels in the test pattern. Each group of adjacent pixels is at least n pixels wide in a cross-process direction for the printer. The method operates a sensor to measure heights of pixels for each group of adjacent pixels in the test pattern. The method adjusts an operation of the plurality of ejectors to normalize heights of layers of material formed by the plurality of ejectors based on the measured heights for the groups of adjacent pixels.

Abstract: Provided herein is a composition for eutectic metal alloy nanoparticles having an average particle size ranging from about 0.5 nanometers to less than about 5000 nanometers and at least one organoamine stabilizer. Also provided herein is a process for preparing eutectic metal alloy nanoparticles comprising mixing at least one organic polar solvent, at least one organoamine stabilizer, and a eutectic metal alloy to create a mixture; sonicating the mixture at a temperature above the melting point of the eutectic metal alloy; and collecting a composition comprising a plurality of eutectic metal alloy nanoparticles having an average particle size ranging from about 0.5 nanometers to less than about 5000 nanometers. Further disclosed herein are hybrid conductive ink compositions comprising a component comprising a plurality of metal nanoparticles and a component comprising a plurality of eutectic metal alloy nanoparticles.

Abstract: An electrophotographic photoreceptor includes: a conductive base body and a photosensitive layer, in which an outermost surface layer of the electrophotographic photoreceptor contains fluorine-containing non particles, and in which a fluorine atom concentration at a surface of the outermost surface layer is 1.5 to 5.0 times a fluorine atom concentration at a depth of 1 ?m from the surface of the outermost surface layer, or in which a number density ratio of aggregates of the fluorine-containing resin particles is a second region defined in this specification, to aggregates of the fluorine-containing resin particles in a first region defined in this specification is less than 0.95, and a ratio of an area ratio of the fluorine-containing resin particles in the second region, to an area ratio of the fluorine-containing resin particles in the first region is within a range of 1±0.1.

Abstract: A method for executing a job on a multi-function device (MFD) is disclosed. For example, the method is executed by a processor and includes receiving a selection of a workflow template, receiving a selection of an action tag to add to the workflow template, scanning a document, and executing the job on the document via the workflow template that includes the action tag that was selected.

Abstract: An electrostatic image developing toner includes a toner particle, an external additive A, and an external additive B. At least the external additive A is present on the surface of the toner particles. At least the external additive B is present on the external additive A. The number of peaks of the external additive B on the external additive A is 5 or more and 100 or less per 30 ?m peripheral length of the toner particle, the peaks having a height from the surface of the toner particle of 80 nm or more and 250 nm or less.

Abstract: A light emitting device includes: a base plate extending in a first direction; a plurality of light emitting units arranged over a front surface of the base plate while being shifted from each other in the first direction, and each including a support body extending in the first direction and a plurality of light sources supported on the support body while being arranged in the first direction; a flow path disposed on a side of the base plate opposite to a side facing the light emitting units to feed air therethrough in the first direction; and a wire electrically connected to at least one of the plurality of the light emitting units, and disposed inside the flow path.

Abstract: An image forming apparatus includes a black image carrier that holds toner images of black, a yellow image carrier that holds toner images of yellow, a magenta image carrier that holds toner images of magenta, a cyan image carrier that holds toner images of cyan, at least one spot-color image carrier, and multiple collecting units. The at least one spot-color image carrier holds toner images of a spot color other than black, yellow, magenta, and cyan. Each of the collecting units collects waste toner. The collecting units include a first collecting unit that collects waste toner removed from the black image carrier, and waste toner removed from the spot-color image carrier.