Patent application number | Description | Published |
20090033970 | Color job reprint set-up for a printing system - A printing system is provided for enabling a consistent color job re-print comprising a plurality of image marking engines. The system includes printing a master test image document printed by at least a first image marking engine. The master test image can have a data glyph and a plurality of reference patches. The data glyph can record distinct job attributes and the plurality of reference patches can record color parameters of a desired output. The system further provides a scanner for scanning the master test image document. The data glyph can provide the job attributes of the master test image document and can generate set-up data therefrom. The reference patches can provide the color parameters of the master test image document and can generate set-up data therefrom. | 02-05-2009 |
20100014877 | DYNAMIC PROCESS CONTROL FOR PRINTING DEVICES IN THE PRESENCE OF RELOAD DEFECTS - Methods and systems are provided for controlling a printing device in the presence of reload defects. According to a first embodiment, a controller is provided to manage the printing of scheduled control patches immediately after an image of a print job. Accordingly to a second embodiment, a controller is configured to manage the printing of an image or a print job immediately after a control patch. | 01-21-2010 |
20100092191 | DYNAMIC PROCESS CONTROL FOR IMAGE PRINTING DEVICES IN THE PRESENCE OF RELOAD DEFECTS BASED ON CUSTOMER IMAGE CONTENT - A method and system for controlling an image printing system in the presence of reload defects are provided. The method comprises placing toner images on an image bearing surface moving in a process direction, determining the density of the toner image or a portion thereof being printed on the image bearing surface, and printing a scheduled control patch at a location in the cross-process direction on the image bearing surface, wherein the location where each control patch is printed is dynamically changed based on the density of the toner image adjacent the control patch or a portion thereof. | 04-15-2010 |
20100092200 | OPTIMIZATION OF RELOAD PERFORMANCE FOR PRINTER DEVELOPMENT SYSTEMS WITH DONOR ROLLS - A method creates a printing image charge on a photoreceptor printing region of a photoreceptor within a printing apparatus and, simultaneously with the creating of the printing image charge, charges source patches on the photoreceptor outside the photoreceptor printing region. The method then transfers developer material from a donor roll to the photoreceptor. The source patches cause developer material to be removed from areas of the donor roll outside a donor roll printing region to create developer material-depleted regions. The method then reloads the donor roll with developer material using a magnetic brush and evaluates a reload function of the donor roll by characteristics of developer material on target patches with developer material in areas of the non-printing region of the photoreceptor adjacent the target patches. The method then alters the printing image charge to maintain the reload function within a predetermined range. | 04-15-2010 |
20100214580 | METHOD AND SYSTEM FOR IMPROVED SOLID AREA AND HEAVY SHADOW UNIFORMITY IN PRINTED DOCUMENTS - A method for minimizing cross-process non-uniformities in solid and heavy shadow regions of printed documents is provided. The method includes marking with a marking engine an image on an image bearing surface moving in a process direction; generating profile data of the image by sensing an optical characteristic of the image in a cross-process direction; adjusting at least one control actuator of the marking engine so as to shift the characteristic of a subsequent marked image in the cross-process direction to at least a target value; and generating a spatially varying tone reproduction curve to smooth the characteristic of the subsequent marked image towards the target value. | 08-26-2010 |
20100278548 | AUTOMATED CLEANER FOR A CHARGING DEVICE - An image forming apparatus including: a first charging device for charging an imageable surface; recording means for recording an electrostatic latent image on the imageable surface; developing means for developing the electrostatic latent image with developer; a second charging device for transferring a developer image on the imageable surface onto an a substrate; control means for setting a value of the bias of either the first charging device or the second charging device from an operating bias to a testing bias; test pattern forming means for forming test patterns on the imageable surface at operating bias and said testing bias; test patterns detection means for scanning non-uniformity of the test patterns, and means for associating non-uniformity of the test patterns to a reliability condition of either the first charging device and/or second charging device. | 11-04-2010 |
20100278553 | AUTOMATED CLEANER FOR A CHARGING DEVICE - An apparatus for controlling a cleaning device for cleaning a charging device, including: means for detecting contamination on the charging device; means, in communication with detecting means, for generating a cleaning command; and a controller, responsive to the cleaning command, for controlling operation of the cleaning system. | 11-04-2010 |
20100303280 | METHOD FOR MEASUREMENT OF REFLECTANCE PROFILES OF IMAGE SURFACES - A system of measuring the bare belt signature of a surface that does not require the use of extra print jobs, or extra belt cycles, during the printing of the actual print job. Instead, the inter-document zone and other “toner-free” areas within the test job itself are used to extract an estimate of the bare belt signature. More specifically, prior knowledge of the job content and of the location of the area between image pitches is used to identify areas of the belt that should be toner-free. These areas are then treated as “bare belt” segments, and the sensor signal for these areas are extracted, aligned according to their spatial location along the belt, and then averaged to produce a final estimate of the bare belt signature. | 12-02-2010 |
20100321719 | MUTUAL ENGINE CONTROLLER - A printing device has a printing engine that is at least partially made up of a customer replaceable unit or units. An engine controller is operatively connected to the printing engine. The engine controller uses software to control the operations of the printing engine. A non-volatile memory is operatively connected to the engine controller. The non-volatile memory stores values used by the engine controller to control operations of the printing engine. An adapter card is operatively connected to the non-volatile memory and to the customer replaceable units. The customer replaceable unit has a memory unit and the adapter card reads data from the memory unit. The adapter card uses the data to directly alter values within the non-volatile memory by bypassing the engine controller when communicating with the non-volatile memory. Further, the adapter card alters the non-volatile memory without altering the software used by the engine controller. | 12-23-2010 |
20100321724 | MUTUALISTIC ENGINE CONTROLLER HAVING SENSOR COMMUNICATION - A printing device includes at least one printing engine that has many sensors (first sensors and second sensors) and at least one engine controller operatively connected to the printing engine. The engine controller uses software to control operations of the printing engine. Also, at least one non-volatile memory is operatively connected to the engine controller. The non-volatile memory stores values used by the engine controller to control operations of the printing engine. At least one adapter card is operatively connected to the non-volatile memory and to the first sensors and second sensors. The first sensors correspond to the design of the controller and are items designed as original equipment of the printing device. To the contrary, the second sensors correspond to the design of the adapter card and are items designed to be installed in the printing device after the printing device is in post production, customer service. The adapter card receives feedback from the first sensors and the second sensors and the adapter card reads and modifies incoming print jobs before the print jobs are delivered to the controller. | 12-23-2010 |
20100321725 | MUTUALISTIC ENGINE CONTROLLER HAVING CUSTOMER REPLACEABLE UNIT COMMUNICATION - A printing device includes at least one printing engine that comprises customer replaceable units. At least one engine controller is operatively connected to the printing engine, and the engine controller uses software to control operations of the printing engine. At least one non-volatile memory is operatively connected to the engine controller. The non-volatile memory stores values used by the engine controller to control operations of the printing engine. Additionally, at least one adapter card is operatively connected to the non-volatile memory and to the customer replaceable units. The customer replaceable units each comprise a memory unit. The adapter card reads incoming print jobs before the print jobs are delivered to the controller and the adapter card accumulates and stores statistics relating to print jobs within the memory unit of the customer replaceable units. The adapter card passes the incoming print jobs to the controller in an unaltered manner. | 12-23-2010 |
20100321726 | MUTUALISTIC ENGINE CONTROLLER COMMUNICATING WIHT PRINTER NON-VOLATILE MEMORY - A printing device includes at least one printing engine that has actuators and sensors. At least one engine controller is operatively connected to the printing engine, the engine controller uses software to control operations of the printing engine. At least one non-volatile memory is operatively connected to the engine controller. The non-volatile memory stores values used by the engine controller to control operations of the printing engine. Further, at least one adapter card is operatively connected to the non-volatile memory and to the actuators and sensors. The adapter card stores data and receives sensor feedback from the sensors. The adapter card uses the data and the sensor feedback to control the actuators by bypassing the engine controller when communicating with the actuators. The adapter card provides adapter card feedback to the non-volatile memory. | 12-23-2010 |
20110311286 | CLEANING BLADE PARAMETER ADJUSTMENT SYSTEM - A cleaning blade assembly within a printing device is positioned to contact a surface to be cleaned. There is a first opening within the cleaning blade assembly and a first pin within the first opening. There is also a second opening within the cleaning blade assembly, and a second pin within the second opening. The first and second pins connect the cleaning blade assembly to the printing device. The first pin has a first cam surface that is rounded and is off-center with respect to the axis of the first pin. The cam surface is parallel to the axis of the first pin and is positioned within the first opening such that rotation of the first pin within the first opening causes the cleaning blade assembly to move in a direction perpendicular to the axis of the first pin. | 12-22-2011 |
20120148105 | AUTOMATED LICENSE PLATE RECOGNITION SYSTEM AND METHOD USING HUMAN-IN-THE-LOOP BASED ADAPTIVE LEARNING - An automated license plate recognition (ALPR) system and method using a human-in-the-loop based adaptive learning approach. One or more images with respect to an automotive vehicle can be segmented in order to determine a license plate of the automotive vehicle within a scene. An optical character recognition (OCR) engine loaded with an OCR algorithm can be further adapted to determine a character sequence of the license plate based on a training data set. A confidence level with respect to the images can be generated in order to route a low confidence image to an operator for obtaining a human interpreted image. The parameters with respect to the OCR algorithm can be adjusted based on the human interpreted image and the actual image of the license plate. A license plate design can be then incorporated into the OCR engine in order to automate the process of recognizing the license plate with respect to the automotive vehicle in a wide range of transportation related applications. | 06-14-2012 |
20120262744 | COLOR JOB REPRINT SET-UP FOR A PRINTING SYSTEM - A printing system is provided for enabling a consistent color job re-print comprising a plurality of image marking engines. The system includes printing a master test image document printed by at least a first image marking engine. The master test image can have a data glyph and a plurality of reference patches. The data glyph can record distinct job attributes and the plurality of reference patches can record color parameters of a desired output. The system further provides a scanner for scanning the master test image document. The data glyph can provide the job attributes of the master test image document and can generate set-up data therefrom. The reference patches can provide the color parameters of the master test image document and can generate set-up data therefrom. | 10-18-2012 |
20120269398 | METHOD AND SYSTEM FOR IDENTIFYING A LICENSE PLATE - A license plate localization method and system based on a combination of a top-down texture analysis and a bottom-up connected component. An image with respect to a vehicle captured by an image capturing unit can be processed in order to locate and binarize a busy area. A black run with respect to the binarized image can be analyzed and classified and one or more objects (connected components) can be generated based on the black run classification. The objects can be further classified in accordance with their size utilizing a run-length based filter to filter out a non-text object. The leftover objects can then be spatially clustered and the uniformity and linearity of the clustered objects can be examined based on a linearity test. The clustered objects can be rejected if they fail the linearity test and the detected objects can further be matched with a plate edge characteristic in order to locate a license plate. | 10-25-2012 |
20120274997 | PROCESS DIRECTION STREAK SOURCE DIAGNOSIS IN PRINTERS - Methods and systems print a multi-color test pattern using a printing device to create a printed test pattern when the printing device is producing a printing defect. The methods and systems scan the printed test pattern to produce a scanned image and decompose the scanned image into color blocks using the computerized device. The methods and systems create intensity profiles of the color blocks using the computerized device and compare at least two of the intensity profiles of different colors to determine whether the intensity profiles indicate correlated printing defects using the computerized device. The methods and systems indicate, through the computerized device, whether a potential defect within a common printing element of the printing device or is located within one or more of the color printing elements of the printing device, depending upon whether the intensity profiles have correlated printing defects. | 11-01-2012 |
20120294631 | DIAGNOSTIC METHOD FOR DETERMINING IMAGER CONTRIBUTION TO PRINTING DEFECTS - A method and device detect printing defects on prints produced by an electrostatic printing device and, in response, place the electrostatic printing device into a diagnostic mode. While in the diagnostic mode, the method and device charges an image bearing surface of the electrostatic printing device to a uniform potential charge and disables all light emitting devices of the electrostatic printing device that could alter the uniform potential charge. Next, this method and device transfer marking material to the image bearing surface to create a test image and print at least one test patch by transferring the test image from the image bearing surface to a sheet of media. This method and device evaluate whether the test patch includes the printing defects and identify whether said light emitting devices of the electrostatic printing device is defective, based on whether said test patch includes printing defects. | 11-22-2012 |
20130044219 | AUTOMATED PROCESSING METHOD FOR BUS CROSSING ENFORCEMENT - As set forth herein, systems and methods are described that facilitate to analyze a video stream from a camera mounted on the side of a school bus, wherein a sub-set of video sequences showing cars illegally passing the stopped school bus are automatically identified through image and/or video processing. The described systems and methods provide a significant savings in terms of the amount of manual review that is required to identify such violations. The video sequences also can be analyzed further to additionally produce images of the license plate (for identification of the violator), thereby providing further reduction in required human processing and review time. In one embodiment, automatic license plate recognition (ALPR) is employed to identify text on the violator's license plate, as well as the state by which the license plate was issued, without requiring human review of the license plate image. | 02-21-2013 |
20140068777 | METHOD AND SYSTEM FOR DETECTING ANAMOLIES WITHIN VOLUMINOUS PRIVATE DATA - A method and a system for detecting anomalies within a voluminous private data are provided. The voluminous private data, including sensitive information corresponding to one or more objects within the voluminous private data is received. The sensitive information within the voluminous private data is identified, and identified sensitive information is modified to generate a modified voluminous private data. The sensitive information is marked in the modified voluminous private data to generate a marked voluminous private data. The anomaly within the marked voluminous private data is detected. | 03-06-2014 |
20150070471 | DETERMINING SOURCE LANE OF MOVING ITEM MERGING INTO DESTINATION LANE - Methods and devices acquire images using a stereo camera or camera network aimed at a first location. The first location comprises multiple parallel primary lanes merging into a reduced number of at least one secondary lane, and moving items within the primary lanes initiate transactions while in the primary lanes and complete the transactions while in the secondary lane. Such methods and devices calculate distances of the moving items from the camera to identify in which of the primary lanes each of the moving items was located before merging into the secondary lane. These methods and devices then order the transactions in a merge order corresponding to a sequence in which the moving items entered the secondary lane from the primary lanes. Also, the methods and devices output the transactions in the merge. | 03-12-2015 |