Omelchenko
Alexander Omelchenko, Moscow RU
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20090069987 | Automatic Blade Control System with Integrated Global Navigation Satellite System and Inertial Sensors - Disclosed are method and apparatus for controlling the blade elevation and blade slope angle of a dozer blade. Elevation and slope angle measurements are calculated from measurements received from a global navigation satellite system (GNSS) antenna and an inertial measurement unit mounted on the dozer blade. The inertial measurement unit includes three orthogonally placed accelerometers and three orthogonally placed rate gyros. The measurements are processed by algorithms to calculate estimates of the blade elevation, blade vertical velocity, blade slope angle, and blade slope angular velocity. These estimates are then provided as inputs to a control algorithm which provides control signals to control a dozer hydraulic system which controls the blade elevation and blade slope angle. | 03-12-2009 |
20110169949 | System and Method for Orienting an Implement on a Vehicle - A system for determining an orientation of an implement on a vehicle is provided. The system includes a camera mounted to the vehicle, and a target object within a field of vision of the camera and mounted to the implement. The target object includes markings to enable a determination of the orientation of the implement with respect to the camera. A method of determining an orientation of an implement on a vehicle is provided. A system of orienting an implement is provided. A method of installing an implement orientation system is provided. A computer-readable medium having stored thereon computer-executable instructions is provided. The computer-executable instructions cause a processor to perform a method of determining an orientation of an implement when executed. | 07-14-2011 |
20120130602 | Automatic Blade Control System with Integrated Global Navigation Satellite System and Inertial Sensors - Disclosed are method and apparatus for controlling the blade elevation and blade slope angle of a dozer blade. Elevation and slope angle measurements are calculated from measurements received from a global navigation satellite system (GNSS) antenna and an inertial measurement unit mounted on the dozer blade. The inertial measurement unit includes three orthogonally placed accelerometers and three orthogonally placed rate gyros. The measurements are processed by algorithms to calculate estimates of the blade elevation, blade vertical velocity, blade slope angle, and blade slope angular velocity. These estimates are then provided as inputs to a control algorithm which provides control signals to control a dozer hydraulic system which controls the blade elevation and blade slope angle. | 05-24-2012 |
Alexander N. Omelchenko, Moscow RU
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20120059554 | Automatic Blade Control System during a Period of a Global Navigation Satellite System ... - For precision grading of terrain by a dozer, the dozer blade can be automatically controlled based on measurements from a combination of a global navigation satellite system real-time kinematic mode (GNSS RTK) system and inertial sensors. At least one GNSS sensor and at least one inertial sensor are mounted on the dozer. Control algorithms are based on blade elevation and blade slope angle. During a period of GNSS RTK system outage, control of blade elevation is not available. Blade control is maintained by switching to control algorithms based on blade slope angle and blade pitch angle. Blade slope angle and blade pitch angle are controlled based on extrapolated target values of blade slope angle and blade pitch angle. The extrapolated target values of the angles are extrapolated from target values of the angles prior to the GNSS RTK system outage with the use of a distance travelled by the dozer. | 03-08-2012 |
Anatoliy Omelchenko, Brooklyn, NY US
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20110091521 | Edible spoon for dissociating into consumable predetermined clumps in order to prevent dissociating into random granules that would make consumption more difficult - An edible spoon for dissociating into consumable predetermined clumps in order to prevent dissociating into random granules that would make consumption more difficult. The edible spoon includes a bowl and a handle. The bowl extends from the handle and contains weakened lines. The weakened lines in the bowl define the consumable predetermined clumps so as to allow the bowl to dissociate into the consumable predetermined clumps in order to prevent dissociating into the random granules that would make the consumption more difficult. | 04-21-2011 |
Mark A. Omelchenko, Lexington, KY US
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20090067859 | Method To Improve Data Collection Accuracy By Improved Windowing In A Toner Density Control System - A method of compensating for mechanical and magnification errors affecting toner density control in an image forming device is described herein. The method includes directing light towards a toner test surface, sensing the resulting reflections, and buffering the density data corresponding to the sensed reflections during a predetermined test window. The method may compensate for mechanical and magnification errors associated with the toner test pattern by processing the buffered density data to adjust the location of the data collection windows corresponding to the toner test patterns. For example, the buffered density data may be processed to detect first and second boundary patterns disposed on the toner test surface within the test window, determine a time differential between the first and second boundary patterns, and adjust the location of the data collection windows based on the determined time differential and a nominal expected time differential. | 03-12-2009 |
20090129799 | Characterization Of Toner Patch Sensor - Methods and devices for operating a toner patch sensor in an electrophotographic image forming device. A characterization procedure for a light detector in the toner patch sensor may use one or multiple reflectance standards. A gain setting is determined that produces a predetermined target output from the toner patch sensing circuit for each of the standards. The characterization procedure may be carried out at a test bench or with the toner patch sensor installed in the corresponding device. | 05-21-2009 |
20090129800 | Characterization of Toner Patch Sensor In An Image Forming Device - A characterization procedure for the a detector in a toner patch sensor of an electrophotographic image forming device is performed with the toner patch sensor operatively connected to the image forming device's power supply. During the characterization procedure, a gain setting is determined that produces a predetermined target output from the toner patch sensor based on electromagnetic radiation reflected from a reference reflectivity sample. Subsequently, a toner patch is generated by the image forming device and a reflectance of the toner patch is measured based on the gain setting, with the toner patch sensor operatively connected to the power supply. The measurement(s) may then be used to adjust at least one electrophotographic image forming parameter. More than one reference reflectivity sample may be used, with corresponding gain settings stored in the image forming device. | 05-21-2009 |
Mark Andrew Omelchenko, Lexington, KY US
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20100053699 | Method, System and Test Sheet Image Bitmap for Carrying out a Scanner-and-Processor Based Image-to-Paper Registration Setup - A method and system for carrying out an image-to-paper printer registration setup includes: using a printer undergoing registration setup, printing a test pattern on a sheet having reference targets within a printable region of the sheet; using a scanner, scanning the printed sheet to generate an image bitmap of the test pattern-bearing sheet larger than the sheet itself so that the image bitmap contains the sheet edges and measuring in numbers of pixels the distances between the reference targets and/or sheet edges using multiple swaths of the image bitmap itself as the measuring tool; and, using a processor and based on the measured distances, calculating error-associated adjustment values in millimeters to use to correct errors in the registration setup of the image-to-paper in the printer and transferring the error-associated adjustment values to the printer to perform adjustment of its setup actuators. | 03-04-2010 |
20110026550 | Method for Compensating Misalignment Errors in Electrophotographic Device - A method for compensating misalignment errors associated with a laser beam in an electrophotographic (EP) device is disclosed. A first value and a second value of a time-of-flight of the laser beam are determined. The second value of the time-of-flight is associated with a current value of SOS time and EOS time of the laser beam. The second value of the time-of-flight of the laser beam is compared with the first value of the time-of-flight. A duty cycle of a fuser of the EP device is monitored. An average value of the duty cycle of the fuser for a predetermined time period is determined. One or more alignment conditions of the laser beam are adjusted based on at least one of the comparisons of the second value and the first value of the time-of-flight of the laser beam, and the determined average value of the duty cycle of the fuser. | 02-03-2011 |
Yuri Alexeevich Omelchenko, Toronto CA
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20120186989 | Process for producing chlorine with low bromine content - Chlorine with a low bromine content is produced by electrolyzing brine to produce gaseous chlorine, alkali metal hydroxide and hydrogen, separating the gaseous chlorine from the electrolyte (anolyte in the case of the membrane process), directing electrolyte to a primary dechlorination step using hydrochloric acid to remove gaseous chlorine therefrom, optionally directing depleted electrolyte (anolyte in the case of the membrane process) from the primary dechlorination step to a secondary dechlorination step using a reducing agent for chlorine and oxychlorine species, and recycling dechlorinated depleted electrolyte (anolyte in the case of the membrane process) to salt dissolvers to prepare brine for electrolysis. At least part of the gaseous chlorine generated in the primary dechlorination step is not combined with gaseous chlorine generated in the electrolysis step. | 07-26-2012 |
20120186990 | PROCESS FOR PRODUCING CHLORINE WITH LOW BROMINE CONTENT - Chlorine with a low bromine content is produced by electrolyzing brine to produce gaseous chlorine, alkali metal hydroxide and hydrogen, separating the gaseous chlorine from the electrolyte (anolyte in the case of the membrane process), directing electrolyte (anolyte in the case of the membrane process) to a primary dechlorination step using hydrochloric acid to remove gaseous chlorine therefrom, optionally directing depleted electrolyte (anolyte in the case of the membrane process) from the primary dechlorination step to a secondary dechlorination step using a reducing agent for chlorine and oxychlorine species, and recycling dechlorinated depleted electrolyte (anolyte in the case of the membrane process) to salt dissolvers to prepare brine for electrolysis. At least part of the gaseous chlorine generated in the primary dechlorination step is not combined with gaseous chlorine generated in the electrolysis step. | 07-26-2012 |