Uji, JP
Akihito Uji, Kyoto-Shi JP
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20130265543 | IMAGE PROCESSING APPARATUS AND METHOD THEREOF - An image processing apparatus acquires a tomographic image of an eye to be examined. The image processing apparatus quantifies a distortion in a region determined from the tomographic image. The region includes a photoreceptor layer or a retinal pigment epithelium. | 10-10-2013 |
20140240667 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus obtains a moving image of an eye area, identifies a region of blood cells in the obtained moving image, and determines the number of determined regions of blood cells. | 08-28-2014 |
20140240668 | IMAGE PROCESSING APPARATUS AND IMAGE PROCESSING METHOD - An image processing apparatus obtains an image of an eye area, determines a measurement target among multiple vascular branches based on information regarding multiple vascular branches that include multiple vascular bifurcations in the obtained image, and measures the size of a blood cell aggregate in the determined measurement target. | 08-28-2014 |
Ayako Uji, Kawasaki-Shi JP
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20090002417 | INKJET PRINTING APPARATUS AND PRINTING METHOD THEREFOR - The printing elements of each printing element array are divided into blocks. A block to be driven and a block not to be driven are determined for each scanning of a printhead. The printhead is driven to print by complementing blocks to be driven by each scanning in a plurality of scanning operations. In each scanning, the printhead prints while making a printing area corresponding to at least one ink different from a printing area corresponding to another ink. | 01-01-2009 |
20090040550 | DATA GENERATION APPARATUS, PRINTING APPARATUS AND DATA GENERATION METHOD - When a feeding amount for multi-pass printing is changed, the purpose related to an image quality using a binary data generation pattern can still be attained by, for example, a density pattern method. Specifically, a multi-pass printing mode is identified, and a density pattern selection matrix associated with a cycle of binary data generation is selected in accordance with the selected printing mode. That is, a density pattern selection matrix employed for binary data generation using a density pattern is changed to a size corresponding to the feeding amount designated by the selected printing mode. Thereby, a phenomenon that a unit used for image processing to gain a predetermined purpose related to an image quality does not match a unit area used for a printing operation is avoided, and an image printing purpose using a binary data generation pattern can be appropriately attained. | 02-12-2009 |
20110261373 | DATA GENERATION APPARATUS, PRINTING APPARATUS AND DATA GENERATION METHOD - When a feeding amount for multi-pass printing is changed, the purpose related to an image quality using a binary data generation pattern can still be attained by, for example, a density pattern method. Specifically, a multi-pass printing mode is identified, and a density pattern selection matrix associated with a cycle of binary data generation is selected in accordance with the selected printing mode. That is, a density pattern selection matrix employed for binary data generation using a density pattern is changed to a size corresponding to the feeding amount designated by the selected printing mode. Thereby, a phenomenon that a unit used for image processing to gain a predetermined purpose related to an image quality does not match a unit area used for a printing operation is avoided, and an image printing purpose using a binary data generation pattern can be appropriately attained. | 10-27-2011 |
Ayako Uji, Tokyo JP
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20090015614 | INK JET PRINT HEAD, INK JET PRINTING APPARATUS, AND METHOD FOR MANUFACTURING INK JET PRINT HEAD - The present invention is able to print high-grade images by reducing the adverse effect of misdirection of ink in the joining portion between adjacent nozzle lines. To achieve this, an ink jet print head includes a plurality of chips in each of which adjacent nozzle lines are formed. The relative positions of the chips are set depending on the amounts of misdirection of ink ejected from overlapping nozzles in the joining portion. | 01-15-2009 |
Hidetoshi Uji, Kanagawa JP
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20090050435 | Parking Lock Device for Transmission - A parking lock device mounted on a transmission without modifying the constitution of the base transmission as much as possible and is constituted in a compact size. A first coupling member | 02-26-2009 |
20100048355 | POWER TRANSMISSION DEVICE - The present invention provides a power transmission device that can reliably prevent engine stall from occurring. The power transmission device includes a transmission clutch | 02-25-2010 |
Masaharu Uji, Kawasaki-Shi JP
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20150016182 | SRAM MEMORY CARD AND VOLTAGE MONITORING CIRCUIT - An SRAM memory card includes a monitoring unit that monitors, via a contact, a power supply voltage generated by a battery, set an ON value in an alarm signal when electric potential at the contact is lower than a threshold and set an OFF value in the alarm signal when the electric potential at the contact is equal to or higher than the threshold, and output the alarm signal to an apparatus via an interface unit; a detecting unit that detects an ON/OFF state of the power supply of the apparatus via the interface unit; and a discharge circuit that discharges, according to the ON/OFF state of the power supply of the apparatus detected by the detecting unit, charges accumulated in a first electrode of a capacitive element. | 01-15-2015 |
Masaru Uji, Tokyo JP
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20140367523 | SPACE DEBRIS REMOVING DEVICE AND SPACE DEBRIS REMOVING METHOD - Provided are a space debris removing device and a method which enable easy installation of a deceleration device to space debris undergoing a tumbling motion. The space debris removing device includes: a propulsion device ( | 12-18-2014 |
Nobutaka Uji, Kanagawa JP
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20080290587 | Sheet supply device - A sheet supply device includes a sheet storing section on which sheets are stacked and are stored; a sheet feed unit controlled by a controller that feeds the sheets stored in the sheet storing section to a next process; and an air blower controlled by the controller that blows air to the sheets stored in the sheet storing section, the air blower has an air nozzle and a mechanism that can adjust a height of the air nozzle in an up-down direction, and the mechanism increases or decreases the air flow rate of the air being blown to the sheets, wherein a force provided by the air blower to push up the sheets is exerted on the sheets, such that a less force is exerted when the sheets are being fed compared to when the sheets are not being fed. | 11-27-2008 |
20080290589 | Sheet supply device - A sheet supply device includes a sheet storing section on which sheets are stacked and are stored; a sheet feed unit controlled by a controller that feeds the sheets stored in the sheet storing section to a next process; and an air blower controlled by the controller that blows air to the sheets stored in the sheet storing section, the air blower has an air nozzle and a shutter that can adjust an area of the air nozzle, and the shutter increases or decreases the air flow rate of the air being blown to the sheets, wherein a force provided by the air blower to push up the sheets is exerted on the sheets, such that a less force is exerted when the sheets are being fed compared to when the sheets are not being fed. | 11-27-2008 |
Nobutaka Uji, Tokyo JP
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20100183351 | MEDIUM CONVEYING APPARATUS AND IMAGE FORMING APPARATUS - A medium conveying apparatus includes: a medium conveying member that conveys a medium; a rotation start position detecting unit as defined herein; a driving start timing determining unit that determines whether a time reaches a driving start timing when rotation driving by the medium conveying member is started or not; and a medium conveying member controlling unit that controls the rotation driving of the medium conveying member, and that, in case the driving start timing determining unit determines that the time reaches the driving start timing and the rotation driving is started from one of the rotation start positions, the rotation driving is stopped at another one of the rotation start positions that is different from the rotation start position where the rotation driving is started, based on a result of the detection by the rotation start position detecting unit. | 07-22-2010 |
Nobuyoshi Uji, Tatsuno-Machi JP
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20110030216 | METHOD OF MANUFACTURING LIQUID EJECTING HEAD - There is provided a method of manufacturing a liquid ejecting head which includes a head main body having nozzles ejecting a liquid supplied via a liquid supply passage, a first supply member having a first liquid supply passage forming a part of the liquid supply passage, a second supply member disposed on a downstream side of the first supply member and having a second liquid supply passage communicating with the first liquid supply passage and forming a part of the liquid supply passage, a filter disposed between the first and second supply members so as to cross the liquid supply passage, and an integrally molded member fixing the first and second supply members by a resin in a state where the filter is nipped between the first and second supply members. The method includes: disposing the filter in one of the first and second supply members; nipping the filter by the first and second supply members in a state where the filter is sucked, adsorbed, and positioned via a suction hole of the first or second supply member; and forming the integrally molded member in the state where the filter is nipped between the first and second supply members. | 02-10-2011 |
20110031641 | METHOD OF MANUFACTURING LIQUID EJECTING HEAD - There is provided a method of manufacturing a liquid ejecting head which includes a head main body having nozzles ejecting a liquid supplied via a liquid supply passage, a first supply member having a first liquid supply passage forming a part of the liquid supply passage, a second supply member disposed on a downstream side of the first supply member and having a second liquid supply passage communicating with the first liquid supply passage and forming a part of the liquid supply passage, a filter disposed between the first and second supply members so as to cross the liquid supply passage, and an integrally molded member fixing the first and second supply members by a resin in a state where the filter is nipped between the first and second supply members. The method includes: forming a supporting protrusion protruding toward the filter and supporting the filter on an inner wall surface of at least one of the first and second supply members; and forming the integrally molded member in the state where the filter is nipped between the first and second supply members and a pressure difference is caused between the first and second supply members on both sides of the filter so that a pressure is lower on the side of the supporting protrusion. | 02-10-2011 |
20110228021 | LIQUID EJECTING HEAD AND LIQUID EJECTING APPARATUS - A liquid ejecting head includes: a head body which ejects a liquid supplied from a liquid storing member via a liquid supply path; a first supply member which is provided with a first liquid supply path forming a part of the liquid supply path; a second supply member which is provided with a second liquid supply path communicating with the first liquid supply path and forming a part of the liquid supply path, and which supplies the liquid to the head body; and a filter which is sandwiched between the first and second liquid supply paths, wherein a sandwiching portion including the first and second supply members and sandwiching the filter includes an inclination portion that is inclined to the downstream side so as to face the outside of the liquid supply path. A liquid ejecting apparatus includes the liquid ejecting head. | 09-22-2011 |
Shigekazu Uji, Ichikawa-Shi JP
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20120297774 | EXHAUST HEAT RECOVERY SYSTEM, ENERGY SUPPLY SYSTEM, AND EXHAUST HEAT RECOVERY METHOD - The object of the present invention is to enhance available energy recovery efficiency compared to an exhaust heat recovery method by generation of water vapor. In order to achieve this object, the present invention adopts a configuration including a thermal conduction path ( | 11-29-2012 |
Yoshiaki Uji, Tokyo JP
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20080212226 | Disk drive device, altitude determination method therefore and method for determining characteristic of head element portion - Embodiments of the present invention allow for a precise altitude to be calculated from read-out signals of a head slider. In one embodiment, a hard disk controller/multiprocessing unit (HDC/MPU) determines a head element portion in which the instability has occurred in accordance with the resolution change. The HDC/MPU adjusts the clearance accordingly. The head element portion reads signals of different frequencies under a condition of the signal strengths coinciding with a reference value, and the HDC/MPU calculates the resolution. The HDC/MPU determines that the instability has occurred if the difference is outside the criterion. The HDC/MPU uses the read-out signal of a head slider in which the instability has not occurred to calculate the altitude. | 09-04-2008 |
20080247079 | Disk drive and control method thereof - Embodiments in accordance with the present invention reduce the number of errors caused by the aged deterioration of a heater for adjusting the clearance between a head and a disk. According to one embodiment, a thermal fly height control (TFC) controller executes the measurement of a resistance value of a heater in a predetermined timing. The TFC controller judges whether or not the measured resistance value falls within a predetermined reference range. If the measured resistance value falls within the reference range, the processing ends without performing any other processing. If the measured resistance value goes out of the reference range, the TFC controller executes error handling processing in response to a resistance failure. As one of the error handling processing, the TFC controller notifies the host that the abnormality (resistance failure) has been detected in the resistance value of the TFC heater. | 10-09-2008 |
Yuji Uji, Tokyo JP
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20100080058 | SEMICONDUCTOR DEVICE - The semiconductor device includes a nonvolatile memory, having a memory array containing 1-bit twin cells, each composed of electrically rewritable first and second storage devices, the first and second storage devices holding binary data according to difference of their threshold voltages, and having different retention characteristics depending on difference of the binary data thereof; a read circuit for differentially amplifying complementary data output from the first and second storage devices of the twin cell selected for read, and judging information stored in the twin cell; and a control circuit. Two memory cells constituting a twin cell are arranged to hold different data. Therefore, even when the retention performance of one memory cell deteriorates, the difference between data held by the two memory cells can be maintained. Hence, differential amplification of such difference enables acquisition of proper stored information. Thus, retention performance of an electrically rewritable nonvolatile memory cell is improved. | 04-01-2010 |
20110208904 | SEMICONDUCTOR DEVICE - The semiconductor device includes a nonvolatile memory, having a memory array containing 1-bit twin cells, each composed of electrically rewritable first and second storage devices, the first and second storage devices holding binary data according to difference of their threshold voltages, and having different retention characteristics depending on difference of the binary data thereof; a read circuit for differentially amplifying complementary data output from the first and second storage devices of the twin cell selected for read, and judging information stored in the twin cell; and a control circuit. Two memory cells constituting a twin cell are arranged to hold different data. Therefore, even when the retention performance of one memory cell deteriorates, the difference between data held by the two memory cells can be maintained. Hence, differential amplification of such difference enables acquisition of proper stored information. Thus, retention performance of an electrically rewritable nonvolatile memory cell is improved. | 08-25-2011 |