Patent application number | Description | Published |
20100280235 | METHOD FOR PRODUCING 4'ETHYNYL d4T - Disclosed is a method for mass-producing 4′-ethynyl d4T (4′-ethynyl-2′,3′-didehydro-3′-deoxythymidine) by a simpler process at low cost. Specifically disclosed is a method for producing 4′-ethynyl d4T, which is characterized by comprising a step for introducing a triple bond-containing group into a furfuryl alcohol derivative or a levoglucosenone, by reacting the furfuryl alcohol derivative or levoglucosenone with a certain compound, and a step for reacting a compound represented by the formula (III), which is obtained by the aforementioned step, with thymine. | 11-04-2010 |
20140092221 | IMAGE PROCESSING APPARATUS AND METHOD, AND RELATED COMPUTER PROGRAM - Externally-set mask patterns are corrected into corrected mask patterns in a variable correction degree. A depth map is processed for each of areas designated by the corrected mask patterns respectively. The depth map is for an input image. A different-viewpoint image is generated on the basis of the input image and the processed depth map. The different-viewpoint image relates to a viewpoint different from the viewpoint concerning the input image. A texture in the input image is analyzed to obtain an analyzation result. The correction of the externally-set mask patterns into the corrected mask patterns includes varying the correction degree in response to the obtained analyzation result. | 04-03-2014 |
20140375555 | WORK SUPPORT SYSTEM, WORK SUPPORT APPARATUS, WORK SUPPORT METHOD, AND COMPUTER READABLE STORAGE MEDIUM - An imaging unit ( | 12-25-2014 |
20150139489 | TASK ASSISTANCE SYSTEM, TASK ASSISTANCE METHOD, AND PROGRAM - A task assistance system includes: a location detection unit ( | 05-21-2015 |
20150205484 | THREE-DIMENSIONAL USER INTERFACE APPARATUS AND THREE-DIMENSIONAL OPERATION METHOD - A three-dimensional user interface apparatus includes a three-dimensional information acquisition unit that acquires three-dimensional information from a three-dimensional sensor; a position calculation unit that calculates three-dimensional position information on a three-dimensional coordinate space regarding a specific part of a target person by using the three-dimensional information acquired by the three-dimensional information acquisition unit; a virtual data generation unit that generates virtual three-dimensional space data indicating a virtual three-dimensional space which is disposed in the three-dimensional coordinate space and at least part of which is set in a display region; a space processing unit that performs a predetermined process corresponding to a change in the three-dimensional position information regarding the specific part of the target person, on the three-dimensional coordinate space or the virtual three-dimensional space data; and a display processing unit that displays the virtual three-dimensional space within the display region on a display unit on the basis of virtual three-dimensional space data which is obtained through the predetermined process performed by the space processing unit. | 07-23-2015 |
20150213649 | THREE-DIMENSIONAL ENVIRONMENT SHARING SYSTEM AND THREE-DIMENSIONAL ENVIRONMENT SHARING METHOD - A first image processing device includes a first image acquisition unit that acquires a first captured image from a first imaging unit, a detection unit that detects a known common real object from the first captured image, a setting unit that sets a three-dimensional coordinate space on the basis of the common real object, and a transmission unit that transmits three-dimensional position information of the three-dimensional coordinate space to a second image processing device, and a second image processing device includes an acquisition unit that acquires a second captured image from a second imaging unit, a detection unit that detects the known common real object from the second captured image, a setting unit that sets the same three-dimensional coordinate space as the three-dimensional coordinate space set by the first image processing device on the basis of the common real object, a reception unit that receives the three-dimensional position information from the first image processing device, and a processing unit that processes virtual three-dimensional object data to be synthesized with the second captured image by using the three-dimensional position information. | 07-30-2015 |
20150221121 | GRAPH DRAWING DEVICE AND GRAPH DRAWING METHOD - A graph drawing device includes: a target-data acquiring unit that acquires plural items of target data each containing time data and two-dimensional data in two specific dimensions other than time; a differential calculating unit that calculates a differential time between the time data and a reference time concerning each of the target data acquired by the target-data acquiring unit; a differential-data generating unit that generates plural items of differential target data each obtained by replacing the time data contained in each of the target data with the differential time calculated by the differential calculating unit; and a drawing-data generating unit that converts each of the differential target data generated by the differential-data generating unit into three-dimensional coordinate data in a three-dimensional coordinate system formed by a time axis and a coordinate plane formed by the two specific dimensions, and generates drawing data on a three-dimensional graph showing plural items of the three-dimensional coordinate data converted. | 08-06-2015 |
20150268735 | USER INTERFACE DEVICE AND USER INTERFACE METHOD - A user interface device having: an acquisition unit that sequentially acquires pointing positions indicating at least one representative position of a specific region of a user used in a pointing operation; a detection unit that detects the start of a change and the end of the change into a predetermined shape of the specific region of the user; a storage unit that stores a pointing position corresponding to the time of the start of the change detected by the detection unit; a calculation unit that specifies a pointing position corresponding to the time of the end of the change detected by the detection unit and calculates a difference between the specified pointing position and the pointing position stored in the storage unit; and a position adjustment unit that adjusts the pointing positions acquired by the acquisition unit using the difference calculated by the calculation unit. | 09-24-2015 |