Oniki
Takashi Oniki, Utsunomiya-Shi JP
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20130215296 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PROCESSING METHOD, AND NON-TRANSITORY RECORDING MEDIUM STORING PROGRAM - An image processing apparatus includes an image obtaining portion | 08-22-2013 |
20140002688 | IMAGE PICKUP APPARATUS AND LENS APPARATUS | 01-02-2014 |
20150256745 | COMPOUND EYE IMAGE PICKUP APPARATUS - A compound eye image pickup apparatus includes a plurality of optical systems ( | 09-10-2015 |
Takashi Oniki, Chikusei-Shi JP
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20150097993 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PROCESSING METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An image processor includes a correction signal generator configured to generate a correction signal by calculating a difference between an image and an image obtained by applying an unsharp mask generated based on a PSF corresponding to an image-pickup conditions of an image-pickup optical system to the image, and a correction signal applier configured to sharpen the image by multiplying the correction signal generated by the generator by a constant and by adding a multiplied correction signal to the image. | 04-09-2015 |
20150097994 | IMAGE PROCESSING APPARATUS, IMAGE PICKUP APPARATUS, IMAGE PICKUP SYSTEM, IMAGE PROCESSING METHOD, AND NON-TRANSITORY COMPUTER-READABLE STORAGE MEDIUM - An image processing apparatus ( | 04-09-2015 |
Thomas A. Oniki, South Jordan, UT US
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20110066425 | SYSTEMS, METHODS, AND APPARATUS FOR AUTOMATED MAPPING AND INTEGRATED WORKFLOW OF A CONTROLLED MEDICAL VOCABULARY - Systems, methods, and apparatus provide clinical terminology services including a controlled medical vocabulary supplemented by local clinical content. An example method includes accessing an initial controlled medical vocabulary including at least one external terminology via a vocabulary management server; processing local clinical content including unstructured local clinical content provided via an importer framework; analyzing and extracting the unstructured local clinical content using a text analyzer and extraction tool to generate one or more proposed terms; identifying one or more synonyms for the one or more proposed terms and placing the one or more synonyms into a queue to be added to the controlled medical vocabulary; reviewing the one or more synonyms; and adding one or more synonyms to the controlled medical vocabulary with placement and relationship based on analyzing unstructured local clinical content to automatically map between the at least one external terminology and the local clinical content. | 03-17-2011 |
20120296669 | SYSTEMS, METHODS, AND APPARATUS FOR AUTOMATED MAPPING AND INTEGRATED WORKFLOW OF A CONTROLLED MEDICAL VOCABULARY - Systems, methods, and apparatus provide clinical terminology services including a controlled medical vocabulary supplemented by local clinical content. An example method includes accessing an initial controlled medical vocabulary including at least one external terminology via a vocabulary management server; processing local clinical content including unstructured local clinical content provided via an importer framework; analyzing and extracting the unstructured local clinical content using a text analyzer and extraction tool to generate one or more proposed terms; identifying one or more synonyms for the one or more proposed terms and placing the one or more synonyms into a queue to be added to the controlled medical vocabulary; reviewing the one or more synonyms; and adding one or more synonyms to the controlled medical vocabulary with placement and relationship based on analyzing unstructured local clinical content to automatically map between the at least one external terminology and the local clinical content. | 11-22-2012 |
Yusuke Oniki, Hsin-Chu TW
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20150062561 | Stress Analysis of 3-D Structures Using Tip-Enhanced Raman Scattering Technology - A method includes performing a first probing on a sample integrated circuit structure to generate a first Raman spectrum. During the first probing, a first laser beam having a first wavelength is projected on the sample integrated circuit structure. The method further includes performing a second probing on the sample integrated circuit structure to generate a second Raman spectrum, wherein a Tip-Enhanced Raman Scattering (TERS) method is used to probe the sample integrated circuit structure. During the second probing, a second laser beam having a second wavelength different from the first wavelength is projected on the sample integrated circuit structure. A stress in a first probed region of the sample integrated circuit structure is then from the first Raman spectrum and the second Raman spectrum. | 03-05-2015 |
Yusuke Oniki, Hsinchu TW
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20160027894 | THIN OXIDE FORMATION BY WET CHEMICAL OXIDATION OF SEMICONDUCTOR SURFACE WHEN THE ONE COMPONENT OF THE OXIDE IS WATER SOLUBLE - A semiconductor device is provided, which comprises a semiconductor structure having a surface, the semiconductor structure comprising a material whose oxide is water soluble; and an oxide layer formed on the surface of the semiconductor structure by a wet chemical oxidation treatment utilizing a solvent mixture that comprises a water soluble substance and an aprotic solvent. The layer of oxide may be as thin as approximately 0.7 nanometers in width or less. The semiconductor structure comprises at least one of Ge, SiGe, and III-V compound semiconductor materials. A solution mixture for oxidizing selective semiconductor materials is also provided, which comprises a solvent mixture that includes: a water soluble oxidizing agent; and an aprotic solvent. | 01-28-2016 |
Yusuke Oniki, Hsinchu City TW
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20160042966 | METHOD OF REMOVING OXIDE ON SEMICONDUCTOR SURFACE BY LAYER OF SULFUR - Embodiments of the present disclosure relate generally to a method of passivating and/or removing oxides on a semiconductor surface by using ammonium sulfide, the ammonium sulfide is formed by reacting ammonia and hydrogen sulfide in a semiconductor processing chamber, therefore the ammonium sulfide can be used to clean and remove oxides on a semiconductor surface without the concern of ESH and storage, the ammonium sulfide can also be used to passivate a semiconductor surface by forming a layer of sulfur, and thus preventing the reformation of native oxides, the layer of sulfur can be optionally removed to reduce the thickness of the semiconductor material. | 02-11-2016 |