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公开(公告)号:US20250061039A1
公开(公告)日:2025-02-20
申请号:US18800295
申请日:2024-08-12
Inventor: Woo Jin KIM , Do Wook KANG , Jung Sook KIM , Dae Sub YOON , Mi CHANG , Eun Hye JANG
IPC: G06F11/34
Abstract: The present invention relates to a human factor assessment method and system for autonomous driving. The human factor assessment method of autonomous driving includes generating an autonomous driving system twin based on autonomous driving system specifications and autonomous driving service logic, generating one or more human twins based on a human twin characteristic range, performing a simulation using the autonomous driving system twin and the human twin, and calculating a performance index of the autonomous driving service based on the simulation result.
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公开(公告)号:US20140151833A1
公开(公告)日:2014-06-05
申请号:US14021927
申请日:2013-09-09
Inventor: Chul HUH , Sang Hyeob KIM , Byoung Jun PARK , Eun Hye JANG , Myung Ae CHUNG
IPC: H01L31/0232
CPC classification number: H01L31/02327 , H01L31/022466 , H01L31/103
Abstract: A photoelectric conversion device according to an exemplary embodiment includes a first substrate, a photoelectric conversion layer disposed above the first substrate, a second substrate which is different from the first substrate and disposed on the photoelectric conversion layer, and a nano pillar layer disposed above the second substrate in which the nano pillar layer includes a plurality of nano pillars which is spaced apart from each other, so as to easily absorb the light.
Abstract translation: 根据示例性实施例的光电转换装置包括第一基板,设置在第一基板上方的光电转换层,与第一基板不同并设置在光电转换层上的第二基板,以及设置在第一基板上方的纳米柱层 第二基板,其中纳米柱层包括彼此间隔开的多个纳米柱,以便容易地吸收光。
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公开(公告)号:US20180340946A1
公开(公告)日:2018-11-29
申请号:US15871679
申请日:2018-01-15
Inventor: Young Jun KIM , Wan Joong KIM , Eun Hye JANG , HyoYoung CHO
IPC: G01N33/74 , G01N33/566 , C12Q1/28 , G01N33/52 , G01N33/543
Abstract: According to the inventive concept, a method of analyzing a biomaterial may include preparing an analysis apparatus including a substrate having a first region and a second region, supplying a second antigen onto the substrate to conduct a first reaction of a portion of antibodies and the second antigen, and conducting a second reaction of another portion of the antibodies and a first antigen after conducting the first reaction, to form a binding structure. The antibodies may be disposed in the first region of the substrate, the capturing structure may be provided in the second region of the substrate, and the capturing structure may include a linker which binds to the substrate and the first antigen which binds to the linker. The binding structure may include the linker, the first antigen and the antibody which binds to the first antigen.
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公开(公告)号:US20150140680A1
公开(公告)日:2015-05-21
申请号:US14523462
申请日:2014-10-24
Inventor: Chul HUH , Sang Hyeob KIM , Byoung Jun PARK , Eun Hye JANG , Myung Ae CHUNG
CPC classification number: G01N21/75 , G01N2021/757 , G01N2021/7783 , G01N2201/061 , G01N2201/08
Abstract: Disclosed is an integral label-free biosensor capable of analyzing a biomolecule with high sensitivity by integrating a light source, a photodetector, an optical waveguide, and a microcantilever on a substrate, and a method of detecting a bio-antigen by using the same. The integral label-free biosensor according to the present invention may be manufactured with low cost, be easily integrated with a silicon electron device, and detect a biomolecule with high sensitivity by using a label-free method.
Abstract translation: 公开了能够通过在基板上集成光源,光电检测器,光波导和微悬臂梁来分析具有高灵敏度的生物分子的整体无标记生物传感器,以及通过使用该方法检测生物抗原。 根据本发明的无标记生物传感器可以低成本制造,易于与硅电子器件集成,并且通过使用无标记方法检测具有高灵敏度的生物分子。
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