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公开(公告)号:KR1020040004825A
公开(公告)日:2004-01-16
申请号:KR1020020038873
申请日:2002-07-05
Applicant: 한국과학기술원
IPC: G02F1/11
CPC classification number: G02F1/11 , G02B3/0006 , G02B27/283
Abstract: PURPOSE: An apparatus for measuring a three-dimensional shape of a transparent thin film using an acoustic optics tunable filter is provided to independently extract thickness information and shape information about a multi-level structure. CONSTITUTION: An apparatus for measuring a three-dimensional shape of a transparent thin film includes a light source(10) for emitting monochromatic rays, the first and second beam splitters(20,32), a Michelson interferometer module(30), an acoustic optics tunable filter, a CCD sensor(70). The second beam splitter splits the monochromatic rays emitted from the light source to send a part of the rays to a reference plane(33) and send another part of the rays to a measurement unit(80). The Michelson interferometer module includes a block plate(34) that selectively blocks irradiation of the monochromatic rays on the reference plane. The acoustic optics tunable filter selects monochromatic rays of a specific wavelength band from monochromatic rays irradiated on the filter. The first beam splitter allows reflection and transmission of the monochromatic rays among the light source, the second beam splitter and the acoustic optics tunable filter to be sequentially carried out. The CCD sensor forms an image from the monochromatic rays.
Abstract translation: 目的:提供一种使用声光学可调滤波器测量透明薄膜的三维形状的装置,以独立地提取关于多层结构的厚度信息和形状信息。 构成:用于测量透明薄膜的三维形状的装置包括用于发射单色光的光源(10),第一和第二分束器(20,32),迈克逊逊干涉仪模块(30),声学 光学可调滤波器,CCD传感器(70)。 第二分束器分离从光源发射的单色光以将一部分光线发送到参考平面(33),并将另一部分光线发送到测量单元(80)。 迈克尔逊干涉仪模块包括块板(34),该块板选择性地阻挡参考平面上的单色光的照射。 声光学可调滤波器从在滤光片上照射的单色光线选择特定波段的单色光。 第一分束器允许顺序地执行光源,第二分束器和声学光学可调滤波器之间的单色光的反射和透射。 CCD传感器从单色光线形成图像。
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公开(公告)号:KR101435680B1
公开(公告)日:2014-09-02
申请号:KR1020070092185
申请日:2007-09-11
CPC classification number: A61B5/165 , A61B5/024 , A61B5/02405 , A61B5/16
Abstract: 본 발명에 따른 스트레스 분석방법은 (a)불특정 다수에 연결된 생체신호 측정장치로부터 주기적으로 생체신호를 수신하여 생체신호 패턴정보를 생성하고 스트레스 수준을 확인하는 질문에 대한 응답을 수신하고, 이에 기초하여 스트레스 분석에 필요한 기준정보를 형성하는 과정과, (b)특정 사용자에 연결된 생체신호 측정장치로부터 생체신호 패턴정보를 수신하는 과정과, (c)상기 기준정보를 기준으로 하여 특정 사용자에 연결된 생체신호 측정장치가 측정한 상기 생체신호 패턴정보에 대응하는 스트레스 수준을 결정하는 과정을 포함한다.
스트레스, 일 주기, 패턴, 생체신호, HRV, 심박-
公开(公告)号:KR1020090027027A
公开(公告)日:2009-03-16
申请号:KR1020070092188
申请日:2007-09-11
IPC: A61B5/00
Abstract: A method for analyzing mental illness using a biometric signal under cognitive stimuli is provided to perform the quantitive administration of the psychic disease by measuring the level of own psychic disease. A plurality of SRI questions among SRI(Stress Response Inventory) questions stored in a memory is selected(110). The selected SRI questions and a plurality of choice points are displayed on a portable terminal(120). The response about psychic disease questions is received(130). The result of response is stored(140). The above steps are repetitively performed. The user responding to the psychic disease question is disclosed to the environment(150). The bio-signal pattern information including the pattern of the bio-signal measured during a cycle is generated(160). The discrete reference information in which bio-signal and psychic disease response are connected is generated(170). The psychic disease management server produces the respective classified reference information according to the standards(180).
Abstract translation: 提供了一种在认知刺激下使用生物识别信号分析精神疾病的方法,通过测量自身心理疾病的水平来进行心理疾病的定量管理。 选择存储在存储器中的SRI(应力响应库存)问题中的多个SRI问题(110)。 所选择的SRI问题和多个选择点被显示在便携式终端(120)上。 收到关于心理疾病问题的回答(130)。 存储响应结果(140)。 重复执行上述步骤。 对心理疾病问题作出回应的用户向环境披露(150)。 产生包括在循环期间测量的生物信号的图案的生物信号图案信息(160)。 产生生物信号和心理疾病反应连接的离散参考信息(170)。 心理疾病管理服务器根据标准产生相应的分类参考信息(180)。
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Patent Agency Ranking
公开(公告)号:KR1020030082655A
公开(公告)日:2003-10-23
申请号:KR1020020021061
申请日:2002-04-17
Applicant: 한국과학기술원
IPC: G01J3/36
CPC classification number: G01J3/36 , G01N21/3103 , G01N21/35 , G01N2021/3595
Abstract: PURPOSE: A near-infrared ray spectrophotometer having an acoustic-optical tunable filter is provided to stably achieve near-infrared ray information from various measuring points using one spectrophotometer. CONSTITUTION: A near-infrared ray spectrophotometer includes a light source(10) generating light having near-infrared ray band, a multi-channel optical fiber probe(20) for transferring light information to a spectrophotometer system(90), an acoustic-optical tunable filter(50) for simultaneously splitting light transmitted into the spectrophotometer system(90), and a sensor(70) for measuring split light. A tungsten-halogen lamp is used as the light source(10). The tungsten-halogen lamp is connected to the multi-channel optical fiber probe(20) by using an SMA connector(21). The acoustic-optical tunable filter(50) and the sensor(70) are driven by means of a frequency controller and a sensor amplifying circuit.
Abstract translation: 目的:提供一种具有声光可调谐滤光片的近红外线分光光度计,使用一台分光光度计从各种测量点稳定地获得近红外线信息。 构成:近红外线分光光度计包括产生具有近红外线光谱的光的光源(10),用于将光信息传送到分光光度计系统(90)的多通道光纤探针(20),声光 用于同时分离透射到分光光度计系统(90)中的光的可调滤光器(50),以及用于测量分光的传感器(70)。 使用卤钨灯作为光源(10)。 钨卤灯通过使用SMA连接器(21)连接到多通道光纤探头(20)。 声光可调滤波器(50)和传感器(70)通过频率控制器和传感器放大电路驱动。
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公开(公告)号:KR20180046198A
公开(公告)日:2018-05-08
申请号:KR20160141159
申请日:2016-10-27
Applicant: 한국과학기술원
CPC classification number: B82B3/0038 , B82Y20/00 , B82Y40/00
Abstract: 본발명은나노입자조립체의제조방법에관한것으로, 더욱상세하게는기판상에복수개의가이드패턴을형성한다음, 가이드패턴사이에승화성액정초분자를배치하고, 승화성액정초분자를가열한다음, 스멕틱상으로냉각하여액정박막을형성하며, 형성된액정박막상에나노입자분산액을도포한다음, 액정상온도에서어닐링처리하는단계를포함하는나노입자조립체의제조방법에관한것이다. 본발명의제조방법에따른나노입자조립체는액정박막의결함구조를이용하여주기적인배열이가능하고, 템플릿역할을하는액정박막은승화에의해제거되므로, 액정박막없이나노입자조립체만을수득할수 있으며, 나노입자조립체의배열, 간격등을용이하게조절할수 있다. 따라서, 본발명에서제조된나노입자조립체는나노전자소자와반도체발광소자를포함한광소자뿐만아니라, 환경관련소재에응용될수 있고, 특히반도체나노화합물의경우, 단일전자트랜지스터(SET) 소자뿐만아니라새로운광소자재료로사용될수 있다.
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公开(公告)号:KR101894982B1
公开(公告)日:2018-09-05
申请号:KR1020160141159
申请日:2016-10-27
Applicant: 한국과학기술원
Abstract: 본발명은나노입자조립체의제조방법에관한것으로, 더욱상세하게는기판상에복수개의가이드패턴을형성한다음, 가이드패턴사이에승화성액정초분자를배치하고, 승화성액정초분자를가열한다음, 스멕틱상으로냉각하여액정박막을형성하며, 형성된액정박막상에나노입자분산액을도포한다음, 액정상온도에서어닐링처리하는단계를포함하는나노입자조립체의제조방법에관한것이다. 본발명의제조방법에따른나노입자조립체는액정박막의결함구조를이용하여주기적인배열이가능하고, 템플릿역할을하는액정박막은승화에의해제거되므로, 액정박막없이나노입자조립체만을수득할수 있으며, 나노입자조립체의배열, 간격등을용이하게조절할수 있다. 따라서, 본발명에서제조된나노입자조립체는나노전자소자와반도체발광소자를포함한광소자뿐만아니라, 환경관련소재에응용될수 있고, 특히반도체나노화합물의경우, 단일전자트랜지스터(SET) 소자뿐만아니라새로운광소자재료로사용될수 있다.
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公开(公告)号:KR101841263B1
公开(公告)日:2018-03-22
申请号:KR1020160068711
申请日:2016-06-02
Applicant: 한국과학기술원
CPC classification number: C01B33/14 , C09K19/12 , C09K2019/044 , C09K2019/122 , C09K2219/00 , C09K2219/03
Abstract: 본발명은기판상의승화성액정초분자를가열하는단계; 및상기가열된액정초분자를스멕틱상으로냉각하는단계를포함함으로써, 주기적인결함구조를갖는액정박막을용이하게형성하고, 이에따라주기적인배열의나노입자조립체를용이하게형성할수 있도록하는액정박막의제조방법및 상기방법으로제조된액정박막을이용한나노입자조립체의제조방법에관한것이다.
Abstract translation: 本发明提供了一种制造液晶显示装置的方法,包括:在衬底上加热可升华液晶超分子; 并且,通过将加热后的液晶性超分子以近晶相冷却,容易形成具有周期性缺陷结构的液晶薄膜,能够容易地形成周期性排列的纳米粒子集合体 以及使用由该方法制造的液晶薄膜制造纳米颗粒组件的方法。
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公开(公告)号:KR1020160142251A
公开(公告)日:2016-12-12
申请号:KR1020160068711
申请日:2016-06-02
Applicant: 한국과학기술원
CPC classification number: C01B33/14 , C09K19/12 , C09K2019/044 , C09K2019/122 , C09K2219/00 , C09K2219/03 , B82B3/0009 , B01J19/00 , B82B3/0014 , B82B3/0038
Abstract: 본발명은기판상의승화성액정초분자를가열하는단계; 및상기가열된액정초분자를스멕틱상으로냉각하는단계를포함함으로써, 주기적인결함구조를갖는액정박막을용이하게형성하고, 이에따라주기적인배열의나노입자조립체를용이하게형성할수 있도록하는액정박막의제조방법및 상기방법으로제조된액정박막을이용한나노입자조립체의제조방법에관한것이다.
Abstract translation: 本发明涉及一种制造纳米颗粒簇阵列的方法,其中使用通过液晶分子的热升华自发转化的具有微小凹坑状缺陷结构的周期性阵列的可热转变的有机液晶膜作为 模板和纳米颗粒形成相对于缺陷结构具有均匀尺寸的自组装簇,从而实现纳米颗粒簇的周期性阵列。
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