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公开(公告)号:US10551526B2
公开(公告)日:2020-02-04
申请号:US15306697
申请日:2015-07-08
Inventor: Yong-Gyoo Kim , Byung Il Choi , Jong Cheol Kim , Sang Bong Woo , Sang Wook Lee , Su Yong Kwon
IPC: G01W1/08 , G01K7/02 , G01K7/16 , G01K13/00 , G01W1/18 , G01J5/20 , G01J5/12 , G01J1/00 , G01W1/04 , G01J5/00
Abstract: The present disclosure relates to an apparatus embodied in order to correct efficiently changing of measured temperature value in a temperature sensor according to influence of irradiance. A radiosonde related an exemplary embodiment of the present disclosure includes a first temperature sensor; a second temperature sensor having higher emission ratio than the first temperature sensor; and a measuring unit in order to calculate corrected temperature value, but the radiosonde and the third temperature sensor are installed in a chamber before flying of the radiosonde, a first temperature change detected by the first temperature sensor by output light in a sunlight simulator and a second temperature change detected by the second temperature sensor are induces, compensation factors may be derived using the first temperature change, the second temperature change, and temperature value measured by the third temperature sensor.
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公开(公告)号:US10542963B2
公开(公告)日:2020-01-28
申请号:US15243254
申请日:2016-08-22
Inventor: Se Hwa Kim , Yong Tae Kim , Dong Hee Ma
Abstract: The present disclosure relates to an ultrasound phantom for a focused ultrasound wave. More specifically, the present invention provides an ultrasound phantom which mimics a body so as to correspond to a speed of sound in the body, in which agarose, sucrose, polydiacetylene vesicle, and distilled water are mixed, and a specific part onto which an ultrasound wave is irradiated by a focused ultrasound transducer is gradually discolored in accordance with a temperature.
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公开(公告)号:US20190383952A1
公开(公告)日:2019-12-19
申请号:US16488236
申请日:2018-02-02
Inventor: Chul Hong KIM , In Jung KIM , Byoung Chul KIM , Eun Yeong PARK , Chul Yong YI , Jeesu KIM , Yuhan JUNG , Joong Hyun KIM
Abstract: The present invention relates to a water dosimetry device using X-ray induced ultrasonic waves, in which a medical X-ray linear accelerator and an ultrasonic transducer are combined to construct a medical X-ray linear accelerator-based ultrasound imaging device, so that a radiation-absorbed dose in water when X-rays irradiate the water is measured in real time.
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公开(公告)号:US10510331B2
公开(公告)日:2019-12-17
申请号:US15590560
申请日:2017-05-09
Applicant: S.I.PAN , KOREA RESEARCH INSTITUTE OF STANDARDS AND SCIENCE
Inventor: Gab Cheol Jeong , Eon Mo Ahn , Jong Young Park , Sung Soo Jung
IPC: G10K11/168 , B32B3/26 , E04C2/284 , E04B1/82 , E04B1/86
Abstract: This technology provides a sound absorbing structure comprising: an outer frame including an opening; a perforated plate member formed in the outer frame and including a rear surface facing the opening of the outer frame and a front surface opposite to the rear surface; and a rear sound absorber interposed between the rear surface of the perforated plate member and the opening of the outer frame, and an anechoic chamber comprising: a wall, a ceiling and a floor; and a plurality of sound absorbing structures of the embodiment fixed to at least the wall and the ceiling.
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285.发明申请公开(公告)号:US20190300363A1
公开(公告)日:2019-10-03
申请号:US16157576
申请日:2018-10-11
Inventor: Seung Wook Baek , Jung Hyun Kim , Chang Ho Ahn , Mee Kyung Kim , Gyo Ri Park , Sun Woong Song , Ki Chae Jung
Abstract: Disclosed is a method of preparing an oxide for hydrogen storage, including a) mixing and calcining vanadium oxide and titanium oxide, b) impregnating the oxide obtained in step a) with a noble metal precursor aqueous solution, and c) subjecting the oxide obtained in step b) to heat treatment in a reducing atmosphere, wherein the oxide obtained in step a) has the composition of Chemical Formula 1 below and is composed of a single-phase TiO2 crystal phase: V1-xTixO2 [Chemical Formula 1] (in Chemical Formula 1, 0.05≤x≤0.95).
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Patent Agency Ranking
公开(公告)号:US10406110B2
公开(公告)日:2019-09-10
申请号:US15743895
申请日:2016-07-12
Applicant: SEOUL NATIONAL UNIVERSITY R & DB FOUNDATION , KOREA RESEARCH INSTITUTE OF STANDARDS AND SCIENCE
Inventor: Jeong Hun Kim , Dong Hyun Jo , Tae Geol Lee
IPC: A61K9/14 , A61K9/51 , A61K47/42 , A61P27/02 , B82Y5/00 , G01N33/15 , G01N33/68 , A61K9/50 , A61K9/16 , A61K33/00 , A61K33/24 , G01N33/50 , A61K47/69 , A61P27/00 , A61K9/00 , A61K38/38 , B82Y30/00
Abstract: Provided is a nanoparticle-vitreous body-based protein complex, and more particularly, to a composition for inhibiting angiogenesis which includes the complex as an active ingredient, and a composition for preventing or treating an angiogenesis-related disease or a retinal disease. When the nanoparticle-vitreous body-based protein complex according to the subject matter is locally injected into the vitreous body, the complex exhibits significantly excellent binding strength with a vascular endothelial growth factor and thus can inhibit angiogenesis, thus being easily used to prepare a therapeutic agent for preventing, alleviating, or treating retinal and choroidal angiogenesis-related diseases.
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公开(公告)号:US10337911B2
公开(公告)日:2019-07-02
申请号:US15129504
申请日:2015-04-10
Inventor: Wan Sup Cheung , Kyung Min Baik
Abstract: The present invention is aimed at providing measurement method for vibration displacement using state variation principle which achieves real time implementation through super high-speed DSP or FPGA as well as improves precision as much as picometer level and at the same time saves memory capacity compared to conventional invention.
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公开(公告)号:US10283339B2
公开(公告)日:2019-05-07
申请号:US15518408
申请日:2015-10-07
Inventor: Chang Joon Park , Sang Jung Ahn , Cheolsu Han , Keu Chan Lee , Seok Rae Yoon
Abstract: The present invention relates to a particle beam mass spectrometer and particle measurement method by means of same. More particularly, the present invention relates to a particle beam mass spectrometer including: a particle focusing unit focusing a particle beam induced by gas flow; an electron gun forming a charged particle beam by accelerating thermal electrons to ionize the particle beam focused by the particle focusing unit; a deflector deflecting the charged particle beam according to kinetic energy to charge ratio; and a sensing unit measuring a current induced by the deflected charged particle beam, wherein the deflector includes at least one particle beam separation electrode provided at each of opposite sides with respect to a progress axis of the charged particle beam before being deflected.
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289.发明申请公开(公告)号:US20190101373A1
公开(公告)日:2019-04-04
申请号:US15538846
申请日:2016-08-26
Inventor: Young-Sik GHIM , Hyug-Gyo RHEE , Yun Woo LEE
CPC classification number: G01B9/02041 , G01B9/02015 , G01B9/02062 , G01B11/0625 , G01B11/0675 , G01B11/2441 , G06F17/16 , G06F17/17
Abstract: The present disclosure relates to an apparatus for measuring a thickness and a surface profile of a multilayered film structure using an imaging spectral optical system and a measuring method. More specifically, the present disclosure relates to a method and an apparatus which measure a thickness and a surface profile of a multilayered thin film structure by applying a method for obtaining an absolute reflectance value for an object to be measured having a multilayered thin film using a reflected light measuring method and extracting a phase from an interference signal with a reference mirror using a phase shift algorithm.
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公开(公告)号:US10222695B2
公开(公告)日:2019-03-05
申请号:US15306990
申请日:2015-09-25
Inventor: Eun-Ah You
Abstract: Provided is a method for manufacturing a transparent substrate according to an exemplary embodiment of the present invention including: a) forming a photoresist layer satisfying D=m*(λ/2n); b) manufacturing a ring-shaped pattern by exposing the photoresist layer and developing the exposed photoresist layer, using a photo mask including a transparent base and a plate-type metal dot formed contacting a light emitting surface of the transparent base; c) manufacturing a second mold to which the ring-shaped pattern is reversely transferred by using a substrate on which the ring-shaped pattern is formed as a first mold; and d) manufacturing the transparent substrate in which a ring-shaped transparent protrusion is integrally formed with the transparent base by filling a liquefied transparent resin in the second mold and curing the transparent resin and removing the second mold to transfer the ring-shaped pattern.
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