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公开(公告)号:KR1020160072851A
公开(公告)日:2016-06-24
申请号:KR1020140177894
申请日:2014-12-10
Applicant: 한국과학기술정보연구원
Abstract: 본발명은대용량고해상도위성영상분석시스템및 방법에관한것으로, 위성영상이저장된스토리지서버, 위성영상분석요청신호수신시, 상기스토리지서버로부터해당위성영상배열데이터를획득하고, 작업노드들의상태정보를근거로상기획득된위성영상배열데이터를분할하여적어도하나이상의작업노드들에분배하며, 상기작업노드들로부터작업처리결과를수신및 집계하는마스터노드, 상기마스터노드에서분배된위성영상배열데이터를이용하여작업처리를수행하고, 그작업처리결과를상기마스터노드로각각전송하는적어도하나이상의작업노드를포함한다.
Abstract translation: 本发明涉及一种用于分析巨大的高分辨率卫星图像的系统和方法,其使得能够高速地处理和分析大量卫星图像。 该系统包括:存储有卫星图像的存储服务器; 主节点,当接收到卫星图像分析请求信号时,从存储服务器获取对应的卫星图像阵列数据,根据任务处理节点的状态信息对所获取的卫星图像阵列数据进行分割,将划分的卫星图像阵列数据分配给 一个或多个任务处理节点,并从任务处理节点接收并收集处理任务的结果; 以及通过使用由主节点分配的卫星图像阵列数据来处理任务的一个或多个任务处理节点,并且将处理任务的结果分别发送到主节点。
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公开(公告)号:KR101321904B1
公开(公告)日:2013-10-28
申请号:KR1020120031139
申请日:2012-03-27
Applicant: 한국과학기술정보연구원
Abstract: 본 발명은 맞춤형 보철물의 설계 시스템 및 방법, 그 기록 매체에 관한 것으로서, 본 발명에 따른 맞춤형 보철물의 설계 시스템은, 다수의 피촬영자의 신체 부위를 촬영한 정상신체 영상과 상기 피촬영자의 생체정보가 저장된 신체 영상 데이터베이스; 환자의 신체 부위를 촬영한 환자신체 영상과 상기 환자의 생체정보를 입력받는 신체 영상 입력부; 3차원 영상을 렌더링하는 3차원 영상 모델링부; 상기 신체 영상 데이터베이스에서 상기 환자의 생체정보와 일치하는 정상신체 영상을 검색하고, 검색된 상기 정상신체 영상과 상기 환자신체 영상을 상호 비교하여 상기 환자의 신체에 적합한 보철물의 규격을 산출하는 보철물 규격 산출부; 및 상기 신체 영상 데이터베이스, 신체 영상 입력부 및 보철물 규격 산출부를 제어하여 상기 환자의 신체에 적합한 보철물의 규격을 산출하고, 상기 산출된 보철물 규격에 기초하여 상기 3차원 영상 모델링부를 통해 상기 보철물의 3차원 영상을 생성하는 제어부를 포함한다. 이에 의해, 보철물이 식립될 신체 부위의 손상이 심각하여 보철물의 형상과 크기를 결정하기 어려운 환자의 경우 데이터베이스에 저장된 신체 부위 영상을 참고하여 환자에게 적합한 보철물을 설계할 수 있다.
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公开(公告)号:KR101721529B1
公开(公告)日:2017-03-30
申请号:KR1020160073219
申请日:2016-06-13
Applicant: 한국과학기술정보연구원
IPC: G06F17/30
Abstract: 본발명은다수의기술문헌과관련하여수집되는다양한통계정보에대한시계열분석을통해기술분야별 기술추이의변동을탐지함으로써, 탐지된기술추이의변동으로부터급부상하는기술을효과적으로판별할수 있는부상기술판별장치및 그동작방법을제안한다.
Abstract translation: 本发明中,通过检测与该品种的统计信息的时间序列分析技术部门技术趋势的变化相对于被收集到一些技术文献,可确定从检测技术的发展趋势技术有效的技术识别装置的变化的出现损伤 及其操作方法。
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公开(公告)号:KR101643886B1
公开(公告)日:2016-08-01
申请号:KR1020140177894
申请日:2014-12-10
Applicant: 한국과학기술정보연구원
CPC classification number: Y02A90/15
Abstract: 본발명은대용량고해상도위성영상분석시스템및 방법에관한것으로, 위성영상이저장된스토리지서버, 위성영상분석요청신호수신시, 상기스토리지서버로부터해당위성영상배열데이터를획득하고, 작업노드들의상태정보를근거로상기획득된위성영상배열데이터를분할하여적어도하나이상의작업노드들에분배하며, 상기작업노드들로부터작업처리결과를수신및 집계하는마스터노드, 상기마스터노드에서분배된위성영상배열데이터를이용하여작업처리를수행하고, 그작업처리결과를상기마스터노드로각각전송하는적어도하나이상의작업노드를포함한다.
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公开(公告)号:KR1020150063243A
公开(公告)日:2015-06-09
申请号:KR1020130147784
申请日:2013-11-29
Applicant: 한국과학기술정보연구원
IPC: H04N19/625 , A61B6/00
Abstract: 본발명은의료영상처리장치및 방법이개시된다. 본발명에따르면, DICOM 파일에저장된소정포맷형식의의료영상을기 설정된소정단위로추출하여양자화계수를도출하고도출된양자화계수를기 설정된소정블록의양자화테이블로나누어양자화하여의료영상데이터의난독화를실행함에따라, 의료영상복원시 양자화테이블에존재하는의료영상데이터의사이즈를토대로복원함에있어최소의메모리용량및 향상된속도로의료영상을복원할수 있으므로의료영상해독장비에대한의존도를최소화할수 있고, 기설정된소정단위의의료영상을 AES 암호알고리즘을이용한 AES-CBC 모드를통해암호화함에따라, 의료영상처리에대한무결정검증이가능하고, 비정상적인의료영상의획득및 암호화복원시 의료영상의복원이불가능하여암호화기능을향상시킬수 있게된다.
Abstract translation: 在本发明中,公开了用于治疗医学图像的装置和方法。 根据本发明,以预定单位提取具有特定格式类型并存储在DICOM文件中的医学图像,并且引发量化系数。 感应量化系数除以量化的预定块的量化表。 然后,医学图像数据被模糊化。 当医疗图像恢复时,基于存在于量化表中的医学图像数据的大小进行恢复。 可以以最小的存储容量和改进的速度恢复医学图像,使得对医学图像解码器的依赖性可以被最小化。 通过使用AES码算法的AES-CBC模式对预定单元的医学图像进行编码,从而可以进行医学图像处理的非选择性检查。 当获得异常的医学图像并且编码被恢复时,医学图像不可能恢复,从而可以提高编码功能。
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Patent Agency Ranking
公开(公告)号:KR101296607B1
公开(公告)日:2013-08-14
申请号:KR1020120031138
申请日:2012-03-27
Applicant: 한국과학기술정보연구원
CPC classification number: G06F17/50 , A61B6/03 , A61F2/0811 , G06T15/08
Abstract: PURPOSE: A prosthesis design system, a method thereof, and a recording medium thereof easily apply a mass-produced prosthesis to various patients by designing prosthesis with standardized sizes reflecting several factors such as a patient's race and gender. CONSTITUTION: A virtual body data input unit (110) receives a 2D video highlighting several body parts of patients and 2D video data including the patients' body-related information. A 3D video modeling unit (120) renders the 2D video into a 3D video. Prosthesis reference size calculation unit (200) classifies the 3D video based on the body-related information according to a certain standard, compiles statistics about the sizes of the body parts from the 3D video, and calculates out a reference size for prosthesis. [Reference numerals] (110) Virtual body data input unit; (120) 3D video modeling unit; (130) User input unit; (140) Display unit; (150) Image data storage unit; (160) Control unit; (200) Prosthesis reference size calculation unit
Abstract translation: 目的:假体设计系统,其方法及其记录介质通过设计具有标准化尺寸的假体,容易地将大量生产的假体应用于各种患者,其反映了诸如患者的种族和性别等几个因素。 构成:虚拟身体数据输入单元(110)接收突出显示患者的几个身体部位的2D视频和包括患者身体相关信息的2D视频数据。 3D视频建模单元(120)将2D视频呈现为3D视频。 假体参考尺寸计算单元(200)根据一定的标准根据身体相关信息对3D视频进行分类,从3D视频中编制关于身体部位的尺寸的统计数据,并计算假体的参考尺寸。 (附图标记)(110)虚拟体数据输入单元; (120)3D视频建模单元; (130)用户输入单元; (140)显示单元; (150)图像数据存储单元; (160)控制单元; (200)假体参考尺寸计算单位
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公开(公告)号:KR101379698B1
公开(公告)日:2014-04-04
申请号:KR1020130072961
申请日:2013-06-25
Applicant: 한국과학기술정보연구원
IPC: A61B5/103
Abstract: The present invention relates to a method and an apparatus for producing the three-dimensional model and physical property information of a human bone, which is capable of photographing human bones to acquire three-dimensional images, forming parts consisting of each bone in the human bones into components, dividing the human bones into eight groups, and performing an indentation test and a compression test on the human bones such as a spine, femoral bones, hip bones, and cranial bones, thereby producing skeletal physical property information. According to the present invention, a method for producing the three-dimensional model and physical property information of a human bone in a system including a video apparatus, a measurement apparatus, and a production apparatus comprises the steps of: (a) allowing the video apparatus to photograph human bones to acquire three-dimensional images; (b) allowing the production apparatus to divide the human bones into five areas of a head part, a spine part, a rib part, an upper limb part, and a lower limb part to classify into cancellous bones and cortical bones, requesting, to the measurement apparatus, an indentation test and a compression test on actual human bones corresponding to the divided areas; (c) allowing the measurement apparatus to perform the indentation test on cortical bones of a spine, femoral bones, hip bones, and cranial bones and the compression test on cancellous bones of the spine and the femoral bones, among the actual human bones corresponding to the divided five areas; and allowing the production apparatus to match the results of the indentation test and the results of the compression test to corresponding human bone images among the three-dimensional images of the human bones and to store the matching information. [Reference numerals] (AA) Start; (BB) End; (S210) Allow an image acquisition unit to photograph human bones to acquire three-dimensional images; (S220) Allow a DB production unit to divide the human bones into eight groups and store the divided information in a skeleton information DB; (S230) Allow a control unit to classify cancellous bones and cortical bones of five areas. relative to three-dimensional images of human bones, and order a skeleton measurement unit to perform an indentation test and a compression test on actual human bones corresponding to the divided areas; (S240) Allow the skeleton measurement unit to perform the indentation test on cortical bones of a spine, femoral bones, hip bones, and cranial bones and the compression test on cancellous bones of the spine and the femoral bones, among the actual human bones corresponding to the divided five areas; (S250) Allow the control unit to match the results of the indentation test and the results of the compression test to corresponding human bone images among the three-dimensional images of the human bones through the DB production unit and to store the matching information in the skeleton information DB
Abstract translation: 本发明涉及一种用于生产人骨三维模型和物理属性信息的方法和装置,其能够拍摄人骨以获取三维图像,在人骨中形成由每个骨组成的部分 将人骨分为8组,对脊骨,股骨,髋骨和颅骨等骨骼进行压痕试验和压缩试验,生成骨骼物理性质信息。 根据本发明,在包括视频设备,测量设备和制作设备的系统中,生成人骨三维模型和物理属性信息的方法包括以下步骤:(a)允许视频 拍摄人骨头以获取三维图像的装置; (b)允许生产设备将人骨分成头部,脊部,肋部,上肢部和下肢部分的五个区域,以分类为松质骨和皮质骨,请求, 测量装置,对应于分割区域的实际人骨的压痕试验和压缩试验; (c)允许测量装置对脊柱,股骨,髋骨和颅骨的皮质骨进行压痕试验,并对脊柱和股骨的松质骨进行压缩试验,对应于实际的人骨骼 分五区; 并且允许生产设备将压痕测试的结果和压缩测试的结果与人骨骼的三维图像中的相应的人骨图像相匹配并存储匹配信息。 (附图标记)(AA)开始; (BB)结束; (S210)允许图像获取单元拍摄人骨以获取三维图像; (S220)允许数据库生成单元将人骨划分为八组,并将分割的信息存储在骨架信息DB中; (S230)允许控制单位对五个区域的松质骨和皮质骨进行分类。 相对于人骨的三维图像,并且命令骨骼测量单元对与分割区域相对应的实际人骨进行压痕测试和压缩测试; (S240)允许骨骼测量单位对脊柱,股骨,髋骨和颅骨的皮质骨进行压痕试验,对脊柱和股骨骨质骨骨折进行压缩试验,实际人骨对应 分五区; (S250)使控制单元通过DB生成单元将压缩测试的结果与压缩测试的结果与人骨的三维图像中的相应的人骨图像相匹配,并将匹配信息存储在 骨架信息DB
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公开(公告)号:KR1020130128783A
公开(公告)日:2013-11-27
申请号:KR1020120052804
申请日:2012-05-18
Applicant: 한국과학기술정보연구원
CPC classification number: G06F19/321 , A61B6/037 , A61F2/02 , G06Q50/24 , G16H50/50
Abstract: The present invention relates to a system and a method for matching a prosthetic appliance and a recoding medium thereof. The system for matching the prosthetic appliance according to the present invention comprises: a physical body image database for storing photographed images of normal physical body parts of a plurality of persons; a prosthetic appliance information database for storing detailed standard information on a plurality of prosthetic appliances; a physical body image inputting part for receiving the photographed images of the physical body parts of a patient; a prosthetic appliance matching part searching for the image of the normal physical body, matched with the image of the physical body of the patient, in the physical body image database, extracting a standard of the prosthetic appliance appropriate for the searched image of the normal physical body parts and searching for the prosthetic appliance applied to the patient in the prosthetic appliance database; a three dimensional image simulation part for integrating the image of the physical body of the patient with the prosthetic appliance image and simulating the image of the physical body of the patient to whom the prosthetic appliance is implanted; and a controller for selecting the prosthetic appliance matched with the patient and generating the three dimensional image of the physical body of the patient to whom the selected prosthetic appliance is implanted via the three dimensional image simulation part based on the standard of the selected prosthetic appliance by controlling the physical body image inputting part and the prosthetic appliance matching part. The present invention can provide an optimal prosthetic appliance for the patient, who suffers a damage in a physical body part, by searching for the prosthetic appliance matched with the patient from the images on the physical body parts stored in the database, recommending the searched prosthetic appliance, and simulating images on the physical body parts of the patient to whom the prosthetic appliance is implanted. [Reference numerals] (AA) Start;(BB) End;(S210) Collect CT images where a prosthetic appliance is implanted in the body of a patient;(S220) Search the body image of a healthy body similar to the body of a patient in the body image DB;(S230) Search a matched prosthetic appliance based on the body image of a healthy person and the body image of a patient;(S240) 3D image simulation where a prosthetic appliance matched with the body image of a patient is implanted;(S250) Determine a prosthetic appliance for a patient based on the simulation result
Abstract translation: 本发明涉及一种用于匹配假肢器具及其编码介质的系统和方法。 根据本发明的用于匹配假体器具的系统包括:身体图像数据库,用于存储多个人的正常身体部位的拍摄图像; 一种用于存储关于多个假肢器具的详细标准信息的假肢器具信息数据库; 身体图像输入部,其接收患者的身体部位的拍摄图像; 在物理身体图像数据库中搜索与身体身体的图像匹配的正常身体的图像的假体器具匹配部分,提取适合于正常身体的搜索图像的假体装置的标准 身体部位并搜索在假肢器具数据库中应用于患者的假体器具; 三维图像模拟部分,用于将患者的身体的图像与假体装置图像相结合,并且模拟假体装置植入患者的身体的图像; 以及控制器,用于选择与患者匹配的假体装置,并且通过三维图像模拟部件基于所选择的假体装置的标准,生成被植入了所选择的假体装置的患者的身体的三维图像, 控制身体图像输入部和假体器具匹配部。 本发明可以通过从存储在数据库中的物理身体部位上的图像中搜索与患者相匹配的假体装置来为患者提供一种患有物理身体部位的损伤的最佳假肢器具,推荐所搜索的假肢 器具,以及模拟在植入了假肢器具的患者的身体部位上的图像。 (附图标记)(AA)开始;(BB)结束;(S210)收集将假体器具植入患者体内的CT图像;(S220)搜索与身体相似的健康身体的身体图像 患者身体图像DB;(S230)基于健康人的身体图像和患者的身体图像搜索匹配的假体装置;(S240)假体装置与患者的身体图像相匹配的3D图像模拟 植入;(S250)基于模拟结果确定患者的假体器具
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公开(公告)号:KR101321908B1
公开(公告)日:2013-10-28
申请号:KR1020120115053
申请日:2012-10-16
Applicant: 한국과학기술정보연구원
IPC: G06T19/00
CPC classification number: G06T15/08 , A61B5/0033 , G06T2207/30004
Abstract: PURPOSE: A human body cutting plane image information manufacturing method and a system thereof are provided to manufacture a tubular dissection image and a thalamus dissection image and to manufacture a regionalization image which regionalizes an anatomic structure of a dissection image. CONSTITUTION: An image information manufacture (130) arranges a tubular dissection image and a thalamus dissection image using an arrangement rod. The image information manufacture arranges the tubular dissection image and the thalamus dissection image by overlapping with a computer tomography image. The image information manufacture controls brightness through a color table and a gray step table between neighboring dissection images by sequentially comparing the tubular dissection image and the thalamus dissection image. The image information manufacture regionalizes the edge of skin, a bone, a liver, a lung, a kidney, a bladder, and a heart in the tubular dissection image and the thalamus dissection image. The image information manufacture produces a regionalization image by regionalizing the edge of a lacuna for an alimentary canal, a breathing tube, and arteries. [Reference numerals] (110) Consecutive cuter; (120) Image obtainer; (130) Image information manufacturer
Abstract translation: 目的:提供人体切割平面图像信息制造方法及其系统,以制造管状解剖图像和丘脑解剖图像,并且制造将解剖图像的解剖结构区分开的区域化图像。 构成:图像信息制造(130)使用排列杆布置管状解剖图像和丘脑解剖图像。 图像信息制造通过与计算机断层图像重叠来布置管状解剖图像和丘脑解剖图像。 图像信息制造通过顺序地比较管状解剖图像和丘脑解剖图像,通过颜色表和相邻解剖图像之间的灰度步骤来控制亮度。 图像信息制作在管状解剖图像和丘脑解剖图像中区分皮肤,骨骼,肝脏,肺,肾,膀胱和心脏的边缘。 图像信息制作通过区分消化道,呼吸管和动脉的空洞的边缘来产生区域化图像。 (附图标记)(110)连续切割机; (120)图像获取器; (130)图像信息制造商
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公开(公告)号:KR1020130109419A
公开(公告)日:2013-10-08
申请号:KR1020120031139
申请日:2012-03-27
Applicant: 한국과학기술정보연구원
CPC classification number: G06F17/50 , A61B6/03 , A61F2/0811 , G06T15/08
Abstract: PURPOSE: A system and a method for custom prosthetic appliance design and a recording medium thereof are provided to build a database with images of body parts and bio-information of healthy people for providing prosthetics close to physical specifications of each patient. CONSTITUTION: A body image database (150) stores images of normal body which is obtained by photographing body parts of subjects and bio-information of the subjects. A body image input unit (110) receives images of patient body which is obtained by photographing body parts of a patient and bio-information of the patient. A 3D image modeling unit (120) renders a 3D image. A prosthetics specification calculation unit (200) retrieves an image of normal body coincident with the bio-information of the patient from the body image database, and produces a specification of prosthetics appropriate for body of the patient by comparing the image of normal body to the image of patient body. [Reference numerals] (110) Body image input unit; (120) 3D image modeling unit; (130) User input unit; (140) Display unit; (150) Body image database; (160) Control unit; (200) Prosthetics specification calculation unit
Abstract translation: 目的:提供用于定制假肢器具设计的系统和方法及其记录介质,以建立具有身体部位和健康人的生物信息的图像的数据库,以提供接近每个患者的物理规格的假肢。 构成:身体图像数据库(150)存储通过拍摄被摄体的身体部位和被检体的生物信息而获得的正常身体的图像。 身体图像输入单元(110)接收通过拍摄患者的身体部位和患者的生物信息而获得的患者身体的图像。 3D图像建模单元(120)呈现3D图像。 假肢指定计算单元(200)从身体图像数据库检索与患者的生物信息一致的正常身体的图像,并且通过将正常身体的图像与患者的图像进行比较来产生适合于患者身体的假肢的规格 患者身体的形象 (附图标记)(110)身体图像输入单元; (120)3D图像建模单元; (130)用户输入单元; (140)显示单元; (150)身体图像数据库; (160)控制单元; (200)假肢规格计算单位
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