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    전자기력 가속 장치
    3.
    发明授权
    전자기력 가속 장치 有权
    电磁力加速器

    公开(公告)号:KR101799867B1

    公开(公告)日:2017-12-20

    申请号:KR1020170092199

    申请日:2017-07-20

    Applicant: 국방과학연구소

    Inventor: 안상혁 김성호

    IPC: F41B6/00

    CPC classification number: F41B6/006

    Abstract: 본발명은포구에서발생하는아크(Arc)를감쇄시킬수 있는전자기력가속장치에대한것으로, 서로마주보도록배치되어일방향으로연장되게형성되고, 서로반대방향으로전류가인가되어자기장을형성하는복수의도체레일과, 상기복수의도체레일사이에배치되어상기복수의도체레일과전기적으로연결되며, 상기자기장에의하여전자기력을받아상기일방향으로이동가능하게형성되는전기자와, 상기복수의도체레일과이격되어배치되며, 상기전기자가통과할수 있도록형성및, 상기전기자가상기복수의도체레일을이탈하는경우상기복수의도체레일단부와도통되어상기복수의도체레일단부로부터방전되는전류를소멸시키도록형성되는포구단부도체를포함하며, 상기포구단부도체는, 상기복수의도체레일과절연체를사이에두고배치되며, 상기전기자가상기복수의도체레일사이에위치하는경우에는상기복수의도체레일과전기적으로단절된상태를유지하고, 상기전기자가상기복수의도체레일을이탈하는경우에는상기복수의도체레일단부에형성되는플라즈마(plasma)를통해상기복수의도체레일과전기적으로연결되는것을특징으로한다.

    Abstract translation: 在sikilsu电磁加速器本发明衰减在入口产生的电弧(电弧),被布置成彼此面对形成为在一个方向上延伸,被施加到的电流在彼此的多个导电轨道,以形成磁场的相反方向 并且,设置在所述多个导电轨的电连接到所述多个导电轨,并且所述电枢由形成为能够在所述一个方向移动所述磁场接收的电磁力,它被布置为从所述多个导电轨间隔开的间 成形时和电自释放所述多个导电轨的通过电自枪口传递是导电的与所述多个导电轨端部形成的,从而破坏来自所述多个导电轨终末期非导电性的放电的电流 其中多个导电轨和绝缘体设置在多个导电轨之间, 当该位置被保持,其中,形成在所述多个导电轨端部的多个导电轨道和电,并通过等离子体(等离子体),所述多个电自释放所述多个导电轨的情况下的断开状态 并电连接到导电轨。

    전자기력 가속장치
    4.
    发明授权
    전자기력 가속장치 有权
    加速器使用电磁力

    公开(公告)号:KR101380792B1

    公开(公告)日:2014-04-04

    申请号:KR1020130160501

    申请日:2013-12-20

    Applicant: 국방과학연구소

    Inventor: 안상혁 김성호 이영현 이병하 양경승

    IPC: F41F1/00 F41F3/00 H01F7/06

    Abstract: The present invention provides an accelerator using an electromagnetic force including a first rail and a second rail which are extended in a direction while facing each other and form a magnetic field vertical to the direction by applying a current in the opposite direction of each other; an armature which can move in the direction by receiving an electromagnetic force produced by the magnetic field and which is electrically connected to the first rail and the second rail by being arranged between the first rail and the second rail; and a magnetic field adding unit which is installed near the armature and adds the magnetic field in order to increase the electromagnetic force which the armature receives. [Reference numerals] (130) Pulse power supply; (AA) Current; (B1) Magnetic field; (BB) Propulsion

    Abstract translation: 本发明提供了一种加速器,其使用包括第一轨道和第二轨道的电磁力,所述电磁力在朝向彼此的方向上延伸并且通过在彼此相反的方向上施加电流而形成垂直于该方向的磁场; 电枢,其可以通过接收由磁场产生的电磁力而沿该方向移动,并且通过布置在第一轨道和第二轨道之间电连接到第一轨道和第二轨道; 以及安装在电枢附近的磁场增加单元,并增加磁场,以增加电枢接收的电磁力。 (附图标记)(130)脉冲电源; (AA)电流; (B1)磁场; (BB)推进

    두부 장착형 디스플레이를 이용한 비행 시뮬레이터 영상 시현 장치 및 방법
    5.
    发明授权
    두부 장착형 디스플레이를 이용한 비행 시뮬레이터 영상 시현 장치 및 방법 有权
    用于使用头安装显示器显示飞行模拟器图像的装置和方法

    公开(公告)号:KR101279869B1

    公开(公告)日:2013-06-28

    申请号:KR1020120029934

    申请日:2012-03-23

    Applicant: 국방과학연구소

    Inventor: 김성호 이준규 황승희

    IPC: G09B9/08 G09B5/02 H04N5/262 G02B27/01 G06T17/00

    CPC classification number: G09B9/08 G02B27/01 G06T17/00 G09B5/02 H04N5/262

    Abstract: PURPOSE: A flight simulator video presentation device and a method thereof using a head mounted display device are provided to minimize a physical installation space, to facilitate movement, and to improve the reality of and concentration on the simulation. CONSTITUTION: A flight simulator video presentation device using a head mounted display (HMD) includes a head mounted display (110), a real environment image generation unit (130) for processing a real image photographed from an image input device installed in the HMD and generating a real environment image, a virtual environment image generation unit (120) for generating a virtual environment image including a region in which a dashboard image and the real environment image are projected regarding location information inputted from a tracker. The flight simulator video presentation device includes a mixer overlapping the virtual environment image inputted from the virtual environment image generation unit with the real environment image inputted from the real environment image generation unit and a video processor (160) aligning the overlapped image outputted from the mixer to be presented in the HMD and outputting to the HMD. [Reference numerals] (120) Virtual environment image generation unit; (122) Left virtual environment image generating unit; (124) Right virtual environment image generating unit; (130) Real environment image generation unit; (140) Left image mixer; (150) Right image mixer; (160) Video processor

    Abstract translation: 目的:提供一种飞行模拟器视频呈现装置及其使用头戴式显示装置的方法,以最小化物理安装空间,便于移动,并提高仿真的实际性和集中度。 构成:使用头戴显示器(HMD)的飞行模拟器视频呈现装置包括头戴显示器(110),用于处理从安装在HMD中的图像输入装置拍摄的真实图像的真实环境图像生成单元(130),以及 生成真实环境图像的虚拟环境图像生成单元(120),用于生成包括关于从跟踪器输入的位置信息的仪表板图像和实际环境图像的区域的虚拟环境图像。 飞行模拟器视频呈现装置包括将从虚拟环境图像生成单元输入的虚拟环境图像与从真实环境图像生成单元输入的实际环境图像重叠的混合器和将从混合器输出的重叠图像对准的视频处理器(160) 将其呈现在HMD中并输出到HMD。 (附图标记)(120)虚拟环境图像生成单元; (122)左虚拟环境图像生成单元; (124)右虚拟环境图像生成单元; (130)真实环境图像生成单元; (140)左图像混合器; (150)右图像混合器; (160)视频处理器

    화약조성비율에 따른 폭발력 추정식 산출 장치 및 방법
    6.
    发明授权
    화약조성비율에 따른 폭발력 추정식 산출 장치 및 방법 有权
    用于计算爆炸性方程式的组合物比例的装置和方法

    公开(公告)号:KR101257689B1

    公开(公告)日:2013-04-24

    申请号:KR1020130001185

    申请日:2013-01-04

    Applicant: 국방과학연구소

    Inventor: 김성호 이승만

    IPC: F41A33/00 F42B35/00 F42C21/00 G01S11/16

    Abstract: PURPOSE: A device and a method for calculating the equation of explosive power according to the gunpowder composition ratio are provided to minimize the number of repetitive actual experiments, to reduce time and costs, and to prevent possible accidents during the experiments. CONSTITUTION: A device(100) for calculating the equation of explosive power according to the gunpowder composition ratio comprises a variable selection unit(110), a multicollinearity determining unit(120), a first model output unit(130), a second model output unit(140), and a model evaluation unit(150). The variable selection unit implements a regression equation by combining predetermined variables, compares determination coefficients or adjusted determination coefficients, and selects independent variables and dependent variables from the predetermined variables. The multicollinearity determining unit determines the presence of multicollinearity which represents the linearly dependency among the independent variables. [Reference numerals] (110) Variable selection unit; (120) Multicollinearity determining unit; (130) First model output unit; (140) Second model output unit; (150) Model evaluation unit;

    Abstract translation: 目的:提供一种根据火药组成比计算爆炸力方程的装置和方法,以减少重复实际实验次数,减少时间和成本,并防止实验中可能发生的事故。 构成:用于根据火药组成比计算爆炸力方程的装置(100)包括变量选择单元(110),多重共线性确定单元(120),第一模型输出单元(130),第二模型输出 单元(140)和模型评估单元(150)。 变量选择单元通过组合预定变量来实现回归方程,比较确定系数或调整的确定系数,并从预定变量中选择独立变量和因变量。 多重共线性确定单元确定表示独立变量之间线性相关性的多重共线性的存在。 (附图标记)(110)变量选择单元; (120)多重线性确定单位; (130)第一模型输出单元; (140)第二模型输出单元; (150)模型评估单位;

    레이더의 항전 연동 시뮬레이션 장치 및 그 방법
    7.
    发明授权
    레이더의 항전 연동 시뮬레이션 장치 및 그 방법 有权

    公开(公告)号:KR102242420B1

    公开(公告)日:2021-04-20

    申请号:KR1020190051666

    申请日:2019-05-02

    Applicant: 국방과학연구소

    Inventor: 주광민 김용덕 윤보람 박준용 김석봉 김성호

    IPC: G09B9/00 G01S7/40

    Abstract: 본발명에따른레이더의항전연동시뮬레이션장치는, 사용자인터페이스에대응하는제어명령에따라레이더체계수준에서레이더의각 구성품의상태와동작정보를연동하고, 항전장비의모의(simulation)를위한시나리오데이터및 레이더동작명령을생성하는항전연동모의부와, 상기항전연동모의부로부터의제어명령에따라상기레이더의각 구성품의동작점검, 상기레이더의동작상태및 운용모드를모의하여상기항전연동모의부로전달하는레이더체계운용모의부와, 상기항전연동모의부로부터수신된상기레이더의동작상태에따른상기레이더의안테나효과, 탐지성능, 추적성능, 빔스케줄링에대한모의를실행하는레이더모의실행부를포함할수 있다.

    최적 설계 파라미터 탐색을 위한 최적화 방법
    10.
    发明公开
    최적 설계 파라미터 탐색을 위한 최적화 방법 有权
    用于参数优化设计的方法

    公开(公告)号:KR1020150084596A

    公开(公告)日:2015-07-22

    申请号:KR1020140004753

    申请日:2014-01-14

    Applicant: 국방과학연구소

    Inventor: 김탁곤 홍정희 김성호

    IPC: G06F17/50

    CPC classification number: G06F17/50

    Abstract: 목적함수에대한최적해를구하는최적해탐색시뮬레이션방법에있어서, 대상체에대한변수, 제약조건및 목적함수를설정하고, 상기변수, 제약조건및 목적함수를이용하여시뮬레이션모델을설정하는단계와상기설정된시뮬레이션모델을복수의탐색공간으로분할하고, 각탐색공간별로메타모델을생성하는단계와상기생성된메타모델을이용하여, 상기복수의탐색공간중 상기목적함수를포함하는적어도하나의탐색공간을검출하는단계및 상기검출된적어도하나의탐색공간에대하여상기목적함수의최적해를구하는단계를포함하는것을특징으로한다.

    Abstract translation: 本发明涉及一种用于搜索目标函数的最优解的优化方法,其包括以下步骤:为目标设置变量,约束和目标函数,并使用变量,约束和目标函数来设置目标函数 模拟模型; 将模拟模型分为多个搜索空间,并为每个搜索空间创建元模型; 使用所创建的元模型来检测包括所述目标函数的所述多个搜索空间中的至少一个搜索空间; 并在检测到的至少一个搜索空间中找到目标函数的最优解。

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