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    • 2. 发明公开
    • 열화상을 이용한 스트레스 지수 측정 시스템
    • 使用热像测量应力的系统
    • KR1020140057867A
    • 2014-05-14
    • KR1020120124155
    • 2012-11-05
    • 주식회사 엘에스엘시스템즈
    • 정경권김용중이기섭
    • G06F19/00G01J5/00A61B5/01A61B5/091
    • A61B5/4884A61B5/01A61B5/08G01J2005/0077G06F17/10G06K9/00228
    • Disclosed is a system for measuring a stress index using a thermal image. The system for measuring a stress index using a thermal image according to an embodiment of the present invention includes an image detection unit including a charge coupled device (CCD) camera for photographing an image of an object of which a stress index is to be measured (hereinafter, an object-to-be-measured) and an infrared thermal image camera for photographing a thermal image of the object-to-be-measured; and a computer including an operation control unit for detecting a face of the object-to-be-measured from an image transmitted from the CCD camera and controlling an operation of the CCD camera, a thermal image processing unit for measuring a body temperature of the object-to-be-measured from the thermal image transmitted from the infrared thermal image camera and measuring an amount of aspiration through a nose temperature change of the object-to-be-measured, and a stress index measurement unit for measuring a stress index form the body temperature of the object-to-be-measured and the amount of aspiration transmitted from the thermal image processing unit. The stress index measurement unit measures a stress index by adding the temperature change and the aspiration change of the object-to-be-measured while giving weighted values to the temperature change and the aspiration change.
    • 公开了一种使用热图像测量应力指数的系统。 根据本发明实施例的用于测量使用热图像的应力指数的系统包括图像检测单元,该图像检测单元包括用于拍摄要测量应力指数的物体的图像的电荷耦合器件(CCD) 以下,被测量物体)和用于拍摄待测对象的热像的红外热像摄像机; 以及计算机,其包括:操作控制单元,用于从从CCD摄像机发送的图像中检测待测对象的面部并控制CCD摄像机的操作;热图像处理单元,用于测量所述CCD摄像机的体温; 从红外线热像摄像机发送的热图像中测量对象物,并测量通过待测对象的鼻部温度变化的抽吸量,以及用于测量应力指数的应力指数测量单元 形成待测物体的体温和从热图像处理单元传送的抽吸量。 应力指数测量单元通过将温度变化和待测对象的抽吸变化相加,同时给予温度变化和抽吸变化的加权值来测量应力指数。
    • 7. 发明公开
    • 신호 전송 장치 및 이를 이용한 신호 전송 시스템
    • 用于发送信号的装置和使用其发送信号的系统
    • KR1020160014151A
    • 2016-02-11
    • KR1020140095725
    • 2014-07-28
    • 주식회사 엘에스엘시스템즈이기섭강호열강성수강원민
    • 이기섭강호열강성수강원민
    • A61B5/024
    • A61B5/02422A61B5/024A61B5/02427A61B5/02438A61B5/0245A61B5/0255
    • 신호전송장치및 이를이용한신호전송시스템이제공된다. 본발명의일 실시예에따른신호전송장치는, 신호전송장치의외면중 적어도일부를이루는박막열전도성판; 상기박막열전도성판의내측에형성되는열전소자; 및외부로부터획득한입력신호의크기에따라상기열전소자의온도를제어하는열전소자제어부를포함하며, 상기신호전송장치와일정거리떨어진지점에위치하는호스트부가상기박막열전도성판의온도변화를감지함으로써상기입력신호를복원할수 있도록, 상기박막열전도성판의온도가상기입력신호의크기에따라변화된다. 본발명의실시예들에따르면, 박막열전도성판의온도제어를통해입력신호를간편하고정확하게호스트부로전송할수 있다. 호스트부는박막열전도성판의온도변화를감지하여입력신호를그대로복원할수 있다. 종래기술과달리본 발명의실시예들에따르면, 입력신호의전송과정에서전자기파가발생하지않는다.
    • 提供了一种信号发送装置和使用该信号发送装置的信号发送系统。 根据本发明的实施例的信号发送装置包括:薄膜导热板,其形成信号发送装置的外部的一部分; 形成在薄膜导热板内的热电元件; 以及热电元件控制单元,其根据从外部获得的输入信号的尺寸来控制热电元件的温度。 提供本发明以使位于与信号传输装置分离的点处的主机能够感测薄膜导热板的温度变化,从而根据尺寸改变薄膜导热板的温度 的输入信号来恢复输入信号。 根据本发明的实施例,本发明通过控制薄膜导热板的温度来方便地并且准确地将输入信号发送到主机单元。 主机单元可以通过感测薄膜导热板的温度变化来完整地恢复输入信号。 当发送输入信号时,本发明不产生电磁波。
    • 9. 发明公开
    • 부피가 큰 구조물의 열특성 분석 방법 및 시스템
    • 一种用于分析大结构热特性的方法和系统
    • KR1020120116144A
    • 2012-10-22
    • KR1020110033716
    • 2011-04-12
    • 주식회사 엘에스엘시스템즈이기섭강호열
    • 이기섭강호열
    • G01J5/12G01N25/20
    • PURPOSE: A method and a system for analyzing thermal properties of a structure of a large volume are provided to calculate the thermal efficiency of a whole structure by measuring energy variations with respect to indoor and outdoor environments of the structure of a large volume for a long period, thereby performing an effective management based on the current energy consumption of the structure. CONSTITUTION: A method for analyzing thermal properties of a structure of a large volume comprises next steps. Energy variation in indoors and outdoors of a structure is measured for a predetermined period(S200). The energy efficiency of the structure is calculated by using measured data(S300). A portion where an energy leakage is predicted in the structure is photographed for a predetermined period by using a thermal image camera(S500). A difference between indoor energy and outdoor energy is calculated(S600). A partial energy loss rate of the structure is calculated by using the photographed images(S700). [Reference numerals] (AA) Start; (BB) Is an energy efficiency grade is below a reference value?; (CC) Finish; (S100) Setting a classifying criterion of energy efficiency; (S200) Measuring an energy variation in indoors and outdoors of a structure for a predetermined period; (S300) Calculating the energy efficiency of a structure by using measured data; (S400) Determining the energy efficiency of a structure according to a a classifying criterion; (S500) Photographing a portion where an energy leakage is predicted for a predetermined period by using a thermal image camera; (S600) Calculating an energy difference between indoor and outdoor energy of a structure by repeating S200 step; (S700) Calculating a partial energy loss rate of a structure by using images
    • 目的:提供一种用于分析大体积结构的热性能的方法和系统,通过测量长时间大容量结构的室内和室外环境的能量变化来计算整个结构的热效率 从而根据结构的当前能量消耗进行有效的管理。 构成:用于分析大体积结构的热性质的方法包括以下步骤。 测量结构的室内和室外能量变化预定时间(S200)。 通过使用测量数据计算结构的能量效率(S300)。 在结构中预测能量泄漏的部分通过使用热像摄像机拍摄预定时间段(S500)。 计算室内能量与室外能量的差异(S600)。 通过使用拍摄图像来计算结构的部分能量损失率(S700)。 (附图标记)(AA)开始; (BB)能效等级是否低于参考值? (CC)完成; (S100)设定能效分类标准; (S200)测量结构的室内和室外能量变化达预定时间段; (S300)通过使用测量数据计算结构的能量效率; (S400)根据分类标准确定结构的能量效率; (S500)使用热像摄像机拍摄预定期间的能量泄漏的部分; (S600)通过重复S200步骤计算结构的室内和室外能量之间的能量差; (S700)使用图像计算结构的部分能量损失率