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公开(公告)号:KR101153948B1
公开(公告)日:2012-06-08
申请号:KR1020100008416
申请日:2010-01-29
Applicant: 건양대학교산학협력단
Abstract: 본발명은이동문이닫힌상태에서이동문과고정문의틈새가차단되는자동문및 그제어방업을개시한다. 본발명의자동문및 그제어방법은문틀에고정되는고정문과상기고정문과평행하게이동되는이동문을이동시키는이동수단, 상기이동수단에의해수평이동된이동문을상기고정문과일직선상으로일치되게이동시키는직각이동수단을포함한다. 이와같은본 발명은이동문이닫힌상태에서고정문과일직선상으로위치되도록이동되므로고정문과이동문사이의틈새를밀폐시키게되고, 고정문과이동문사이의틈새가밀폐됨에따라온도, 소음, 방풍등의효과를갖게되며, 실내로온도, 소음등이차단되어쾌적하고조용한실내환경이조성되고, 틈새가밀폐되므로냉난방에따른열효율을극대화시키는유용한효과가있다.
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公开(公告)号:KR1020080114171A
公开(公告)日:2008-12-31
申请号:KR1020070063495
申请日:2007-06-27
Applicant: 건양대학교산학협력단
Inventor: 오도창
Abstract: A bio signal measurement system using a walk movement tool is presented to solve the absence of portability and to monitor electrocardiogram simply without a patient going to hospital. According to a bio signal measurement system using a walk movement tool, a bio signal is transferred through a right arm support part and a left arm support part and electrodes(3a, 3b) connected to a right foot holder. The bio signal is transferred to an ECG module(8). The ECG module transmits the measured signal to a display module(9) and a sensor network node(10). A main node(13) is connected to a server(14) through a wire, and the server analyzes electrocardiogram signals from each patient, and these information can be checked by the patient or a helper through an LCD screen of the display module.
Abstract translation: 提出了一种使用步行移动工具的生物信号测量系统,以解决不存在便携性,并且无需病人去医院即可监测心电图。 根据使用步行移动工具的生物信号测量系统,生物信号通过右臂支撑部分和左臂支撑部分以及连接到右脚架的电极(3a,3b)传递。 生物信号被传送到ECG模块(8)。 ECG模块将测量的信号发送到显示模块(9)和传感器网络节点(10)。 主节点(13)通过线连接到服务器(14),并且服务器分析来自每个患者的心电图信号,并且可以由患者或辅助者通过显示模块的LCD屏幕来检查这些信息。
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公开(公告)号:KR1020110088760A
公开(公告)日:2011-08-04
申请号:KR1020100008416
申请日:2010-01-29
Applicant: 건양대학교산학협력단
CPC classification number: E05F15/70 , E05F15/71 , E05Y2201/682 , E05Y2201/688 , E05Y2400/322 , E05Y2800/352
Abstract: PURPOSE: An automatic door and a control method thereof are provided to block noise and wind by sealing a gap between a fixed door and a movable door. CONSTITUTION: An automatic door comprises a moving unit and vertical moving units(150). The moving unit opens and closes a fixed door(112) and a movable door(113). The fixed door is fixed to a door frame(111). The moving unit parallelly moves the movable door to the fixed door. The vertical moving unit moves the movable door parallelly moved by the moving unit. The door frame comprises an upper support(114) and a lower support(115). The upper support is horizontally fixed to the top of the door frame. The lower support is horizontally fixed to the bottom of the upper support.
Abstract translation: 目的:提供一种自动门及其控制方法,通过密封固定门和可移动门之间的间隙来阻挡噪音和风。 构成:自动门包括移动单元和垂直移动单元(150)。 移动单元打开和关闭固定门(112)和可移动门(113)。 固定门固定在门框(111)上。 移动单元平行地将可移动门移动到固定门。 垂直移动单元移动由移动单元平行移动的可移动门。 门框包括上支撑件(114)和下支撑件(115)。 上支架水平固定在门框的顶部。 下支架水平固定在上支架的底部。
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Patent Agency Ranking
公开(公告)号:KR100910629B1
公开(公告)日:2009-08-05
申请号:KR1020070063495
申请日:2007-06-27
Applicant: 건양대학교산학협력단
Inventor: 오도창
Abstract: 본 발명은 환자들이 사용하는 보행이동기구(일명 "휠체어" 라함)를 활용하여 심전도(ECG:Electrocardiogram)를 측정함으로써 환자의 건강상태를 실시간으로 모니터링할 수 있는 생체신호 측정장치에 관한 것으로, 보다 상세하게는 환자의 보행이동기구에 사지전극만을 이용한 심전도 측정장치를 부착하여 시간적, 공간적 제약 없이 언제 어디서 누구나 손쉬운 사용이 가능할 뿐 아니라 심전도를 24시간 모니터링 할 수 있도록 하고, 특히 거동이 불편한 환자가 이동 중에도 심전도를 모니터링 할 수 있도록 한 보행이동기구를 활용한 생체신호 측정장치에 관한 것이다.
보행이동기구, 심전도(ECG:Electrocardiogram), 전극, ECG 모듈-
公开(公告)号:KR1020070114544A
公开(公告)日:2007-12-04
申请号:KR1020060048256
申请日:2006-05-29
Applicant: 건양대학교산학협력단 , 오도창
Inventor: 오도창
IPC: A61B5/04
Abstract: A physiological signal measurement system is provided to measure a physiological signal of a user by installing a measurement electrode in a wheelchair or a baby walker. A measurement module is formed to detect a physiological signal of a user by using a finger-shaped measurement electrode formed at a handle part of one of a wheelchair and a baby walker. A management module(110) receives the physiological signal through a wire communication unit or a wireless communication unit from the measurement module in order to observe a state of the user. The measurement module includes a display for displaying the physiological signal of the measurement electrode, a sensor node(108) for collecting and processing the physiological signal, and a power control unit for controlling the sensor node.
Abstract translation: 提供生理信号测量系统以通过将测量电极安装在轮椅或婴儿步行器中来测量用户的生理信号。 测量模块形成为通过使用形成在轮椅和婴儿步行者之一的手柄部分处的手指形状的测量电极来检测用户的生理信号。 管理模块(110)通过有线通信单元或无线通信单元从测量模块接收生理信号,以观察用户的状态。 测量模块包括用于显示测量电极的生理信号的显示器,用于收集和处理生理信号的传感器节点(108),以及用于控制传感器节点的功率控制单元。
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公开(公告)号:KR1020080069392A
公开(公告)日:2008-07-28
申请号:KR1020070007052
申请日:2007-01-23
Applicant: 건양대학교산학협력단 , 최동혁
IPC: A61B5/0456 , A61B5/0452
Abstract: A method for detecting an R peak of an electrocardiogram signal is provided to select the R peak exactly by evaluating suitability of an R peak candidate by using a central R peak in spite of a motion artifact. A method for detecting an R peak of an electrocardiogram signal includes the steps of: calculating a moving average with a width of 120msec; selecting a signal with the maximum in a signal region with 0.5mV or more than the moving average as an R peak candidate; selecting a point of time when the R peak has the most similar shape to a current R peak between 0.3 to 1.0 second from the R peak; and calculating an interval RRi between a point of time of the current R peak and the selected point of time, calculating a histogram of the RRis, and determining the interval with the maximum to be a period of the current R peak.
Abstract translation: 提供了用于检测心电图信号的R峰的方法,通过使用中心R峰尽可能的运动假象来评估R峰值候选的适合性来精确地选择R峰。 用于检测心电图信号的R峰值的方法包括以下步骤:计算宽度为120毫秒的移动平均值; 在具有0.5mV或更大于移动平均值的信号区域中选择具有最大值的信号作为R峰值候选; 选择当R峰与R峰的0.3至1.0秒之间的当前R峰最相似形状的时间点; 并且计算当前R峰值的时间点和所选择的时间点之间的时间间隔RRi,计算RRis的直方图,并且确定最大值为当前R峰值周期的间隔。
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公开(公告)号:KR1020060119472A
公开(公告)日:2006-11-24
申请号:KR1020050042528
申请日:2005-05-20
Applicant: 건양대학교산학협력단
IPC: A61B5/0456
Abstract: A method for removing baseline wander of an electrocardiogram signal is provided to remove the baseline wander of the electrocardiogram signal regardless of slow baseline wander or rapid baseline wander, by finding out and removing the baseline wander, by finding out a uniform wander part in one period of the electrocardiogram signal statistically and then connecting the part through interpolation method to find out the baseline wander. An absolute value of an electrocardiogram(ECR) signal value of two points having distance of K between two peak points(P1,P2) of the ECR signal waveform is obtained(S100). Histogram is obtained with each absolute value after obtaining a number of absolute values among two peak points(S200). A number of reference points are detected from a maximum value of the histogram(S300). A baseline wander line is obtained by obtaining a baseline wander value by connecting the detected reference points through an interpolation method(S400). An R peak point is obtained by moving the baseline wander point upward as much as a threshold value, and reference points belonging to a reference point removal range are moved by setting the reference point removal range before and after the R peak point(S500). Then, an ECR waveform removing the baseline wander is obtained by removing the baseline wander line from the ECR waveform after obtaining the baseline wander value by connecting remained reference points through an interpolation method(S600).
Abstract translation: 提供了一种用于消除心电图信号的基线漂移的方法,以通过发现和消除基线漂移,通过在一个周期中找出均匀的漫游部分来消除心电图信号的基线漂移,而不管基线漂移或快速基线漂移 的心电图信号进行统计学分析,然后通过插值法连接部分,找出基线漂移。 获得ECR信号波形的两个峰值点(P1,P2)之间的距离为K的两点的心电图(ECR)信号值的绝对值(S100)。 在获得两个峰值点之间的绝对值数后,通过每个绝对值获得直方图(S200)。 从直方图的最大值检测多个参考点(S300)。 通过通过内插方法连接检测到的参考点来获得基线漂移值来获得基线漂移线(S400)。 通过将基线漂移点向上移动到阈值上方获得R峰值点,并且通过设置R峰值点之前和之后的参考点去除范围来移动属于参考点去除范围的参考点(S500)。 然后,通过通过插值方法连接剩余参考点获得基线漂移值之后,通过从ECR波形中去除基线漂移线来获得去除基线漂移的ECR波形(S600)。
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