Interferometer and spatial interference fourier transform spectrometer
    1.
    发明授权
    Interferometer and spatial interference fourier transform spectrometer 有权
    干涉仪和空间干涉傅里叶变换光谱仪

    公开(公告)号:US08830475B1

    公开(公告)日:2014-09-09

    申请号:US13969634

    申请日:2013-08-19

    CPC classification number: G01J3/45 G01J3/021 G01J3/4531 G01J3/4532

    Abstract: Disclosed is an interferometer comprising a light source, a reflective element, and a photodetector. The light source is configured to emit a light beam, and an angle is formed by inclusion between a direction to which the light beam travels and the reflective element, the photodetector is configured to be substantially perpendicular to the reflective element. The light beam is halved into a first light beam propagating by the included angle, and a second light beam reflected off the reflective element, the first light beam and the second light beam interfere each other to form an interferogram on the photodetector, which detects the interferogram. By benefit of above, the interferometer does not need to reposition its parts in order to make adjustment to interferogram, thereby simplifying optical element setup and minimizing physical volume of the interferomger. Also disclosed is a spectrometer including the same interferometer and a Fourier-transform-capable analyzer.

    Abstract translation: 公开了一种包括光源,反射元件和光电检测器的干涉仪。 光源被配置为发射光束,并且通过在光束行进的方向与反射元件之间包含形成角度,光电检测器被配置为基本上垂直于反射元件。 光束被分成一个以夹角传播的第一光束,并且从反射元件反射的第二光束,第一光束和第二光束彼此相互干涉以在光电检测器上形成干涉图,该光检测器检测 干涉图。 受益于上述,干涉仪不需要重新定位其部件以便调整干涉图,从而简化了光学元件的设置并使干涉仪的体积最小化。 还公开了包括相同干涉仪和具有傅里叶变换的分析仪的光谱仪。

    Limb movement function evaluating method and implantation system thereof

    公开(公告)号:US10413220B2

    公开(公告)日:2019-09-17

    申请号:US15160241

    申请日:2016-05-20

    Abstract: A limb movement function evaluating method and the implantation system are provided. The aforementioned system includes a limb fixing device, limb guiding device, driver, actuator, impedance detector, and movement function analyzer. The limb fixing device is used to fix the first end of the user limb. The driver is used to guide the second end of the user limb through the actuator so as to make the second end moving relatively to the first end. The impedance detector is further connected to the driver so as to measure mechanical impedance where the movement of the user limb responses to the driving point of the driver. Finally, the limb movement analyzer compares the measured mechanical impedance and the movement path of the user limb so as to form a limb movement function curve. Therefore, the medical staff can make accurate rehabilitation evaluation according to the limb movement function curve.

    LIMB MOVEMENT FUNCTION EVALUATING METHOD AND IMPLANTATION SYSTEM THEREOF
    4.
    发明申请
    LIMB MOVEMENT FUNCTION EVALUATING METHOD AND IMPLANTATION SYSTEM THEREOF 审中-公开
    LIMB运动功能评估方法及其植入系统

    公开(公告)号:US20170042455A1

    公开(公告)日:2017-02-16

    申请号:US15160241

    申请日:2016-05-20

    Abstract: A limb movement function evaluating method and the implantation system are provided. The aforementioned system includes a limb fixing device, limb guiding device, driver, actuator, impedance detector, and movement function analyzer. The limb fixing device is used to fix the first end of the user limb. The driver is used to guide the second end of the user limb through the actuator so as to make the second end moving relatively to the first end. The impedance detector is further connected to the driver so as to measure mechanical impedance where the movement of the user limb responses to the driving point of the driver. Finally, the limb movement analyzer compares the measured mechanical impedance and the movement path of the user limb so as to form a limb movement function curve. Therefore, the medical staff can make accurate rehabilitation evaluation according to the limb movement function curve.

    Abstract translation: 提供肢体运动功能评估方法和植入系统。 上述系统包括肢体固定装置,肢体引导装置,驱动器,致动器,阻抗检测器和运动功能分析器。 肢体固定装置用于固定使用者肢体的第一端。 驱动器用于引导用户肢体的第二端穿过致动器,以使第二端相对于第一端移动。 阻抗检测器还连接到驱动器,以便测量用户肢体的运动响应于驾驶员的驾驶点的机械阻抗。 最后,肢体运动分析仪比较测量的机械阻抗和使用者肢体的运动路径,形成肢体运动功能曲线。 因此,医务人员可以根据肢体运动功能曲线进行准确的康复评估。

Patent Agency Ranking