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    • 2. 发明授权
    • Method for self localization using parallel projection model
    • 使用平行投影模型进行自定位的方法
    • US08432442B2
    • 2013-04-30
    • US12675344
    • 2007-10-25
    • Yun Young NamYun Tai KyongShung Han ChoSang Jin HongWe-Duke Cho
    • Yun Young NamYun Tai KyongShung Han ChoSang Jin HongWe-Duke Cho
    • H04N7/18
    • G06T7/73G06T2207/30244G06T2207/30252
    • A method of recognizing a self location of an image acquisition device by acquiring an image of two or more reference objects is provided. The method of the present invention comprises setting an actual camera plane, two or more reference object planes, and two or more virtual viewable planes located between the actual camera plane and the reference object planes; projecting the reference objects to a corresponding one of the virtual viewable planes; calculating a distance between a viewing axis and the reference objects and a distance between the viewing axis and images on the actual camera plane, the images corresponding to the reference objects; and sensing the self location of the image acquisition device by using an orientation and a zoom factor of the image acquisition device and coordinates of the reference objects, wherein the zoom factor is a ratio of a length of the reference object plane and a distance between the reference object plane and the virtual viewable plane, and the actual camera plane, the virtual viewable plane, and the reference object plane are perpendicular to the viewing axis.
    • 提供了通过获取两个或更多个参考对象的图像来识别图像获取装置的自身位置的方法。 本发明的方法包括设置实际相机平面,两个或更多个参考对象平面以及位于实际相机平面和参考对象平面之间的两个或多个虚拟可视平面; 将所述参考对象投影到所述虚拟可见平面中的对应的一个; 计算观察轴与参考对象之间的距离以及观察轴与实际相机平面上的图像之间的距离,对应于参考对象的图像; 以及通过使用所述图像获取装置的取向和缩放因子以及所述参考对象的坐标来感测所述图像采集装置的自身位置,其中,所述缩放因子是所述参考对象平面的长度与所述参考对象的距离的比率 参考物体平面和虚拟可见平面,实际相机平面,虚拟可见平面和参考对象平面垂直于视轴。
    • 3. 发明申请
    • METHOD FOR SELF LOCALIZATION USING PARALLEL PROJECTION MODEL
    • 使用并行投影模型进行自我定位的方法
    • US20100245564A1
    • 2010-09-30
    • US12675344
    • 2007-10-25
    • Yun Young NamYun Tai KyongShung Han ChoSang Jin HongWe-Duke Cho
    • Yun Young NamYun Tai KyongShung Han ChoSang Jin HongWe-Duke Cho
    • H04N7/18
    • G06T7/73G06T2207/30244G06T2207/30252
    • A method of recognizing a self location of an image acquisition device by acquiring an image of two or more reference objects is provided. The method of the present invention comprises setting an actual camera plane, two or more reference object planes, and two or more virtual viewable planes located between the actual camera plane and the reference object planes; projecting the reference objects to a corresponding one of the virtual viewable planes; calculating a distance between a viewing axis and the reference objects and a distance between the viewing axis and images on the actual camera plane, the images corresponding to the reference objects; and sensing the self location of the image acquisition device by using an orientation and a zoom factor of the image acquisition device and coordinates of the reference objects, wherein the zoom factor is a ratio of a length of the reference object plane and a distance between the reference object plane and the virtual viewable plane, and the actual camera plane, the virtual viewable plane, and the reference object plane are perpendicular to the viewing axis.
    • 提供了通过获取两个或更多个参考对象的图像来识别图像获取装置的自身位置的方法。 本发明的方法包括设置实际相机平面,两个或更多个参考对象平面以及位于实际相机平面和参考对象平面之间的两个或多个虚拟可视平面; 将所述参考对象投影到所述虚拟可见平面中的对应的一个; 计算观察轴与参考对象之间的距离以及观察轴与实际相机平面上的图像之间的距离,对应于参考对象的图像; 以及通过使用所述图像获取装置的取向和缩放因子以及所述参考对象的坐标来感测所述图像采集装置的自身位置,其中,所述缩放因子是所述参考对象平面的长度与所述参考对象的距离的比率 参考物体平面和虚拟可见平面,实际相机平面,虚拟可见平面和参考对象平面垂直于视轴。