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    • 4. 发明申请
    • BRIGHTNESS-DEPENDENT ADJUSTMENT OF A SPECTACLE LENS
    • 透明度调节透镜
    • US20140340637A1
    • 2014-11-20
    • US14365151
    • 2012-12-13
    • Rodenstock GmbH
    • Stephan TrummPeter SeitzRainer SessnerAdam MuschielokHelmut AltheimerWolfgang BeckenAndrea WelkAnne SeidemannWolfgang HaukGregor Esser
    • G02C7/02A61B3/14G02C7/06A61B3/11
    • G02C7/027A61B3/11A61B3/112A61B3/14G02C7/02G02C7/06G02C7/066
    • Adjustment of an eyeglass lens or a pair of eyeglasses by means of an individual brightness-dependent centering of an eyeglass lens. In particular, a method for adjusting an individual eyeglass lens for at least one eye of an eyeglass wearer. The method includes defining an individual usage situation which includes at least one target brightness value for the light to be captured by the at least one eye; determining a position of the pupil in at least one direction of view of the at least one eye which occurs or is expected at the at least one target brightness value; determining a reference point of the eyeglass lens, in which the eyeglass lens effects a required correction of individual refraction data for the at least one direction of view; on the basis of the determined individual value of the pupil position, providing and arranging the eyeglass lens in such a manner that the at least one reference point of the eyeglass lens is arranged in front of the at least one eye of the eyeglass wearer.
    • 通过单独的亮度依赖的眼镜镜片中心来调整眼镜镜片或一副眼镜。 特别地,涉及一种用于调整眼镜佩戴者的至少一只眼睛的单个眼镜镜片的方法。 该方法包括定义个体使用情况,其包括用于由至少一只眼睛捕获的光的至少一个目标亮度值; 确定在所述至少一个目标亮度值发生或预期的至少一个眼睛的至少一个方向上的瞳孔的位置; 确定所述眼镜镜片的参考点,其中所述眼镜镜片对所述至少一个方向进行各个折射数据的所需校正; 基于确定的瞳孔位置的个体值,提供并布置眼镜镜片,使得眼镜镜片的至少一个参考点布置在眼镜佩戴者的至少一只眼睛的前方。
    • 9. 发明授权
    • Eyeglass optimization using an individual eye model
    • US09910294B2
    • 2018-03-06
    • US14371376
    • 2013-01-11
    • Rodenstock GmbH
    • Helmut AltheimerWolfgang BeckenGregor EsserAnne SeidemannWerner Mueller
    • G06G7/48G02C7/02
    • G02C7/027G02C7/028
    • A computer-implemented method for calculating or optimizing a spectacle lens for at least one eye of a spectacle wearer. Refraction data of the at least one eye of the spectacle wearer is collected. An individual eye model is defined, wherein the eye model defines at least the topography of a corneal front surface of the at least one eye, position and power of a lens of the eye, and a retina position of the eye such that the eye exhibits the collected refraction data. A first surface and a second surface for the spectacle lens to be calculated or optimized is specified. The path of a main ray through at least one visual point of at least one spectacle lens surface to be calculated or optimized is determined. A spherical wavefront incident on the first surface of the spectacle lens along the main ray is specified. A wavefront in the at least one eye, which results from the spherical wavefront in a surrounding of the main ray due to the power of at least the first and second surfaces of the spectacle lens, the corneal front surface, and the lens of the at least one eye is determined. The at least one spectacle lens surface to be calculated or optimized is iteratively varied until an aberration of the resulting wavefront corresponds to a specified target aberration.