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    • 1. 发明申请
    • Method for Determining an Ophthalmic Lens
    • 确定眼科镜片的方法
    • US20100149492A1
    • 2010-06-17
    • US12520865
    • 2007-11-20
    • Pascal AllioneDiane De Gaudemaris
    • Pascal AllioneDiane De Gaudemaris
    • G02C7/02A61B5/00
    • G02C7/02
    • The invention relates to a method for the optimisation determination of an ophthalmic lens that comprises the steps of: measuring parameters representative of the eye-head behaviour of the wearer; determining a central area on the lens having a diameter (Dc) that depends on the measured parameters representative of the eye-head behaviour; determining a peripheral area on the lens; optimising the lens when worn by the wearer by applying power and astigmatism target values in the central area and target values of a parameter different from the wearer's power in the peripheral area for given watching directions. The invention reduces the thickness of the lens and optimises the wearer's peripheral vision.
    • 本发明涉及一种用于眼科镜片优化确定的方法,该方法包括以下步骤:测量代表穿戴者眼睛头部行为的参数; 确定透镜上的中心区域具有取决于表示眼睛头部行为的测量参数的直径(Dc); 确定透镜周边区域; 通过在中心区域施加功率和像散目标值,并且在给定的观察方向上在外围区域中施加与佩戴者的功率不同的参数的目标值来优化佩戴者穿戴时的透镜。 本发明减小了透镜的厚度并优化了佩戴者的周边视力。
    • 3. 发明授权
    • Model for representing an ophthalmic lens surface
    • 用于代表眼科镜片表面的模型
    • US06789898B2
    • 2004-09-14
    • US10459157
    • 2003-06-11
    • Gilles Le SauxPascal Allione
    • Gilles Le SauxPascal Allione
    • G02C702
    • G02C7/061G02C7/063
    • An ophthalmic lens having a complex surface and a toric or spherical surface is represented in a model using a prism reference point and a prescription point on the complex surface, the normal to the complex surface at the prism reference point, the local characteristics of the complex surface at the prescription point or around the prescription point, lens thickness measured along the axis defined by the normal to the complex surface, the plane tangential to the toric or spherical surface on the axis, and the curvatures of the toric or spherical surface. Representation of the lens in this model allows calculation of the toric or spherical surface without knowing all the characteristics of the complex surface. Calculations are simpler for the fitting of the lens into frames adapted to the wearer.
    • 具有复杂表面和复曲面或球形表面的眼科镜片在模型中使用棱镜参考点和复杂表面上的处方点,棱镜参考点处的复合表面的法线表示,复合物的局部特征 在处方点或处方点周围的表面,沿着由复合表面的法线限定的轴线测量的透镜厚度,与轴上的复曲面或球形表面相切的平面以及复曲面或球形表面的曲率。 在该模型中,透镜的表示可以计算复曲面或球形表面,而无需了解复杂表面的所有特性。 对于将镜片装配到适合佩戴者的框架中,计算更简单。
    • 4. 发明申请
    • Process For Determining Position Parameters of a Manufactured Surface Relative To A Reference Surface
    • 确定相对于参考曲面的制造表面的位置参数的过程
    • US20140085627A1
    • 2014-03-27
    • US14116659
    • 2012-05-11
    • Jean-Pierre ChauveauPascal AllioneDaniel Steigelmann
    • Jean-Pierre ChauveauPascal AllioneDaniel Steigelmann
    • G01M11/02G01B21/00
    • G01M11/0242B24B13/00B24B49/04B24B51/00B29D11/00961G01B21/00G02C7/065G06Q50/04Y02P90/30
    • Determining position parameters defining relative position of manufactured derivable surface relative to reference surface, the process comprising: a step during which a nominal surface expressed in a nominal frame of reference and corresponding to the theoretical derivable surface to be manufactured with the nominal value of the position parameters defining the relative position of the nominal surface relative to the reference surface is provided, a step during which a measured surface of the manufactured derivable surface expressed in the nominal frame of reference is provided, a step (S3) during which at least one deformation surface defined by at least one deformation adjustable parameter is provided, a step (S4) during which a composed surface is determined by adding the measured surface and the deformation surface, a step during which the position parameters and at least one deformation parameter are determined by minimizing the difference between the nominal surface and the composed surface.
    • 确定定义制造的可衍生表面相对于参考表面的相对位置的位置参数,所述方法包括:步骤,在该步骤中以标称参考系的表面表示并对应于待制造的理论可推定表面的标称表面,其具有位置的标称值 提供了限定标称表面相对于参考表面的相对位置的参数,提供了在标称参考系中表示的所制造的可导出表面的测量表面的步骤,在该步骤(S3)期间,至少一个变形 提供由至少一个变形可调整参数限定的表面;步骤(S4),其中通过添加测量的表面和变形表面来确定组合表面;步骤(S4),其中位置参数和至少一个变形参数由 最小化标称表面和合成物之间的差异 表面。
    • 7. 发明申请
    • Method And Apparatus For Designing An Optical Lens
    • 用于设计光学透镜的方法和装置
    • US20120105800A1
    • 2012-05-03
    • US13381758
    • 2010-06-29
    • Pascal AllioneLaurent CalixteCyril Guilloux
    • Pascal AllioneLaurent CalixteCyril Guilloux
    • G02C7/06G02C7/02
    • G02C7/063G02C7/027G02C7/028
    • A method and an apparatus for designing an optical lens surface for the manufacture of the optical lens, the method comprising the steps of providing a reference surface Sref, the reference surface Sref being defined by a plurality of surface points Pi each surface point Pi having a mean sphere Sph(Pi) and a cylinder Cyl(Pi); providing at least one modifying surface layer SLmod(ξ1, . . . , ξN, x, y) the modifying surface layer SLmod being determined as a function of N adjustment parameters ξ1, ξ . . . , ξN; wherein N≧1 and the N adjustment parameters ξ1, ξ4, . . . , ξN are selected according to the desired optical properties of the optical target; combining the modifying surface layer SLmod with the reference surface Sref to obtain a target optical surface Star(x,y) according to the expression: Star(x,y)=Sref(x,y)+SLmod(ξ1, . . . , ξN, x, y); such that the value of surface parameter of at least one surface point Pi at a first region of the reference surface Sref is modified without modifying a surface parameter of at least one surface point Pi at a second region of the reference surface Sref, distanced from the first region.
    • 一种用于设计用于制造光学透镜的光学透镜表面的方法和装置,所述方法包括以下步骤:提供参考表面Sref,所述参考表面Sref由多个表面点Pi限定,每个表面点Pi具有 平均球体Sph(Pi)和气缸Cyl(Pi); 提供至少一个改性表面层SLmod(&xgr; 1,...,&xgr; N,x,y),所述修饰表面层SLmod被确定为N个调整参数&xgr; 1,&xgr; 。 。 。 ,&xgr; N; 其中N≥1和N个调整参数&xgr; 1,&xgr; 4,...。 。 。 ,&xgr; N根据光学目标的期望的光学性质来选择; 将修改表面层SLmod与参考表面Sref组合以根据以下表达式获得目标光学表面Star(x,y):Star(x,y)= Sref(x,y)+ SLmod(&xgr; 1,...) 。,&xgr; N,x,y); 使得在参考表面Sref的第一区域处的至少一个表面点Pi的表面参数的值被修改,而不修改参考表面Sref的第二区域处的至少一个表面点Pi的表面参数, 第一区。