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    • 53. 发明授权
    • Method for determining at least one geometric/physiognomic parameter associated with the mounting of an ophthalmic lens in a spectacle frame worn by a user
    • 用于确定与由用户佩戴的眼镜框中安装眼用透镜相关联的至少一个几何/生理参数的方法
    • US09116365B2
    • 2015-08-25
    • US13985170
    • 2011-12-30
    • Ahmed HaddadiJean Delzers
    • Ahmed HaddadiJean Delzers
    • G02C13/00A61B3/11A61B5/00
    • G02C13/005A61B3/111A61B5/6803
    • Method includes: (a) placing on a user's head an accessory including at least one brightness calibration element having at least two contrasted zones; (b) capturing an image of the user's head with the accessory thereon with a device; (c) determining the position of the image of the brightness calibration element of the accessory on the captured image; (d) determining a measured value of the brightness of one part of the image of the brightness calibration element or of the image located close to the brightness calibration element; (e) modifying a parameter for adjusting the optical image-acquisition conditions of the device as a function of the measured value to improve the contrast of the image of contrasted zones of the calibration element; (f) capturing another image with the modified parameter for adjusting the optical acquisition conditions; and (g) determining the required geometric/physiognomic mounting parameter on the basis of the other image.
    • 方法包括:(a)将包括至少一个具有至少两个对比区域的至少一个亮度校准元​​件的附件放置在用户的头上; (b)用设备用附件在其上拍摄用户头部的图像; (c)确定附件的亮度校准元​​件的图像在拍摄图像上的位置; (d)确定亮度校准元​​件的图像的一部分或靠近亮度校准元​​件的图像的亮度的测量值; (e)修改用于根据测量值调节装置的光学图像采集条件的参数,以改善校准元件的对比区域的图像的对比度; (f)利用用于调整光学获取条件的修改参数来捕获另一图像; 和(g)基于另一图像确定所需的几何/平均安装参数。
    • 57. 发明授权
    • Method and apparatus for generating a surface of an optical lens
    • 用于产生光学透镜表面的方法和装置
    • US09002491B2
    • 2015-04-07
    • US13381702
    • 2010-06-29
    • Pascal AllioneFabien MuradoreJordan Brouns
    • Pascal AllioneFabien MuradoreJordan Brouns
    • G05B19/42G06F19/00G02C7/00G02C7/06
    • G02C7/061G02C2202/08
    • A method of generating a target surface {tilde over (S)}( λ) of an optical lens for the manufacture of the optical lens according to optical lens parameters λ, the method comprising: providing a set of L first surface difference data E(λj) each first surface difference data E(λj) corresponding to the surface difference between a pre-calculated surface Sλjpc(αλj) (j=1, . . . , L) and an initial surface Sλjini (j=1, . . . , L), from which the target surface will be generated, according to the expression: E(λj)=Sλjpc(αλj)−Sλjini (j=1, . . . , L) where λj (j=1, . . . , L) correspond to the optical lens parameters of the pre-calculated optical lenses; providing a set of second surface difference data {tilde over (E)}( λ) corresponding to the surface difference between the target optical surface {tilde over (S)}( λ) and the initial surface S λini by linear interpolation of the first surface difference data E(λj) according to the expression: E ~ ⁡ ( λ _ ) = ∑ j = 1 L ⁢ w j λ _ ⁢ E ⁡ ( λ j ) , where wj λ represents an interpolation coefficient; and; determining the target surface {tilde over (S)}( λ) by combining the second surface difference data {tilde over (E)}( λ) and the initial surface S λini according to the expression: {tilde over (S)}( λ)={tilde over (E)}( λ)+S λini.
    • 一种根据光学透镜参数λ产生用于制造光学透镜的光学透镜的(S)}(λ)的目标表面的方法,所述方法包括:提供一组L个第一表面差异数据E( λj)对应于预先计算的表面Sλjpc(αλj)(j = 1,...,L)和初始表面Sλjini(j = 1,...)之间的表面差的每个第一表面差数据E(λj) ,L),根据以下表达式,将产生目标表面:E(λj)=Sλjpc(αλj)-Sλjini(j = 1,...,L)其中λj(j = 1,..., ,L)对应于预计算的光学透镜的光学透镜参数; 提供一组对应于目标光学表面(波形)(S)}(λ)和初始表面Sλini之间的表面差对应于(E)}(λ)的波前符号, 表面差数据E(λj)根据以下表达式:E⁡(λ_)=Σj = 1 L wjλ_E⁡(λj),其中wjλ表示插值系数; 和; 通过将(E)}(λ)上的第二表面差异数据(波前)与初始表面Sλini组合来确定目标表面{波前(S)}(λ) λ)= {波前(E)}(λ)+ Sλini。
    • 59. 发明授权
    • Optical function determining method
    • 光学功能测定方法
    • US08882268B2
    • 2014-11-11
    • US13500810
    • 2010-10-07
    • Laurent CalixteCyril Guilloux
    • Laurent CalixteCyril Guilloux
    • G02C7/02G02C7/06
    • G02C7/061G02C7/027
    • A method implemented by computer means for determining a virtual wearer-ophthalmic lens-ergorama system associated with an optical function of an ophthalmic lens for a given wearer, comprising: a prescription data providing step, an optical reference surface data providing step, a virtual wearer-ophthalmic lens-ergorama system determining step, a criteria selecting step, a target value defining step, an evaluation step, and a modification step, in which at least one parameter of the virtual wearer-ophthalmic lens-ergorama system different from the base curve of the ophthalmic lens is modified, in order to minimize the difference between the target value and the evaluation criterion value.
    • 一种用于确定与给定佩戴者的眼科镜片的光学功能相关联的虚拟佩戴者眼科镜片美容系统的计算机装置的方法,包括:处方数据提供步骤,光学参考表面数据提供步骤,虚拟佩戴者 眼球透镜自适应系统确定步骤,标准选择步骤,目标值定义步骤,评估步骤和修改步骤,其中虚拟佩戴者眼科镜片系统的至少一个参数与基本曲线不同 以便最小化目标值和评估标准值之间的差异。
    • 60. 发明授权
    • Progressive multifocal ophthalmic lens
    • 渐进多焦点眼科镜片
    • US08876288B2
    • 2014-11-04
    • US13578050
    • 2011-02-08
    • Marie-Anne BerthezeneBernard BourdoncleLaurent CalixteCyril GuillouxSoazic MoussetDamien Paille
    • Marie-Anne BerthezeneBernard BourdoncleLaurent CalixteCyril GuillouxSoazic MoussetDamien Paille
    • G02C7/06
    • G02C7/063
    • The invention relates to a finished or semi-finished lens which comprises: a disc containing all the points of the lens that have the same abscissa and the same ordinate as points located within a circle in the reference plane having a diameter of 30 millimeters and centered on the prism reference point; a progression length of less than 14.5 millimeters; a first specific point having a cylinder value equal to the maximum cylinder value of all the points of the lens located in the nasal area and in the disc; and a second specific point having a cylinder value equal to the maximum cylinder value of all the points of the lens located in the temporal area and in the disc; a first ratio between: the maximum gradient of the cylinder for the points of the lens that have the same abscissa and the same ordinate as the points located on segments connecting the mounting cross to the first and second specific points, and surface addition of less than 0.095 per millimeter; and a second ratio between: the maximum cylinder value of the first and second specific points, and surface addition of no more than 0.85. The invention enhances the comfort of the wearer.
    • 本发明涉及成品或半成品透镜,其包括:盘,其包含具有与参考平面中具有相同横坐标的相同坐标的点的相同坐标,所述点位于具有30毫米直径的参考平面内的圆内,并且居中 在棱镜参考点上; 进展长度小于14.5毫米; 第一具体点具有等于位于鼻区域和盘中的透镜的所有点的最大圆柱值的圆柱值; 以及第二特定点,其具有等于位于所述时间区域和所述盘中的所述透镜的所有点的最大圆柱值的圆柱值; 第一比例是:具有相同横坐标的透镜的点的圆柱体的最大梯度和与将安装横截面连接到第一和第二特定点的分段上的点相同的纵坐标,以及表面加法小于 0.095每毫米; 并且第二比率为:第一和第二特定点的最大圆柱值,表面添加量不大于0.85。 本发明增强了佩戴者的舒适度。