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    • 2. 发明申请
    • Method for the Determination of a Progressive Ophthalmic Lens
    • 确定进行性眼科镜片的方法
    • US20070242220A1
    • 2007-10-18
    • US11679372
    • 2007-02-27
    • Cyril GuillouxDiane GaudemarisMarie-Anne BerthezeneCeline Carimalo
    • Cyril GuillouxDiane GaudemarisMarie-Anne BerthezeneCeline Carimalo
    • G02C7/06
    • G02C7/061G02C7/027G02C13/005
    • A method for the determination by optical optimization of a personalized progressive ophthalmic lens intended to be inserted into a frame chosen by a given wearer for whom a power addition has been prescribed in near vision, the method comprising the stages of: measuring parameters representing the frame chosen by the wearer; choosing an initial distribution of power and resulting astigmatism defect targets for each direction of viewing under wearing conditions in an ordinary frame; calculating transformation coefficients using the measured parameters representing the chosen frame and standard parameters; calculating a personalized distribution of the power and resulting astigmatism defect targets on the lens by applying the calculated transformation coefficients to the initial distribution. The method makes it possible to retain the proportion of the distribution between the far-vision, near-vision and intermediate-vision zones whatever the size and the shape of the frame chosen.
    • 一种用于通过光学优化来确定旨在被插入由在近视中规定了功率增加的给定佩戴者选择的框架中的个性化渐进式眼镜片的方法,所述方法包括以下步骤:测量表示所述框架的参数 由佩戴者选择; 在普通框架中选择在穿戴条件下的每个观察方向的功率和所得散光缺陷目标的初始分布; 使用表示所选择的帧和标准参数的测量参数来计算变换系数; 通过将计算的变换系数应用于初始分布来计算透镜上的功率和所得散光缺陷目标的个性化分布。 无论选择的框架的大小和形状如何,该方法都可以保持远视,近视和中视区之间的分布比例。
    • 4. 发明授权
    • Ophthalmic progressive addition lens with customized design feature
    • 具有定制设计特征的眼科渐进附加镜片
    • US08109631B2
    • 2012-02-07
    • US12524210
    • 2008-01-18
    • Cyril GuillouxBruno DecretonDiane De Gaude-MarisMarie-Anne BerthezeneCeline Carimalo
    • Cyril GuillouxBruno DecretonDiane De Gaude-MarisMarie-Anne BerthezeneCeline Carimalo
    • G02C7/02G02C7/06
    • G02C7/065G02C7/02G02C7/028
    • A method for manufacturing an ophthalmic progressive addition lens (100) with customized design features adapted to a wearer, the method comprising the following steps: /a/ a providing step of a lens substrate; /b/ a modifying step in which a first target virtual lens is provided and modified so as to obtain a second target virtual lens, the second target virtual lens having a design feature parameter substantially equal to a customized design feature parameter; /c/ an optimizing step in which an optimized trial virtual lens is obtained by optimizing a trial virtual lens in such a manner that the optimized trial virtual lens has optical characteristics which are substantially equal to the characteristics of the second target virtual lens; and /d/ a manufacturing step of the ophthalmic progressive addition lens from the lens substrate according to the trial virtual lens. Method for the determination of a customized ophthalmic progressive addition lens with customized design features. Related computer program product.
    • 一种用于制造具有适合于穿着者的定制设计特征的眼用渐进附加镜片(100)的方法,所述方法包括以下步骤:/ a / a提供镜片基底的步骤; / b / a修改步骤,其中提供和修改第一目标虚拟透镜以便获得第二目标虚拟透镜,所述第二目标虚拟透镜具有基本上等于定制设计特征参数的设计特征参数; / c /优化步骤,其中通过以优化的试用虚拟透镜具有基本上等于第二目标虚拟透镜的特性的光学特性的方式优化试用虚拟透镜来获得优化的试用虚拟透镜; 和/ d / a,根据试验虚拟透镜从透镜基片制造眼科渐进附加透镜。 用于确定具有定制设计特征的定制眼用渐进附加镜片的方法。 相关电脑程式产品。
    • 6. 发明申请
    • OPTHALMIC PROGRESSIVE ADDITION LENS WITH CUSTOMIZED DESIGN FEATURE
    • 具有自定义设计功能的OPALALMIC渐进式附加镜头
    • US20100079722A1
    • 2010-04-01
    • US12524210
    • 2008-01-18
    • Cyril GuillouxBruno DecretonDiane De Gaude-MarisMarie-Anne BerthezeneCeline Carimalo
    • Cyril GuillouxBruno DecretonDiane De Gaude-MarisMarie-Anne BerthezeneCeline Carimalo
    • G02C7/06G06F17/50
    • G02C7/065G02C7/02G02C7/028
    • A method for manufacturing an ophthalmic progressive addition lens (100) with customized design features adapted to a wearer, the method comprising the following steps: /a/ a providing step of a lens substrate; /b/ a modifying step in which a first target virtual lens is provided and modified so as to obtain a second target virtual lens, the second target virtual lens having a design feature parameter substantially equal to a customized design feature parameter; /c/ an optimizing step in which an optimized trial virtual lens is obtained by optimizing a trial virtual lens in such a manner that the optimized trial virtual lens has optical characteristics which are substantially equal to the characteristics of the second target virtual lens; and /d/ a manufacturing step of the ophthalmic progressive addition lens from the lens substrate according to the trial virtual lens. Method for the determination of a customized ophthalmic progressive addition lens with customized design features. Related computer program product.
    • 一种用于制造具有适合于穿着者的定制设计特征的眼用渐进附加镜片(100)的方法,所述方法包括以下步骤:/ a / a提供镜片基底的步骤; / b / a修改步骤,其中提供和修改第一目标虚拟透镜以便获得第二目标虚拟透镜,所述第二目标虚拟透镜具有基本上等于定制设计特征参数的设计特征参数; / c /优化步骤,其中通过以优化的试用虚拟透镜具有基本上等于第二目标虚拟透镜的特性的光学特性的方式优化试用虚拟透镜来获得优化的试用虚拟透镜; 和/ d / a,根据试验虚拟透镜从透镜基片制造眼科渐进附加透镜。 用于确定具有定制设计特征的定制眼用渐进附加镜片的方法。 相关电脑程式产品。
    • 7. 发明申请
    • Progressive Ophthalmic Lens
    • 进行性眼科镜片
    • US20070242217A1
    • 2007-10-18
    • US11569910
    • 2005-05-31
    • Celine CarimaloCyril GuillouxEric Roland
    • Celine CarimaloCyril GuillouxEric Roland
    • G02C7/06
    • G02C7/063G02C7/06G02C7/061G02C7/066
    • The invention relates to an ophthalmic lens for long-sighted and intermediate vision comprising a complex surface provided with an optical centre, a substantially umbilicated meridian line and an average size sphere progression on the top surface equal to or greater than 0.50 diopters. The complex surface is provided in the top part thereof with a long-sighted vision area which is formed by cylinder points equal to or less than 0.25 diopters and covers an angular sector focused on the optical centre and whose angle is equal to 160°. Said complex surface also comprises an average size substantially constant sphere on the meridian line in the long-sighted vision area and a progression length equal to or less than 12 mm. Said progression length is defined as a vertical distance between the optical centre and a median point for which the average sphere if greater than 85% of progression on the average sphere in the optical centre. The inventive lens is suitable for driving and prescribed to persons having additional prescription greater than a power progression, whereby a correction adaptable to the power prescription of a longsighted vision person is provided in the top part of the lens. The lower part of the lens ensures the correction needed for an intermediate vision person.
    • 本发明涉及一种用于长视觉和中间视觉的眼科镜片,其包括具有光学中心,基本上脐带子午线和在顶表面上的平均尺寸球形进展等于或大于0.50屈光度的复合表面。 复杂的表面在其顶部设置有由等于或小于0.25屈光度的圆柱点形成的远视视觉区域,并且覆盖聚焦在光学中心上并且其角度等于160°的角扇区。 所述复合表面还包括在远视视野区域的子午线上的平均尺寸基本上恒定的球体以及等于或小于12mm的进展长度。 所述进展长度被定义为光学中心与中心点之间的垂直距离,平均球体如果在光学中心的平均球体上大于进展的85%。 本发明的镜片适用于驾驶和规定为具有大于功率进展的额外处方的人员,由此在透镜的顶部设置适用于远视者的功率处方的校正。 透镜的下半部分确保中间视觉人员需要进行校正。
    • 8. 发明申请
    • Method for the Determination of a Progressive Ophthalmic Lens
    • 确定进行性眼科镜片的方法
    • US20070242221A1
    • 2007-10-18
    • US11679395
    • 2007-02-27
    • Cyril GuillouxDiane De GaudemarisCeline Carimalo
    • Cyril GuillouxDiane De GaudemarisCeline Carimalo
    • G02C7/02
    • G02C13/005G02C7/025G02C7/027G02C7/061
    • A method for the determination by optical optimization of a personalized progressive ophthalmic lens intended to be inserted into a frame chosen by a given wearer for whom a power addition has been prescribed in near vision, the method comprising the stages of: determining at least one parameter representing the frame chosen by the wearer; measuring parameters representing the wearer's head-eye behaviour; weighting the parameters representing the wearer's head-eye behaviour with the parameter representing the frame chosen by the wearer; determining power and resulting astigmatism defect targets for each direction of viewing under wearing conditions, the targets being associated with an individual merit function taking into account the weighted head-eye coordination parameters. The method allows the design of the lens to be adapted to the size and the shape of the frame chosen.
    • 一种用于通过光学优化来确定旨在插入由在近视觉中规定了功率增加的给定佩戴者选择的框架中的个性化渐进式眼镜片的方法,所述方法包括以下步骤:确定至少一个参数 代表佩戴者选择的框架; 测量表示佩戴者头颅行为的参数; 用表示由佩戴者选择的框架的参数加权表示佩戴者的头眼行为的参数; 确定在穿戴条件下的每个观察方向的功率和产生的散光缺陷目标,所述目标与考虑到加权头眼协调参数的个体优点功能相关联。 该方法允许透镜的设计适应所选择的框架的尺寸和形状。
    • 9. 发明授权
    • Progressive ophthalmic lens
    • 渐进式眼科镜片
    • US07338163B2
    • 2008-03-04
    • US11569910
    • 2005-05-31
    • Celine CarimaloCyril GuillouxEric Roland
    • Celine CarimaloCyril GuillouxEric Roland
    • G02C7/06
    • G02C7/063G02C7/06G02C7/061G02C7/066
    • The invention relates to an ophthalmic lens for long-sighted and intermediate vision comprising a complex surface provided with an optical centre, a substantially umbilicated meridian line and an average size sphere progression on the top surface equal to or greater than 0.50 diopters. The complex surface is provided in the top part thereof with a long-sighted vision area which is formed by cylinder points equal to or less than 0.25 diopters and covers an angular sector focused on the optical centre and whose angle is equal to 160°. Said complex surface also comprises an average size substantially constant sphere on the meridian line in the long-sighted vision area and a progression length equal to or less than 12 mm. Said progression length is defined as a vertical distance between the optical centre and a median point for which the average sphere if greater than 85% of progression on the average sphere in the optical centre. The inventive lens is suitable for driving and prescribed to persons having additional prescription greater than a power progression, whereby a correction adaptable to the power prescription of a longsighted vision person is provided in the top part of the lens. The lower part of the lens ensures the correction needed for an intermediate vision person.
    • 本发明涉及一种用于长视觉和中间视觉的眼科镜片,其包括具有光学中心,基本上脐带子午线和在顶表面上的平均尺寸球形进展等于或大于0.50屈光度的复合表面。 复杂的表面在其顶部设置有由等于或小于0.25屈光度的圆柱点形成的远视视觉区域,并且覆盖聚焦在光学中心上并且其角度等于160°的角扇区。 所述复合表面还包括在远视视野区域的子午线上的平均尺寸基本上恒定的球体以及等于或小于12mm的进展长度。 所述进展长度被定义为光学中心与中心点之间的垂直距离,平均球体如果在光学中心的平均球体上大于进展的85%。 本发明的镜片适用于驾驶和规定为具有大于功率进展的额外处方的人员,由此在透镜的顶部设置适用于远视者的功率处方的校正。 透镜的下半部分确保中间视觉人员需要进行校正。