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    • 2. 发明授权
    • Production of a novel progressive glasses lens
    • 生产新型渐进眼镜镜片
    • US08282210B2
    • 2012-10-09
    • US12921616
    • 2009-03-13
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • A61B3/10G02C7/06
    • G02C7/061G02C7/027G02C7/028
    • The invention relates to a method for producing a novel progressive glasses lens intended for a presbyopic wearer, which takes into account the postural habits of the wearer, acquired through prior conditions of ophthalmic correction. A design for the novel progressive lens is established by modifying a reference lens in compliance with an aptitude of the wearer to modify his/her postural habits. To this end, variations in a postural parameter are determined using measurements of said parameter, which are carried out on the wearer. The invention enables the reduction of a period of habituation by the wearer to the novel progressive glasses lens.
    • 本发明涉及一种用于制造用于老花眼佩戴者的新型渐进式眼镜镜片的方法,其考虑了通过眼科校正的先前条件获得的佩戴者的姿势习惯。 通过根据穿戴者的能力修改参考镜片来改变他/她的姿势习惯,来建立新颖渐进镜片的设计。 为此,使用对佩戴者进行的所述参数的测量来确定姿势参数的变化。 本发明能够减少穿戴者对新型进阶眼镜镜片的习惯期。
    • 3. 发明授权
    • Method for determining a set of progressive multifocal ophthalmic lenses
    • 用于确定一组渐进多焦点眼科镜片的方法
    • US08721075B2
    • 2014-05-13
    • US13191919
    • 2011-07-27
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • G02C7/06
    • G02C7/066G02C7/025
    • A method for determining by optimization a set of progressive ophthalmic lenses for a given user for whom a near vision power addition (Addn) has been prescribed includes the following steps: measuring the user's near vision individual physiological parameters; determining an ergorama associating, on each lens, a target point in each look direction in worn conditions; determining a target power defect and a resulting target astigmatism for each direction of look under worn conditions, the target power defect and the resulting target astigmatism being determined from the user's measured physiological parameters; computing the power required for each lens for said ergorama by successive iterations to reach the target power defect and the target astigmatism for each look direction.
    • 通过优化确定给定用户已经规定了近视力功率加法(Addn)的一组渐进式眼科镜片的方法包括以下步骤:测量用户的近视个体生理参数; 在磨损状态下,在每个镜片上确定每个观察方向上的目标点的美观相关联; 确定在磨损状态下的每个观察方向的目标功率缺陷和产生的目标像散,根据用户的测量生理参数确定目标功率缺陷和产生的目标像散; 通过连续迭代计算每个镜头所需的功率,以达到每个外观方向的目标功率缺陷和目标像散。
    • 4. 发明授权
    • Production of an ophthalmic eyeglass intended for a wearer
    • 制造用于佩戴者的眼科眼镜
    • US08142017B2
    • 2012-03-27
    • US12677616
    • 2008-09-11
    • Bjorn DrobeSoazic MoussetClaude Pedrono
    • Bjorn DrobeSoazic MoussetClaude Pedrono
    • G02C7/02
    • G02C7/068G02C7/027G02C7/061
    • A method for producing an ophthalmic glass (1) intended for an identified wearer of spectacles comprises distribution of an optical power addition between an anterior face (SANT) and a posterior face (SPOST) of said glass. Said distribution of the addition is done in such a way as to modify an optical characteristic as a function of relative amplitudes of eye and head movements of the wearer. Superior comfort of the glass in use is thus obtained. The optical characteristic which is considered may be, in particular, a variation of magnification procured by the glass between far and near vision conditions. An improvement of the invention is to also modify a design of the progressive glass as a function of the amplitudes of the eye and head movements of the wearer, using only a single semifinished glass model of fixed design for each addition value of the anterior face.
    • 用于制造眼镜用眼镜的眼用玻璃(1)的方法包括在所述玻璃的前表面(SANT)和后表面(SPOST)之间分配光学功率添加。 所述添加的分布以这样的方式进行,以便改变作为穿戴者的眼睛和头部运动的相对幅度的函数的光学特性。 因此获得了使用中玻璃的舒适性。 所考虑的光学特性可以特别地是由远视觉条件之间的玻璃获得的放大倍数的变化。 本发明的改进在于,仅使用固定设计的单个半成品玻璃模型来改变前脸的每个附加值的渐进式玻璃的设计,作为使用者的眼睛和头部移动幅度的函数。
    • 5. 发明授权
    • Method for determining a progressive ophthalmic lens
    • 用于确定渐进式眼科镜片的方法
    • US07887183B2
    • 2011-02-15
    • US12097233
    • 2006-12-12
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • G02C7/06
    • G02C7/066G02C7/025G02C7/027
    • A method for determining a progressive ophthalmic lens for a given user for whom a near vision power addition has been prescribed includes the following steps: measuring the user's downward and the vertical horopter on a near-vision target point; measuring the user's near-vision head elevation and/or eye elevation; determining a coefficient of the user's near-vision vertical head participation (Ptvvp); determining a user-specific progressive length (LP) defined by the relationship LP=H (1−Ptvyp), the progressive length being defined as the downward look angle between the mounting cross and the meridian point for which the power achieves the power addition; determining the lens by optimizing in optical computation in worn conditions, using as target a power variation along the meridian with a progressive length equal to said user-specific progressive length.
    • 一种用于确定已经规定了近视力功率增加的给定用户的渐进式眼科镜片的方法包括以下步骤:在近视目标点上测量用户的向下和垂直望远镜; 测量用户的近视头抬高和/或眼睛仰角; 确定用户近视垂直头部参与系数(Ptvvp); 确定由关系LP = H(1-Ptvyp)定义的用户特定的渐进长度(LP),所述渐进长度被定义为所述功率达到所述功率相加的所述安装十字和子午线点之间的向下观察角; 通过在磨损状态下优化光学计算来确定透镜,使用具有等于所述用户特定渐进长度的渐进长度沿着子午线的目标功率变化。
    • 6. 发明申请
    • PRODUCTION OF A NOVEL PROGRESSIVE GLASSES LENS
    • 生产新型渐进玻璃镜
    • US20110001925A1
    • 2011-01-06
    • US12921616
    • 2009-03-13
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • G02C7/06A61B3/10
    • G02C7/061G02C7/027G02C7/028
    • The invention relates to a method for producing a new progressive eyeglass intended for a presbyopic wearer (100), which takes into account the postural habits of the wearer, acquired through prior conditions of ophthalmic correction (102). A design for the new progressive eyeglass is established by modifying a reference eyeglass in accordance with an aptitude of the wearer to modify his/her postural habits. To this end, variations in a postural parameter are determined using measurements of said parameter, which are carried out on the wearer. The invention enables the reduction of a period of habituation by the wearer to the new progressive eyeglass.
    • 本发明涉及一种用于生产用于老花眼佩戴者(100)的新渐进式眼镜的方法,其考虑到通过眼科矫正的先前条件获得的穿戴者的姿势习惯(102)。 通过根据穿戴者的能力修改参考眼镜来改变他/她的姿势习惯,建立了新的渐进式眼镜的设计。 为此,使用对佩戴者进行的所述参数的测量来确定姿势参数的变化。 本发明能够将穿戴者的习惯期减少到新的渐进式眼镜。
    • 7. 发明申请
    • METHOD FOR DETERMINING A SET OF PROGRESSIVE MULTIFOCAL OPHTHALMIC LENSES
    • 用于确定一组渐进式多功能眼镜的方法
    • US20090290121A1
    • 2009-11-26
    • US12097238
    • 2006-12-12
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • G02C7/06A61B3/00
    • G02C7/066G02C7/025
    • A method for determining by optimization a set of progressive ophthalmic lenses for a given user for whom a near vision power addition (Addn) has been prescribed includes the following steps: measuring the user's near vision individual physiological parameters; determining an ergorama associating, on each lens, a target point in each look direction in worn conditions; determining a target power defect and a resulting target astigmatism for each direction of look under worn conditions, the target power defect and the resulting target astigmatism being determined from the user's measured physiological parameters; computing the power required for each lens for said ergorama by successive iterations to reach the target power defect and the target astigmatism for each look direction.
    • 通过优化确定给定用户已经规定了近视力功率加法(Addn)的一组渐进式眼科镜片的方法包括以下步骤:测量用户的近视个体生理参数; 在磨损状态下,在每个镜片上确定每个观察方向上的目标点的美观相关联; 确定在磨损状态下的每个观察方向的目标功率缺陷和产生的目标像散,根据用户的测量生理参数确定目标功率缺陷和产生的目标像散; 通过连续迭代计算每个镜头所需的功率,以达到每个外观方向的目标功率缺陷和目标像散。
    • 9. 发明申请
    • METHOD FOR DETERMINING A SET OF PROGRESSIVE MULTIFOCAL OPHTHALMIC LENSES
    • 用于确定一组渐进式多功能眼镜的方法
    • US20110279773A1
    • 2011-11-17
    • US13191919
    • 2011-07-27
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • A61B3/10A61B3/11G02C7/06
    • G02C7/066G02C7/025
    • A method for determining by optimization a set of progressive ophthalmic lenses for a given user for whom a near vision power addition (Addn) has been prescribed includes the following steps: measuring the user's near vision individual physiological parameters; determining an ergorama associating, on each lens, a target point in each look direction in worn conditions; determining a target power defect and a resulting target astigmatism for each direction of look under worn conditions, the target power defect and the resulting target astigmatism being determined from the user's measured physiological parameters; computing the power required for each lens for said ergorama by successive iterations to reach the target power defect and the target astigmatism for each look direction.
    • 通过优化确定给定用户已经规定了近视力功率加法(Addn)的一组渐进式眼科镜片的方法包括以下步骤:测量用户的近视个体生理参数; 在磨损状态下,在每个镜片上确定每个观察方向上的目标点的美观相关联; 确定在磨损状态下的每个观察方向的目标功率缺陷和产生的目标像散,根据用户的测量生理参数确定目标功率缺陷和产生的目标像散; 通过连续迭代计算每个镜头所需的功率,以达到每个外观方向的目标功率缺陷和目标像散。
    • 10. 发明授权
    • Method for determining a set of progressive multifocal ophthalmic lenses
    • 用于确定一组渐进多焦点眼科镜片的方法
    • US07997726B2
    • 2011-08-16
    • US12097238
    • 2006-12-12
    • Bjorn DrobeClaude Pedrono
    • Bjorn DrobeClaude Pedrono
    • G02C7/06
    • G02C7/066G02C7/025
    • A method for determining by optimization a set of progressive ophthalmic lenses for a given user for whom a near vision power addition (Addn) has been prescribed includes the following steps: measuring the user's near vision individual physiological parameters; determining an ergorama associating, on each lens, a target point in each look direction in worn conditions; determining a target power defect and a resulting target astigmatism for each direction of look under worn conditions, the target power defect and the resulting target astigmatism being determined from the user's measured physiological parameters; computing the power required for each lens for said ergorama by successive iterations to reach the target power defect and the target astigmatism for each look direction.
    • 通过优化确定给定用户已经规定了近视力功率加法(Addn)的一组渐进式眼科镜片的方法包括以下步骤:测量用户的近视个体生理参数; 在磨损状态下,在每个镜片上确定每个观察方向上的目标点的美观相关联; 确定在磨损状态下的每个观察方向的目标功率缺陷和产生的目标像散,根据用户的测量生理参数确定目标功率缺陷和产生的目标像散; 通过连续迭代计算每个镜头所需的功率,以达到每个外观方向的目标功率缺陷和目标像散。