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    • 1. 发明申请
    • EXTENDED DEPTH OF FIELD IMAGING SYSTEM USING CHROMATIC ABERRATION
    • 使用色彩渐变的现场成像系统的延伸深度
    • WO2006083488A3
    • 2006-12-07
    • PCT/US2006000513
    • 2006-01-06
    • PSC SCANNING INC
    • OLMSTEAD BRYAN LSHEARIN ALAN
    • G02B9/04G02B9/08
    • G02B27/0075G06K7/10702
    • An imaging system (Fig. 3) is disclosed that has a wavelength dependent focal shift caused by longitudinal chromatic aberration in a lens assembly (203) that provides extended depth of field imaging due to focal shift (213,214) and increased resolution due to reduced lens system magnification. In use, multiple wavelengths of quasi-monochromatic illumination, from different wavelength LEDs (206,207) or the like, illuminate the target, either sequentially, or in parallel in conjunction with an imager (200) with wavelength selective (colored) filters. Images are captured with different wavelengths of illumination that have different focus positions (208,209) , either sequentially or by processing the color planes of a color imager separately. Extended depth of field, plus high resolution are achieved. Additionally, information about the range to the target can be determined by analyzing the degree of focus of the various colored images.
    • 公开了一种成像系统(图3),其具有由透镜组件(203)中的纵向色差引起的与波长相关的焦点偏移,该透镜组件(203)由于焦距移动(213,214)而提供扩展的景深成像,并且由于减少的透镜而增加的分辨率 系统放大。 在使用中,来自不同波长的LED(206,207)等的准单色照明的多个波长可以与具有波长选择(彩色)滤光器的成像器(200)顺序地或并行地照射目标。 图像被不同的照明波长捕获,具有不同的焦点位置(208,209),可以分别处理彩色成像器的色彩平面。 扩展景深,加上高分辨率。 另外,可以通过分析各种彩色图像的焦点程度来确定关于目标的范围的信息。
    • 2. 发明申请
    • ADJUSTABLE FOCUS LENSES
    • 可调焦距镜头
    • WO2006102365A3
    • 2006-11-23
    • PCT/US2006010315
    • 2006-03-21
    • SPIVEY BRETT
    • SPIVEY BRETT
    • G02B9/04G02B7/02G02C1/00G02C5/00
    • G02C9/00G02C7/02G02C7/06G02C7/061G02C7/081G02C9/02
    • A lens unit with two lens elements each having special surfaces such that an adjustment of the position of one of the two lens elements relative to the other in a direction generally perpendicular to a viewing direction changes the focusing power of the lens unit. In preferred embodiments two lens units are mounted in a frame to provide eyeglasses with adjustable focus. Several frame designs are described. In preferred embodiments two lens units, each lens unit having two lens elements are mounted in a frame to provide eyeglasses with adjustable focus. Several designs are described. Some designs provide for movement side to side movement of the lens elements relative to each other. In other designs the relative motion is up and down. A simple technique is a thumbscrew adjustment that is operated by the wearer. Another design is based on finger force against a friction force. In some preferred embodiments separate frames holding the lens elements pivot about pivot points on the earpiece of a support frame. In other designs two rear lens elements are mounted in a support frame and the front lens elements are mounted in a separate frame that pivots about a point on the earpiece of the support frame. Another design includes a torsion bar assures that the movements of each lens element in one of the lens units is the same as the movements of the lens elements in the other lens unit. Techniques for automatic focusing of the lenses are also disclosed. Techniques for automatic focusing of the lenses are also disclosed.
    • 一种具有两个透镜元件的透镜单元,每个透镜元件具有特殊表面,使得在大致垂直于观察方向的方向上调节两个透镜元件中的一个相对于另一个的位置改变了透镜单元的聚焦能力。 在优选实施例中,两个镜头单元被安装在框架中以提供具有可调焦距的眼镜。 描述了几种框架设计。 在优选实施例中,将两个透镜单元,每个透镜单元具有两个透镜元件安装在框架中,以提供具有可调焦距的眼镜。 描述了几种设计。 一些设计提供了透镜元件相对于彼此的左右移动。 在其他设计中,相对运动是上下的。 一种简单的技术是由佩戴者操作的指旋螺钉调节。 另一种设计是基于摩擦力的手指力。 在一些优选实施例中,保持透镜元件的单独框架围绕支撑框架的听筒上的枢轴点枢转。 在其他设计中,两个后部透镜元件安装在支撑框架中,并且前部透镜元件安装在围绕支撑框架的听筒上的点枢转的单独框架中。 另一种设计包括扭杆,确保一个镜头单元中的每个镜头元件的运动与另一个镜头单元中的镜头元件的运动相同。 还公开了用于镜头的自动对焦的技术。 还公开了用于镜头的自动对焦的技术。
    • 3. 发明申请
    • IMAGING SYSTEM WITH A LENS HAVING INCREASED LIGHT COLLECTION EFFICIENCY AND A DEBLURRING EQUALIZER
    • 具有增加光收集效率的镜头的成像系统和消除均衡器
    • WO2006081478A1
    • 2006-08-03
    • PCT/US2006/003060
    • 2006-01-27
    • PSC SCANNING, INC.
    • OLMSTEAD, Bryan, L.SHEARIN, Alan
    • G02B9/04H04N5/225H04N5/235H04N7/01
    • G02B9/10G02B27/0075G06K7/10702G06K7/10811H04N5/217H04N5/3572
    • In one form, an imaging system (100) comprises an imager (130) that forms an image of an object (90) in a field of view, a rotationally symmetric lens assembly (110) disposed between the imager (130) and the object (90), and an equalizer (156). The rotationally symmetric lens assembly (110) provides increased collection efficiency for a given depth of field, whereby the rotationally symmetric lens assembly (110) causes aberration, compared to a well-focused lens. The rotationally symmetric lens assembly (110) comprises a front negative lens (112), a rear positive lens (118), and an aperture (116) positioned between the front and rear lenses (112,118). The equalizer (156), which is connected to the imager (130), receives image data and at least partially compensates for the aberration caused by the rotationally symmetric lens assembly (110).
    • 在一种形式中,成像系统(100)包括在视野中形成物体(90)的图像的成像器(130),设置在成像器(130)和物体之间的旋转对称透镜组件(110) (90)和均衡器(156)。 旋转对称透镜组件(110)为给定的景深提供增加的收集效率,由此与聚焦好的透镜相比,旋转对称透镜组件(110)引起像差。 旋转对称透镜组件(110)包括前负透镜(112),后正透镜(118)和位于前后透镜(112,118)之间的孔(116)。 连接到成像器(130)的均衡器(156)接收图像数据,并且至少部分地补偿由旋转对称透镜组件(110)引起的像差。
    • 6. 发明申请
    • 점 광원을 위한 광학렌즈
    • 用于点光源的光学透镜
    • WO2010032942A2
    • 2010-03-25
    • PCT/KR2009/005228
    • 2009-09-15
    • (주)어플리컴김용우안성준양승우석재원
    • 김용우안성준양승우석재원
    • G02B9/04G02B3/02
    • G02B19/0028G02B19/0061
    • 본 발명에 따른 점 광원을 위한 광학렌즈는, 원통형의 개구가 형성되며, 상기 개구내에 상기 점 광원이 내삽되는 돔형 렌즈로서, 상기 개구의 수평면에 위치하며, 상기 점 광원의 광 중 미리 정해둔 제1각도범위의 광을 입사받아 미리 정해둔 목표 출사각도범위의 광으로 굴절하여 상기 돔형 렌즈의 외부 수평면을 통해 출사하는 수평 입사면; 상기 개구의 수평면에 위치하며, 상기 수평 입사면의 둘레를 따라 형성된 톱니로서, 일측면은 수직면으로 상기 점 광원의 광 중 미리 정해둔 제2각도범위의 광을 입사받고, 타측면은 상기 일측면을 통해 입사된 광을 상기 목표 출사각도범위의 광으로 내부 반사하는 내부 반사면이 형성된 하나 이상의 내부 반사 부재; 상기 개구의 수직면에 위치하며, 상기 점 광원의 광 중 미리 정해둔 제3각도범위의 광을 입사받는 수직 입사면; 상기 수직 입사면을 통해 입사되는 광을 상기 목표 출사각도범위의 광으로 내부 반사하는 반사면이 형성된 외부 측면; 상기 수평 입사면을 통해 굴절된 광 및 상기 하나 이상의 내부 반사 부재를 통해 내부 반사된 광 및 상기 외부 측면을 통해 내부 반사된 광을 입사받아 외부로 출사시키는 외부 수평면;으로 구성됨을 특징으로 한다.
    • 根据本发明的用于点光源的光学透镜是圆顶透镜,其中形成圆柱形开口并且点光源插入该开口中, 水平入射表面,其接收点光源的光中的第一预定角度范围的光并将该光折射成具有预定出射角范围的光并通过圆顶透镜的外水平面出射; 并且从点光源发射的光的第二角度范围入射在锯齿的垂直表面上,锯齿的另一表面位于开口的水平表面上, 至少一个内部反射部件,其具有内部反射表面,用于利用目标发射角范围的光内部反射通过物镜入射的光; 垂直入射表面,其位于所述开口的垂直平面上并且接收来自所述点光源的光的预定第三角度范围的光; 外侧表面,在所述外侧表面上形成有反射表面,该反射表面用于通过垂直入射表面入射用目标出射角范围的光内部入射的光; 并且外部水平表面接收通过水平入射表面折射的光,通过至少一个内部反射构件内部反射的光和通过外部表面内部反射并将光发射到外部的光。 / p>
    • 8. 发明申请
    • OPTICAL ELEMENT STACK ASSEMBLIES
    • 光学元件组件
    • WO2017082820A1
    • 2017-05-18
    • PCT/SG2016/050545
    • 2016-11-04
    • HEPTAGON MICRO OPTICS PTE. LTD.
    • WANG, JiLEONG, Kam WahTESANOVIC, BojanYU, QichuanSENN, TobiasSPRING, NicolaLENART, Robert
    • G02B7/00B29C33/00B29C64/106G02B3/00G02B7/02G02B9/04G02B11/02
    • G02B9/04B29C39/10B29C39/42B29K2995/0031B29L2011/00G02B7/021
    • Optical stack assemblies and fabrication techniques thereof. The optical stack assembly includes first and second sub-assemblies, each of which include a substrate and a sub-structure fixed to the respective substrate. Each sub-structures includes a respective first edge feature and a respective second edge feature that project away from the substrate of that sub-structure, each second edge feature being disposed laterally closer to an outer periphery of the respective sub-structure than the first edge feature of the same sub-structure. The first edge feature of the first sub-structure is in direct contact with the first edge feature of the second sub¬ structure, while the second edge feature of the first sub-structure and the second edge feature of the second sub-structure are attached to one another by adhesive. At least one of the first or second sub-structures includes an optical element on a same side of the sub-structure as the first and second edge features of that sub-structure. The optical element stack assembly further includes a spacer laterally surrounding, and moulded to, the first and second sub-assemblies.
    • 光学堆叠组件及其制造技术。 光学堆叠组件包括第一和第二子组件,其中的每一个包括基底和固定到相应基底的子结构。 每个子结构包括相应的第一边缘特征和从该子结构的基板突出的相应的第二边缘特征,每个第二边缘特征侧向地比第一边缘更靠近相应子结构的外周布置 具有相同子结构的特征。 第一子结构的第一边缘特征与第二子结构的第一边缘特征直接接触, 结构,而第一子结构的第二边缘特征和第二子结构的第二边缘特征通过粘合剂彼此附接。 第一或第二子结构中的至少一个包括在子结构的与该子结构的第一和第二边缘特征相同的一侧上的光学元件。 光学元件叠层组件还包括侧向围绕第一和第二子组件的并且模制到第一和第二子组件的隔离件。