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    • 1. 发明授权
    • Multi-colored pixelated display with sparkle reduction surface
    • 多色像素化显示屏,带闪光表面
    • US09454031B2
    • 2016-09-27
    • US13651652
    • 2012-10-15
    • Jacques Gollier
    • Jacques Gollier
    • G02F1/1335G02B5/02G02B5/18
    • G02F1/133504G02B5/0215G02B5/1842G02F1/133502G02F2001/133562G02F2201/305
    • Multi-colored pixelated displays are provided where a sparkle reduction surface comprising a micron grade diffraction element is positioned between the image display element and the display surface. More specifically, in accordance with one embodiment of the present disclosure, a multi-colored pixelated display is provided comprising an image display element and a transparent display cover. The image display element comprises an array of display pixels divided into a plurality of display sub-pixels associated with respective dedicated display color components. The transparent display cover comprises a display surface that is susceptible to marking and a sparkle reduction surface. The sparkle reduction surface is positioned between the image display element and the display surface along an optical path of the pixelated display and is spaced from the image display element by an optical distance D. The sparkle reduction surface comprises a micron grade diffraction element.
    • 提供多色像素显示器,其中包括微米级衍射元件的闪光减少表面位于图像显示元件和显示表面之间。 更具体地,根据本公开的一个实施例,提供了包括图像显示元件和透明显示器盖的多色像素化显示器。 图像显示元件包括被分成与各个专用显示颜色分量相关联的多个显示子像素的显示像素的阵列。 透明显示盖包括易于标记的显示表面和闪光表面。 闪光减少表面沿着像素化显示器的光路定位在图像显示元件和显示表面之间,并且与图像显示元件间隔开光学距离D.闪光减少表面包括微米级衍射元件。
    • 5. 发明申请
    • Energy Transfer In Scanning Laser Projectors
    • 扫描激光投影仪中的能量转移
    • US20120050692A1
    • 2012-03-01
    • US13205706
    • 2011-08-09
    • Jacques Gollier
    • Jacques Gollier
    • G03B21/14G03B21/00
    • H04N9/3188H04N9/3129
    • The present disclosure introduces a number of image compression schemes designed to optimize operational efficiency in laser scanning projectors. Contemplated compression modes include, but are not limited to, intra-frame energy transfer, inter-frame energy transfer, and combinations thereof. The image compression modes disclosed herein are equally applicable to native laser sources and synthetic sources, such as green lasers based on a non-linear wavelength conversion. In cases where multiple lasers are used together in a multi-color projection system, it will often be preferable to favor particular image compression modes for particular colors, particularly where image brightness is more readily attributable to one color, e.g., green, because of the spectral responsivity of the human eye.
    • 本公开引入了旨在优化激光扫描投影仪的操作效率的多个图像压缩方案。 考虑的压缩模式包括但不限于帧内能量传输,帧间能量传输及其组合。 本文公开的图像压缩模式同样适用于天线激光源和合成源,例如基于非线性波长转换的绿色激光器。 在多色激光器在多色投影系统中一起使用的情况下,通常优选特定的图像压缩模式用于特定的颜色,特别是在图像亮度更容易归因于一种颜色(例如,绿色)的情况下,因为 人眼的光谱响应度。
    • 6. 发明申请
    • Systems And Methods For Reducing Speckle In Laser Projected Images
    • 用于减少激光投影图像中的斑点的系统和方法
    • US20120013812A1
    • 2012-01-19
    • US12835191
    • 2010-07-13
    • Jacques Gollier
    • Jacques Gollier
    • G02B27/48G03B21/28H04N9/31G02B26/12
    • G02B27/48G02B26/101G02B26/12G02B27/0933H04N9/3129
    • A laser projection system includes a light source, a speckle reduction adjustable optical component and a scanning adjustable optical component. The light source includes at least one laser configured to emit an output beam. The speckle reduction adjustable optical component rotates about a speckle reduction axis. The scanning adjustable optical component rotates about two axes. The laser projection system is programmed to generate a scanned laser image on the projection surface by operating the laser for optical emission of encoded image data and controlling the scanning adjustable optical component to rotate about the two axes to scan the output beam in first and second directions. The laser projection system is also programmed to rotate the speckle reduction adjustable optical component and the scanning adjustable optical component such that the output beam illuminates common portions of successive image frames at a different angle of incidence on the projection surface.
    • 激光投影系统包括光源,散斑可调节光学部件和扫描可调光学部件。 光源包括配置成发射输出光束的至少一个激光器。 斑点减少可调光学部件围绕散斑轴线旋转。 扫描可调光学部件围绕两个轴线旋转。 激光投影系统被编程为通过操作激光器来发射编码图像数据在投影表面上产生扫描的激光图像,并且控制扫描可调光学部件围绕两个轴线旋转以在第一和第二方向扫描输出光束 。 激光投影系统还被编程为旋转减光可调节光学部件和扫描可调节光学部件,使得输出光束以不同的入射角入射照射连续图像帧的公共部分。
    • 7. 发明授权
    • Speckle mitigation in laser projection systems
    • 激光投影系统中的斑点减轻
    • US08077367B2
    • 2011-12-13
    • US12431965
    • 2009-04-29
    • Jacques Gollier
    • Jacques Gollier
    • G02B26/08
    • G03B21/28G02B26/101G02B27/48H04N9/3129
    • Particular embodiments relate generally to laser projection systems and, more particularly, to systems and methods of reducing the appearance of speckle in laser projection images. According to one embodiment, a laser projection system comprising a light source and scanning optics is provided. The scanning optics include a plurality of frame generating optics configured to scan the output beam across a given projection surface to generate an image frame. The frame generating actuators are spatially separated such that output beams scanned by the frame generating actuators illuminate each common pixel portion of the image frames at a different incidence angle. The scanning optics also include an actuator selector positioned in an optical path of the output beam and configured to direct the output beam towards a selected one of the plurality of frame generating actuators.
    • 具体实施方案一般涉及激光投影系统,更具体地涉及减少激光投影图像中斑点外观的系统和方法。 根据一个实施例,提供了包括光源和扫描光学器件的激光投影系统。 扫描光学器件包括多个帧生成光学器件,其被配置为扫过输出光束穿过给定投影表面以产生图像帧。 帧产生致动器在空间上分离,使得由帧产生致动器扫描的输出光束以不同的入射角照射图像帧的每个公共像素部分。 扫描光学器件还包括定位在输出光束的光路中并被配置为将输出光束引向多个帧产生致动器中选定的一个的致动器选择器。
    • 8. 发明授权
    • Speckle mitigation in laser scanner projector systems
    • 激光扫描仪投影仪系统中的斑点减轻
    • US07944598B2
    • 2011-05-17
    • US12266139
    • 2008-11-06
    • Jacques Gollier
    • Jacques Gollier
    • G02F1/01
    • G02B27/48H04N9/3129
    • Laser scanner projection systems that reduce the appearance of speckle in a scanned laser image are provided. The laser projection system includes a visible light source having at least one laser, a scanning element and a system controller. The system controller is programmed to generate a scanned laser image. The system further includes a first lens that focuses a scanned output beam onto an intermediate image and a second lens that projects the intermediate image onto a projection surface. A periodic phase mask having a period that is approximately equal to or greater than the beam waist diameter of the scanned output beam is positioned at the intermediate laser image. The period of the periodic phase mask is such that the projection of the scanned output beam jumps progressively from pixel to pixel, thereby reducing speckle contrast in the scanned laser image.
    • 提供了减少扫描激光图像中斑点外观的激光扫描仪投影系统。 激光投影系统包括具有至少一个激光器的可见光源,扫描元件和系统控制器。 系统控制器被编程以产生扫描的激光图像。 该系统还包括将扫描的输出光束聚焦到中间图像上的第一透镜和将中间图像投影到投影表面上的第二透镜。 具有近似等于或大于扫描的输出光束的光束腰直径的周期的周期性相位掩模位于中间激光图像。 周期性相位掩模的周期使得扫描的输出光束的投影从像素逐渐跳跃到像素,从而减少扫描的激光图像中的斑点对比度。
    • 9. 发明授权
    • Optical package having deformable mirrors for focus compensation
    • 具有用于聚焦补偿的可变形反射镜的光学封装
    • US07916769B2
    • 2011-03-29
    • US12427939
    • 2009-04-22
    • Jacques GollierGarrett Andrew Piech
    • Jacques GollierGarrett Andrew Piech
    • H01S3/08
    • G02B26/0825G02B26/0833G02F1/377G02F2001/3503
    • An optical package includes a semiconductor laser, an adjustable mirror and a wavelength conversion device comprising a waveguide portion. The semiconductor laser, adjustable mirror, and wavelength conversion device are oriented to form an optical pathway between an output of the semiconductor laser and an input of the wavelength conversion device. The beam of the semiconductor laser is directed along the optical pathway and onto the adjustable mirror where the beam is reflected by the adjustable mirror onto the waveguide portion of the wavelength conversion device. The adjustable mirror may also be either thermally or mechanically deformable such that, when the adjustable mirror is deformed, the path of the beam along the optical pathway is altered thereby focusing the beam on the waveguide portion of the wavelength conversion device. The adjustable mirror may be adjusted such that the beam of the semiconductor laser is positioned on the waveguide portion of the wavelength conversion device.
    • 光学封装包括半导体激光器,可调镜和包括波导部分的波长转换器件。 半导体激光器,可调镜和波长转换器件被定向成在半导体激光器的输出端和波长转换器件的输入端之间形成光路。 半导体激光束的光束沿着光学路径被引导到可调整反射镜上,其中光束被可调节反射镜反射到波长转换器件的波导部分上。 可调节反射镜也可以是热或机械可变形的,使得当可调节反射镜变形时,沿着光学路径的光束的路径被改变,从而将光束聚焦在波长转换装置的波导部分上。 可调节可调镜,使得半导体激光束的光束位于波长转换装置的波导部分上。
    • 10. 发明申请
    • Speckle Mitigation in Laser Projection Systems
    • 激光投射系统中的斑点减弱
    • US20100277704A1
    • 2010-11-04
    • US12431965
    • 2009-04-29
    • Jacques Gollier
    • Jacques Gollier
    • G02B27/48G02B26/10
    • G03B21/28G02B26/101G02B27/48H04N9/3129
    • Particular embodiments relate generally to laser projection systems and, more particularly, to systems and methods of reducing the appearance of speckle in laser projection images. According to one embodiment, a laser projection system comprising a light source and scanning optics is provided. The scanning optics include a plurality of frame generating optics configured to scan the output beam across a given projection surface to generate an image frame. The frame generating actuators are spatially separated such that output beams scanned by the frame generating actuators illuminate each common pixel portion of the image frames at a different incidence angle. The scanning optics also include an actuator selector positioned in an optical path of the output beam and configured to direct the output beam towards a selected one of the plurality of frame generating actuators.
    • 具体实施方案一般涉及激光投影系统,更具体地涉及减少激光投影图像中斑点外观的系统和方法。 根据一个实施例,提供了包括光源和扫描光学器件的激光投影系统。 扫描光学器件包括多个帧生成光学器件,其被配置为扫过输出光束穿过给定投影表面以产生图像帧。 帧产生致动器在空间上分离,使得由帧产生致动器扫描的输出光束以不同的入射角照射图像帧的每个公共像素部分。 扫描光学器件还包括定位在输出光束的光路中并被配置为将输出光束引向多个帧产生致动器中选定的一个的致动器选择器。