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    • 5. 发明授权
    • Thermally self-correcting gain modules and associated systems and methods
    • 热自校正增益模块及相关系统和方法
    • US07643523B2
    • 2010-01-05
    • US11943857
    • 2007-11-21
    • Hsian P. ChouYu-Lin Wang
    • Hsian P. ChouYu-Lin Wang
    • H01S3/00H01S3/04
    • H01S3/0627H01S3/02H01S3/042H01S3/0604H01S3/07H01S3/08072
    • Aspects of the present invention are directed to the use of optical gain structures that include alternating layers of gain medium and transparent heat conductors in which the gain medium itself functions as a correction optic. The gain medium changes to an optimum or desired shape because of the thermal changes occurring as the materials of the optical gain structure(s) reach a desired optical output condition. At the desired optical output conditions, the gain medium conforms to a desired shape. The desired shape may be, for example, that of an optical surface of a transparent heat conductor. By designing the initial shape of the gain medium such that the physical contact with the transparent heat conductor is maximized at the desired optical output conditions, conductive heat transfer between the gain medium and heat conductor(s) is maximized at the desired optical output condition.
    • 本发明的方面涉及使用包括增益介质和透明导热体的交替层的光学增益结构,其中增益介质本身用作校正光学元件。 由于随着光增益结构的材料达到期望的光输出条件而发生热变化,增益介质变为最佳或期望的形状。 在期望的光输出条件下,增益介质符合所需的形状。 期望的形状可以是例如透明导热体的光学表面的形状。 通过设计增益介质的初始形状,使得与期望的光输出条件下的与透明导热体的物理接触最大化,增益介质和热导体之间的导电热传递在期望的光输出条件下被最大化。
    • 7. 发明申请
    • HANDHELD PROJECTOR AND PROJECTION METHOD THEREOF
    • 手持投影机及其投影方法
    • US20130033426A1
    • 2013-02-07
    • US13565758
    • 2012-08-02
    • Yu-Lin WangWei-Hung Chen
    • Yu-Lin WangWei-Hung Chen
    • G09G5/08
    • H04N9/3173G06F3/0346H04N9/3185H04N9/3194
    • The invention provides a handheld projector and a projection method thereof. The handheld projector includes a projection module, a control module, a detecting module and a steering module. The control module drives the projection module to project an image towards an object, which includes a cursor. The detecting module generates a shift signal according to shift of the handheld projector, and transmits the shift signal to the control module. The control modules drives the steering module to rotate the projection module towards an opposite direction of the shift of the handheld projector, so as to make the image projected by the projection module stay in a fixed position of the object. Through the invention, projected image is not easily shocked, and the user only need move the handheld projector when change of the cursor position is desired, and thus operation convenience is greatly enhanced.
    • 本发明提供了一种手持式投影仪及其投影方法。 手持式投影仪包括投影模块,控制模块,检测模块和转向模块。 控制模块驱动投影模块将图像投射到包含光标的物体。 检测模块根据手持投影机的移动产生移位信号,并将移位信号发送到控制模块。 控制模块驱动转向模块以使投影模块朝着与手持式投影仪的移动方向相反的方向旋转,以使由投影模块投影的图像保持在物体的固定位置。 通过本发明,投影图像不容易受到震动,并且仅当需要改变光标位置时用户才需要移动手持投影仪,从而大大提高了操作便利性。
    • 8. 发明授权
    • Thermally self-correcting gain modules and associated systems and methods
    • 热自校正增益模块及相关系统和方法
    • US07310359B2
    • 2007-12-18
    • US11000632
    • 2004-12-01
    • Hsian P. ChouYu-Lin Wang
    • Hsian P. ChouYu-Lin Wang
    • H01S3/04
    • H01S3/0627H01S3/02H01S3/042H01S3/0604H01S3/07H01S3/08072
    • Aspects of the present invention are directed to the use of optical gain structures that include alternating layers of gain medium and transparent heat conductors in which the gain medium itself functions as a correction optic. The gain medium changes to an optimum or desired shape because of the thermal changes occurring as the materials of the optical gain structure(s) reach a desired optical output condition. At the desired optical output conditions, the gain medium conforms to a desired shape. The desired shape may be, for example, that of an optical surface of a transparent heat conductor. By designing the initial shape of the gain medium such that the physical contact with the transparent heat conductor is maximized at the desired optical output conditions, conductive heat transfer between the gain medium and heat conductor(s) is maximized at the desired optical output condition.
    • 本发明的方面涉及使用包括增益介质和透明导热体的交替层的光学增益结构,其中增益介质本身用作校正光学元件。 由于随着光增益结构的材料达到期望的光输出条件而发生热变化,增益介质变为最佳或期望的形状。 在期望的光输出条件下,增益介质符合所需的形状。 期望的形状可以是例如透明导热体的光学表面的形状。 通过设计增益介质的初始形状,使得与期望的光输出条件下的与透明导热体的物理接触最大化,增益介质和热导体之间的导电热传递在期望的光输出条件下被最大化。
    • 10. 发明授权
    • Apparatus and method for reducing complexity of matched filter
    • 降低匹配滤波器复杂度的装置和方法
    • US07764728B2
    • 2010-07-27
    • US11550577
    • 2006-10-18
    • Sung-Chiao LiHuoy Bing LimChing-Chia HsuYu-Lin Wang
    • Sung-Chiao LiHuoy Bing LimChing-Chia HsuYu-Lin Wang
    • H04B1/69H04B1/707H04B1/713
    • H04B1/7115H04B1/7093
    • An apparatus for determining multipath correlations among a search range of input data, and a method thereof. The multipath searcher comprises a pseudo noise (PN) code generator, a correlator, and a data combiner. The PN code generator generates a first PN code corresponding to a first multipath component of the input data, postpones a first period based on the search range, then generates a second PN code corresponding to a second multipath component of the input data. The correlator is coupled to the PN code generator, and correlates the input data with the first PN code and the second PN code to produce a first correlation and a second correlation. The data combiner is coupled to the correlator, receives the first and the second correlations to determine a primary multipath component with a higher correlation thereto.
    • 一种用于确定输入数据的搜索范围之间的多径相关的装置及其方法。 多径搜索器包括伪噪声(PN)码发生器,相关器和数据合并器。 PN码发生器产生对应于输入数据的第一多径分量的第一PN码,基于搜索范围推迟第一周期,然后产生对应于输入数据的第二多径分量的第二PN码。 相关器被耦合到PN码发生器,并且将输入数据与第一PN码和第二PN码相关以产生第一相关和第二相关。 数据组合器耦合到相关器,接收第一和第二相关以确定具有较高相关性的主多径分量。