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    • 3. 发明申请
    • System, device, and method for optical wavefront control
    • 用于光波前控制的系统,设备和方法
    • US20090250591A1
    • 2009-10-08
    • US12382864
    • 2009-03-25
    • Shinji YamashitaTsuyoshi YamamotoMasaaki KawaiHiroyuki Fujita
    • Shinji YamashitaTsuyoshi YamamotoMasaaki KawaiHiroyuki Fujita
    • G01J1/20
    • G02B26/06G02B26/0841
    • An optical wavefront control system by which the number of optical components or costs can be reduced. If an optical wavefront control system comprising an optical wavefront control section for controlling, in accordance with a wavefront control signal for controlling a phase of a wavefront of input light inputted and an aberration control signal for controlling an aberration of the input light inputted, the phase and the aberration and for outputting output light, a detection section for detecting optical information regarding a wavefront and an aberration of the output light inputted from the optical wavefront control section, and a control circuit section for outputting the wavefront control signal and the aberration control signal to the optical wavefront control section on the basis of the optical information detected by the detection section is used, the wavefront of the input light can be controlled and the aberration can be corrected. Accordingly, there is no need to locate another optical component for correcting the aberration.
    • 一种光学波前控制系统,可以减少光学部件或成本的数量。 如果光波阵面控制系统包括光波前控制部分,用于根据用于控制输入的输入光的波前的相位的波前控制信号和用于控制输入的输入光的像差的像差控制信号来控制相位 和用于输出输出光的像差,用于检测关于波前的光学信息的检测部分和从光学波前控制部分输入的输出光的像差;以及控制电路部分,用于输出波前控制信号和像差控制信号 使用基于由检测部检测出的光信息到光波前控制部的光波阵面,可以控制输入光的波前,并且可以校正像差。 因此,不需要定位用于校正像差的另一光学部件。
    • 4. 发明申请
    • Tracking Apparatus And Tracking Method
    • 跟踪装置和跟踪方法
    • US20080187172A1
    • 2008-08-07
    • US11792084
    • 2005-12-09
    • Nobuyuki OtsuMasaaki Kawai
    • Nobuyuki OtsuMasaaki Kawai
    • G06K9/00
    • G06K9/32G06K2009/3291G06T7/20
    • A tracing device and a tracing method for realizing a real-time trace of a moving object such as a person from a time-varying image by method of a light processing load, and for learning features through the trace thereby to realize a trace of higher precision. The tracing device divides time-varying data inputted into partial images (in a strip or rectangle shape), and compares the background image containing no tracing object thereby with the current image thereby to extract the divided image having the tracing object. In order to discriminate the tracing object, moreover, the tracing device calculates the color high-level local self-correlated data, from which the features of color and shape can be extracted all at once, and performs the discrimination on the basis of a distance from the featuring data of the tracing object registered. The tracing device updates the background image and the registered featuring data into the latest ones. The features are acquired while tracing the tracing object, and the object is discriminated by utilizing the features so that a strong and highly precise trace can be realized.
    • 一种跟踪装置和跟踪方法,用于通过光处理负载的方法实现来自时变图像的人的移动物体的实时轨迹,并且通过轨迹学习特征,从而实现更高的轨迹 精确。 跟踪装置将输入的部分图像(条形或矩形)中的时变数据分割,并将不含跟踪对象的背景图像与当前图像进行比较,从而提取具有跟踪对象的分割图像。 此外,为了区分跟踪对象,跟踪装置计算出可以一次性提取颜色和形状的特征的颜色高级局部自相关数据,并且基于距离进行鉴别 从跟踪对象的特征数据注册。 跟踪设备将背景图像和已注册的特征数据更新为最新的。 在跟踪跟踪对象时获取特征,并且通过利用特征来区分对象,从而可以实现强烈和高精度的跟踪。
    • 7. 发明授权
    • Silicon carbide-based porous body
    • 碳化硅基多孔体
    • US08475907B2
    • 2013-07-02
    • US12329846
    • 2008-12-08
    • Masaaki Kawai
    • Masaaki Kawai
    • C04B35/56
    • C04B35/565C04B35/6316C04B38/0006C04B2111/00793C04B2235/3418C04B2235/3891C04B2235/404C04B2235/428C04B2235/5436C04B2235/80C04B2235/96C04B2235/9607Y10T428/24149C04B38/0054C04B38/0074
    • There is provided a silicon carbide-based porous body which can avoid excessive temperature elevation when it is used as a filter and the captured particulate matter (PM) is burnt for removal and which is low in strength reduction caused by heat cycle. The silicon carbide-based porous body comprises a plurality of silicon carbide (SiC) particles as an aggregate and a plurality of binding phases which bind the silicon carbide particles to each other, wherein of the binding phases, the phase having the largest volume is either of a Si phase and a phase (a metal silicide phase) made of at least one member selected from the group consisting of a Ti silicide, a Zr silicide, a Mo silicide and a W silicide, all having a linear thermal expansion coefficient at 40 to 800° C., higher than that of Si by at least 3×10−6 (° C.−1) and the phase having the next largest volume is the remainder of the Si phase and the metal silicide phase, and the binding phases contain the Si phase by 20 to 80% by volume of the total binding phases.
    • 提供了一种碳化硅基多孔体,其可以在用作过滤器时避免过高的温度升高,并且捕获的颗粒物质(PM)被燃烧以进行除去,并且由热循环引起的强度降低低。 碳化硅基多孔体包括多个作为骨料的碳化硅(SiC)颗粒和将碳化硅颗粒彼此结合的多个结合相,其中结合相中具有最大体积的相是 的Si相和由选自由Ti硅化物,Zr硅化物,Mo硅化物和W硅化物组成的组中的至少一种构成的相(金属硅化物相),其全部具有40的线性热膨胀系数 至800℃,比Si高至少3×10-6(℃-1),具有次最大体积的相是Si相和金属硅化物相的剩余部分,并且结合 相含有总相结合相的20〜80体积%的Si相。