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    • 2. 发明授权
    • Colour management for biological samples
    • 生物样品的色彩管理
    • US08649581B2
    • 2014-02-11
    • US13124693
    • 2009-10-16
    • Maarten M. J. W. Van HerpenDirk L. J. VossenSjoerd StallingaBernardus H. W. HendriksErik M. H. P. Van Dijk
    • Maarten M. J. W. Van HerpenDirk L. J. VossenSjoerd StallingaBernardus H. W. HendriksErik M. H. P. Van Dijk
    • G06K9/00
    • G06T11/001H04N1/62
    • A method of determining a color transformation for images of biological material includes preparing a first set of biological test objects using a first preparation method, and preparing a second set of biological test objects using a second preparation method. Each test object in the second set of test objects corresponding to a counterpart test object in the first set of test objects, the test object and its counterpart being of the same biological type of material. For each test object in the first and second set of test objects, the color of the test object is determined thereby generating a first and second set of colors The method further includes generating a conversion table indicating a mapping between the colors in the first set of colors and the corresponding colors in the second set of colors. The first and second preparation methods include first and second staining methods, respectively.
    • 确定生物材料的图像的颜色变换的方法包括使用第一制备方法制备第一组生物测试对象,并使用第二制备方法制备第二组生物测试对象。 第二组测试对象中的每个测试对象对应于第一组测试对象中的对应测试对象,测试对象及其对应物具有相同的生物类型的材料。 对于第一和第二组测试对象中的每个测试对象,确定测试对象的颜色,从而生成第一和第二组颜色。该方法还包括生成表示第一组中的颜色之间的颜色之间的映射的转换表 颜色和相应的颜色在第二组颜色。 第一和第二种制备方法分别包括第一和第二染色方法。
    • 5. 发明申请
    • TWO-DIMENSIONAL ARRAY OF RADIATION SPOTS FOR AN OPTICAL SCANNING DEVICE
    • 用于光学扫描装置的两维辐射阵列阵列
    • US20110019064A1
    • 2011-01-27
    • US12933166
    • 2009-03-16
    • Sjoerd Stallinga
    • Sjoerd Stallinga
    • H04N5/225G02B21/06
    • G02B21/004G02B26/10
    • The invention relates to an optical scanning device (10) comprising: a spot generator (20) for generating a two-dimensional array (8) of radiation spots at lattice points Pmn=mT1+nT2 (m=1 to L1, n=1 to L2) where T 1 is a first lattice vector and T2 is a second lattice vector, and scanning means for scanning a sample (26) through the array of radiation spots in a scanning direction such that the radiation spots trace essentially equidistant lines (81, 82, 83) relative to the sample. According to the invention, the angle γ between the scanning direction and the first lattice vector T1 is at most as large as the angle between the scanning direction and the second lattice vector T2, and the ratio L1/L2 is less than 0.6. According to a preferred embodiment, L1 differs from Λ by less then 1.0 or L1 equals Λ with a tolerance of 10% or, Λ being defined by √2 D/R=(1+Λ2) Λ, D being the length of a lattice diagonal and R being the resolution. The invention further relates to an optical scanning method.
    • 本发明涉及一种光学扫描装置(10),包括:点阵发生器(20),用于在格点Pmn = mT1 + nT2(m = 1至L1,n = 1)处产生辐射点的二维阵列(8) 到L2),其中T 1是第一晶格矢量,T2是第二晶格矢量;以及扫描装置,用于通过扫描方向上的辐射点阵列扫描样品(26),使得辐射点基本上等距线(81 ,82,83)。 根据本发明,扫描方向与第一格子矢量T1之间的角度γ与扫描方向和第二格子矢量T2之间的角度最大,并且比率L1 / L2小于0.6。 根据优选实施例,L1与Λ不同于1.0或L1等于Λ,其公差为10%,或Λ由√2D / R =(1 +Λ2)Λ定义,D是格子的长度 对角线和R是分辨率。 本发明还涉及一种光学扫描方法。
    • 8. 发明申请
    • Phase-Conjugate Read-Out in a Holographic Data Storage
    • 全息数据存储中的相位共轭读取
    • US20080253257A1
    • 2008-10-16
    • US11570535
    • 2005-06-20
    • Sjoerd Stallinga
    • Sjoerd Stallinga
    • G11B7/00
    • G11B7/0065G11C13/042
    • The invention relates to a holographic data storage medium (4) in which there are sections (20) which are used for data storage and sections (21) which are not. A diffractive structure (30a, 30b) is provided in respect of one or more of the unused sections (21), possibly at each of the boundaries between the used (20) and unused sections (21) or within the volume of a respective unused section (21) of the data storage volume. During read-out, a reference wave (6) is diffracted by the diffractive structure (30b) such that it enters a used section (20) (from the right) in a direction substantially perpendicular to the optical axis (16) of the signal wave (26). During recording, a reference wave (2) is diffracted by the diffractive structure (30a) such that it enters the used section (20) (from the left) in a direction substantially perpendicular to the optical axes (1b) of the signal wave (1).
    • 本发明涉及一种全息数据存储介质(4),其中存在用于数据存储的部分(20)和不是的部分(21)。 关于一个或多个未使用部分(21),可能在使用的(20)和未使用部分(21)之间的每个边界处或在一个或多个未使用部分(21)的体积内,提供衍射结构(30a,30b) 各个未使用部分(21)的数据存储卷。 在读出期间,参考波(6)被衍射结构(30b)衍射,使得其在基本上垂直于所述光轴(16)的方向(从右侧)进入使用部分(20) 信号波(26)。 在记录期间,参考波(2)被衍射结构(30a)衍射,使得其在基本上垂直于信号的光轴(1b)的方向上进入使用部分(20)(从左侧) 波(1)。