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    • 3. 发明申请
    • IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND PROGRAM THEREFOR
    • 图像处理装置,图像处理方法及其程序
    • US20090103831A1
    • 2009-04-23
    • US12252559
    • 2008-10-16
    • Yusuke NAKAMURAShinichiro GomiMasami Ogata
    • Yusuke NAKAMURAShinichiro GomiMasami Ogata
    • G06K9/40
    • G06T5/10G06T5/007G06T7/13G06T7/40
    • An image processing apparatus processes an input image while also considering the luminous intensity information thereof, and thereby generates an output image wherein the apparent object surface roughness has been enhanced with respect to the input image. The image processing apparatus includes a luminous intensity information separator that separates the input image information into global luminous intensity information and local luminous intensity information, a shadow component generator that generates a shadow component of the image on the basis of the local luminous intensity information, and an image compositor that generates an output image by adding shadow image information to the input image information, with the shadow image information being generated from the shadow component and from a value based on the input image information.
    • 图像处理装置在考虑其输出图像的同时考虑其输入图像,并且产生相对于输入图像增强了表观物体表面粗糙度的输出图像。 该图像处理装置包括将输入图像信息分离为全局发光强度信息和局部发光强度信息的发光强度信息分离器,基于局部发光强度信息生成图像的阴影分量的阴影分量发生器,以及 图像合成器,其通过将阴影图像信息添加到输入图像信息,并且从阴影分量生成阴影图像信息和基于输入图像信息的值来生成输出图像。
    • 4. 发明申请
    • NOVEL METHOD OF DETECTING GENETIC POLYMORPHISM
    • 检测遗传多态性的新方法
    • US20080286783A1
    • 2008-11-20
    • US12058318
    • 2008-03-28
    • Naoya HOSONOMitsuaki KUBOYusuke NAKAMURA
    • Naoya HOSONOMitsuaki KUBOYusuke NAKAMURA
    • C12Q1/68
    • C12Q1/6827C12Q2561/109C12Q2537/157
    • The present invention provides a novel polymorphism detecting method suitable for the detection and identification of copy number variation.Provided is a method of determining the genotype of a subject in a genomic region comprising an SNP site, comprising a step for performing typing of the SNP site by the invader assay with a DNA-containing sample comprising the genomic region from the subject as the template, wherein fluorescence is measured on a real time basis. The copy number ratio of both alleles is determined using the fluorescence intensity ratio of each allele at a time before saturation of fluorescence intensity. Preferably, the present method further comprises a step for amplifying the genomic region comprising an SNP site prior to the invader step. In this step of amplification, a plurality of regions comprising a plurality of SNP sites can be simultaneously amplified. Furthermore, the present method enables the determination of the copy number of each allele when combined with quantitative PCR.
    • 本发明提供了一种适用于检测和鉴定拷贝数变异的新型多态性检测方法。 提供了确定包含SNP位点的基因组区域中受试者的基因型的方法,其包括通过使用含有来自受试者的基因组区域作为模板的含有DNA的样品通过侵入测定进行SNP位点的分型的步骤 其中荧光是实时测量的。 使用荧光强度饱和之前的每个等位基因的荧光强度比来确定两个等位基因的拷贝数比。 优选地,本方法还包括在入侵者步骤之前扩增包含SNP位点的基因组区域的步骤。 在该扩增步骤中,可以同时扩增包含多个SNP位点的多个区域。 此外,当与定量PCR组合时,本方法能够确定每个等位基因的拷贝数。
    • 7. 发明申请
    • Image Processing Apparatus and Method, Image Capturing Apparatus, and Program
    • 图像处理装置和方法,图像捕获装置和程序
    • US20100290705A1
    • 2010-11-18
    • US12740451
    • 2009-09-08
    • Yusuke NAKAMURA
    • Yusuke NAKAMURA
    • G06K9/34
    • G06T3/0056G06T11/60G06T2210/22H04N1/3872H04N5/232H04N5/23222H04N5/23229H04N5/23293H04N5/2621H04N2101/00
    • The present invention relates to an image processing apparatus and method, an image capturing apparatus, and a program which make it possible to crop an image with an optimal composition even for a subject other than a person.A composition pattern setting section 33 sets a composition pattern corresponding to an input image, on the basis of the number of salient regions to which attention is directed in the input image, and the scene of the input image. On the basis of the composition pattern set by the composition pattern setting section 33, a composition analyzing section 34 determines a crop region in the input image which is optimal for an image to be cropped in the composition pattern from the input image. The present invention is applicable to, for example, an image processing apparatus that adjusts the composition of a captured image.
    • 本发明涉及一种图像处理装置和方法,图像捕获装置和程序,使得即使对于除了人之外的对象也可以以最佳组合来裁剪图像。 合成图案设定部分33基于输入图像中关注的突出区域的数量和输入图像的场景来设置与输入图像相对应的合成图案。 根据由构图图案设定部33设定的构图图案,构图分析部34根据输入图像确定输入图像中的剪裁区域,该剪切区域对于要被裁剪的图像最佳。 本发明可应用于例如调整拍摄图像的构图的图像处理装置。
    • 10. 发明申请
    • METHOD OF DIAGNOSING ESOPHAGEAL CANCER
    • 诊断食管癌的方法
    • US20120021946A1
    • 2012-01-26
    • US13246639
    • 2011-09-27
    • Yusuke NAKAMURAYataro DaigoShuichi Nakatsuru
    • Yusuke NAKAMURAYataro DaigoShuichi Nakatsuru
    • C40B30/04G01N33/566
    • C12Q1/6886C12Q2600/118C12Q2600/136C12Q2600/158Y10T436/25
    • In order to identify the molecules involved in esophageal carcinogenesis and those to be useful for diagnostic markers as well as targets for new drugs and immunotherapy, a cDNA microarray representing 32,256 genes was constructed to analyze the expression profiles of 19 esophageal squamous-cell carcinomas (ESCCS) purified by laser-capture microdissection. A detailed genome-wide database for sets of genes that are significantly up- or down-regulated in esophageal cancer is disclosed herein. These genes find use in the development of therapeutic drugs or immunotherapy as well as tumor markers. Additionally, genes associated with lymph-node metastasis and post-surgery recurrence are disclosed herein. Among the candidate molecular target genes, ECT2, CDC45L and DKK1 are further characterized. Treatment of ESCC cells with small interfering RNAs (siRNAs) of ECT2 or CDC45L suppressed growth of the cancer cells. Thus, the data herein provide valuable information for identifying diagnostic systems and therapeutic target molecules for esophageal cancer.
    • 为了鉴定涉及食管癌发生的分子以及可用于诊断标志物以及新药和免疫治疗靶标的分子,构建了代表32,256个基因的cDNA微阵列,分析19例食管鳞状细胞癌(ESCCS)的表达谱 )通过激光捕获显微切割纯化。 本文公开了在食管癌中显着上调或下调的基因组的详细全基因组数据库。 这些基因可用于治疗药物或免疫治疗以及肿瘤标志物的开发。 此外,本文公开了与淋巴结转移和手术后复发相关的基因。 在候选分子靶基因中,进一步表征ECT2,CDC45L和DKK1。 用ECT2或CDC45L的小干扰RNA(siRNA)处理ESCC细胞抑制癌细胞的生长。 因此,本文的数据提供了用于鉴定诊断系统和用于食管癌的治疗靶分子的有价值的信息。