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    • 1. 发明申请
    • DOCUMENT PROCESSING APPARATUS
    • 文件处理装置
    • US20100199167A1
    • 2010-08-05
    • US11993694
    • 2006-06-23
    • Naoya UematsuNoriyoshi Matsumoto
    • Naoya UematsuNoriyoshi Matsumoto
    • G06F17/00
    • G06F17/2247G06F17/24
    • A structured document file is created in an efficient manner. A document acquisition unit 3130 acquires the structured document file. A relationship information acquisition unit 3132 acquires relationship information defining the relationship between components included in the structured document file. A display rule retaining unit 3134 retains display rule information expressing a rule to display the structured document file in accordance with the relationship information. A display style determination unit 3124 refers to the relationship information and display rule information on the structured document file, and then determines a display style of the structured document file. A display unit 3122 displays the components included in the structured document file on a screen by means of graphics objects, respectively, in accordance with the display style that has been determined. The relationship between the components different from the tag structure in the structured document file can be defined in the relationship information.
    • 以有效的方式创建结构化文档文件。 文档获取单元3130获取结构化文档文件。 关系信息获取单元3132获取定义包括在结构化文档文件中的组件之间的关系的关系信息。 显示规则保持单元3134保留表示规则的显示规则信息,以根据关系信息显示结构化文档文件。 显示风格确定单元3124参考结构化文档文件上的关系信息和显示规则信息,然后确定结构化文档文件的显示风格。 显示单元3122根据已经确定的显示风格分别通过图形对象将屏幕上包括的结构化文档中的组件显示在屏幕上。 可以在关系信息中定义与结构化文档文件中的标签结构不同的组件之间的关系。
    • 4. 发明申请
    • DATA PROCESSING APPARATUS AND DATA PROCESSING METHOD
    • 数据处理设备和数据处理方法
    • US20090222447A1
    • 2009-09-03
    • US12372999
    • 2009-02-18
    • Noriyoshi Matsumoto
    • Noriyoshi Matsumoto
    • G06F7/20G06F17/30
    • G06F17/2247G06F17/227
    • A matching device includes a matching unit that selects a pattern consistent with data to be compared, based on a rule by which a correspondence relation between patterns of data described in a markup language is defined; and a variable control unit that substitutes, when a pattern including a variable is selected, the data to be compared located at a position corresponding to a position of the variable in the selected pattern into the variable. The variable control unit substitutes, when the data to be compared is data described in a markup language, and when the data to be compared located at the position corresponding to the position of the variable in the selected pattern, is a fragment including a plurality of nodes, the fragment into the variable.
    • 基于规定了以标记语言描述的数据的模式之间的对应关系的规则,匹配装置包括:匹配单元,其选择与要比较的数据一致的模式; 以及可变控制单元,当选择包括变量的模式时,将要被比较的数据位于与所选择的模式中的变量的位置相对应的位置处于该变量中。 当要比较的数据是以标记语言描述的数据时,并且当要被比较的数据位于与所选择的模式中的变量的位置相对应的位置时,变量控制单元是包括多个 节点,片段变成变量。
    • 5. 发明申请
    • COATED OPTICAL FIBER ENDFACE PREPARATION METHOD AND TOOL
    • 涂层光纤端面制备方法和工具
    • US20080196450A1
    • 2008-08-21
    • US11850538
    • 2007-09-05
    • Kazuo HogariNoriyoshi Matsumoto
    • Kazuo HogariNoriyoshi Matsumoto
    • G02B6/25H05B3/48
    • G02B6/25G02B6/245
    • As the endface preparation of the coated optical fiber, cutting using thermal stress is carried out, and a ceramic heater is used as a heat source, thereby making it possible to provide a coated optical fiber endface preparation method and tool capable of increasing the cutting success rate of the coated optical fiber. The coated optical fiber is removed of its coating to obtain the bare optical fiber. The bare optical fiber is heated by the heat source consisting of the ceramic heater, and is cut by further adding stress to part of the bare optical fiber which has been provided with the thermal stress. When heating the bare optical fiber, the product of a temperature and the heating time of the heat source is made 3000° C. sec or more.
    • 作为涂布光纤的端面制备,进行使用热应力的切割,并且使用陶瓷加热器作为热源,从而可以提供能够增加切割成功的涂覆光纤端面制备方法和工具 涂层光纤的速率。 涂覆的光纤被去除其涂层以获得裸光纤。 裸光纤被由陶瓷加热器组成的热源加热,并且通过进一步向已经提供热应力的裸光纤增加应力而被切割。 当加热裸光纤时,温度和热源的加热时间的乘积为3000℃sec以上。