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公开(公告)号:US06028661A
公开(公告)日:2000-02-22
申请号:US986733
申请日:1997-12-08
CPC分类号: G01M11/3136
摘要: A multi-branched optical line testing apparatus can automatically detect a faulty line in multi-branched optical lines and the distance to the fault point. An optical pulse is introduced to the branch point of optical fibers and is reflected inside the respective optical fibers. The waveform of the returning response light is analyzed by an optical time-domain reflectometer (OTDR) measuring apparatus to detect a fault in the respective optical fibers and to determine the fault point. The OTDR measuring apparatus periodically converts the response light which is returned from the respective optical fibers into a digital waveform data group, calculates the attenuation ratios of the respective optical fibers by performing separation analysis of the digital waveform data group, and determines the faulty line and the position of the fault point based on the change of the attenuation ratio of the respective optical fibers.
摘要翻译: 多分支光线路测试装置可以自动检测多分支光线路中的故障线路和故障点的距离。 将光脉冲引入到光纤的分支点,并在各光纤内反射。 通过光时域反射计(OTDR)测量装置分析返回响应光的波形,以检测各光纤中的故障并确定故障点。 OTDR测量装置将从各个光纤返回的响应光周期性地转换为数字波形数据组,通过执行数字波形数据组的分离分析来计算各个光纤的衰减比,并确定故障线 基于相应光纤的衰减比的变化的故障点的位置。
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公开(公告)号:US06310702B1
公开(公告)日:2001-10-30
申请号:US09099502
申请日:1998-06-18
IPC分类号: H04B1008
CPC分类号: H04B10/272 , H04B10/071
摘要: A testing device performs testing on a multistage multi-branch optical network, which contains optical lines (such as optical fibers) that are connected together at connection points (e.g., optical couplers) in a multistage multi-branch manner. An OTDR measurement device uses software to perform fault determination with respect to the multistage multi-branch optical network. Herein, optical pulses are input to an input end of the multistage multi-branch optical network, wherein they are reflected at certain portions of the optical lines and the connection points while propagating through the optical lines. Then, reflected beams are returned to the input end and are mixed together as response light, which is measured by the OTDR measurement device. The response light is converted to a plurality of digital waveform data representing a measured waveform, which is then divided into multiple ranges on the basis of the Fresnel reflection points and connection points. Separative analysis is performed on the digital waveform data belonging to each of the ranges of the measured waveform. The separative analysis is repeated at measuring times, which are determined in advance. So, the fault determination is made by comparing results of the separative analysis, which are obtained at the measuring times respectively. By the fault determination, it is possible to determine a fault line and a fault location (or fault distance) as well as a fault time.
摘要翻译: 测试装置在多级多分支光网络上进行测试,该多网络光网络包含以多级多分支方式在连接点(例如,光耦合器)处连接在一起的光线路(例如光纤)。 OTDR测量装置使用软件对多级多分支光网络执行故障确定。 这里,光脉冲被输入到多级多分支光网络的输入端,其中它们在通过光线路传播的同时在光线路和连接点的某些部分被反射。 然后,反射光束返回到输入端,并作为响应光混合在一起,由OTDR测量装置测量。 将响应光转换成表示测量波形的多个数字波形数据,然后根据菲涅耳反射点和连接点将其分成多个范围。 对属于测量波形的每个范围的数字波形数据执行分离分析。 在测量时间重复分离分析,这是预先确定的。 因此,通过比较分别在测量时间分别获得的分析结果进行故障确定。 通过故障确定,可以确定故障线路和故障位置(或故障距离)以及故障时间。
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3.发明申请INTERFERENCE DETERMINATION DEVICE, INTERFERENCE DETERMINATION METHOD, AND COMPUTER PROGRAM PRODUCT 审中-公开干扰测定装置,干扰测定方法和计算机程序产品公开(公告)号:US20110202318A1
公开(公告)日:2011-08-18
申请号:US13019807
申请日:2011-02-02
申请人: Kouji Demizu , Masayuki Kidera , Naoyuki Nozaki
发明人: Kouji Demizu , Masayuki Kidera , Naoyuki Nozaki
IPC分类号: G06F17/50
CPC分类号: G06F17/5086
摘要: A dividing unit 12 divides each of a plurality of component parts each represented by a three-dimensional polygon model into surfaces forming a periphery of the component part. A surface information creation unit 13 creates information of a contour of each of the surfaces obtained by the division by the dividing unit 12 as information relating to the surface. A surface interference determination unit 14 determines presence/absence of an interference state by selecting two component parts having possibility of interference and comparing contours of surfaces obtained from the selected component parts. The surface interference determination unit 14 performs the determination by sequentially changing the combination of component parts, thereby enabling the three-dimensional interference determination while suppressing memory consumption.
摘要翻译: 分割单元12将由三维多边形模型表示的多个组成部分中的每一个分成形成组成部分的周边的表面。 表面信息创建单元13创建通过由分割单元12分割获得的每个表面的轮廓的信息作为与表面有关的信息。 表面干扰确定单元14通过选择具有干扰可能性的两个组成部分并比较从所选择的组成部分获得的表面轮廓,来确定干扰状态的存在与否。 表面干扰确定单元14通过顺序地改变组成部分的组合来执行确定,从而在抑制存储器消耗的同时实现三维干扰确定。
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4.发明申请Height-limit calculation apparatus, height-limit calculation method, method of manufacturing three-dimensional structure, and computer product 有权高度限制计算装置,高度限制计算方法,三维结构制造方法和计算机产品公开(公告)号:US20080079952A1
公开(公告)日:2008-04-03
申请号:US11699493
申请日:2007-01-30
申请人: Naoyuki Nozaki
发明人: Naoyuki Nozaki
CPC分类号: G01B11/24 , G06F17/50 , H05K1/181 , H05K3/0005
摘要: A height-limited-area-information creating device creates a clip plane on a base plane of a printed circuit board, and sets a view so that an image faces the base plane and a normal to the base plane represents a depth direction of the image. According to the view, a three-dimensional image of a chassis-side component is created. The base plane is divided into unit areas, and one of the unit areas is selected. Coordinates of vertices of the selected unit area are transformed to screen coordinates to acquire a component and a polygon at the position of the screen coordinates. Distances from respective four vertices to the polygon are calculated as height, and a minimum value is determined as a maximum height for the unit area.
摘要翻译: 高度限制区域信息创建装置在印刷电路板的基面上形成剪辑平面,并且设置使得图像面向基面并且与基准面垂直的视图表示图像的深度方向 。 根据该视图,创建了机箱侧部件的三维图像。 基面分为单位区域,选择单位区域之一。 将所选择的单位区域的顶点的坐标变换为屏幕坐标,以获取屏幕坐标位置处的分量和多边形。 从相应的四个顶点到多边形的距离计算为高度,最小值被确定为单位面积的最大高度。
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公开(公告)号:US6167142A
公开(公告)日:2000-12-26
申请号:US66787
申请日:1998-04-28
申请人: Naoyuki Nozaki
发明人: Naoyuki Nozaki
CPC分类号: G06T15/20 , G06T19/20 , G06T2210/21 , G06T2219/2016
摘要: In an object movement simulation apparatus, a collision arithmetic unit performs arithmetic including a detection of two closest points in accordance with information representative of a plurality of objects. An image producing unit produces a three-dimensional image including a virtual object representative of a closest line coupling the two closest points to each other. The image producing unit produces the three-dimensional image, where a viewpoint is moved in a direction vertical to the closest line, looking at the viewpoint after a movement.
摘要翻译: 在物体运动模拟装置中,碰撞运算单元根据表示多个物体的信息,进行包括两个最近点的检测的运算。 图像产生单元产生三维图像,该三维图像包括表示将两个最接近的点相互耦合的最近线的虚拟对象。 图像产生单元产生三维图像,其中视点在垂直于最近线的方向上移动,观察移动后的视点。
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公开(公告)号:US09262580B2
公开(公告)日:2016-02-16
申请号:US13420963
申请日:2012-03-15
IPC分类号: G06F17/50
CPC分类号: G06F17/5086
摘要: The disclosed method includes: first generating, from data of a plurality of parts that are string-shaped or band-shaped parts formed by end surfaces and side surfaces, first data including control point candidate data for control point candidates within the end surfaces, end surface data defining the end surfaces and path candidate data for path candidates between the control point candidates, for each of the plurality of parts; second generating second data of continuous shape paths representing continuous parts by searching the first data for parts having same control point candidate data and same end surface data; and third generating third data including data of control points determined on end surface portion of the parts and data of paths between the control points for the continuous shape paths and a group of the continuous shape paths from the first data and the second data.
摘要翻译: 所公开的方法包括:首先从由端面和侧面形成的串联或带状部分的多个部分的数据生成包括端表面内的控制点候选的控制点候选数据的第一数据,结束 针对所述多个部分中的每个部分,为所述控制点候选之间的路径候选定义所述端面和所述路径候选数据的表面数据; 通过搜索具有相同控制点候选数据和相同端面数据的部分的第一数据来产生表示连续部分的连续形状路径的第二数据; 以及第三生成包括在所述部件的端面部分上确定的控制点的数据和来自所述第一数据和所述第二数据的所述连续形状路径的控制点之间的路径的数据和所述连续形状路径的组的数据。
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公开(公告)号:US20120239352A1
公开(公告)日:2012-09-20
申请号:US13420963
申请日:2012-03-15
IPC分类号: G06F17/50
CPC分类号: G06F17/5086
摘要: The disclosed method includes: first generating, from data of a plurality of parts that are string-shaped or band-shaped parts formed by end surfaces and side surfaces, first data including control point candidate data for control point candidates within the end surfaces, end surface data defining the end surfaces and path candidate data for path candidates between the control point candidates, for each of the plurality of parts; second generating second data of continuous shape paths representing continuous parts by searching the first data for parts having same control point candidate data and same end surface data; and third generating third data including data of control points determined on end surface portion of the parts and data of paths between the control points for the continuous shape paths and a group of the continuous shape paths from the first data and the second data.
摘要翻译: 所公开的方法包括:首先从由端面和侧面形成的串联或带状部分的多个部分的数据生成包括端表面内的控制点候选的控制点候选数据的第一数据,结束 针对所述多个部分中的每个部分,为所述控制点候选之间的路径候选定义所述端面和所述路径候选数据的表面数据; 通过搜索具有相同控制点候选数据和相同端面数据的部分的第一数据来产生表示连续部分的连续形状路径的第二数据; 以及第三生成包括在所述部件的端面部分上确定的控制点的数据和来自所述第一数据和所述第二数据的所述连续形状路径的控制点之间的路径的数据和所述连续形状路径的组的数据。
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8.发明授权Method, device, and computer product for creating height-limited-area information, and method of manufacturing three-dimensional structure 有权用于创建高度限制区域信息的方法,设备和计算机产品以及制造三维结构的方法公开(公告)号:US07398128B2
公开(公告)日:2008-07-08
申请号:US11654583
申请日:2007-01-18
申请人: Yuichi Arita , Naoyuki Nozaki , Tsukasa Tenma
发明人: Yuichi Arita , Naoyuki Nozaki , Tsukasa Tenma
摘要: A base-plane-height determining unit determines whether a base plane is formed with planes of different heights. A base-plane determining unit determines, when it is determined that the base plane is formed with the plural planes of different heights, whether to take the plural planes or a single plane as a basis. A height-limited-area-information creating unit creates, when it is determined to take the plural planes as the basis, height-limited-area information by taking different planes for different locations as the basis, otherwise, the height-limited-area information by taking a single plane from among the plural planes as the basis.
摘要翻译: 基面高度确定单元确定基面是否形成有不同高度的平面。 基准面确定单元确定在确定以不同高度的多个平面形成基面时,是否以多个平面或单个平面为基础。 高度限制区域信息创建单元通过以不同位置的不同平面作为基础,确定以多个平面作为基准来确定高度限制区域信息,否则,将高度限制区域信息 通过以多个飞机中的单一飞机为基础的信息。
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9.发明授权Verification device for an effective visual field, method for verifying the effective visual field, and programming medium for verifying the effective visual field 失效用于有效视场的验证装置,用于验证有效视野的方法,以及用于验证有效视野的编程介质公开(公告)号:US06683610B1
公开(公告)日:2004-01-27
申请号:US09510168
申请日:2000-02-22
申请人: Naoyuki Nozaki
发明人: Naoyuki Nozaki
IPC分类号: G06T1510
CPC分类号: G06T19/00
摘要: A verification device of an effective visual field range of a display takes into account a use environment. The device includes a composing unit composing a use environment related to a verifying object of a displaying device in a virtual three-dimensional space of a computer, taking into account the use environment thereof, a setting unit setting an effective visual field of a verifying object of the displaying device by the use environment composed by the composing unit, and a display displaying visually the effective visual field set by the setting unit as an effective visual field on the displaying screen.
摘要翻译: 显示器的有效视场范围的验证装置考虑使用环境。 该装置包括构成单元,其构成与计算机的虚拟三维空间中的显示装置的验证对象相关的使用环境,考虑其使用环境,设置验证对象的有效视野的设定单元 通过由构成单元构成的使用环境的显示装置,以及在显示画面上以设定单位设定的有效视野作为有效的视野而显示的显示器。
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公开(公告)号:US08059120B2
公开(公告)日:2011-11-15
申请号:US11553171
申请日:2006-10-26
申请人: Masayoshi Hashima , Yuichi Sato , Yuichi Arita , Naoyuki Nozaki
发明人: Masayoshi Hashima , Yuichi Sato , Yuichi Arita , Naoyuki Nozaki
IPC分类号: G06T17/00
CPC分类号: G06T19/00 , G06T7/11 , G06T7/187 , G06T17/00 , G06T2200/04 , G06T2219/008
摘要: A calculation area including a three-dimensional (3D) product model is specified, and a plurality of cross-sectional images is cut out from the calculation area. Each cross-sectional image is divided into plural pieces of voxel data, and voxel data of a gap area of the inside of a product is generated from the plural pieces of voxel data. A 3D model of the gap area of the inside of the product is generated, and also a volume of the gap area of the inside of the product is calculated, based on the voxel data of the gap area obtained by each cross-sectional image.
摘要翻译: 指定包括三维(3D)乘积模型的计算区域,并从计算区域切出多个横截面图像。 每个横截面图像被分成多个体素数据,并且从多个体素数据生成产品内部的间隙区域的体素数据。 产生产品内部的间隙区域的3D模型,并且基于由每个横截面图像获得的间隙区域的体素数据,计算产品内部的间隙面积的体积。
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