公开(公告)号：USD1062278S1

公开(公告)日：2025-02-18

申请号：US29963547

申请日：2024-09-18

Applicant: Yanyan Wu

Designer： Yanyan Wu

公开(公告)号：US08238642B2

公开(公告)日：2012-08-07

申请号：US12274687

申请日：2008-11-20

Applicant: Yanyan Wu ,  Donald Robert Howard ,  Harry Israel Ringermacher ,  Robert August Kaucic ,  Zhaohui Sun ,  Francis Howard Little ,  Xiaodong Tao ,  Patrick Joseph Howard ,  Matthew Edward Dragovich ,  Eric Scott Foster

Inventor： Yanyan Wu ,  Donald Robert Howard ,  Harry Israel Ringermacher ,  Robert August Kaucic ,  Zhaohui Sun ,  Francis Howard Little ,  Xiaodong Tao ,  Patrick Joseph Howard ,  Matthew Edward Dragovich ,  Eric Scott Foster

IPC: G06K9/00 ,  G06K9/20

CPC classification number: G01B11/02 ,  G01B11/24 ,  G06T7/001 ,  G06T7/337 ,  G06T2207/10048 ,  G06T2207/30164

Abstract: A method for determining 3D distances on a 2D pixelized image of a part or object includes acquiring a real 2D pixelized image of the object, creating a simulated image of the object using the 3D CAD model and the 2D pixelized image, determining a specified cost function comparing the simulated image with the real 2D pixilated image and repositioning the simulated image in accordance with iterated adjustments of a relative position between the CAD model and the 2D pixilated image to change the simulated image until the specified cost function is below a specified value. Then, the workstation is used to generate a 3D distance scale matrix using the repositioned simulated image, and to measure and display distances between selected pixels on a surface of the real image using 2D distances on the 2D pixelized image of the object and the 3D distance scale matrix.

Abstract translation: 一种用于确定部分或对象的2D像素化图像上的3D距离的方法包括获取对象的真实2D像素化图像，使用3D CAD模型和2D像素化图像创建对象的模拟图像，确定指定的成本函数 将模拟图像与真实2D像素化图像进行比较，并根据CAD模型和2D像素化图像之间的相对位置的迭代调整重新定位模拟图像，以改变模拟图像，直到指定的成本函数低于指定值。 然后，工作站用于使用重新定位的模拟图像生成3D距离尺度矩阵，并且使用对象的2D像素化图像上的2D距离来测量和显示在实际图像的表面上的所选像素之间的距离，并且3D距离 比例矩阵。

公开(公告)号：US07877888B2

公开(公告)日：2011-02-01

申请号：US11923881

申请日：2007-10-25

Applicant: Thomas James Batzinger ,  Jeffrey David Tilden ,  Xiaolei Shirley Ao ,  Waseem Ibrahim Faidi ,  Yanyan Wu ,  Nelson Raymond Corby, Jr.

Inventor： Thomas James Batzinger ,  Jeffrey David Tilden ,  Xiaolei Shirley Ao ,  Waseem Ibrahim Faidi ,  Yanyan Wu ,  Nelson Raymond Corby, Jr.

IPC: G01B21/28 ,  G01B5/213 ,  G01B7/06 ,  G01B17/02

CPC classification number: G01B17/02 ,  G01B5/12 ,  G01B7/06 ,  G01B15/02 ,  G01F1/00 ,  G01F1/66

Abstract: A method includes measuring a radius of curvature at each of the plurality of positions of the outer peripheral surface of the predetermined section of the pipe is measured through the first device. A second device is detachably coupled to the plurality of positions along the outer peripheral surface of the predetermined section of the pipe. A wall thickness at each of the plurality of positions of the outer peripheral surface of the predetermined section of the pipe is measured through the second device. A cross-sectional area of the predetermined section of the pipe is measured based on a measurement data including the radius of curvature and wall thickness at each of the plurality of positions of the outer peripheral surface of the predetermined section of the pipe.

Abstract translation: 通过第一装置测量管道的预定部分的外周表面的多个位置的每个位置处的曲率半径的方法。 第二装置可拆卸地联接到沿着管道的预定部分的外周表面的多个位置。 通过第二装置测量管道的预定部分的外周表面的多个位置中的每一个处的壁厚。 基于管道的预定部分的外周表面的多个位置中的每一个的曲率半径和壁厚的测量数据来测量管道的预定部分的横截面面积。

公开(公告)号：US20100126277A1

公开(公告)日：2010-05-27

申请号：US12277884

申请日：2008-11-25

Applicant: Yanyan Wu ,  Edward James Nieters ,  Thomas James Batzinger ,  Nicholas Joseph Kray ,  James Norman Barshinger ,  Jian Li ,  Waseem Ibrahim Faidi ,  Prabhjot Singh ,  Francis Howard Little ,  Michael Everett Keller ,  Timothy Jesse Sheets

Inventor： Yanyan Wu ,  Edward James Nieters ,  Thomas James Batzinger ,  Nicholas Joseph Kray ,  James Norman Barshinger ,  Jian Li ,  Waseem Ibrahim Faidi ,  Prabhjot Singh ,  Francis Howard Little ,  Michael Everett Keller ,  Timothy Jesse Sheets

IPC: G01N29/44 ,  G06F17/00

CPC classification number: G01N29/07 ,  G01N29/0654 ,  G01N29/4418 ,  G01N2291/011

Abstract: An ultrasound inspection system is provided for inspecting an object. The inspection system includes an ultrasound probe configured to scan the object and acquire a plurality of ultrasound scan data. The inspection system further includes a processor coupled to the ultrasound probe and configured to apply a transfer function to the ultrasound scan data to compensate for distortion of a plurality of ultrasound signals through the object and thereby generate a plurality of compensated ultrasound scan data, and to process the compensated ultrasonic scan data to characterize a feature in the object.

Abstract translation: 提供用于检查物体的超声检查系统。 检查系统包括被配置为扫描对象并获取多个超声扫描数据的超声波探头。 所述检查系统还包括处理器，其耦合到所述超声波探头并且被配置为将所述传递函数应用于所述超声波扫描数据以补偿通过所述物体的多个超声信号的失真，从而生成多个经补偿的超声波扫描数据，并且 处理补偿的超声波扫描数据以表征物体中的特征。

公开(公告)号：US20090136114A1

公开(公告)日：2009-05-28

申请号：US11945456

申请日：2007-11-27

Applicant: Yanyan Wu ,  Francis Howard Little ,  Prabhjot Singh

Inventor： Yanyan Wu ,  Francis Howard Little ,  Prabhjot Singh

IPC: G06K9/00

CPC classification number: G06K9/32 ,  G06K9/00 ,  G06K2209/19

Abstract: An inspection method is provided and includes acquiring at least one inspection data set. Each inspection data set comprises inspection data for a component. The inspection method further includes mapping the inspection data set onto a three-dimensional (3D) model of the component, to generate a 3D inspection model for the component, and validating the inspection data against the 3D model of the component using at least one validation criterion. A multi-modality inspection method is also provided and includes acquiring multiple inspection data sets corresponding to multiple inspection modalities for a component and fusing the inspection data sets to form a fused data set. The multi-modality inspection method further includes mapping the fused data set onto a 3D model of the component to generate a 3D multi-modality inspection model for the component.

Abstract translation: 提供检查方法，包括获取至少一个检查数据集。 每个检查数据组包括组件的检查数据。 检查方法还包括将检查数据集映射到部件的三维（3D）模型上，以生成用于部件的3D检查模型，并使用至少一个验证来验证检测数据对组件的3D模型 标准。 还提供了一种多模式检查方法，包括获取对应于组件的多个检查模式的多个检查数据集，并将检验数据集合并形成融合数据集。 多模式检查方法还包括将融合数据集映射到组件的3D模型上，以生成用于组件的3D多模态检查模型。

公开(公告)号：US08179132B2

公开(公告)日：2012-05-15

申请号：US12372881

申请日：2009-02-18

Applicant: Yanyan Wu ,  Thomas James Batzinger ,  Nicholas Joseph Kray ,  Changting Wang ,  Haiyan Sun ,  Francis Howard Little ,  David Paul Lappas ,  David Michael Dombrowski

Inventor： Yanyan Wu ,  Thomas James Batzinger ,  Nicholas Joseph Kray ,  Changting Wang ,  Haiyan Sun ,  Francis Howard Little ,  David Paul Lappas ,  David Michael Dombrowski

IPC: G01N27/82

CPC classification number: G01B7/008 ,  G01B7/28 ,  G01N27/90 ,  G01N27/9046

Abstract: A method for integrating a measurement device for use in measuring a machine component includes providing a coordinate measuring machine (CMM) and combining eddy current (EC) capabilities and CMM capabilities to form an inspection probe. The method further includes installing the inspection probe on the CMM so that the inspection probe measures external boundaries of the machine component with the CMM capabilities and substantially simultaneously measures at least one of internal boundaries, internal defects, surface defects, and material properties of the machine component with the EC capabilities, which are directly linked to actual component dimensional information provided by CMM. The inspection data can be simultaneously linked to and/or displayed with a CAD model to enable a direct comparison between the inspection data and the nominal requirements specified on the CAD model.

Abstract translation: 用于集成用于测量机器部件的测量装置的方法包括提供坐标测量机（CMM）并组合涡流（EC）能力和CMM能力以形成检查探针。 该方法还包括将检查探针安装在CMM上，使得检查探针以CMM能力测量机器部件的外部边界，并且基本上同时测量机器的内部边界，内部缺陷，表面缺陷和材料特性中的至少一个 具有EC功能的组件，其直接与CMM提供的实际组件尺寸信息相关联。 检查数据可以与CAD模型同时链接和/或显示，以便能够直接比较检验数据和CAD模型上规定的标称要求。

公开(公告)号：US07921575B2

公开(公告)日：2011-04-12

申请号：US11964939

申请日：2007-12-27

Applicant: Francis Howard Little ,  Yanyan Wu ,  Jian Li ,  Nicholas J. Kray

Inventor： Francis Howard Little ,  Yanyan Wu ,  Jian Li ,  Nicholas J. Kray

IPC: G01N29/265 ,  G01B5/008

CPC classification number: G01N29/265 ,  G01B5/012 ,  G01B17/02 ,  G01B21/04 ,  G01B21/047 ,  G01N2291/02854 ,  G01N2291/044 ,  G01N2291/2693 ,  Y10T29/49826

Abstract: A method is provided for assembling a measurement device for use in measuring a machine component. The method includes providing a coordinate measuring machine (CMM). The method also includes combining ultrasonic inspection (UT) capabilities and CMM capabilities to form an inspection probe. The inspection probe is installed on the CMM so that the inspection probe measures external boundaries of the machine component with the CMM capabilities and substantially simultaneously measures internal boundaries of the machine component with the UT capabilities.

Abstract translation: 提供了用于组装用于测量机器部件的测量装置的方法。 该方法包括提供坐标测量机（CMM）。 该方法还包括组合超声波检测（UT）功能和CMM功能，形成检测探针。 检查探头安装在CMM上，以便检测探头以CMM功能测量机器部件的外部边界，并基本上同时测量机器部件的内部边界与UT功能。

公开(公告)号：US09795156B2

公开(公告)日：2017-10-24

申请号：US13422170

申请日：2012-03-16

Applicant: Jingang Shi ,  Hansheng Wang ,  Mingming Deng ,  Jien Ding ,  Yanyan Wu

Inventor： Jingang Shi ,  Hansheng Wang ,  Mingming Deng ,  Jien Ding ,  Yanyan Wu

IPC: A23L1/236 ,  A23G3/00 ,  C07H1/00 ,  C07H15/256 ,  A23L27/30

CPC classification number: A23L27/36 ,  C07H1/00 ,  C07H15/256

Abstract: The invention describes compositions that include a stevia sweetener and a salt of a steviol glycoside, wherein the concentration of the components provide an improved taste profile where bitterness, after taste and/or lingering of the stevia sweetener is decreased or eliminated.

公开(公告)号：US20130071537A1

公开(公告)日：2013-03-21

申请号：US13422170

申请日：2012-03-16

Applicant: Jingang Shi ,  Hansheng Wang ,  Mingming Deng ,  Jien Ding ,  Yanyan Wu

Inventor： Jingang Shi ,  Hansheng Wang ,  Mingming Deng ,  Jien Ding ,  Yanyan Wu

IPC: A23L1/236 ,  C07H1/00 ,  C07H15/256

CPC classification number: A23L27/36 ,  C07H1/00 ,  C07H15/256

Abstract: The invention describes compositions that include a stevia sweetener and a salt of a steviol glycoside, wherein the concentration of the components provide an improved taste profile where bitterness, after taste and/or lingering of the stevia sweetener is decreased or eliminated.

Abstract translation: 本发明描述了包含甜叶菊甜味剂和甜菊糖苷的盐的组合物，其中组分的浓度提供改善的味道特征，其中甜菊糖甜味剂的味道和/或徘徊减少或消除。

公开(公告)号：US08010315B2

公开(公告)日：2011-08-30

申请号：US11945456

申请日：2007-11-27

Applicant: Yanyan Wu ,  Francis Howard Little ,  Prabhjot Singh

Inventor： Yanyan Wu ,  Francis Howard Little ,  Prabhjot Singh

IPC: G01C9/00 ,  G01N21/00

CPC classification number: G06K9/32 ,  G06K9/00 ,  G06K2209/19

Abstract: An inspection method is provided and includes acquiring at least one inspection data set. Each inspection data set comprises inspection data for a component. The inspection method further includes mapping the inspection data set onto a three-dimensional (3D) model of the component, to generate a 3D inspection model for the component, and validating the inspection data against the 3D model of the component using at least one validation criterion. A multi-modality inspection method is also provided and includes acquiring multiple inspection data sets corresponding to multiple inspection modalities for a component and fusing the inspection data sets to form a fused data set. The multi-modality inspection method further includes mapping the fused data set onto a 3D model of the component to generate a 3D multi-modality inspection model for the component.

Abstract translation: 提供检查方法，包括获取至少一个检查数据集。 每个检查数据组包括组件的检查数据。 检查方法还包括将检查数据集映射到部件的三维（3D）模型上，以生成用于部件的3D检查模型，并使用至少一个验证来验证检测数据对组件的3D模型 标准。 还提供了一种多模式检查方法，包括获取对应于组件的多个检查模式的多个检查数据集，并将检验数据集合并形成融合数据集。 多模式检查方法还包括将融合数据集映射到组件的3D模型上，以生成用于组件的3D多模态检查模型。