会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Intra-oral three-dimensional imaging system
    • 口腔内三维成像系统
    • US08390822B2
    • 2013-03-05
    • US12738199
    • 2008-10-23
    • Robert F. DillonBing ZhaoNeil H. K. Judell
    • Robert F. DillonBing ZhaoNeil H. K. Judell
    • G01B11/24G01B9/021G01B11/02
    • A61B5/0088A61B5/0084A61B5/4547A61B5/682A61C9/006A61C9/0073G01B11/2527
    • Described are a method and device for determining three-dimensional position information of a surface of a translucent object having a wavelength-dependent transmittance and reflectance characteristics. The method includes illuminating the surface of the translucent object with optical radiation at a predetermined wavelength emitted from a pair of optical sources. Radiation scattered from the surface and below the surface is detected, and a phase of the optical radiation from one of the optical sources relative to a phase of the optical radiation from the other optical source is changed before again detecting the scattered radiation. The predetermined wavelength is selected so that the optical radiation scattered from below the surface and detected provides a substantially constant background intensity with respect to the optical radiation scattered from the surface and detected. Three-dimensional position information of the surface is calculated in response to the detected radiation.
    • 描述了一种用于确定具有波长依赖的透射率和反射率特性的半透明物体的表面的三维位置信息的方法和装置。 该方法包括用从一对光源发射的预定波长的光辐照照射半透明物体的表面。 检测从表面和表面下方散射的辐射,并且在再次检测散射辐射之前改变来自光源之一相对于来自另一光源的光辐射的相位的相位的相位。 选择预定波长,使得从表面下方散射的光辐射相对于从表面散射的光辐射提供基本上恒定的背景强度并被检测。 响应于检测到的辐射计算表面的三维位置信息。
    • 2. 发明申请
    • INTRA-ORAL THREE-DIMENSIONAL IMAGING SYSTEM
    • 内窥镜三维成像系统
    • US20100227291A1
    • 2010-09-09
    • US12738199
    • 2008-10-23
    • Robert F. DillonBing ZhaoNeil H.K. Judell
    • Robert F. DillonBing ZhaoNeil H.K. Judell
    • A61B1/24G01B11/24G01J3/00
    • A61B5/0088A61B5/0084A61B5/4547A61B5/682A61C9/006A61C9/0073G01B11/2527
    • Described are a method and device for determining three-dimensional position information of a surface of a translucent object having a wavelength-dependent transmittance and reflectance characteristics. The method includes illuminating the surface of the translucent object with optical radiation at a predetermined wavelength emitted from a pair of optical sources. Radiation scattered from the surface and below the surface is detected, and a phase of the optical radiation from one of the optical sources relative to a phase of the optical radiation from the other optical source is changed before again detecting the scattered radiation. The predetermined wavelength is selected so that the optical radiation scattered from below the surface and detected provides a substantially constant background intensity with respect to the optical radiation scattered from the surface and detected. Three-dimensional position information of the surface is calculated in response to the detected radiation.
    • 描述了一种用于确定具有波长依赖的透射率和反射率特性的半透明物体的表面的三维位置信息的方法和装置。 该方法包括用从一对光源发射的预定波长的光辐照照射半透明物体的表面。 检测从表面和表面下方散射的辐射,并且在再次检测散射辐射之前改变来自光源之一相对于来自另一光源的光辐射的相位的相位的相位。 选择预定波长,使得从表面下方散射的光辐射相对于从表面散射的光辐射提供基本上恒定的背景强度并被检测。 响应于检测到的辐射计算表面的三维位置信息。
    • 3. 发明授权
    • Object classification for measured three-dimensional object scenes
    • 测量三维对象场景的对象分类
    • US09436868B2
    • 2016-09-06
    • US13217652
    • 2011-08-25
    • Robert F. DillonBing Zhao
    • Robert F. DillonBing Zhao
    • A62B1/04G06K9/00A61C9/00
    • G06K9/00201A61C9/006G06K2209/05
    • Described are methods that enable rapid automated object classification of measured three-dimensional object scenes. Each method can be performed during a three-dimensional measurement procedure while data are being acquired or after completion of the measurement procedure using the acquired data. In various embodiments, an object scene is illuminated with an optical beam and an image is acquired. In some embodiments, the object scene is illuminated with a structured light pattern and a sequence of images of the object scene illuminated by the pattern at different spatial phases is acquired. Coordinates are determined for points in the one or more images and a translucence value is determined for each of the points. An object class is determined for each point based on the translucence value for the point. Optionally, additional information, such as grayscale or color image data for each point, is used to supplement the object class determination.
    • 描述了能够快速自动对象分类测量的三维物体场景的方法。 可以在三维测量过程期间执行每种方法,同时获取数据或在使用获取的数据完成测量过程之后。 在各种实施例中,用光束照射物体场景,并且获取图像。 在一些实施例中,用结构化光图案照亮对象场景,并且获取由不同空间相位的图案照亮的对象场景的图像序列。 为一个或多个图像中的点确定坐标,并且确定每个点的半透明值。 基于点的半透明值确定每个点的对象类。 可选地,使用附加信息,例如每个点的灰度或彩色图像数据来补充对象类确定。
    • 4. 发明申请
    • OBJECT CLASSIFICATION FOR MEASURED THREE-DIMENSIONAL OBJECT SCENES
    • 测量三维对象场景的目标分类
    • US20120062716A1
    • 2012-03-15
    • US13217652
    • 2011-08-25
    • Robert F. DillonBing Zhao
    • Robert F. DillonBing Zhao
    • H04N7/18
    • G06K9/00201A61C9/006G06K2209/05
    • Described are methods that enable rapid automated object classification of measured three-dimensional object scenes. Each method can be performed during a three-dimensional measurement procedure while data are being acquired or after completion of the measurement procedure using the acquired data. In various embodiments, an object scene is illuminated with an optical beam and an image is acquired. In some embodiments, the object scene is illuminated with a structured light pattern and a sequence of images of the object scene illuminated by the pattern at different spatial phases is acquired. Coordinates are determined for points in the one or more images and a translucence value is determined for each of the points. An object class is determined for each point based on the translucence value for the point. Optionally, additional information, such as grayscale or color image data for each point, is used to supplement the object class determination.
    • 描述了能够快速自动对象分类测量的三维物体场景的方法。 可以在三维测量过程期间执行每种方法,同时获取数据或在使用获取的数据完成测量过程之后。 在各种实施例中,用光束照射物体场景,并且获取图像。 在一些实施例中,用结构化光图案照亮对象场景,并且获取由不同空间相位的图案照亮的对象场景的图像序列。 为一个或多个图像中的点确定坐标,并且确定每个点的半透明值。 基于点的半透明值确定每个点的对象类。 可选地,使用附加信息,例如每个点的灰度或彩色图像数据来补充对象类确定。
    • 5. 发明授权
    • Air filter device having a high-voltage power transmission wire column
    • 具有高压输电线柱的空气过滤器装置
    • US09375728B2
    • 2016-06-28
    • US14366674
    • 2012-07-03
    • Bing Zhao
    • Bing Zhao
    • B03C3/011A61L9/22B01D46/10B01D46/52
    • B03C3/011A61L9/22B01D46/10B01D46/521
    • Disclosed is an air filter device having a high-voltage power transmission wire column. The device comprises: a filter paper, a filter frame, a net base, an ion filament arranged below the filter paper, and a discharge net arranged below the ion filament; the ion filament being installed on an ion filament component, the ion filament component being made of a net-shaped insulation material and being fixed onto the net base; the filter paper being fixed onto the filter frame, and the filter frame being cooperatively connected to the net base; wherein: the discharge net is provided with a ceramic insulating column, a top portion of the ceramic insulating column is connected to the ion filament component, the ceramic insulation column has a hollow through cavity, and a high-voltage connection wire of the ion filament passes through the cavity of the ceramic insulating column.
    • 公开了一种具有高压输电线柱的空气过滤器装置。 该装置包括:滤纸,过滤框架,网底,布置在滤纸下方的离子细丝,以及布置在离子细丝下方的排出网; 离子丝安装在离子丝组分上,离子丝组分由网状绝缘材料制成并固定在网基上; 滤纸被固定在过滤框架上,过滤框架协同地连接到网基部; 其特征在于,所述排气网设置有陶瓷绝缘柱,所述陶瓷绝缘柱的顶部与所述离子细丝部件连接,所述陶瓷绝缘柱具有中空通孔,以及所述离子丝的高压连接线 通过陶瓷绝缘柱的腔体。
    • 6. 发明授权
    • Enhanced host sleep for WLAN devices
    • 增强WLAN设备的主机睡眠
    • US08478364B1
    • 2013-07-02
    • US13460105
    • 2012-04-30
    • Frank HuangJames Kang-Wuu JanRobert LeeSandesh GoelBing ZhaoYao ChenChen Fan
    • Frank HuangJames Kang-Wuu JanRobert LeeSandesh GoelBing ZhaoYao ChenChen Fan
    • H04B1/00H01Q11/12
    • H04W52/02H04W52/0209Y02D70/122Y02D70/142Y02D70/144Y02D70/164Y02D70/22
    • A host assembly is communicatively coupled to a wireless device assembly via a first interface and via a second interface. A first signal is received at the wireless device assembly from the host assembly. The first signal indicates a request for the wireless device assembly to enter a host sleep mode of operation. In response to receiving the first signal, the wireless device assembly transmits a third signal to the host assembly, wherein the third signal indicates entry into the host sleep mode of operation. Subsequent to transmitting the third signal to the host assembly via the first interface, the wireless device assembly enters into the host sleep mode of operation. While in the host sleep mode of operation, the wireless device assembly transmits, via the second interface, the second signal, and, after transmitting the second signal to the host assembly, exits the host sleep mode of operation.
    • 主机组件经由第一接口和第二接口通信地耦合到无线设备组件。 在主机组件的无线设备组件处接收到第一信号。 第一信号指示无线设备组件进入主机睡眠操作模式的请求。 响应于接收到第一信号,无线设备组件向主机组件发送第三信号,其中第三信号指示进入主机睡眠操作模式。 在经由第一接口将第三信号发送到主机组件之后,无线设备组件进入主机睡眠操作模式。 在主机睡眠操作模式下,无线设备组件经由第二接口发送第二信号,并且在将第二信号发送到主机组件之后,退出主机睡眠操作模式。
    • 7. 发明申请
    • Customization of a Natural Language Processing Engine
    • 自然语言处理引擎的定制
    • US20130030792A1
    • 2013-01-31
    • US13190962
    • 2011-07-26
    • Bing ZhaoVittorio Castelli
    • Bing ZhaoVittorio Castelli
    • G06F17/27
    • G06F17/2818G06F17/2872
    • A method, an apparatus and an article of manufacture for customizing a natural language processing engine. The method includes enabling selection of one or more parameters of a desired natural language processing task, the one or more parameters intended for use by a trained and an untrained user, mapping the one or more selected parameters to a collection of one or more intervals of an input parameter to an optimization algorithm, and applying the optimization algorithm with the collection of one or more intervals of an input parameter to a model used by a natural language processing engine to produce a customized model.
    • 一种用于定制自然语言处理引擎的方法,装置和制品。 该方法包括使得能够选择期望的自然语言处理任务的一个或多个参数,所述一个或多个参数旨在由受过训练和未经训练的用户使用,将一个或多个所选择的参数映射到一个或多个间隔的集合 对优化算法的输入参数,以及将优化算法与输入参数的一个或多个间隔的集合应用于由自然语言处理引擎使用的模型以产生定制模型。
    • 8. 发明申请
    • Diffractive non-contact laser gauge
    • 衍射非接触式激光计
    • US20050117162A1
    • 2005-06-02
    • US10955562
    • 2004-09-30
    • Bing ZhaoWilliam BudleskiWill MiddelaerKenneth Wendt
    • Bing ZhaoWilliam BudleskiWill MiddelaerKenneth Wendt
    • G01B11/02G01B9/02
    • G01B11/028G01B11/024
    • A non-contact gauge and method of use is provided for optical measurement of an object or objects. The apparatus and methods may comprise a laser providing a projected laser beam; a work-piece holder for holding the object to be measured; a light sensitive sensor located to sense the beam as the beam is diffracted by at least one edge of the object and as the beam forms a near field Fresnel diffraction fringe pattern upon elements of the sensor. The laser and the sensor are located to enable near-field Fresnel diffraction. A fringe pattern signal analyzer may be included for computing mathematical algorithms to determine the position (X0) of at least one edge of the object based upon the diffraction pattern sensed by the sensor wherein the fringe pattern signal analyzer is structured to refine sensed fringe pattern edge position data to be more accurate based upon a theoretical diffraction compensation factor.
    • 提供非接触式测量仪和使用方法用于物体或物体的光学测量。 该装置和方法可以包括提供投射的激光束的激光; 用于保持被测量物体的工件支架; 光敏传感器定位成当光束被物体的至少一个边缘衍射并且当光束在传感器的元件上形成近场菲涅尔衍射条纹图案时感测光束。 定位激光器和传感器以实现近场菲涅尔衍射。 可以包括条纹图案信号分析器用于计算数学算法,以基于由传感器感测的衍射图案来确定对象的至少一个边缘的位置(X SUB),其中边缘图案信号分析器 被构造为基于理论衍射补偿因子来将感测到的条纹图案边缘位置数据精细化为更精确。
    • 9. 发明授权
    • Predicting pronouns of dropped pronoun style languages for natural language translation
    • 预测用于自然语言翻译的代词缩略语言代词
    • US08903707B2
    • 2014-12-02
    • US13348995
    • 2012-01-12
    • Bing ZhaoImed ZitouniXiaoqiang LuoVittorio Castelli
    • Bing ZhaoImed ZitouniXiaoqiang LuoVittorio Castelli
    • G06F17/28
    • G06F17/2827
    • A method, an apparatus and an article of manufacture for determining a dropped pronoun from a source language. The method includes collecting parallel sentences from a source and a target language, creating at least one word alignment between the parallel sentences in the source and the target language, mapping at least one pronoun from the target language sentence onto the source language sentence, computing at least one feature from the mapping, wherein the at least one feature is extracted from both the source language and the at least one pronoun projected from the target language, and using the at least one feature to train a classifier to predict position and spelling of at least one pronoun in the target language when the at least one pronoun is dropped in the source language.
    • 一种用于从源语言确定掉落代词的方法,装置和制品。 该方法包括从源和目标语言收集并行句子,在源和目标语言中的并行句子之间创建至少一个单词对齐,将来自目标语言句子的至少一个代词映射到源语言句子上,计算 所述映射中的至少一个特征,其中从所述源语言和从所述目标语言投射的所述至少一个代词中提取所述至少一个特征,并且使用所述至少一个特征来训练分类器来预测位置和拼写的位置和拼写 当至少一个代词在源语言中被删除时,目标语言中至少有一个代词。
    • 10. 发明授权
    • Customization of a natural language processing engine
    • 自定义语言处理引擎
    • US08725496B2
    • 2014-05-13
    • US13190962
    • 2011-07-26
    • Bing ZhaoVittorio Castelli
    • Bing ZhaoVittorio Castelli
    • G06F17/27G10L15/00
    • G06F17/2818G06F17/2872
    • A method, an apparatus and an article of manufacture for customizing a natural language processing engine. The method includes enabling selection of one or more parameters of a desired natural language processing task, the one or more parameters intended for use by a trained and an untrained user, mapping the one or more selected parameters to a collection of one or more intervals of an input parameter to an optimization algorithm, and applying the optimization algorithm with the collection of one or more intervals of an input parameter to a model used by a natural language processing engine to produce a customized model.
    • 一种用于定制自然语言处理引擎的方法,装置和制品。 该方法包括使得能够选择期望的自然语言处理任务的一个或多个参数,所述一个或多个参数旨在由受过训练和未经训练的用户使用,将一个或多个所选择的参数映射到一个或多个间隔的集合 对优化算法的输入参数,以及将优化算法与输入参数的一个或多个间隔的集合应用于由自然语言处理引擎使用的模型以产生定制模型。