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    • 1. 发明申请
    • SYSTEM AND METHOD FOR ON-SITE MEASUREMENT APPARATUS CALIBRATION
    • 用于现场测量装置校准的系统和方法
    • WO2016099647A1
    • 2016-06-23
    • PCT/US2015/056304
    • 2015-10-20
    • GENERAL ELECTRIC COMPANY
    • LAFLEN, John, BrandonVOGEL, John, AnthonyWIK, Steven, WilliamPOLISHCHUK, YakovBROOKSBY, Glen, William
    • G01D18/00
    • G01D18/00G01D5/245G01D18/008
    • A metrological system for calibrating a field measurement apparatus includes a field measurement apparatus coupled to a field device. The measurement apparatus is configured to generate measurement signals corresponding to a physical measurement associated with the field device. The measurement signals define a raw data stream. The system also includes a mobile calibration device including a transfer function module with a resident corrective algorithm. The mobile calibration device also includes a calibration standard data module including calibration standard data associated with the measurement apparatus resident thereon. The mobile calibration device is configured to establish bi-directional communication with the measurement apparatus, facilitate shifting the measurement apparatus to a calibration mode, receive the raw data stream from the measurement apparatus, transmit the raw data stream to the transfer function module, and calibrate the field measurement apparatus. The transfer function module is configured to generate a difference data stream through the corrective algorithm.
    • 用于校准现场测量装置的计量系统包括耦合到现场设备的现场测量装置。 测量装置被配置为产生对应于与现场设备相关联的物理测量的测量信号。 测量信号定义原始数据流。 该系统还包括具有驻留校正算法的传递函数模块的移动校准装置。 移动校准装置还包括校准标准数据模块,其包括与驻留在其上的测量装置相关联的校准标准数据。 移动校准装置被配置为与测量装置建立双向通信,便于将测量装置移动到校准模式,从测量装置接收原始数据流,将原始数据流发送到传送功能模块,并校准 现场测量装置。 传递函数模块被配置为通过校正算法生成差分数据流。
    • 6. 发明申请
    • METHODS AND SYSTEMS FOR A UNIVERSAL WIRELESS PLATFORM FOR ASSET MONITORING
    • 用于资产监测的通用无线平台的方法和系统
    • WO2015053885A1
    • 2015-04-16
    • PCT/US2014/053982
    • 2014-09-04
    • GENERAL ELECTRIC COMPANY
    • LAFLEN, John, BrandonHASAN, SM ShajedulWIK, Steven, WilliamZHAO, YangPOLISHCHUK, YakovBIEL, Patrick, Jay
    • H04L29/08
    • G08B21/18G01F22/02H04L67/12H04W4/20H04W4/38H04W4/80
    • A metrological interface device includes a printed circuit board ("PCB") including at least one metrological sensor communication interface and at least one first wireless communication interface. The metrological interface device is in communication with a metrological sensing device via the metrological sensor communication interface. Each metrological sensing device is coupled to a physical asset and receives the metrological data from the metrological sensing device. The metrological interface device receives metrological data from the metrological sensing device via the metrological sensor communication interface. Metrological data represents physical measurement data associated with the physical asset. Each metrological interface device advertises connection availability to a plurality of mobile computing devices, receives a connection request from a connecting mobile computing device, and creates an active connection with the connecting mobile computing device.
    • 计量接口装置包括包括至少一个计量传感器通信接口和至少一个第一无线通信接口的印刷电路板(“PCB”)。 计量接口设备通过计量传感器通信接口与计量感测设备通信。 每个计量感测装置耦合到物理资产并从计量感测装置接收计量数据。 计量接口装置通过计量传感器通信接口从计量感测装置接收计量数据。 计量数据表示与物理资产相关联的物理测量数据。 每个计量接口设备向多个移动计算设备通告连接可用性,从连接的移动计算设备接收连接请求,并与连接的移动计算设备建立主动连接。
    • 7. 发明申请
    • METHODS AND SYSTEMS FOR ENHANCED AUTOMATED VISUAL INSPECTION OF A PHYSICAL ASSET
    • 增强自动化视觉检测物理资产的方法和系统
    • WO2014105463A2
    • 2014-07-03
    • PCT/US2013/075020
    • 2013-12-13
    • GENERAL ELECTRIC COMPANY
    • LIM, Ser, NamLAFLEN, John, BrandonGUAN, LiLIU, ShubaoYANG, XingweiDOMKE, Michael, ChristopherLAMBDIN, Thomas, Eldred
    • G06F17/30
    • G06T7/001G06F17/30247G06T7/33G06T2207/30164G06T2207/30244
    • A computer-implemented system for enhanced automated visual inspection of a physical asset includes a visual inspection device capable of generating images of the physical asset and a computing device including a processor and a memory device coupled to the processor. The computing device includes a storage device coupled to the memory device and coupled to the processor. The storage device includes at least one historic image of the physical asset and at least one engineering model substantially representing the physical asset. The computing device is configured to receive, from a present image source, at least one present image of the physical asset captured by the visual inspection device. The computing device is configured to identify at least one matching historic image corresponding to the at least one present image. The computing device is configured to identify at least one matching engineering model corresponding to the at least one present image.
    • 用于物理资产的增强的自动视觉检查的计算机实现的系统包括能够生成物理资产的图像的视觉检查设备和包括处理器和耦合到处理器的存储器设备的计算设备 。 计算设备包括耦合到存储器设备并耦合到处理器的存储设备。 存储设备包括物理资产的至少一个历史图像和实质上表示物理资产的至少一个工程模型。 计算设备被配置为从当前图像源接收由视觉检查设备捕获的物理资产的至少一个当前图像。 计算设备被配置为识别对应于至少一个当前图像的至少一个匹配历史图像。 计算设备被配置为识别对应于至少一个当前图像的至少一个匹配工程模型。