公开(公告)号：US20130167191A1

公开(公告)日：2013-06-27

申请号：US13336737

申请日：2011-12-23

Applicant: Bruce Barnett ,  Scott Evans ,  Robert James Mitchell, JR. ,  Thomas Markham ,  Stephen Dill ,  Vincent Hannon ,  John Patrick Elliott ,  Andrew Crapo

Inventor： Bruce Barnett ,  Scott Evans ,  Robert James Mitchell, JR. ,  Thomas Markham ,  Stephen Dill ,  Vincent Hannon ,  John Patrick Elliott ,  Andrew Crapo

IPC: G06F21/00

CPC classification number: G06F21/6218 ,  G06F21/604

Abstract: A system and method are provided that distill an organization's information security plan into a detailed and unambiguous security object model. The developed security object model provides a visualization of complex relationships between individual elements and levels that is usable to carry into effect the organization's information security plan. Configuration control and a verifiable level of security compliance are provided through implementation of the organization's information security plan by the developed security object model. The developed security object model is hosted on a computing platform in communication with at least the organization's network to provide information security plan compliance, configuration control and gap analysis in a usable form to the organization.

Abstract translation: 提供了一种系统和方法，将组织的信息安全计划分解成一个详细而明确的安全对象模型。 开发的安全对象模型提供了可用于实现组织信息安全计划的各个元素和级别之间的复杂关系的可视化。 通过开发的安全对象模型，通过实施组织的信息安全计划来提供配置控制和可验证的安全合规级别。 开发的安全对象模型托管在至少与组织网络通信的计算平台上，以可用形式向组织提供信息安全计划合规性，配置控制和差距分析。

公开(公告)号：US08352216B2

公开(公告)日：2013-01-08

申请号：US12129622

申请日：2008-05-29

Applicant: Rajesh Venkat Subbu ,  John Erik Hershey ,  Xiao Hu ,  Robert James Mitchell, Jr. ,  Avinash Vinayak Taware ,  Piero Patrone Bonissone

Inventor： Rajesh Venkat Subbu ,  John Erik Hershey ,  Xiao Hu ,  Robert James Mitchell, Jr. ,  Avinash Vinayak Taware ,  Piero Patrone Bonissone

IPC: G06F11/28

CPC classification number: G06F11/30 ,  G05B23/024

Abstract: A method for advanced condition monitoring of an asset system includes sensing actual values of an operating condition for an operating regime of the asset system using at least one sensor; estimating sensed values of the operating condition by using an auto-associative neural network; determining a residual vector between the estimated sensed values and the actual values; and performing a fault diagnostic on the residual vector. In another method, an operating space of the asset system is segmented into operating regimes; the auto-associative neural network determines estimates of actual measured values; a residual vector is determined from the auto-associative neural network; a fault diagnostic is performed on the residual vector; and a change of the operation of the asset system is determined by analysis of the residual vector. An alert is provided if necessary. A smart sensor system includes an on-board processing unit for performing the method of the invention.

Abstract translation: 一种用于资产系统的高级状态监测的方法包括使用至少一个传感器来感测资产系统的操作状态的操作条件的实际值; 通过使用自动关联神经网络来估计操作条件的感测值; 确定估计的感测值和实际值之间的残差矢量; 并对残差向量进行故障诊断。 在另一种方法中，资产系统的运营空间被划分为运行状态; 自相关神经网络确定实际测量值的估计值; 从自相关神经网络确定残差向量; 对残差矢量执行故障诊断; 通过分析残差向量来确定资产系统的运作变化。 必要时提供警报。 智能传感器系统包括用于执行本发明的方法的车载处理单元。

公开(公告)号：US20110062226A1

公开(公告)日：2011-03-17

申请号：US12560671

申请日：2009-09-16

Applicant: Robert James MITCHELL, JR. ,  Bruce Gordon Barnett ,  Ewa Margaret Pigna ,  Kerry Bonin ,  Michael James Hartman ,  John Erik Hershey ,  Russell Miles ,  Timothy McClure ,  Marcin Kolasinski

Inventor： Robert James MITCHELL, JR. ,  Bruce Gordon Barnett ,  Ewa Margaret Pigna ,  Kerry Bonin ,  Michael James Hartman ,  John Erik Hershey ,  Russell Miles ,  Timothy McClure ,  Marcin Kolasinski

IPC: G06F17/00 ,  G08B5/22 ,  G06K7/10 ,  G06K19/00

CPC classification number: G08B25/14 ,  G07C1/20

Abstract: System, device and methods that provide proximate environmental and security intelligence to a guard making a security tour or round in an installation, as well as that provide for certifying that the guard has visited designated and known checkpoints on or about the times at which the guard is expected at those checkpoints.

Abstract translation: 系统，设备和方法，向向警卫提供邻近的环境和安全情报，进行安全巡视或在安装中进行巡视，以及提供证明警卫已经或关于警卫时间周围的指定和已知检查站 预计在这些检查站。

公开(公告)号：US20090016280A1

公开(公告)日：2009-01-15

申请号：US11776716

申请日：2007-07-12

Applicant: Suresh K. IYER ,  Robert James MITCHELL, JR. ,  Nick Andrew Van STRALEN ,  Orhan Cagri IMER

Inventor： Suresh K. IYER ,  Robert James MITCHELL, JR. ,  Nick Andrew Van STRALEN ,  Orhan Cagri IMER

IPC: H04L12/26

CPC classification number: H04W74/0833 ,  H04L41/22

Abstract: Apparatus are provided, which include a wireless transmit interface and a wireless receive interface. A payload receive processor is provided to identify a receive overhead portion from received data received via the receive interface, and it is configured to retrieve payload data in relation to the receive overhead portion in accordance with a data structure protocol. A payload transmit processor is provided to define or modify a transmit overhead portion in transmit data to be transmitted via the transmit interface. The payload transmit processor is configured to position payload data in relation to the transmit overhead portion in accordance with a data structure protocol. A controller is provided, to determine a given wireless media location defined at least in part by the controller determining a given frequency band, from among plural frequency bands, for a given data transfer, via wireless media, between a given node and a separate node.

Abstract translation: 提供了包括无线传输接口和无线接收接口的装置。 提供有效载荷接收处理器以从经由接收接口接收的接收数据识别接收开销部分，并且其被配置为根据数据结构协议检索与接收开销部分相关的有效载荷数据。 提供有效负载发送处理器来定义或修改要经由发送接口发送的发送数据中的发送开销部分。 有效负载发送处理器被配置为根据数据结构协议来定位与发送开销部分相关的有效载荷数据。 提供控制器，以确定给定无线媒体位置，所述无线媒体位置至少部分地由所述控制器确定给定频带，从多个频带中，对于给定数据传输，经由无线媒体，给定节点和单独节点之间的给定数据传输 。

公开(公告)号：US06411678B1

公开(公告)日：2002-06-25

申请号：US09409893

申请日：1999-10-01

Applicant: Harold Woodruff Tomlinson, Jr. ,  Michael James Hartman ,  Robert James Mitchell, Jr.

Inventor： Harold Woodruff Tomlinson, Jr. ,  Michael James Hartman ,  Robert James Mitchell, Jr.

IPC: H04M124

CPC classification number: H04L67/125 ,  H04L41/0681 ,  H04L43/00 ,  H04L43/0811 ,  H04L43/16

Abstract: Public or private remote access infrastructures in a communication system are used to facilitate communications between a remote site and a centrally located diagnostic center using only local telephone calls. The diagnostic center as well as one or more remote sites at which monitored equipment is located are coupled to a wide area network (WAN). When data are to be transferred from a remote site to the central diagnostic center, the remote site initiates a local telephone call to a point-of-presence (POP) server on the WAN backbone. This could be an Internet Service Provider (ISP) if the Internet is used, or an intranet if a private network is used. Data are then transferred to the POP server. To complete the transfer, the diagnostic center retrieves the data from the POP server using the public or private wide-area network (the Internet or intranet). The data transfer can be performed either on a scheduled basis, or when an alarm condition is detected at the remote site. The central diagnostic center can use a wireless paging service to prompt the remote site to couple to the POP server.

Abstract translation: 通信系统中的公共或专用远程访问基础设施用于仅使用本地电话呼叫来远程站点和位于中心的诊断中心之间的通信。 诊断中心以及被监测设备所在的一个或多个远程站点耦合到广域网（WAN）。 当数据从远程站点传输到中央诊断中心时，远程站点发起本地电话呼叫到WAN骨干网上的一个现场（POP）服务器。 如果使用互联网，这可能是互联网服务提供商（ISP），如果使用专用网络，则可能是内部网。 然后将数据传输到POP服务器。 要完成传输，诊断中心使用公共或专用广域网（Internet或Intranet）从POP服务器检索数据。 数据传输可以按计划执行，也可以在远程站点检测到报警条件时执行。 中央诊断中心可以使用无线寻呼服务来提示远程站点耦合到POP服务器。

公开(公告)号：US07756678B2

公开(公告)日：2010-07-13

申请号：US12129632

申请日：2008-05-29

Applicant: Piero Patrone Bonissone ,  John Erik Hershey ,  Robert James Mitchell, Jr. ,  Rajesh Venkat Subbu, Jr. ,  Avinash Vinayak Taware ,  Xiao Hu

Inventor： Piero Patrone Bonissone ,  John Erik Hershey ,  Robert James Mitchell, Jr. ,  Rajesh Venkat Subbu, Jr. ,  Avinash Vinayak Taware ,  Xiao Hu

IPC: G06F11/28

CPC classification number: G05B23/0254 ,  G05B2219/33295 ,  G05B2219/33296 ,  G07C3/00

Abstract: A method for advanced condition monitoring of an asset system includes using a plurality of auto-associative neural networks to determine estimates of actual values sensed by at least one sensor in at least one of the plurality of operating regimes; determining a residual between the estimated sensed values and the actual values sensed by the at least one sensor from each of the plurality of auto-associative neural networks; and combining the residuals by using a fuzzy supervisory model blender; performing a fault diagnostic on the combined residuals; and determining a change of the operation of the asset system by analysis of the combined residuals. An alert is provided if necessary. A smart sensor system includes an on-board processing unit for performing the method of the invention.

Abstract translation: 一种用于资产系统的高级状态监测的方法包括使用多个自动关联神经网络来确定至少一个传感器在所述多个操作方案中的至少一个中感测到的实际值的估计; 从所述多个自相关神经网络中的每一个确定估计的感测值与由所述至少一个传感器感测的实际值之间的残差; 并通过使用模糊监督模型混合器组合残差; 对组合残差进行故障诊断; 以及通过分析组合残差来确定资产系统的操作变化。 必要时提供警报。 智能传感器系统包括用于执行本发明的方法的车载处理单元。

公开(公告)号：US07428453B2

公开(公告)日：2008-09-23

申请号：US11317533

申请日：2005-12-23

Applicant: David Michael Davenport ,  Rahul Bhotika ,  John Erik Hershey ,  Robert James Mitchell ,  Emad Andarawis Andarawis ,  Kenneth Brakeley Welles

Inventor： David Michael Davenport ,  Rahul Bhotika ,  John Erik Hershey ,  Robert James Mitchell ,  Emad Andarawis Andarawis ,  Kenneth Brakeley Welles

IPC: B61L17/00 ,  G06F17/00

CPC classification number: B61L17/00

Abstract: Methods and systems for monitoring trains in a railyard. These methods and systems detect an incoming train entering a geographic area defined by a railyard, store an entry time indicative of a time at which the incoming train entering the railyard was detected, detect the incoming train coming to a stop in a subyard of the railyard, store a stop time indicative of a time at which the incoming train came to a stop in the receiving subyard, calculate an incoming train latency time by subtracting the entry time from the stop time, and store the incoming train latency time as an incoming train latency time record.

Abstract translation: 监控火车的方法和系统。 这些方法和系统检测进入由railyard定义的地理区域的进入列车，存储指示进入雷达的进入列车的时间的进入时间，检测在railyard的一个子站内停下的进入列车 存储指示接收列车在接收子站内停止的时间的停止时间，通过从停止时间减去入口时间来计算传入列车延迟时间，并将传入列车等待时间作为传入列保存 延迟时间记录。

公开(公告)号：US20090299695A1

公开(公告)日：2009-12-03

申请号：US12129622

申请日：2008-05-29

Applicant: Rajesh Venkat Subbu ,  John Erik Hershey ,  Xiao Hu ,  Robert James Mitchell, JR. ,  Avinash Vinayak Taware ,  Piero Patrone Bonissone

Inventor： Rajesh Venkat Subbu ,  John Erik Hershey ,  Xiao Hu ,  Robert James Mitchell, JR. ,  Avinash Vinayak Taware ,  Piero Patrone Bonissone

IPC: G06F15/00 ,  G06F17/18

CPC classification number: G06F11/30 ,  G05B23/024

Abstract: A method for advanced condition monitoring of an asset system includes sensing actual values of an operating condition for an operating regime of the asset system using at least one sensor; estimating sensed values of the operating condition by using an auto-associative neural network; determining a residual vector between the estimated sensed values and the actual values; and performing a fault diagnostic on the residual vector. In another method, an operating space of the asset system is segmented into operating regimes; the auto-associative neural network determines estimates of actual measured values; a residual vector is determined from the auto-associative neural network; a fault diagnostic is performed on the residual vector; and a change of the operation of the asset system is determined by analysis of the residual vector. An alert is provided if necessary. A smart sensor system includes an on-board processing unit for performing the method of the invention.

公开(公告)号：US20070291985A1

公开(公告)日：2007-12-20

申请号：US11471156

申请日：2006-06-20

Applicant: Nils Oliver Krahnstoever ,  Rahul Bhotika ,  David Michael Davenport ,  John Erik Hershey ,  Robert James Mitchell ,  Emad Andarawis Andarawis ,  Kenneth Brakeley Welles

Inventor： Nils Oliver Krahnstoever ,  Rahul Bhotika ,  David Michael Davenport ,  John Erik Hershey ,  Robert James Mitchell ,  Emad Andarawis Andarawis ,  Kenneth Brakeley Welles

IPC: G06K9/00

CPC classification number: H04N7/181 ,  B61L17/00 ,  B61L23/00 ,  B61L23/041 ,  G06K9/00221 ,  G06K9/00362 ,  G06T7/70 ,  G06T2207/10016 ,  G06T2207/30236

Abstract: Embodiments include an intelligent railyard monitoring system including a plurality of video devices, a device for interpreting captured images in operable communication with the plurality of video devices, a device controller in operable communication with the device for interpreting captured images wherein the system is capable of analyzing multiple video streams from the video devices to detect, locate, and track one or more targets and wherein the device for interpreting captured images includes a computing device.

Abstract translation: 实施例包括包括多个视频设备的智能railyard监视系统，用于解释与多个视频设备可操作地通信的捕获图像的设备，与该设备可操作地通信用于解释所捕获的图像的设备控制器，其中系统能够分析 来自视频设备的多个视频流以检测，定位和跟踪一个或多个目标，并且其中用于解释所捕获的图像的设备包括计算设备。

公开(公告)号：US20120253847A1

公开(公告)日：2012-10-04

申请号：US13076962

申请日：2011-03-31

Applicant: Michael Joseph Dell'Anno ,  Michael James Hartman ,  Robert James Mitchell, JR. ,  John Anderson Fergus Ross ,  Stanislava Soro ,  John Erik Hershey

Inventor： Michael Joseph Dell'Anno ,  Michael James Hartman ,  Robert James Mitchell, JR. ,  John Anderson Fergus Ross ,  Stanislava Soro ,  John Erik Hershey

IPC: G06Q50/00 ,  G06Q10/00

CPC classification number: A61B5/0022 ,  A61B5/7232 ,  G06F19/3418 ,  H04L1/0007 ,  H04L1/0014 ,  H04L1/0017 ,  H04L1/0026

Abstract: Health information communications systems and methods are disclosed. In one embodiment, the system includes one or more medical sensors providing one or more health information data types. The system further includes a patient communications device coupled to at least one medical sensor over a communications network. Particularly, the patient communications device includes a patient quality of service (QoS) manager that dynamically specifies a set of data quality management parameters for transporting at least some of the health information and modifies at least some of the health information into value factored health information. Additionally, the system includes a specialist communications device communicatively coupled to the patient communication device over the communications network. The specialist communications device includes a specialist QoS manager that provides measured channel characteristics to the patient communications device. The patient QoS manager dynamically specifies the set of data quality management parameters based at least in part on the measured channel characteristics of the specialist communications device.

Abstract translation: 公开了健康信息通信系统和方法。 在一个实施例中，系统包括提供一个或多个健康信息数据类型的一个或多个医疗传感器。 该系统还包括通过通信网络耦合到至少一个医疗传感器的患者通信设备。 特别地，患者通信设备包括病人服务质量（QoS）管理器，其动态地指定用于传送至少一些健康信息的数据质量管理参数的集合，并将至少一些健康信息修改为价值因素健康信息。 另外，该系统包括通过通信网络通信地耦合到患者通信设备的专用通信设备。 专用通信设备包括向患者通信设备提供测量的信道特性的专业QoS管理器。 所述患者QoS管理器至少部分地基于所述专用通信设备的所测量的信道特征来动态地规定所述一组数据质量管理参数。