公开(公告)号：US20110010130A1

公开(公告)日：2011-01-13

申请号：US12500357

申请日：2009-07-09

申请人： George Daniel Hadden ,  Randy R. Magnuson ,  Bradley John Barton ,  Qingqiu Ginger Shao

发明人： George Daniel Hadden ,  Randy R. Magnuson ,  Bradley John Barton ,  Qingqiu Ginger Shao

IPC分类号： G06F17/18 ,  G06F15/00

CPC分类号： G05B23/0248 ,  G05B23/0283

摘要： A system for monitoring the health of a component includes a memory configured to store a health management system for evaluating the health of the component. The health management system includes a first prognostic module, a first diagnostic module, a first failure mode module, and a first functional module. A processor is coupled to the memory and configured to retrieve the health management system from the memory; receive a first prognostic indicator associated with the health of the component; determine a first predicted diagnostic indicator based on the prognostic indicator with the prognostic module; determine a first failure mode probability based on the first predicted diagnostic indicator with the diagnostic module; determine a first failure mode vector based on the first failure mode probability with the failure mode module; and generate a first functional output based on the first failure mode vector with the first functional mode module.

摘要翻译： 用于监测组件的健康状况的系统包括被配置为存储用于评估组件的健康状况的健康管理系统的存储器。 健康管理系统包括第一预测模块，第一诊断模块，第一故障模式模块和第一功能模块。 处理器耦合到存储器并且被配置为从存储器检索健康管理系统; 接收与组件健康相关的第一预后指标; 基于具有预后模块的预后指标确定第一预测诊断指标; 基于具有诊断模块的第一预测诊断指示符确定第一故障模式概率; 基于故障模式模块的第一故障模式概率来确定第一故障模式向量; 并且利用所述第一功能模块模块生成基于所述第一故障模式向量的第一功能输出。

公开(公告)号：US08386849B2

公开(公告)日：2013-02-26

申请号：US12696877

申请日：2010-01-29

申请人： Qingqiu Ginger Shao ,  Randy R. Magnuson ,  Dave Miller ,  Bradley John Barton ,  David Michael Kolbet

发明人： Qingqiu Ginger Shao ,  Randy R. Magnuson ,  Dave Miller ,  Bradley John Barton ,  David Michael Kolbet

IPC分类号： G06F11/00

CPC分类号： G06F11/0751 ,  G06F11/0706

摘要： A method of detecting and diagnosing system faults, includes detecting the noisy status of a monitor during operations and incorporating a quantified monitor uncertainty level to support fault isolation reasoning. A sequential probability ratio test is used to statistically test the noisy status of a monitor and Shannon's entropy theory is used to quantify the uncertainty levels of the monitor to support the use of the monitor values in fault isolation.

摘要翻译： 一种检测和诊断系统故障的方法，包括在操作过程中检测监视器的噪声状态，并结合量化监视器不确定度级别来支持故障隔离推理。 连续概率比测试用于统计测试监测器的噪声状态，而香农熵理论用于量化监测器的不确定度水平，以支持在故障隔离中使用监测值。

公开(公告)号：US20110191635A1

公开(公告)日：2011-08-04

申请号：US12696877

申请日：2010-01-29

申请人： Qingqiu Ginger Shao ,  Randy R. Magnuson ,  Dave Miller ,  Bradley John Barton ,  David Michael Kolbet

发明人： Qingqiu Ginger Shao ,  Randy R. Magnuson ,  Dave Miller ,  Bradley John Barton ,  David Michael Kolbet

IPC分类号： G06F11/07

CPC分类号： G06F11/0751 ,  G06F11/0706

摘要： A method of detecting and diagnosing system faults, includes detecting the noisy status of a monitor during operations and incorporating a quantified monitor uncertainty level to support fault isolation reasoning. A sequential probability ratio test is used to statistically test the noisy status of a monitor and Shannon's entropy theory is used to quantify the uncertainty levels of the monitor to support the use of the monitor values in fault isolation.

摘要翻译： 一种检测和诊断系统故障的方法，包括在操作过程中检测监视器的噪声状态，并结合量化监视器不确定度级别来支持故障隔离推理。 连续概率比测试用于统计测试监测器的噪声状态，而香农熵理论用于量化监测器的不确定度水平，以支持在故障隔离中使用监测值。

公开(公告)号：US20140082417A1

公开(公告)日：2014-03-20

申请号：US13197132

申请日：2011-08-03

申请人： Bradley John Barton ,  David Michael Kolbet ,  Qingqiu Ginger Shao ,  Randy R. Magnuson

发明人： Bradley John Barton ,  David Michael Kolbet ,  Qingqiu Ginger Shao ,  Randy R. Magnuson

IPC分类号： G06F11/07 ,  G06F11/22

CPC分类号： G06F11/0793 ,  G05B23/0283 ,  G05B2219/24019 ,  G05B2219/32226 ,  G06F11/079 ,  G06F11/2257 ,  Y02P90/14

摘要： Methods, systems and computing devices are provided for using a completed corrective action as evidence of a fault. The methods, systems and computing devices receive equipment status evidence and determine an equipment fault based on the equipment status evidence. The methods, systems and computing devices also create and rank a list of potential failure modes based at least in part on the determined equipment fault, recommend a corrective action to correct the equipment fault based at least in part on the ranking of the potential failure modes and receiving additional equipment status evidence indicating that the recommended corrective action failed to correct the equipment fault. The methods, systems and computing devices then associate a detection probability and a false negative rate with the failed corrective action to create additional status evidence, and re-rank the list of potential failure modes for subsequent performance based on the additional status evidence.

摘要翻译： 提供了使用完整的纠正措施作为故障证据的方法，系统和计算设备。 方法，系统和计算设备接收设备状态证据，并根据设备状态证据确定设备故障。 方法，系统和计算设备还至少部分地基于所确定的设备故障来创建并排列潜在的故障模式的列表，建议至少部分地基于潜在故障模式的排序来纠正设备故障的纠正措施 并收到额外的设备状态证据，表明建议的纠正措施未能纠正设备故障。 然后，方法，系统和计算设备将检测概率和假阴性率与失败的纠正措施相关联，以创建额外的状态证据，并且基于附加状态证据重新排列潜在故障模式列表以用于随后的性能。

公开(公告)号：US20110103383A1

公开(公告)日：2011-05-05

申请号：US12609882

申请日：2009-10-30

申请人： Dave Miller ,  Randy R. Magnuson ,  Bradley John Barton ,  Qingqiu Ginger Shao

发明人： Dave Miller ,  Randy R. Magnuson ,  Bradley John Barton ,  Qingqiu Ginger Shao

IPC分类号： H04L12/56

CPC分类号： H04L45/00 ,  H04L63/029

摘要： Provided are methods and systems distributing a data message to an unknown destination device across at least one spatial boundary and at least one administrative domain boundary from an originating device. The system includes at least one distributor module that exists within each administrative domain of a network through which the data message may originate, may terminate or may traverses in route from the originating device to the unknown destination device. Each administrative domain within each of a plurality of equipment platforms has at least one distributor module. The system also includes a domain bridge spanning the at least one administrative domain boundary within an equipment platform of the plurality through which the data message traverses in route to the unknown destination device. The system operates using a network discovery service whereby an advertisement is published for a specific type of data by the unknown destination device. The advertisement is promulgated throughout the network. Each distributor module in the network acts a surrogate for the unknown destination device by accepting the data and relaying it to another surrogate until it arrives at the destination device. The system allows the data to pass through both spatial and administrative barriers automatically.

摘要翻译： 提供的是将数据消息分发到来自始发设备的至少一个空间边界和至少一个管理域边界的未知目的地设备的方法和系统。 该系统包括存在于数据消息可能发起的网络的每个管理域内的至少一个分配器模块，可以终止或可以在始发设备到未知目的地设备的路由中穿越。 多个设备平台内的每个管理域具有至少一个分配器模块。 该系统还包括跨越多个设备平台内的至少一个管理域边界的域桥，数据消息通过该跨域路由到未知目的地设备。 该系统使用网络发现服务来操作，由未知目的地设备针对特定类型的数据发布广告。 该广告在整个网络中公布。 网络中的每个分配器模块通过接受数据并将其中继到另一个代理来作为未知目的地设备的代理，直到它到达目的地设备。 系统允许数据自动通过空间和管理障碍。

公开(公告)号：US08732524B2

公开(公告)日：2014-05-20

申请号：US13197132

申请日：2011-08-03

申请人： Bradley John Barton ,  David Michael Kolbet ,  Qingqiu Ginger Shao ,  Randy R. Magnuson

发明人： Bradley John Barton ,  David Michael Kolbet ,  Qingqiu Ginger Shao ,  Randy R. Magnuson

IPC分类号： G06F11/07

CPC分类号： G06F11/0793 ,  G05B23/0283 ,  G05B2219/24019 ,  G05B2219/32226 ,  G06F11/079 ,  G06F11/2257 ,  Y02P90/14

摘要： Methods, systems and computing devices are provided for using a completed corrective action as evidence of a fault. The methods, systems and computing devices receive equipment status evidence and determine an equipment fault based on the equipment status evidence. The methods, systems and computing devices also create and rank a list of potential failure modes based at least in part on the determined equipment fault, recommend a corrective action to correct the equipment fault based at least in part on the ranking of the potential failure modes and receiving additional equipment status evidence indicating that the recommended corrective action failed to correct the equipment fault. The methods, systems and computing devices then associate a detection probability and a false negative rate with the failed corrective action to create additional status evidence, and re-rank the list of potential failure modes for subsequent performance based on the additional status evidence.

摘要翻译： 提供了使用完整的纠正措施作为故障证据的方法，系统和计算设备。 方法，系统和计算设备接收设备状态证据，并根据设备状态证据确定设备故障。 方法，系统和计算设备还至少部分地基于所确定的设备故障来创建并排列潜在的故障模式的列表，建议至少部分地基于潜在故障模式的排序来纠正设备故障的纠正措施 并收到额外的设备状态证据，表明建议的纠正措施未能纠正设备故障。 然后，方法，系统和计算设备将检测概率和假阴性率与失败的纠正措施相关联，以创建额外的状态证据，并且基于附加状态证据将潜在失败模式列表重新排列以用于后续执行。

公开(公告)号：US08782467B2

公开(公告)日：2014-07-15

申请号：US13363737

申请日：2012-02-01

申请人： David Michael Kolbet ,  Ravindra Patankar ,  Randy R. Magnuson

发明人： David Michael Kolbet ,  Ravindra Patankar ,  Randy R. Magnuson

IPC分类号： G06F11/00

CPC分类号： G06Q10/20

摘要： Methods and apparatus are provided for determining a lowest total cost maintenance plan. The method comprises receiving a sequence of maintenance actions in an order of a waiting time for each maintenance action, wherein one of the maintenance actions is likely to repair the failure mode. Each maintenance action has an associated cost equal to a waiting time cost, an execution time cost and a material cost, wherein the waiting time of each maintenance action is the time required to requisition and receive material required to perform the maintenance action. The method also constructs a maintenance plan comprising a primary requisition and a secondary requisition by assigning each of the sequence of maintenance actions to one of the primary and secondary requisition.

摘要翻译： 提供了用于确定最低总成本维护计划的方法和装置。 该方法包括按照每个维护动作的等​​待时间的顺序接收一系列维护动作，其中一个维护动作可能修复故障模式。 每个维护动作具有等于等待时间成本，执行时间成本和材料成本的相关费用，其中每个维护动作的等​​待时间是请购和接收执行维护动作所需的材料所需的时间。 该方法还通过将维护动作序列中的每一个分配给主要和次要请购之一来构建包括主要请购单和辅助请购单的维护计划。

公开(公告)号：US20130173329A1

公开(公告)日：2013-07-04

申请号：US13343524

申请日：2012-01-04

申请人： David Michael Kolbet ,  Ravindra Patankar ,  Randy R. Magnuson

发明人： David Michael Kolbet ,  Ravindra Patankar ,  Randy R. Magnuson

IPC分类号： G06Q10/06

CPC分类号： G06Q10/20

摘要： Methods and apparatus are provided for selecting a maintenance plan such that the cost of the maintenance plan is the lowest or near the lowest. The method comprises receiving a set of maintenance actions, wherein one of the repair actions is likely to repair the failure mode. The set of maintenance actions is sequenced in the increasing order of their waiting times. Each maintenance action has an associated cost equal to a waiting time cost, an execution time cost and a material cost, wherein the waiting time of each maintenance action is the time required to requisition and receive material required to perform the maintenance action. The method also constructs a maintenance plan comprising a first requisition and a second requisition by assigning each of the sequence of maintenance actions to one of the first or the second requisition.

摘要翻译： 提供了用于选择维护计划使得维护计划的成本最低或接近最低的方法和装置。 该方法包括接收一组维护动作，其中修复动作中的一个可能修复故障模式。 这些维护行动按照等待时间的增加顺序进行排序。 每个维护动作具有等于等待时间成本，执行时间成本和材料成本的相关费用，其中每个维护动作的等​​待时间是请购和接收执行维护动作所需的材料所需的时间。 该方法还通过将维护动作序列中的每一个分配给第一或第二请求中的一个来构建包括第一请购单和第二请购单的维护计划。

公开(公告)号：US20130198556A1

公开(公告)日：2013-08-01

申请号：US13363737

申请日：2012-02-01

申请人： David Michael Kolbet ,  Ravindra Patankar ,  Randy R. Magnuson

发明人： David Michael Kolbet ,  Ravindra Patankar ,  Randy R. Magnuson

IPC分类号： G06F11/07

CPC分类号： G06Q10/20

摘要： Methods and apparatus are provided for determining a lowest total cost maintenance plan. The method comprises receiving a sequence of maintenance actions in an order of a waiting time for each maintenance action, wherein one of the maintenance actions is likely to repair the failure mode. Each maintenance action has an associated cost equal to a waiting time cost, an execution time cost and a material cost, wherein the waiting time of each maintenance action is the time required to requisition and receive material required to perform the maintenance action. The method also constructs a maintenance plan comprising a primary requisition and a secondary requisition by assigning each of the sequence of maintenance actions to one of the primary and secondary requisition.

摘要翻译： 提供了用于确定最低总成本维护计划的方法和装置。 该方法包括按照每个维护动作的等​​待时间的顺序接收一系列维护动作，其中一个维护动作可能修复故障模式。 每个维护动作具有等于等待时间成本，执行时间成本和材料成本的相关费用，其中每个维护动作的等​​待时间是请购和接收执行维护动作所需的材料所需的时间。 该方法还通过将维护动作序列中的每一个分配给主要和次要请购之一来构建包括主要请购单和辅助请购单的维护计划。

公开(公告)号：US06662089B2

公开(公告)日：2003-12-09

申请号：US10122041

申请日：2002-04-12

申请人： Timothy J. Felke ,  David M. Kolbet ,  Randy R. Magnuson ,  Jeff J. van der Zweep

发明人： Timothy J. Felke ,  David M. Kolbet ,  Randy R. Magnuson ,  Jeff J. van der Zweep

IPC分类号： G06F700

CPC分类号： G05B23/0278

摘要： A method for improving fault classifications for failure modes in complex systems, and a software program embodying the method or a corresponding method together with a computer based aircraft diagnostic system using such software is described. The method includes: capturing an observation that is consistent with a discrepancy of the complex system; identifying a set of failure modes of the complex system that are consistent with the observation; ranking, when the set includes more than one failure mode, the failure modes according to a degree of support the observation provides for each failure mode, the degree of support including a historical component; determining additional possible observations that are consistent with any failure mode included in the set; and ranking the possible observations according to how rapidly they reduce a number of failure modes included in the set; then preferably selecting a further observation and repeating the above steps until only one failure mode remains.

摘要翻译： 描述了一种用于改进复杂系统中的故障模式的故障分类的方法，以及体现该方法或相应方法的软件程序以及使用这种软件的基于计算机的飞行器诊断系统。 该方法包括：捕获与复杂系统的差异一致的观察结果; 确定与观察一致的复杂系统的一组故障模式; 排名，当集合包含多个故障模式时，根据支持程度的故障模式提供每种故障模式，支持程度包括历史组件; 确定与集合中包括的任何故障模式一致的其他可能观察值; 并根据它们减少组中包括的许多故障模式的速度对可能的观察进行排名; 然后优选选择进一步的观察并重复上述步骤，直到仅剩下一个故障模式。