Patent application number | Description | Published |
20100198610 | FAULT SPLITTING ALGORITHM - The present application relates to a method of splitting a fault condition including receiving evidence observations of a monitored system from monitors connected in a many-to-many relationship to the failure modes, generating a fault condition, computing a relative probability of failure for each failure mode in the fault condition. When there is more than one failure mode in the fault condition, the method includes computing a relative probability of each pair of failure modes in the fault condition, ranking the computed relative probabilities of the individual failure modes and the computed relative probabilities of the pairs of failure modes. If the highest ranked failure mode is a pair of failure modes, the fault condition is split based on the failure modes in the highest ranked pair of failure modes are split. If the highest ranked failure mode is an individual failure mode, a failure is isolated based on the ranking. | 08-05-2010 |
20100198771 | METHOD FOR COMPUTING THE RELATIVE LIKELIHOOD OF FAILURES - A method for determining relative likelihood of a failure mode is provided. The method comprises receiving evidence observations of a monitored system from monitors connected in a many-to-many relationship to the failure modes, generating a fault condition including states of all failure modes that are connected to the monitors, and computing a relative probability of failure for each failure mode. The fault condition is generated for a reference model of the monitored system and is based on the received evidence observations. The relative probability of failure for each failure mode is based on a false alarm probability, a detection probability, and a ratio of prior probabilities of a candidate hypothesis to a null hypothesis of no active failure mode. | 08-05-2010 |
20110191635 | NOISY MONITOR DETECTION AND INTERMITTENT FAULT ISOLATION - 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. | 08-04-2011 |
20130173329 | SYSTEMS AND METHODS FOR THE SOLUTION TO THE JOINT PROBLEM OF PARTS ORDER SCHEDULING AND MAINTENANCE PLAN GENERATION FOR FIELD MAINTENANCE - 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. | 07-04-2013 |
20130198556 | SYSTEMS AND METHODS FOR CREATING A NEAR OPTIMAL MAINTENANCE PLAN - 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. | 08-01-2013 |
20140082417 | SYSTEMS AND METHODS FOR USING A CORRECTIVE ACTION AS DIAGNOSTIC EVIDENCE - 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. | 03-20-2014 |
20140278313 | SIMULATION METHODS AND SYSTEMS FOR AN AIRCRAFT - A method is provided for performing a simulation on an aircraft. The method includes: receiving, at an onboard maintenance computer (OMC) a simulation script that includes one or more steps for adjusting at least one parameter of the aircraft; processing, by the OMC, the simulation script to determine simulation data; and sending the simulation data from the OMC to one or more signal producer member systems of the aircraft to adjust the at least one parameter of the aircraft. | 09-18-2014 |