USE OF SS DATA TRENDS IN FAULT RESOLUTION PROCESS
First Claim
1. An automated method to resolve a fault in an engine, comprising:
- collecting steady state performance data with an electronic control unit of the engine;
transmitting the steady state performance data from the electronic control unit to a fault resolution system;
compiling the steady state performance data via a parser module within the fault resolution system to create compiled steady state performance data readable by a reasoner module;
loading the compiled steady state performance data to a connectivity matrix of the reasoner module, the connectivity matrix linking the compiled steady state performance data to a maintenance action; and
outputting a ranked set of maintenance actions determined by an artificial intelligence module of the reasoner module based at least in part on the compiled steady state performance data.
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Accused Products
Abstract
An automated method for resolving fault in an engine is disclosed. The method may include providing a reasoner module for recommending a set of maintenance actions to resolve fault in the engine, inputting steady state performance data from the engine into the reasoner module, and using the reasoner module to recommend a set of maintenance actions based at least in part on the steady state performance data. A fault resolution system for a gas turbine engine is also disclosed. The fault resolution system may include at least one computer processor operatively configured to receive steady state performance data from the gas turbine engine, and recommend a set of maintenance actions to resolve fault in the gas turbine engine based at least in part on the steady state performance data.
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Citations
10 Claims
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1. An automated method to resolve a fault in an engine, comprising:
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collecting steady state performance data with an electronic control unit of the engine; transmitting the steady state performance data from the electronic control unit to a fault resolution system; compiling the steady state performance data via a parser module within the fault resolution system to create compiled steady state performance data readable by a reasoner module; loading the compiled steady state performance data to a connectivity matrix of the reasoner module, the connectivity matrix linking the compiled steady state performance data to a maintenance action; and outputting a ranked set of maintenance actions determined by an artificial intelligence module of the reasoner module based at least in part on the compiled steady state performance data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification