Model-based machine diagnostics and prognostics using theory of noise and communications
First Claim
1. A method of modeling a mechanical system comprising a plurality of physical components, comprising:
- preparing a model of a mechanical system in which at least a portion of the physical components of the mechanical system are individually modeled, wherein the model is configured to output data representative of the condition of the mechanical system in response to an input of operating conditions for the mechanical system;
monitoring the condition of the mechanical system in response to predetermined operating conditions during use;
modifying the model such that the outputted data of the model in response to the predetermined operating conditions is representative of the condition of the mechanical system in response to the predetermined operating conditions.
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Accused Products
Abstract
The invention is directed to a method for diagnosing the state of a system. The system may be mechanical, chemical, electrical, medical, industrial, business operations, manufacturing related, and/or processing related, among others. The method may measure a signal from the system. Further, the method may compare the signal to an expected signal. The method may calculate a signal strength and/or a noise. The signal strength and noise may be functions of a frequency. Further, the signal strength and noise may be used to determine a channel capacity and/or a rate of information. A comparison of the rate of information and the channel capacity may yield information associated with the state of the system. The information may be used in diagnosing the state of the system. Further, the expected signal may be derived from a model. The model may be tuned to the measured signal. The model may have parameters that are associated with features and/or faults of the system. These parameters may be used in diagnosing the state of the system. Further, selectively repeated diagnosis over time may yield a prognosis of the system.
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Citations
16 Claims
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1. A method of modeling a mechanical system comprising a plurality of physical components, comprising:
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preparing a model of a mechanical system in which at least a portion of the physical components of the mechanical system are individually modeled, wherein the model is configured to output data representative of the condition of the mechanical system in response to an input of operating conditions for the mechanical system;
monitoring the condition of the mechanical system in response to predetermined operating conditions during use;
modifying the model such that the outputted data of the model in response to the predetermined operating conditions is representative of the condition of the mechanical system in response to the predetermined operating conditions. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A computer implemented method of modeling a mechanical system comprising a plurality of physical components, the method comprising:
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preparing a model of a mechanical system in which at least a portion of the physical components of the mechanical system are individually modeled, wherein the model is configured to output data representative of the condition of the mechanical system in response to an input of operating conditions for the mechanical system;
monitoring the condition of the mechanical system in response to predetermined operating conditions during use;
modifying the model such that the outputted data of the model in response to the predetermined operating conditions is representative of the condition of the mechanical system in response to the predetermined operating conditions.
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11. A carrier medium comprising computer instructions, wherein the program instructions are computer-executable to implement a method of modeling a mechanical system comprising a plurality of physical components, the method comprising:
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preparing a model of a mechanical system in which at least a portion of the physical components of the mechanical system are individually modeled, wherein the model is configured to output data representative of the condition of the mechanical system in response to an input of operating conditions for the mechanical system;
monitoring the condition of the mechanical system in response to predetermined operating conditions during use;
modifying the model such that the outputted data of the model in response to the predetermined operating conditions is representative of the condition of the mechanical system in response to the predetermined operating conditions.
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12. A method for diagnosing a state of a system, the method comprising:
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measuring a signal from the system;
comparing the signal from the system and an expected signal to determine a noise signal associated with the signal from the system;
determining a signal strength associated with the signal from the system;
determining a rate of information, the rate of information associated with a desired operability of the system;
determining a channel capacity from the noise signal and the signal strength, the channel capacity being a function of a frequency spectrum of the signal;
comparing the rate of information to the channel capacity to diagnosis the state of the system. - View Dependent Claims (13, 14, 15, 16)
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Specification