Reliability Monitoring Using Log Gaussian Process Regression
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1 COPYRIGHT 013, M. Modarres Reliability Monitoring Using Log Gaussian Process Regression Martin Wayne Mohammad Modarres PSA 013 Center for Risk and Reliability University of Maryland Department of Mechanical Engineering College Park, MD 074, U.S.A. 1
2 Traditional Regression and Bayesian Regression COPYRIGHT 013, M. Modarres Traditional Regression assumes an underlying process (e.g., failure process described by the failure rate model λ(t)) which generates clean data. The goal is to describe the underlying model in the presence of noisy data. P( Η ) α Bayesian Regression Specify the prior of a set of probabilistic models. The likelihood of Η α after observing data D is P( D Ηα ) The posterior probability of is given by Η α P( Ηα D) P( Ηα ) P( D Ηα ) Prediction: py ( D) = Py ( Ηα) P( Ηα D) α
3 COPYRIGHT 013, M. Modarres GP Regression It is a nonlinear regression when you need to learn a function f with uncertainties from data D = {X, y} Ref: Eurandom 010, Z. Ghahramani 3
4 COPYRIGHT 013, M. Modarres GP Regression (Cont.) A Gaussian process defines a distribution over functions p(f) which can be used for Bayesian regression p(f D) = p(f)p(d f)/p(d) Gaussian processes (GPs) are parameterized by a mean function, μ(x), and a covariance function, or kernel, K(x, x ). The covariance matrix K is between all the pair of points x and x' and specifies a distribution on functions and similarly for p(f(x 1 ),..., f(x n )) where now μ is an n x 1 vector and Σ is an n x n matrix 4
5 5 COPYRIGHT 013, M. Modarres
6 COPYRIGHT 013, M. Modarres GP Regression (Cont.) Set of random variables, any finite collection of which follows joint Gaussian distribution Gaussian distribution specified by mean, μ(x), and kernel function, k(x 1,x ) May also be defined using standard linear model form y = f (x)+ε 6
7 COPYRIGHT 013, M. Modarres Kernel Function Kernel function = covariance function Kernel function determines correlation between data points Can model trends in data such as periodicity Popular example is squared-exponential kernel function l is the characteristic length-scale of the process (showing, "how far apart" two points have to be for X to change significantly Used to develop overall covariance matrix K for vector of data 7 k ( x, x ) 1 σ exp x 1 = l x
8 COPYRIGHT 013, M. Modarres Kernel Function Hyperparameters Kernel functions contain unknown hyperparameters Hyperparameters can be chosen by maximizing log-marginal likelihood given by Achieved using conjugate gradient optimization technique Built-in option in available software packages Chi-square goodness-of-fit can also be applied to test data to assess model 8 log p 1 T ( y / X ) = y K y log K logπ 1 1 n
9 COPYRIGHT 013, M. Modarres Log Gaussian Processes Observed data Y are strictly positive Assume log(y) is normally distributed Can use conditional probability to determine prediction for f * log( f *) / log( Y ) ~ N µ, Σ Inverse transform can be used to proper domain 9 log( Y) ~ log( f *) µ = b + Σ = K a N, b K K ( X, X ) K( X, X *) ( X*, X ) K( X*, X *) ( ) 1 K( X*, X ) K( X, X ) (log( Y ) b) 1 ( X*, X *) K( X*, X ) K( X, X *) K( X, X *)
10 COPYRIGHT 013, M. Modarres Application to Fleet of Vehicles Use Log GPR to model rate-of-occurrence of failures per month for fleet of vehicles Rate of occurrence of failures (per mile) 10
11 COPYRIGHT 013, M. Modarres Covariance Function Choices Data appear to have periodic behavior along with noise Examine kernel function alternatives to describe correlation within data Combinations of kernel functions are also kernel functions Options include Squared Exponential (SE), Noise, Periodic, Polynomial, etc. Can use negative log-likelihood to discriminate between possible kernel functions Smaller values indicate higher likelihood Better description of data 11
12 COPYRIGHT 013, M. Modarres Kernel Function Likelihood 1 Kernel Function Alternative Description Negative Log Likelihood 1 SE, Periodic, Noise 7.84 SE, Noise Noise SE, Periodic SE SE, Polynomial, Noise Polynomial Rational quadratic, Noise Rational quadratic 8.51 Sum of squared exponential, periodic, and noise kernels yields highest likelihood and best description of data
13 Covariance Function and Hyperparameters COPYRIGHT 013, M. Modarres k ( x x ) sin Parameter Value θ 1 (SE 1) 4.38 θ (SE ) 0.31 θ 3 (Periodic 1) 0.13 θ 4 (Periodic ) 1.03 θ 5 (Periodic 3) 0.6 σ n (Noise) ( x x ) 1 ( x1 x ) exp 3 exp θ = θ + θ + σ n 1, θ θ5 ( x ), x 1, x1 = x ( x1, x ) = 0, o. w. π
14 Predicted Result Model provides probabilistic prediction of failures in future months + indicates test data used in goodness-of-fit test 14 **Dashed lines indicate 95% probability interval COPYRIGHT 013, M. Modarres
15 Anomaly Detection Example 15 **Dashed lines indicate 95% probability interval COPYRIGHT 013, M. Modarres
16 COPYRIGHT 013, M. Modarres Conclusions and Possible Extensions LOG GP Regression is powerful technique for modeling complex nonlinear behavior Provides probabilistic indication of reliability problems vs. typical trends within data Can be extended to model more complex nonlinear relationships Only require appropriate kernel function Can also handle multidimensional inputs Systems in different locations, different ages, etc. 16
Modeling Rate of Occurrence of Failures with Log-Gaussian Process Models: A Case Study for Prognosis and Health Management of a Fleet of Vehicles
International Journal of Performability Engineering, Vol. 9, No. 6, November 2013, pp. 701-713. RAMS Consultants Printed in India Modeling Rate of Occurrence of Failures with Log-Gaussian Process Models:
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