Title :
Kernelized Proportional Intensity Model for Repairable Systems Considering Piecewise Operating Conditions
Author :
Fuqing, Yuan ; Kumar, Uday
Author_Institution :
Div. of Oper. & Maintenance Eng., Lulea Univ. of Technol., Luleå, Sweden
Abstract :
The proportional intensity model (PIM) has been used to model the intensity function of repairable systems taking non-time factors, such as operating conditions, and repair history, into consideration. This paper develops a kernelized PIM (KPIM) by combining the PIM and the kernel method to consider a scenario where a repairable system experiences piecewise operating conditions. The kernel method is used to approximate the PIM covariate function nonlinearly. An approach based on the regularized likelihood function is proposed to obtain the optimal parameters for the KPIM. A numerical example is provided to demonstrate the KPIM model, and the parameter estimation approach.
Keywords :
covariance analysis; maintenance engineering; parameter estimation; piecewise constant techniques; KPIM model; PIM covariate function; intensity function; kernel method; kernelized PIM; kernelized proportional intensity model; nontime factors; optimal parameters; parameter estimation; piecewise operating conditions; regularized likelihood function; repair history; repairable systems; Kernel; Maintenance engineering; Mathematical model; Numerical models; Polynomials; Prognostics and health management; Support vector machines; Kernel method; kernelized proportional intensity model (KPIM); piecewise operating conditions; regularized likelihood function; repairable systems;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.2012.2207530
