Recursive support vector censored regression for monitoring product quality based on degradation profiles

作者:Jong In Park, Myong K. Jeong

摘要

The time-consuming evaluation of a product’s lifetime or quality often prevents manufacturers from meeting market requirements within the time allotted for product development. Degradation profiles obtained from harsh testing environments have been widely used in many applications to shorten the evaluation time. In this paper, we propose a novel recursive support vector censored regression (r-SVCR) technique to make a direct prediction on the lifetime based on the degradation profiles obtained in an accelerated testing setup. The proposed approach avoids potential bias introduced in the conventional prediction models due to accumulation of computational errors and misspecification of covariate models. Compared to standard support vector regression, our r-SVCR imposes the constraints on the derivatives of the regression function to ensure that the regression function is monotone over the input data range. Also, the r-SVCR accommodates the censored observations through our developed recursive estimation procedure, leading to error reduction. The hyperparameters of the proposed method are optimized based on the genetic algorithms (GAs).

论文关键词:Machine learning and data mining, Recursive support vector censored regression, Genetic algorithm, Secondary rechargeable battery, Cycle-life evaluation, Degradation profile, Accelerated test, Nonlinear censored regression

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论文官网地址:https://doi.org/10.1007/s10489-009-0203-x