Title :
Robust Parameter Design for Quality and Reliability Issues Based on Accelerated Degradation Measurements
Author :
Lio, Y.L. ; Jye-Chyi Lu ; Lingyan Ruan
Author_Institution :
Dept. of Math. Sci., Univ. of South Dakota, Vermillion, SD, USA
Abstract :
Manufacturing quality and lifetime testing conditions may affect product reliability measurements. The literature for the design of experiments (DOE) and robust product optimization considering both quality and reliability issues is scarce. This article develops a model to include both manufacturing variables and accelerated degradation test (ADT) conditions. A simple algorithm provides calculations of the maximum likelihood estimates (MLEs) of these model parameters and percentile lifetimes. Variances of these estimates are derived based on large sample theory. Our DOE plans focus on deciding replication sizes and proportions of the test-units allocated at three stress levels for various manufacturing and ADT conditions. This work also explores robust parameter design (RPD) optimizations for selected controllable manufacturing variables to achieve the longest product lifetime and smallest variation in lifetime distributions.
Keywords :
acceleration measurement; design of experiments; life testing; manufacturing systems; maximum likelihood estimation; product design; quality control; reliability; ADT condition; DOE; MLE; RPD optimization; accelerated degradation measurements; accelerated degradation test condition; design of experiments; lifetime distribution; lifetime testing conditions; manufacturing quality; manufacturing variables; maximum likelihood estimation; model parameters; percentile lifetimes; product reliability measurements; quality issues; reliability issues; replication size; robust parameter design; robust product design optimization; stress level; test-unit proportion; Degradation; Manufacturing; Mathematical model; Maximum likelihood estimation; Reliability engineering; Stress; Asymptotical variance and covariance; Brownian motion; percentile lifetime;
Journal_Title :
Reliability, IEEE Transactions on
DOI :
10.1109/TR.2015.2415892
