TY - GEN
T1 - Time-dependent global reliability sensitivity analysis of mechanisms with correlated random input variables
AU - Wei, Pengfei
AU - Wang, Wenxuan
PY - 2017
Y1 - 2017
N2 - Time-dependent global reliability sensitivity (GRS) analysis is an effective technique for quantifying the different types of effects of the uncertainty of each independent random input variable on the time-dependent reliability of motion mechanism. However, when the random variables are correlated, the current time-dependent GRS indices are not affordable for distinguishing their different types of effects. To overcome this difficulty, we firstly study the connotations of the main and total effect indices of correlated variables, and then propose three other time-dependent GRS indices, i.e., the individual uncorrelated effect index, the total correlated effect index and the individual interaction effect index, for deeply studying the different types of effects of the correlated random variables on the time-dependent reliability. At last, the envelope function method combined with Monte Carlo simulation (MCS) is extended for efficiently estimating all the five timedependent GRS indices. The significance of the proposed method in identifying the failure sources of motion mechanism as well as the effectiveness of the numerical method for estimating the proposed GRS indices are demonstrated by a four-bar mechanism and a rack-and-pinion steering linkage.
AB - Time-dependent global reliability sensitivity (GRS) analysis is an effective technique for quantifying the different types of effects of the uncertainty of each independent random input variable on the time-dependent reliability of motion mechanism. However, when the random variables are correlated, the current time-dependent GRS indices are not affordable for distinguishing their different types of effects. To overcome this difficulty, we firstly study the connotations of the main and total effect indices of correlated variables, and then propose three other time-dependent GRS indices, i.e., the individual uncorrelated effect index, the total correlated effect index and the individual interaction effect index, for deeply studying the different types of effects of the correlated random variables on the time-dependent reliability. At last, the envelope function method combined with Monte Carlo simulation (MCS) is extended for efficiently estimating all the five timedependent GRS indices. The significance of the proposed method in identifying the failure sources of motion mechanism as well as the effectiveness of the numerical method for estimating the proposed GRS indices are demonstrated by a four-bar mechanism and a rack-and-pinion steering linkage.
KW - Correlated random variables
KW - Envelope function
KW - Global reliability sensitivity
KW - Motion mechanism
UR - http://www.scopus.com/inward/record.url?scp=85029699293&partnerID=8YFLogxK
M3 - 会议稿件
AN - SCOPUS:85029699293
T3 - Conference Proceedings - 23rd ISSAT International Conference on Reliability and Quality in Design
SP - 39
EP - 43
BT - Conference Proceedings - 23rd ISSAT International Conference on Reliability and Quality in Design
A2 - Pham, Hoang
PB - International Society of Science and Applied Technologies
T2 - 23rd ISSAT International Conference on Reliability and Quality in Design 2017
Y2 - 3 August 2017 through 5 August 2017
ER -