Add to ORKGA statistical framework is presented enabling optimal sampling and analysis of constant life fatigue data. Protocols using Bayesian maximum entropy sampling are built based on conventional staircase and stress step methods, reducing the requirement of prior knowledge for data collection. The Bayesian Staircase method shows improved parameter estimation efficiency, and the Bayesian Stress Step method shows equal accuracy to the standard method at larger step size allowing experimentalists to lessen concerns of loading history. Statistical methods for determining model suitability are shown, highlighting the influence of protocol. Experimental validation is performed, showing the applicability of the methods in laboratory testing.</p
The development of the theory and application of Monte Carlo Markov Chain methods, vast improvements...
AbstractDespite of continuous improvement of numerical computations, experimental fatigue tests are ...
In design against fatigue, a lower bound stress range vs. endurance curve (S-N curve) is employed to...
This paper presents a statistical framework enabling optimal sampling and robust analysis of fatigue...
The aim of the present paper is to bring arguments in favour of Bayesian inference in the context o...
Engineers perform fatigue assessments to support structural integrity management. Given that the pur...
A Bayesian sequential experimental design for fatigue testing was implemented on the basis on D-opti...
Estimating and reducing uncertainty in fatigue test data analysis is a relevant task in order to ass...
Engineers use semi-empirical models of complex degradation phenomena to manage the integrity of stru...
In this paper, Bayesian update is utilized to reduce uncertainty associated with the fatigue life re...
Abstract A Bayesian sequential experimental design for fatigue testing was implemented on the basis...
The Bayesian approach is a stochastic method, allowing to establish trend studies on the b...
Abstract A hierarchical Bayesian approach to analysing fatigue test data including reinserted speci...
Stochastic modeling of uncertainties for fatigue strength parameters is vital step as basis for reli...
The development of the theory and application of Monte Carlo Markov Chain methods, vast improvements...
AbstractDespite of continuous improvement of numerical computations, experimental fatigue tests are ...
In design against fatigue, a lower bound stress range vs. endurance curve (S-N curve) is employed to...
This paper presents a statistical framework enabling optimal sampling and robust analysis of fatigue...
The aim of the present paper is to bring arguments in favour of Bayesian inference in the context o...
Engineers perform fatigue assessments to support structural integrity management. Given that the pur...
A Bayesian sequential experimental design for fatigue testing was implemented on the basis on D-opti...
Estimating and reducing uncertainty in fatigue test data analysis is a relevant task in order to ass...
Engineers use semi-empirical models of complex degradation phenomena to manage the integrity of stru...
In this paper, Bayesian update is utilized to reduce uncertainty associated with the fatigue life re...
Abstract A Bayesian sequential experimental design for fatigue testing was implemented on the basis...
The Bayesian approach is a stochastic method, allowing to establish trend studies on the b...
Abstract A hierarchical Bayesian approach to analysing fatigue test data including reinserted speci...
Stochastic modeling of uncertainties for fatigue strength parameters is vital step as basis for reli...
The development of the theory and application of Monte Carlo Markov Chain methods, vast improvements...
AbstractDespite of continuous improvement of numerical computations, experimental fatigue tests are ...
In design against fatigue, a lower bound stress range vs. endurance curve (S-N curve) is employed to...