New framework for nanoindentation curve fitting and measurement uncertainty estimation
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CHARVÁTOVÁ CAMPBELL, A., Zdeňka GERŠLOVÁ (203 Česká republika, domácí), Vojtěch ŠINDLÁŘ (203 Česká republika, domácí), R. ŠLESINGER a Gejza WIMMER (703 Slovensko, domácí)
Uncertainty quantification is a vital component of any measurement process and is indispensable for comparing results obtained by different methods, instruments, or laboratories. The processing of the measured data often relies on fitting the data by a given function. Common methods such as ordinary nonlinear least squares are not capable of treating general uncertainties and correlations in both dependent and independent variables. A new computation method for nonlinear curve fitting to data with a general covariance structure is introduced. This method is applied to the Oliver-Pharr analysis of unloading curves and differences between different regression methods are addressed. Numerical simulations show that the new method yields parameter estimates in agreement with other methods for simple covariance structures. The obtained uncertainty estimates are in agreement with Monte Carlo studies.
Návaznosti
TJ02000203, projekt VaV
Název: Pokročilé matematické a statistické metody ve vyhodnocování měření instrumentovanou indentací
Investor: Technologická agentura ČR, Pokročilé matematické a statistické metody ve vyhodnocování měření instrumentovanou indentací