Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 1 of 1
Full-Text Articles in Entire DC Network
Efficient Inversion And Uncertainty Quantification Of A Tephra Fallout Model, T. J. White, Charles B. Connor, Laura J. Connor, T. Hasenaka
Efficient Inversion And Uncertainty Quantification Of A Tephra Fallout Model, T. J. White, Charles B. Connor, Laura J. Connor, T. Hasenaka
School of Geosciences Faculty and Staff Publications
An efficient and effective inversion and uncertainty quantification approach is proposed for estimating eruption parameters given a data set collected from a tephra deposit. The approach is model independent and here is applied using Tephra2, a code that simulates advective and dispersive tephra transport and deposition. The Levenburg‐Marquardt algorithm is combined with formal Tikhonov and subspace regularization to invert eruption parameters; a linear equation for conditional uncertainty propagation is used to estimate posterior parameter uncertainty. Both the inversion and uncertainty analysis support simultaneous analysis of the full eruption and wind field parameterization. The combined inversion/uncertainty quantification approach is applied to …