The nth-Order Comprehensive Adjoint Sensitivity Analysis Methodology, Volume II
Overcoming the Curse of Dimensionality: Large-Scale Application
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Beschreibung
This text describes a comprehensive adjoint sensitivity analysis methodology (C-ASAM), developed by the author, enabling the efficient and exact computation of arbitrarily high-order functional derivatives of model responses to model parameters in large-scale systems. The C-ASAM framework is set in linearly increasing Hilbert spaces, each of state-function-dimensionality, as opposed to exponentially increasing parameter-dimensional spaces, thereby breaking the so-called “curse of dimensionality” in sensitivity and uncertainty analysis. The C-ASAM applies to any model; the larger the number of model parameters, the more efficient the C-ASAM becomes for computing arbitrarily high-order response sensitivities. The book will be helpful to those working in the fields of sensitivity analysis, uncertainty quantification, model validation, optimization, data assimilation, model calibration, sensor fusion, reduced-order modelling, inverse problems and predictive modelling.
This Volume Two, the second of three, presents the large-scale application of C-ASAM to compute exactly the first-, second-, third-, and fourth-order sensitivities of the Polyethylene-Reflected Plutonium (PERP) OECD/NEO international benchmark which is modeled mathematically by the Boltzmann particle transport equation. It follows from the description of the C-ASAM framework applied to linear systems in Volume One where the PERP benchmark's response of interest is the leakage of particles through its outer boundary. The benchmark represents the largest sensitivity analysis endeavor ever carried out in the field of reactor physics and the numerical results shown in this book prove, for the first time ever, that many of the second-order sensitivities are much larger than the corresponding first-order ones. Currently, the nth-CASAM is the only known methodology which enables such large-scale computations of the exact expressions and values of the nth-order response sensitivities.
This text describes a comprehensive adjoint sensitivity analysis methodology (nth-CASAM), developed by the author, which enablesthe efficient and exact computation of arbitrarily high-order functional derivatives of model responses to model parameters in large-scale systems. The nth-CASAM framework is set in linearly increasing Hilbert spaces, each of state-function-dimensionality, as opposed to exponentially increasing parameter-dimensional spaces, thereby overcoming the so-called “curse of dimensionality” in sensitivity and uncertainty analysis. The nth-CASAM is applicable to any model; the larger the number of model parameters, the more efficient the nth-CASAM becomes for computing arbitrarily high-order response sensitivities. The book will be helpful to those working in the fields of sensitivity analysis, uncertainty quantification, model validation, optimization, data assimilation, model calibration, sensor fusion, reduced-order modelling, inverse problems and predictive modelling.
Describes the large-scale application of the innovative nth-CASAM framework Presents detailed mathematical calculations of the sensitivity analysis of a reactor system Proves how the nth-CASAM overcomes the "curse of dimensionality" in uncertainty analysis
Autor*in
Dan Gabriel Cacuci
Themen in »The nth-Order Comprehensive Adjoint Sensitivity Analysis Methodology, Volume II«
polyethylene-reflected plutonium benchmark OECD/NEO benchmark first-order forward sensitivity analysis second-order forward sensitivity analysis third-order forward sensitivity analysis fourth-order forward sensitivity analysis first-order adjoint sensitivity analysis second-order adjoint sensitivity analysis third-order adjoint sensitivity analysis cross-section sensitivity and uncertainty analysis fission spectrum spontaneous fission source isotopic number densities variance-based sensitivity analysis covariance-based sensitivity analysis