As applications of materials continue to increase in complexity, there is a clear need to quantitatively assess and optimize material performance in the presence of uncertainties. Insufficient knowledge of the physical phenomena at different length scales, the lack of understanding of the way information propagates from one length scale to another and the presence of inherent uncertainties leads to material response that cannot be accurately predicted using deterministic models. In this work, a novel computational framework for uncertainty modeling and design of complex systems is developed. In the first part of the thesis, computational tools for stochastic modeling of material systems is discussed. Probability distribution fu...
AbstractQuantifying uncertainty in the overall elastic properties of composite materials arising fro...
This book presents the fundamental notions and advanced mathematical tools in the stochastic modelin...
In order to better understand and leverage natural phenomena to design materials and devices (e.g. b...
As applications of materials continue to increase in complexity, there is a clear need to quantitati...
Uncertainty is a critical element in computational materials science. From the experimental perspect...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/143035/1/6.2017-1939.pd
Mechanical properties of engineering materials are sensitive to the underlying random microstructure...
Research on computational modeling and multiscale design of materials has been garnering a lot of in...
International audienceThis book results from a course developed by the author and reflects both his ...
The objective of this work is to address a number of mathematical and computational is-sues critical...
This work presents a stochastic reduced order modeling approach for the solution of uncertainty awar...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
Combining finite elasticity and information theory, a stochastic method is devel oped in order to ac...
Uncertainty quantification and its propagation across multi-scale model/experiment chains are key el...
Quantifying uncertainty in the overall elastic properties of composite materials arising from random...
AbstractQuantifying uncertainty in the overall elastic properties of composite materials arising fro...
This book presents the fundamental notions and advanced mathematical tools in the stochastic modelin...
In order to better understand and leverage natural phenomena to design materials and devices (e.g. b...
As applications of materials continue to increase in complexity, there is a clear need to quantitati...
Uncertainty is a critical element in computational materials science. From the experimental perspect...
Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/143035/1/6.2017-1939.pd
Mechanical properties of engineering materials are sensitive to the underlying random microstructure...
Research on computational modeling and multiscale design of materials has been garnering a lot of in...
International audienceThis book results from a course developed by the author and reflects both his ...
The objective of this work is to address a number of mathematical and computational is-sues critical...
This work presents a stochastic reduced order modeling approach for the solution of uncertainty awar...
Motivated by the need to quantify uncertainties in the mechanical behaviour of solid materials, we p...
Combining finite elasticity and information theory, a stochastic method is devel oped in order to ac...
Uncertainty quantification and its propagation across multi-scale model/experiment chains are key el...
Quantifying uncertainty in the overall elastic properties of composite materials arising from random...
AbstractQuantifying uncertainty in the overall elastic properties of composite materials arising fro...
This book presents the fundamental notions and advanced mathematical tools in the stochastic modelin...
In order to better understand and leverage natural phenomena to design materials and devices (e.g. b...