Numerical studies of earth structure assessment via the theory of porous media using fuzzy probability based random field material descriptions
DOI10.1002/gamm.201900007OpenAlexW2925339986WikidataQ128176713 ScholiaQ128176713MaRDI QIDQ6067126
Albrecht Schmidt, Tim Ricken, Carsten Könke, Unnamed Author, Katja Ickstadt, Tom Lahmer, Unnamed Author
Publication date: 14 December 2023
Published in: GAMM-Mitteilungen (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/gamm.201900007
finite element methodrandom fieldstheory of porous mediafuzzy theorypolymorphic uncertainty quantificationcross-correlation coefficientauto-correlation lengths
Conference proceedings and collections of articles (00Bxx) Inference from stochastic processes (62Mxx) Stochastic processes (60Gxx)
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Energetic effects during phase transition under freezing-thawing load in porous media - a continuum multiphase description and FE-simulation
- Concentration driven phase transitions in multiphase porous media with application to methane oxidation in landfill cover layers
- A BLOCK CIRCULANT EMBEDDING METHOD FOR SIMULATION OF STATIONARY GAUSSIAN RANDOM FIELDS ON BLOCK-REGULAR GRIDS
- Micro‐macro modelling of steel solidification: A continuum mechanical, bi‐phasic, two‐scale model including thermal driven phase transition
This page was built for publication: Numerical studies of earth structure assessment via the theory of porous media using fuzzy probability based random field material descriptions
