Please use this identifier to cite or link to this item: https://hdl.handle.net/10356/168993
Title: Probabilistic analysis of highly nonlinear models by adaptive sparse polynomial chaos: transient infiltration in unsaturated soil
Authors: Yang, Hao-qing
Yan, Yipu
Wei, Xin
Shen, Zhichao
Chen, Xiaoying
Keywords: Engineering::Civil engineering
Issue Date: 2023
Source: Yang, H., Yan, Y., Wei, X., Shen, Z. & Chen, X. (2023). Probabilistic analysis of highly nonlinear models by adaptive sparse polynomial chaos: transient infiltration in unsaturated soil. International Journal of Computational Methods. https://dx.doi.org/10.1142/S0219876223500068
Journal: International Journal of Computational Methods
Abstract: Polynomial chaos expansion (PCE) is widely adopted in geotechnical engineering as a surrogate model for probabilistic analysis. However, the traditional low-order PCE may be unfeasible for unsaturated transient-state models due to the high nonlinearity. In this study, a temporal-spatial surrogate model of adaptive sparse polynomial chaos expansions (AS-PCE) is established based on hyperbolic truncation with stepwise regression as surrogate models to improve computational efficiency. The uncertainty of pore water pressure of an unsaturated slope under transient-state rainfall infiltration considering hydraulic spatial variability is studied. The saturated coefficient of permeability ks is chosen to be spatial variability to account for the soil hydraulic uncertainty. The effects of location and time and the performances of AS-PCE are investigated. As rainfall goes on, the range of the pore pressure head becomes larger and the spatial variability of ks has little influence in the unsaturated zone with high matric suction. The pore pressure head under the water table suffers more uncertainty than it in the unsaturated zone. The R2 in the high matric suction zone has a trend of rising first and then falling. Except for the high matric suction zone, the R2 rise over time and they are almost 1 at the end of the time. It can be concluded that the AS-PCE performs better for low matric suction and positive pore pressure head and the fitting effect gradually increases as the rainfall progresses. The quartiles and at least up to second statistical moments can be characterized by the AS-PCE for transient infiltration in unsaturated soil slopes under rainfall.
URI: https://hdl.handle.net/10356/168993
ISSN: 0219-8762
DOI: 10.1142/S0219876223500068
Schools: School of Civil and Environmental Engineering 
Rights: © 2023 World Scientific Publishing Company. All rights reserved.
Fulltext Permission: none
Fulltext Availability: No Fulltext
Appears in Collections:CEE Journal Articles

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