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Deep learning-based calibration of resistance factors for pile groups with load tests

Deep learning-based calibration of resistance factors for pile groups with load tests
Deep learning-based calibration of resistance factors for pile groups with load tests
Resistance factors for pile groups are typically derived using empirical methods that do not directly account for system redundancy and overlook the correlation between individual piles, which are inherently influenced by the spatial variability of soils. While rigorous three-dimensional (3D) random finite difference (RFD) or random finite element (RFE) analyses could potentially address these issues, they are constrained by significant computational demands. Therefore, this paper proposes a deep learning-based approach for calibrating resistance factors for pile groups with individual pile load tests. Specifically, a surrogate model based on a convolutional neural network (CNN) is proposed, which is trained and validated using the database generated by RFD analyses. The trained model is further used to derive pile resistances in spatially variable soils. Finally, the resistance factors are calibrated by counting and conditional probability based on the outcomes of load test results. The proposed approach is demonstrated using a pile group example. Results show that the proposed approach effectively captures the impacts of load test results and their corresponding locations, as well as the spatial variability of soil properties, on resistance factors.
Convolutional neural network (CNN), Pile groups, Pile load tests, Random finite difference analysis, Resistance factors
1861-1125
4355-4367
Zhang, Yuting
821b7687-fe98-4525-b641-2ea503797319
Huang, Jinsong
da153fad-3446-47fc-8b4a-5799e42fb59e
Xie, Jiawei
8f5bdf89-fcac-4336-a371-9f138872a28b
Jiang, Shui-Hua
3bcbf6a2-9d96-4bdf-bc78-04e1d189ee14
Zeng, Cheng
bb12ebfb-4c58-46c6-93fe-dc4b101cf5e9
Zhang, Yuting
821b7687-fe98-4525-b641-2ea503797319
Huang, Jinsong
da153fad-3446-47fc-8b4a-5799e42fb59e
Xie, Jiawei
8f5bdf89-fcac-4336-a371-9f138872a28b
Jiang, Shui-Hua
3bcbf6a2-9d96-4bdf-bc78-04e1d189ee14
Zeng, Cheng
bb12ebfb-4c58-46c6-93fe-dc4b101cf5e9

Zhang, Yuting, Huang, Jinsong, Xie, Jiawei, Jiang, Shui-Hua and Zeng, Cheng (2025) Deep learning-based calibration of resistance factors for pile groups with load tests. Acta Geotechnica, 20 (9), 4355-4367. (doi:10.1007/s11440-025-02634-7).

Record type: Article

Abstract

Resistance factors for pile groups are typically derived using empirical methods that do not directly account for system redundancy and overlook the correlation between individual piles, which are inherently influenced by the spatial variability of soils. While rigorous three-dimensional (3D) random finite difference (RFD) or random finite element (RFE) analyses could potentially address these issues, they are constrained by significant computational demands. Therefore, this paper proposes a deep learning-based approach for calibrating resistance factors for pile groups with individual pile load tests. Specifically, a surrogate model based on a convolutional neural network (CNN) is proposed, which is trained and validated using the database generated by RFD analyses. The trained model is further used to derive pile resistances in spatially variable soils. Finally, the resistance factors are calibrated by counting and conditional probability based on the outcomes of load test results. The proposed approach is demonstrated using a pile group example. Results show that the proposed approach effectively captures the impacts of load test results and their corresponding locations, as well as the spatial variability of soil properties, on resistance factors.

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s11440-025-02634-7 (1) - Version of Record
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Published date: 2 June 2025
Additional Information: Publisher Copyright: © The Author(s) 2025.
Keywords: Convolutional neural network (CNN), Pile groups, Pile load tests, Random finite difference analysis, Resistance factors

Identifiers

Local EPrints ID: 506401
URI: http://eprints.soton.ac.uk/id/eprint/506401
DOI: doi:10.1007/s11440-025-02634-7
ISSN: 1861-1125
PURE UUID: a155ba45-e1a3-4cff-83be-68488f17e1a7
ORCID for Yuting Zhang: ORCID iD orcid.org/0000-0002-5683-7286

Catalogue record

Date deposited: 05 Nov 2025 18:10
Last modified: 06 Nov 2025 03:14

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Contributors

Author: Yuting Zhang ORCID iD
Author: Jinsong Huang
Author: Jiawei Xie
Author: Shui-Hua Jiang
Author: Cheng Zeng

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