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Random Forest Algorithm for the Strength Prediction of Geopolymer Stabilized Clayey Soil

Author

Listed:
  • Husein Ali Zeini

    (Department of Civil Engineering, Najaf Technical Institute, Al-Furat Al-Awsat Technical University, Najaf Munazira Str., Najaf 54003, Iraq)

  • Duaa Al-Jeznawi

    (Department of Civil Engineering, Al-Nahrain University, Baghdad 10081, Iraq)

  • Hamza Imran

    (Department of Environmental Science, College of Energy and Environmental Science, Alkarkh University of Science, Baghdad 10081, Iraq)

  • Luís Filipe Almeida Bernardo

    (Department of Civil Engineering and Architecture, University of Beira Interior, 6201-001 Covilhã, Portugal)

  • Zainab Al-Khafaji

    (Building and Construction Techniques Engineering Department, Al-Mustaqbal University College, Hillah 51001, Iraq)

  • Krzysztof Adam Ostrowski

    (Faculty of Civil Engineering, Cracow University of Technology, 24 Warszawska Str., 31-155 Cracow, Poland)

Abstract

Unconfined compressive strength (UCS) can be used to assess the applicability of geopolymer binders as ecologically friendly materials for geotechnical projects. Furthermore, soft computing technologies are necessary since experimental research is often challenging, expensive, and time-consuming. This article discusses the feasibility and the performance required to predict UCS using a Random Forest (RF) algorithm. The alkali activator studied was sodium hydroxide solution, and the considered geopolymer source material was ground-granulated blast-furnace slag and fly ash. A database with 283 clayey soil samples stabilized with geopolymer was considered to determine the UCS. The database was split into two sections for the development of the RF model: the training data set (80%) and the testing data set (20%). Several measures, including coefficient of determination (R), mean absolute error (MAE), and root mean square error (RMSE), were used to assess the effectiveness of the RF model. The statistical findings of this study demonstrated that the RF is a reliable model for predicting the UCS value of geopolymer-stabilized clayey soil. Furthermore, based on the obtained values of RMSE = 0.9815 and R 2 = 0.9757 for the testing set, respectively, the RF approach showed to provide excellent results for predicting unknown data within the ranges of examined parameters. Finally, the SHapley Additive exPlanations (SHAP) analysis was implemented to identify the most influential inputs and to quantify their behavior of input variables on the UCS.

Suggested Citation

  • Husein Ali Zeini & Duaa Al-Jeznawi & Hamza Imran & Luís Filipe Almeida Bernardo & Zainab Al-Khafaji & Krzysztof Adam Ostrowski, 2023. "Random Forest Algorithm for the Strength Prediction of Geopolymer Stabilized Clayey Soil," Sustainability, MDPI, vol. 15(2), pages 1-15, January.
    • Handle: RePEc:gam:jsusta:v:15:y:2023:i:2:p:1408-:d:1032621
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    Cited by:

    1. Joohyun Jang & Woonyoung Jeong & Sangmin Kim & Byeongcheon Lee & Miyoung Lee & Jihoon Moon, 2023. "RAID: Robust and Interpretable Daily Peak Load Forecasting via Multiple Deep Neural Networks and Shapley Values," Sustainability, MDPI, vol. 15(8), pages 1-27, April.

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