Hybrid ANFIS systems: Evaluation of bearing capacity of driven piles

Hybrid ANFIS systems: Evaluation of bearing capacity of driven piles

Several empirical and theoretical methods have been used in civil infrastructure to ascertain the deep foundation’s load capacity. The models in this scenario are primarily driven by physical presumptions as well as the construction of estimations utilizing mathematical frameworks. In this article,...

Full description

Saved in:
Bibliographic Details
Main Authors: Yan Peng, Haiquan Gao
Format: Article
Language:English
Published: Tamkang University Press 2025-06-01
Series:Journal of Applied Science and Engineering
Subjects:
driven piles
bearing capacity
evaluation
deep foundation
anfis
artificial rabbit optimization
Online Access:http://jase.tku.edu.tw/articles/jase-202602-29-02-0023
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Several empirical and theoretical methods have been used in civil infrastructure to ascertain the deep foundation’s load capacity. The models in this scenario are primarily driven by physical presumptions as well as the construction of estimations utilizing mathematical frameworks. In this article, innovative design patterns were developed, and three hybrid adaptive neuro-fuzzy inference systems (ANFIS) optimized with artificial rabbit optimization (ARO), cuckoo optimization algorithm (COA), and grey wolf optimization (GWO) have been applied to use experimental data to calculate the driven piles’ bearing capacity (Qt). To increase the optimal networks’ modeling efficacy, optimization methods were deployed to determine the essential parameters of the simulations. Also, other algorithms were developed for comparison purposes, such as single ANFIS, support vector regression (SVR) M5P, multi-adaptive regression spline (MARS), random forests (RF), and random trees (RT). It was concluded that both ANFIS systems optimized with ARO, GWO, and COA accomplish admirably among the categories of trains and tests, with a minimum R^2 of 0.9285 in the learning dataset and 0.9313 in the examining dataset, respectively, indicating a strong similarity between experimental and estimated Qt. Comparing the outcomes of the single and hybrid models, the highest performance belonged to ARO-ANFIS, by gaining the largest values of correlation metrics and the lowest values of error-based metrics. After examining the dependability and considering the justifications, the ANFIS paired with ARO outperformed the COA-ANFIS and GWOANFIS in the Qt of driven piles forecasting model, this is the suggested system.
ISSN:2708-9967

Similar Items