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Shear strength prediction of concrete beams reinforced with FRP bars using novel hybrid BR‑ANN model
Authors: Trong‑Ha Nguyen · Xuan‑Bang Nguyen · Van‑Hoa Nguyen · Thu‑Hang Thi Nguyen · Duy‑Duan Nguyen
144    0
Xây dựng công trình khối Asian
: 25     : 1-19
Publishing year: 8/2023
Shear strength is a very important parameter in designing of reinforced concrete beams or concrete beams reinforced with fiber-reinforced polymer (FRP) bars. So far, numerous studies and design codes have proposed empirical-based formulas for predicting the shear strength of FRP-concrete beams. However, a difference exists between the proposed formulas and experimental results. This study predicts the shear strength of FRP-concrete beams using the novel hybrid BR-ANN model, which integrates artificial neural network (ANN) and Bayesian regularization (BR). For that, a comprehensive database consisting of 303 experimental results is compiled for developing the BR-ANN models. The performance results of BR-ANN are compared with those of 15 existing empirical formulas, which were proposed in typical design codes and well-known published studies. The predicted outputs are evaluated utilizing indicators, which are goodness of fit (R2), root mean squared error (RMSE), and mean value of the ratioVpredict∕Vtest. The results reveal that the BR-ANN model outperforms other empirical formulas with a very high R2 (0.987), very small RMSE (7.3 kN). In addition, the mean value of the ratio Vpredict∕Vtest is equal to unity. Moreover, effects of input variables on the shear strength are evaluated. Finally, a practical design tool is developed to apply the BR-ANN model in calculating the shear strength of FRP-concrete beams.
Artificial neural network (ANN) · Bayesian regularization (BR) · Concrete beam · Fiber-reinforced polymer (FRP) bar · Shear strength · Graphical user interface