An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach

An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach

Accurate prediction of bond behavior of fiber reinforcement polymer (FRP) concrete has a pivotal role in the construction industry. This paper presents a soft computing method called multi-gene genetic programming (MGGP) to develop an intelligent prediction model for the bond strength of FRP bars in...

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Main Authors: Hamed Bolandi, Wolfgang Banzhaf, Nizar Lajnef, Kaveh Barri, Amir H. Alavi
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Technologies
Subjects:
data mining
bond strength
FRP-bar
multi-gene genetic programming
Online Access:https://www.mdpi.com/2227-7080/7/2/42
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spelling doaj-dfe02151e0be4db5b89c64a6cd65a5962020-11-25T00:20:31ZengMDPI AGTechnologies2227-70802019-06-01724210.3390/technologies7020042technologies7020042An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing ApproachHamed Bolandi0Wolfgang Banzhaf1Nizar Lajnef2Kaveh Barri3Amir H. Alavi4Department of Civil and Environmental Engineering, Michigan State University, East Lansing, MI 48824, USA, <email>bolandih@msu.edu</email> (H.B.)Department of Computer Science and Engineering, Michigan State University, East Lansing, MI 48824, USADepartment of Civil and Environmental Engineering, Michigan State University, East Lansing, MI 48824, USA, <email>bolandih@msu.edu</email> (H.B.)Department of Civil and Environmental Engineering, University of Pittsburgh, Pittsburgh, PA 15260, USADepartment of Civil and Environmental Engineering, University of Pittsburgh, Pittsburgh, PA 15260, USAAccurate prediction of bond behavior of fiber reinforcement polymer (FRP) concrete has a pivotal role in the construction industry. This paper presents a soft computing method called multi-gene genetic programming (MGGP) to develop an intelligent prediction model for the bond strength of FRP bars in concrete. The main advantage of the MGGP method over other similar methods is that it can formulate the bond strength by combining the capabilities of both standard genetic programming and classical regression. A number of parameters affecting the bond strength of FRP bars were identified and fed into the MGGP algorithm. The algorithm was trained using an experimental database including 223 test results collected from the literature. The proposed MGGP model accurately predicts the bond strength of FRP bars in concrete. The newly defined predictor variables were found to be efficient in characterizing the bond strength. The derived equation has better performance than the widely-used American Concrete Institute (ACI) model.https://www.mdpi.com/2227-7080/7/2/42data miningbond strengthFRP-barmulti-gene genetic programming
collection DOAJ
language English
format Article
sources DOAJ
author Hamed Bolandi
Wolfgang Banzhaf
Nizar Lajnef
Kaveh Barri
Amir H. Alavi
spellingShingle Hamed Bolandi
Wolfgang Banzhaf
Nizar Lajnef
Kaveh Barri
Amir H. Alavi
An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach
Technologies
data mining
bond strength
FRP-bar
multi-gene genetic programming
author_facet Hamed Bolandi
Wolfgang Banzhaf
Nizar Lajnef
Kaveh Barri
Amir H. Alavi
author_sort Hamed Bolandi
title An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach
title_short An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach
title_full An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach
title_fullStr An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach
title_full_unstemmed An Intelligent Model for the Prediction of Bond Strength of FRP Bars in Concrete: A Soft Computing Approach
title_sort intelligent model for the prediction of bond strength of frp bars in concrete: a soft computing approach
publisher MDPI AG
series Technologies
issn 2227-7080
publishDate 2019-06-01
description Accurate prediction of bond behavior of fiber reinforcement polymer (FRP) concrete has a pivotal role in the construction industry. This paper presents a soft computing method called multi-gene genetic programming (MGGP) to develop an intelligent prediction model for the bond strength of FRP bars in concrete. The main advantage of the MGGP method over other similar methods is that it can formulate the bond strength by combining the capabilities of both standard genetic programming and classical regression. A number of parameters affecting the bond strength of FRP bars were identified and fed into the MGGP algorithm. The algorithm was trained using an experimental database including 223 test results collected from the literature. The proposed MGGP model accurately predicts the bond strength of FRP bars in concrete. The newly defined predictor variables were found to be efficient in characterizing the bond strength. The derived equation has better performance than the widely-used American Concrete Institute (ACI) model.
topic data mining
bond strength
FRP-bar
multi-gene genetic programming
url https://www.mdpi.com/2227-7080/7/2/42
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