Monotonicity preserving SIRMs-connected fuzzy inference system for predicting HPC compressive strength

• Main Authors: Chiew, F.H (Author), Lau, S.H (Author), Ng, C.K (Author)
• Format: Article
• Language: English
• Published: IOS Press 2018
• Subjects: Compressive strength; Concrete compressive strength; Fly ash; Fly ash concretes; fly-ash concrete; Forecasting; Fuzzy inference; fuzzy inference system; Fuzzy inference systems; Fuzzy systems; High performance concrete; high-performance concrete; Monotonic relationships; monotonicity index; Monotonicity indices; Monotonicity property; Sandwich structures; Statistical tests; Training and testing; Water binder ratio
• Online Access: View Fulltext in Publisher; View in Scopus
• ISBN: 18724981 (ISSN)
• DOI: 10.3233/IDT-180334

A harmony search-based single input rule modules (SIRMs)-connected FIS with monotonicity preserving property in predicting compressive strength for high-performance fly-ash concrete is proposed. The use of FIS with monotonicity preserving property in the prediction for concrete compressive strength is novel. The model considers the monotonic relationship between the input, i.e., water-binder ratio, and the output, i.e., compressive strength. Monotonicity index (MI) is then used to measure the fulfillment of monotonicity property of the model. The proposed model is evaluated using experimental data. Results show that the proposed model with MI gives better predictions for both training and testing data sets, compared with the model without MI. This indicates that the proposed method with MI is more suitable to be used in predicting compressive strength of high-performance fly-ash concrete. When compared to results from neural networks fitting tool, results from the proposed model for testing data set were found to be slightly better in terms of RMSE. The contributions of this paper are two-folds: (1) a new harmony search-based SIRMs-connected FIS with monotonicity preserving property in predicting high performance concrete (HPC) compressive strength is proposed; and (2) the suitability of monotonicity preserving property in predicting HPC compressive strength is investigated. © 2018 - IOS Press and the authors. All rights reserved.