Implementation of hybrid particle swarm optimization-differential evolution algorithms coupled with multi-layer perceptron for suspended sediment load estimation

• Published in: Catena (Giessen) Vol. 198; p. 105024
• Main Authors: Mohammadi, Babak, Guan, Yiqing, Moazenzadeh, Roozbeh, Safari, Mir Jafar Sadegh
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.03.2021
• Subjects: catenas; Differential evolution algorithm; Hybrid technique; hybrids; Iran; Mahabad river; model validation; Multi-layer perceptron; Particle swarm optimization; rivers; sediment contamination; support vector machines; suspended sediment; Suspended sediment load; Iran; Hybrid technique; Differential evolution algorithm; Multi-layer perceptron; Particle swarm optimization; Suspended sediment load; Mahabad river
• ISSN: 0341-8162; 1872-6887
• DOI: 10.1016/j.catena.2020.105024

[Display omitted] •Multi-layer perceptron is hybridized through two optimizers.•Optimizers are particle swarm optimization and differential evolution algorithms.•MLP-PSODE is used to model suspended sediment load of Mahabad river.•MLP-PSODE is found superior to its alternatives in extreme values estimation.•MLP-PSODE is a parsimonious model, possessing less number of input parameters. River suspended sediment load (SSL) estimation is of importance in water resources engineering and hydrological modeling. In this study, a novel hybrid approach is recommended for SSL estimation in which multi-layer perceptron (MLP) is hybridized with particle swarm optimization (PSO) and then, integrated with differential evolution algorithm (DE) called as MLP-PSODE. The hybrid MLP-PSODE model is implemented to model the SSL of Mahabad river located at northwest of Iran. For the sake of examination of the MLP-PSODE model performance, several techniques including multi-layer perceptron (MLP), multi-layer perceptron integrated with particle swarm optimization (MLP-PSO), radial basis function (RBF) and support vector machine (SVM) are selected as benchmarks. For this purpose, five different scenarios are considered for the modeling. The results indicated that the new hybrid model of MLP-PSODE is successful in estimating SSL by considering single input of discharge (Q) with high accuracy as compared to its alternatives with RMSE = 1794.4 ton·day−1, MAPE = 41.50% and RRMSE = 107.09%, which were much lower than those of MLP based model with RMSE = 3133.7 ton·day−1, MAPE = 121.40% and RRMSE = 187.03%. The developed MLP-PSODE model, not only outperforms its counterparts in terms of accuracy in extreme values estimation, but also it is found as a parsimonious model that incorporates lower number of input parameters in its structure for SSL estimation.