Litcius/Paper detail

Mid- to long-term runoff prediction by combining the deep belief network and partial least-squares regression

Zhaoxin Yue, Ping Ai, Chuansheng Xiong, Min Hong, Yanhong Song

2020Journal of Hydroinformatics23 citationsDOIOpen Access PDF

Abstract

Abstract Data representation and prediction model design play an important role in mid- to long-term runoff prediction. However, it is challenging to extract key factors that accurately characterize the changes in the runoff of a river basin because of the complex nature of the runoff process. In addition, the low accuracy is another problem for mid- to long-term runoff prediction. With an aim to solve these problems, two improvements are proposed in this paper. First, the partial mutual information (PMI)-based approach was employed for estimating the importance of various factors. Second, a deep learning architecture was introduced by using the deep belief network (DBN) with partial least-squares regression (PLSR), together denoted as PDBN, for mid- to long-term runoff prediction, which solves the problem of parameter optimization for the DBN using PLSR. The novelty of the proposed method lies in the key factor selection and a novel forecasting method for mid- to long-term runoff. Experimental results demonstrated that the proposed method can significantly improve the effect of mid- to long-term runoff prediction. Also, compared with the results obtained by current state-of-the-art prediction methods, i.e., DBN, backpropagation neural networks, and support vector machine models, our prediction results demonstrate the performance of the proposed method.

Topics & Concepts

Deep belief networkPartial least squares regressionSurface runoffComputer scienceArtificial intelligenceKey (lock)Term (time)Data miningRegressionRepresentation (politics)Machine learningBackpropagationRegression analysisArtificial neural networkSupport vector machineProcess (computing)Pattern recognition (psychology)StatisticsMathematicsComputer securityPhysicsQuantum mechanicsPolitical scienceEcologyPoliticsBiologyLawOperating systemHydrological Forecasting Using AIHydrology and Watershed Management StudiesFlood Risk Assessment and Management