Wu, XunjinZhan, JianmingLi, TianruiDing, WeipingPedrycz, Witold2024-05-192024-05-1920240924-669X1573-7497https://doi.org10.1007/s10489-024-05280-whttps://hdl.handle.net/20.500.12713/5387In the era of big data, the demand for multivariate time series prediction has surged, drawing increased attention to feature selection and neural networks in machine learning. However, certain feature selection methods neglect the alignment between actual data sample differences and clustering results, while neural networks lack automatic parameter adjustment in response to changing target features. This paper presents the MBSSA-Bi-AESN model, a Bi-directional Adaptive Echo State Network that utilizes the modified salp swarm algorithm (MBSSA) and feature selection to address the limitations of manually set parameters. Initial feature subset selection involves assigning weights based on the consistency of clustering results with differences. Subsequently, the four critical parameters in the Bi-AESN model are optimized using MBSSA. The optimized Bi-AESN model and selected feature subset are then integrated for simultaneous model learning and optimal feature subset selection. Experimental analysis on eight datasets demonstrates the superior prediction accuracy of the MBSSA-Bi-AESN model compared to benchmark models, underscoring its feasibility, validity, and universality.eninfo:eu-repo/semantics/closedAccessMultivariate Time SeriesFeature SelectionBi-Directional Adaptive Echo State NetworkBinary Salp Swarm AlgorithmArticle54217061733WOS:0011429062000022-s2.0-85182438410N/A10.1007/s10489-024-05280-wQ2