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Prediction and identification of nonlinear dynamical systems using machine learning approaches

Leisheng Jin, Zhuo Liu, Lijie Li

2023Journal of Industrial Information Integration13 citationsDOIOpen Access PDF

Abstract

Nonlinear dynamical systems are widely implemented in many areas. The Prediction and identification of these dynamical systems purely based on observational data is of great significance for practical applications. In the work, we develop a machine learning based approach called Runge–Kutta guided next-generation reservoir computing (RKNG-RC). The proposed scheme can process data information generated by the most complicated nonlinear dynamical systems such as chaotic Lorenz63 system even with noise, and experimental systems such as chaotic Chua’s electronic circuit, showing an outstanding ability for prediction tasks. More importantly, the RKNG-RC is found to have distinctive interpretability that from the trained weights the ordinary differential equation governing the observable data can be deduced, which is beyond the processing capacities of traditional approaches. The work provides an efficient platform for processing information generated by various dynamical systems.

Topics & Concepts

InterpretabilityDynamical systems theoryChaoticNonlinear systemComputer scienceIdentification (biology)Noise (video)Process (computing)Ordinary differential equationSystem identificationArtificial intelligenceControl theory (sociology)Dynamical system (definition)Machine learningControl engineeringDifferential equationData miningMathematicsEngineeringPhysicsMeasure (data warehouse)Mathematical analysisBiologyBotanyControl (management)Image (mathematics)Quantum mechanicsOperating systemNeural Networks and Reservoir ComputingModel Reduction and Neural NetworksNeural Networks and Applications
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