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Optimization of Levenberg Marquardt Algorithm Applied to Nonlinear Systems

Xinyi Huang, Hao Cao, Bingjing Jia

2023Processes58 citationsDOIOpen Access PDF

Abstract

As science and technology advance, industrial manufacturing processes get more complicated. Back Propagation Neural Network (BPNN) convergence is comparatively slower for processing nonlinear systems. The nonlinear system used in this study to evaluate the optimization of BPNN based on the LM algorithm proved the algorithm’s efficacy through a MATLAB simulation analysis. This paper examined the application impact of the enhanced approach using the Continuous stirred tank reactor (CSTR) control system as an example. The study’s findings demonstrate that the LM optimization algorithm’s identification error exceeds 10-5. The research’s suggested control approach for reactant concentration CA in CSTR systems provides a better tracking effect and a stronger anti-interference capacity. Compared to the PI control method, the overall control effect is superior. As a result, the optimization model for nonlinear systems has a greatly improved processing accuracy. With some data support for the accuracy study of neural network models and the application of nonlinear systems, the suggested LM-BP optimization algorithm is evidently more appropriate for nonlinear systems.

Topics & Concepts

Continuous stirred-tank reactorNonlinear systemLevenberg–Marquardt algorithmMATLABConvergence (economics)Artificial neural networkBackpropagationComputer scienceControl theory (sociology)System identificationAlgorithmEngineeringControl (management)Artificial intelligenceData modelingEconomicsEconomic growthQuantum mechanicsChemical engineeringPhysicsOperating systemDatabaseNeural Networks and ApplicationsAdvanced Algorithms and ApplicationsAdvanced Sensor and Control Systems