Two‐stage and three‐stage recursive gradient identification of Hammerstein nonlinear systems based on the key term separation
Lei Lv, Wei Sun, Jian Pan
Abstract
Abstract This article explores recursive algorithms for parameter identification issues of Hammerstein output‐error systems. The proposed approach includes the key term separation auxiliary model recursive gradient algorithm, which utilizes the gradient search and the key term separation. To enhance computational efficiency, the system is decomposed into two or three subsystems through the hierarchical identification principle. Based on this, a key term separation based auxiliary model two‐stage recursive gradient algorithm and a key term separation based auxiliary model three‐stage recursive gradient algorithm are presented. The simulation results verify the validity of the obtained algorithms.
Topics & Concepts
Term (time)Key (lock)Identification (biology)Separation (statistics)AlgorithmComputer scienceNonlinear systemControl theory (sociology)MathematicsArtificial intelligenceMachine learningControl (management)PhysicsBiologyQuantum mechanicsComputer securityBotanyControl Systems and IdentificationFault Detection and Control SystemsAdvanced Control Systems Design