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1. A hierarchical least squares identification algorithm for Hammerstein nonlinear systems using the key term separation.

Author

Ding, Feng, Chen, Huibo, Xu, Ling, Dai, Jiyang, Li, Qishen, and Hayat, Tasawar

Subjects

*HAMMERSTEIN equations, *MATHEMATICAL models, *LEAST squares, *AUTOREGRESSIVE models, *LINEAR systems

Abstract

Mathematical models are basic for designing controller and system identification is the theory and methods for establishing the mathematical models of practical systems. This paper considers the parameter identification for Hammerstein controlled autoregressive systems. Using the key term separation technique to express the system output as a linear combination of the system parameters, the system is decomposed into several subsystems with fewer variables, and then a hierarchical least squares (HLS) algorithm is developed for estimating all parameters involving in the subsystems. The HLS algorithm requires less computation than the recursive least squares algorithm. The computational efficiency comparison and simulation results both confirm the effectiveness of the proposed algorithms. [ABSTRACT FROM AUTHOR]

Published

2018