TY - EJOU
AU - Li, Hao
AU - Wang, Zhixia
AU - Wang, Wei
TI - A Local Sparse Screening Identification Algorithm with Applications
T2 - Computer Modeling in Engineering \& Sciences
PY - 2020
VL - 124
IS - 2
SN - 1526-1506
AB - Extracting nonlinear governing equations from noisy data is a central
challenge in the analysis of complicated nonlinear behaviors. Despite researchers
follow the sparse identification nonlinear dynamics algorithm (SINDy) rule to
restore nonlinear equations, there also exist obstacles. One is the excessive dependence on empirical parameters, which increases the difficulty of data pre-processing. Another one is the coexistence of multiple coefficient vectors, which causes
the optimal solution to be drowned in multiple solutions. The third one is the composition of basic function, which is exclusively applicable to specific equations. In
this article, a local sparse screening identification algorithm (LSSI) is proposed to
identify nonlinear systems. First, we present the *k*-neighbor parameter to replace
all empirical parameters in data filtering. Second, we combine the mean error
screening method with the SINDy algorithm to select the optimal one from multiple solutions. Third, the time variable *t* is introduced to expand the scope of the
SINDy algorithm. Finally, the LSSI algorithm is applied to recover a classic ODE
and a bi-stable energy harvester system. The results show that the new algorithm
improves the ability of noise immunity and optimal parameters identification provides a desired foundation for nonlinear analyses.
KW - The *k*-neighbor parameter; sparse identification nonlinear dynamics algorithm; mean error screening method; the basic function; energy harvester
DO - 10.32604/cmes.2020.010061