Title :
Model reduction of spatiotemporal systems using quasi-Shannon interval wavelet
Author :
Ai Ling ; Zhu Yi ; San Ye
Author_Institution :
Control & Simulation Center, Harbin Inst. of Technol., Harbin, China
Abstract :
A novel model reduction technology using wavelet-collocation method is presented to apply to the spatiotemporal systems. First, contrasting Daubechies wavelet bases, quasi-Shannon interval wavelet is presented as the basis functions in order to preserve the distinctive local property of wavelet, and overcome the computation of connection coefficient and the border effect; Then, the spatiotemporal systems are divided into finite-dimensional ordinary differential equations by the afore-mentioned basis functions, and after that the notation of the finite difference methods in time domain are performed to get the satisfying simplified model. In final, a steep Burgers equation is explained as example to demonstrate the effectiveness of the proposed method.
Keywords :
differential equations; finite difference methods; multidimensional systems; reduced order systems; spatiotemporal phenomena; time-domain analysis; wavelet transforms; Daubechies wavelet bases; basis functions; border effect; connection coefficient; finite difference methods; finite-dimensional ordinary differential equations; model reduction technology; quasiShannon interval wavelet; spatiotemporal systems; steep Burgers equation; time domain; wavelet-collocation method; Continuous wavelet transforms; Discrete wavelet transforms; Equations; Mathematical model; Reduced order systems; Wavelet analysis; Interval Wavelet; Model Reduction; Quasi-Shannon Wavelet; Spatiotemporal Systems;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
