Closed-Loop Interpolation by Moment Matching for Linear and Nonlinear Systems
成果类型:
Article
署名作者:
Moreschini, Alessio; Astolfi, Alessandro
署名单位:
Imperial College London; University of Rome Tor Vergata
刊物名称:
IEEE TRANSACTIONS ON AUTOMATIC CONTROL
ISSN/ISSBN:
0018-9286
DOI:
10.1109/TAC.2024.3484309
发表日期:
2025
页码:
2918-2933
关键词:
Interpolation
Signal generators
steady-state
Linear systems
stability analysis
reduced order systems
mathematical models
Transfer functions
Integrated circuit interconnections
Generators
Closed-loop interpolation
interpolation
moment matching
nonlinear model reduction
Nonlinear systems
摘要:
The relaxation of strong stability conditions on the system to be interpolated is one of the open problems in interconnection-based interpolation by moment matching. To address this issue, we revisit the interconnection-based notion of moment by introducing an output-based signal generator, called generalized signal generator. This generator, which models the desired interpolation points, is designed to drive the state of the system to the invariant manifold defining the moments. This characterization of moments yields a closed-loop scheme built from the output of the underlying system. Leveraging this scheme, we characterize all systems achieving moment matching from a prescribed generalized signal generator designed to interpolate the underlying model. Furthermore, we show that the generalized signal generator can be employed in the construction of parameterized models that preserve the Lur'e structure with the same static nonlinearity. Finally, we validate the closed-loop moment matching scheme on a Chua's circuit, showing how an electronic circuit that exhibits chaotic behavior can be interpolated by an interpolant possessing a unique limit cycle.