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Data-driven stabilizer design and closed-loop analysis of general nonlinear systems via Taylor's expansion

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arxiv 2209.01071 v2 pith:E5Y3Y6BV submitted 2022-09-02 math.OC cs.SYeess.SY

Data-driven stabilizer design and closed-loop analysis of general nonlinear systems via Taylor's expansion

classification math.OC cs.SYeess.SY
keywords basisdata-drivenfunctionsanalysisclosed-loopdesignlyapunovstabilizer
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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For data-driven control of nonlinear systems, the basis functions characterizing the dynamics are usually essential. In existing works, the basis functions are often carefully chosen based on pre-knowledge of the dynamics so that the system can be expressed or well-approximated by the basis functions and the experimental data. For a more general setting where explicit information on the basis functions is not available, this paper presents a data-driven approach for stabilizer design and closed-loop analysis via the Lyapunov method. First, based on Taylor's expansion and using input-state data, a stabilizer and a Lyapunov function are designed to render the known equilibrium locally asymptotically stable. Then, data-driven conditions are derived to check whether a given sublevel set of the found Lyapunov function is an invariant subset of the region of attraction. One of the main challenges is how to handle Taylor's remainder in the design of the local stabilizers and the analysis of the closed-loop performance.

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