This paper considers the problem of learning control laws for nonlinear polynomial systems directly from the data, which are input-output measurements collected in an experiment over a finite time period. Without explicitly identifying the system dynamics, stabilizing laws are directly designed for nonlinear polynomial systems using experimental data alone. By using data-based sum of square programming, the stabilizing state-dependent control gains can be constructed.
Learning control for polynomial systems using sum of squares relaxations / Guo M.; De Persis C.; Tesi P.. - ELETTRONICO. - 2020-:(2020), pp. 2436-2441. ( 59th IEEE Conference on Decision and Control, CDC 2020 kor 2020) [10.1109/CDC42340.2020.9303924].
Learning control for polynomial systems using sum of squares relaxations
Tesi P.
2020
Abstract
This paper considers the problem of learning control laws for nonlinear polynomial systems directly from the data, which are input-output measurements collected in an experiment over a finite time period. Without explicitly identifying the system dynamics, stabilizing laws are directly designed for nonlinear polynomial systems using experimental data alone. By using data-based sum of square programming, the stabilizing state-dependent control gains can be constructed.
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