Published November 13, 2023 | Version v1
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A robust state-dependent Riccati equation controller with parameter uncertainty and matched disturbance

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  • 1. ROR icon Universidad de Sevilla

Description

The state-dependent Riccati equation (SDRE) unveils a nonlinear optimal control approach; the method is sensitive to uncertainty and disturbance that provokes the necessity of precise modeling and omitting disturbance from the model and environment which is occasionally impossible. In this paper, a robust state-dependent Riccati equation is introduced using only the pure SDRE itself. Lyapunov's second method for stability analysis is used to extract two tuning rules for weighting matrices of the robust approach for handling both matched disturbance and parametric uncertainty. A fourth-order differential equation is simulated to show the effectiveness of the suggested method and the results were compared with conventional SDRE. The robust version could handle the matched disturbance with a steady-state shift from the equilibrium point where the conventional SDRE failed. Additionally, a comparison and detailed analysis have been performed between the proposed design and sliding mode control.

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Funding

GRIFFIN – General compliant aerial Robotic manipulation system Integrating Fixed and Flapping wings to INcrease range and safety 788247
European Commission
AERIAL-CORE – AERIAL COgnitive integrated multi-task Robotic system with Extended operation range and safety 871479
European Commission

Dates

Accepted
2023-11-09