Lyapunov methods and density functions provide dual characterizations of the solutions of a nonlinear dynamic system. This work exploits the idea of combining both techniques, to yield stability results that are valid for almost all the solutions of the system. Based on the combination of Lyapunov and density functions, analysis methods are proposed for the derivation of almost input-to-state stability, and of almost global stability in nonlinear systems. The techniques are illustrated for an inertial attitude observer, where angular velocity readings are corrupted by non-idealities

Oliveira, P.

Rantzer, Anders

Silvestre, C.

Vasconcelos, J.F.

English

Abstract—Lyapunov methods and density functions provide dual characterizations of the solutions of a nonlinear dynamic system. This work exploits the idea of combining both tech-niques, to yield stability results that are valid for almost all the solutions of the system. Based on the combination of Lyapunov and density functions, analysis methods are proposed for the derivation of almost input-to-state stability, and of almost global stability in nonlinear systems. The techniques are illustrated for an inertial attitude observer, where angular velocity readings are corrupted by non-idealities. I

J. F. Vasconcelos

A. Rantzer

C. Silvestre

P. Oliveira

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Combination of lyapunov functions and density functions for stability of rotational motion

Lund University Publications

Combination of Lyapunov Functions and Density Functions for Stability of Rotational Motion

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Combination of Lyapunov Functions and Density Functions for Stability of Rotational Motion

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