Central Nervous System Action on Rolling Balance Board Robust Stabilization: Computer Algebra and MID-Based Feedback Design - Dynamical Interconnected Systems in COmplex Environments
Chapitre D'ouvrage Année : 2024

Central Nervous System Action on Rolling Balance Board Robust Stabilization: Computer Algebra and MID-Based Feedback Design

Résumé

Using the computer algebra system Maple, we consider the stabilization of a rolling balance board by means of the multiplicity-induced-dominancy (MID) property. The human stance on a rolling balance board is analyzed in the sagittal plane through a two degree-of-freedom mechanical model. Namely, the human body is modeled by a double inverted pendulum which connects to the balance board through the ankle joint. The system is stabilized by the ankle torque managed by the central nervous system (CNS). The action of the CNS is modeled by a delayed full state feedback: a pointwise delay stands for all latencies in the neuromechanical system (reaction time, neuromechanical lag, etc). The aim of the paper is to achieve a good occurrence in terms of the decay rate, it exhibits the links between multiple spectral values satisfying the MID property and the exponential stability property of the solution 1 .

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Dates et versions

hal-04711038 , version 1 (26-09-2024)

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Karim L Trabelsi, Islam Boussaada, Amina Benarab, Csenge Molnar, Silviu-Iulian Niculescu, et al.. Central Nervous System Action on Rolling Balance Board Robust Stabilization: Computer Algebra and MID-Based Feedback Design. Advances in Partial Differential Equations and Control, Springer Nature Switzerland, pp.215-247, 2024, Trends in Mathematics, 978-3-031-62264-9. ⟨10.1007/978-3-031-62265-6_11⟩. ⟨hal-04711038⟩
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