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Team

Systèmes non linéaires et complexité
Team manager : Gildas BESANÇON    Mirko FIACCHINI

SYSCO is a research group in control whose main fields of interest lie in nonlinear and complex systems, from both  theoretical and application points of view. This means that it cares about rigorous formal analysis and results, as well as effective applicability of the developed methodologies on real processes. In its studies, it explicitly takes into account model nonlinearities, but also an increasing complexity both in system descriptions (high dimensions, constraints, hybrid dynamics...) and in application requirements (industrial demands, environmental norms...).


SYSCO research mainly relies on nonlinear systems theory, observers, predictive control, optimization, Lyapunov methods, and focuses on  nonlinear models, infinite dimensional systems, discrete-event or hybrid systems. Its main applications of interest lie in the broad fields of energy, environment, processes, robotics, mechatronics, and extends to computers or health.



News
École d'été40e International Summer School of Automatic Control - Grenoble, September, 9-13, 2019

40th Summer School of Automatic Control will be held in Grenoble in September, 9-13 on Control of Computing Systems. The Summer School is is mainly intended for PhD students, researchers and industrial participants interested in self-managing systems, autonomic management and control of Cloud, Real-Time or High Performance Computing (HPC) systems, privacy or BigData management. Basic knowledge in automatic control and mathematics is useful.

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Last publications of team

Beam equation with saturating piezoelectric controls

Christophe Prieur, Sophie Tarbouriech. Beam equation with saturating piezoelectric controls. Joint 8th IFAC Symposium on Mechatronic Systems (MECHATRONICS'19) and 11th IFAC Symposium on Nonlinear Control Systems (NOLCOS'19), Sep 2019, Vienne, Austria. ⟨hal-02156546⟩

Dynamic reset output feedback with guaranteed convergence rate

Francesco Ferrante, Luca Zaccarian. Dynamic reset output feedback with guaranteed convergence rate. 11th IFAC Symposium on Nonlinear Control Systems (NOLCOS 2019), Sep 2019, Vienna, Austria. ⟨hal-02137359⟩

Certifying Optimality in Hybrid Control Systems via Lyapunov-like Conditions

Francesco Ferrante, Ricardo Sanfelice. Certifying Optimality in Hybrid Control Systems via Lyapunov-like Conditions. NOLCOS 2019, Sep 2019, Vienna, Austria. ⟨hal-02137357⟩


Voir toutes les publications de l'équipe dans HAL
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