Control theory, optimisation and operational research
Faculty
- Fabio Ancona (Controllability and Stabilization; Discontinuous Feedback Laws)
- Manuel Francesco Aprile (Combinatorial Optimization; Integer Programming)
- Gennaro Auricchio (Optimal Transport; Projection Problems)
- Martino Bardi (Hamilton-Jacobi equations; differential games; optimal control)
- Davide Barilari (Geometric Control Theory)
- Alessandra Buratto (Optimal control theory; Dynamic systems; Differential games)
- Giorgia Callegaro
- Laura Caravenna
- Alekos Cecchin (Mean field games; Stochastic control)
- Annalisa Cesaroni (Mean field games; Weak KAM theory; Optimal transport)
- Giovanni Colombo (Necessary optimality conditions; Value functions; Control of the Sweeping Process)
- Bernardo D'Auria (Optimal stopping; Stochastic control; Mean field problems)
- Carla De Francesco (integer linear programming ; vehicle routing ; formulations)
- Luigi De Giovanni (Mathematical Programming; Metaheuristic Optimization Algorithms; AI-driven optimization)
- Marco Di Summa (Integer and mixed-integer programming; Polyhedral approaches to optimization)
- Paola Mannucci (Hamilton Jacobi equations; Evolutive deterministic and stochastic games)
- Andrea Marson (Control of Partial Differential Equations)
- Monica Motta (Impulsive control; Hamilton Jacobi equations; Control systems with time delays)
- Francesco Rinaldi (Nonliner Optimization; First-order Optimization; Zeroth-order Optimization)
- Pierpaolo Soravia (dynamic programming and Hamilton-Jacobi equation; geometric control theory; differential games)
- Daniela Tonon (Optimal control ; Optimal Transport; Mean Field Control)
- Tiziano Vargiolu (Stochastic Control; Stochastic Optimization)
Research Assistants
- Chiara Faccio (Projection-free Methods; Maximum Clique Problem)
Ph.D. Students
- Eleonora Bellesso (Nonlinear Optimization; Continuous Reformulations)
- Matteo Bergamaschi (Sparse Optimisation; Machine Learning; Network Optimisation)
- Lorenzo Perinello (Mathematical Programming; Metaheuristic Optimization Algorithms; AI-driven optimization)
- Giovanni Spisso (First-order Methods; Conditional Gradient Method; Network Analysis)
