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Giorgio Gobat
Giorgio Gobat
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Reduced order modelling of the non-linear stiffness in MEMS resonators
A Frangi, G Gobat
International Journal of Non-Linear Mechanics 116, 211-218, 2019
562019
Backbone curves, Neimark-Sacker boundaries and appearance of quasi-periodicity in nonlinear oscillators: application to 1: 2 internal resonance and frequency combs in MEMS
G Gobat, L Guillot, A Frangi, B Cochelin, C Touzé
Meccanica 56 (8), 1937-1969, 2021
342021
Reduced order modeling of nonlinear microstructures through Proper Orthogonal Decomposition
G Gobat, A Opreni, S Fresca, A Manzoni, A Frangi
arXiv e-prints, arXiv: 2109.12184, 2021
262021
Reduced order modelling and experimental validation of a MEMS gyroscope test-structure exhibiting 1: 2 internal resonance
G Gobat, V Zega, P Fedeli, L Guerinoni, C Touzé, A Frangi
Scientific Reports 11 (1), 16390, 2021
262021
Deep learning‐based reduced order models for the real‐time simulation of the nonlinear dynamics of microstructures
S Fresca, G Gobat, P Fedeli, A Frangi, A Manzoni
International Journal for Numerical Methods in Engineering 123 (20), 4749-4777, 2022
232022
Reduced order modeling of parametrized systems through autoencoders and SINDy approach: continuation of periodic solutions
P Conti, G Gobat, S Fresca, A Manzoni, A Frangi
Computer Methods in Applied Mechanics and Engineering 411, 116072, 2023
182023
Frequency combs in a MEMS resonator featuring 1: 2 internal resonance: ab initio reduced order modelling and experimental validation
G Gobat, V Zega, P Fedeli, C Touzé, A Frangi
Nonlinear Dynamics 111 (4), 2991-3017, 2023
162023
Reduced Order Modeling of Nonlinear Vibrating Multiphysics Microstructures with Deep Learning-Based Approaches
G Gobat, S Fresca, A Manzoni, A Frangi
Sensors 23 (6), 3001, 2023
52023
Direct parametrisation of invariant manifolds for non-autonomous forced systems including superharmonic resonances
A Vizzaccaro, G Gobat, A Frangi, C Touzé
Nonlinear Dynamics, 1-36, 2024
42024
Reduced Order Modelling in a Mems Arch Resonator Exhibiting 1: 2 Internal Resonance
V Zega, G Gobat, P Fedeli, P Carulli, AA Frangi
2022 IEEE 35th International Conference on Micro Electro Mechanical Systems …, 2022
42022
Experimental Evidence of Mechanical Frequency Comb in a Quad-Mass Mems Structure
G Gobat, V Zega, P Fedeli, LG Falorni, L Guerinoni, C Touzé, A Frangi
2021 IEEE 34th International Conference on Micro Electro Mechanical Systems …, 2021
42021
Identification of strength and toughness of quasi-brittle materials from spall tests: a Sigma-point Kalman filter approach
S Mariani, G Gobat
Inverse Problems in Science and Engineering 27 (9), 1318-1346, 2019
42019
Interpolation Based Reduced Order Modelling for Non-linearities in MEMS
G Gobat, A Frangi, V Zega
2020 IEEE Sensors, 1-4, 2020
32020
Nonlinear model order reduction of resonant piezoelectric micro-actuators: An invariant manifold approach
A Opreni, G Gobat, C Touzé, A Frangi
Computers & Structures 289, 107154, 2023
22023
SHM and Efficient Strategies for Reduced-Order Modeling
G Gobat, SE Azam, S Mariani
Engineering Proceedings 2 (1), 98, 2021
22021
Modelling the Periodic Response of Micro-Electromechanical Systems through Deep Learning-Based Approaches
G Gobat, A Baronchelli, S Fresca, A Frangi
Actuators 12 (7), 278, 2023
12023
Virtual twins of nonlinear vibrating multiphysics microstructures: physics-based versus deep learning-based approaches
G Gobat, S Fresca, A Manzoni, A Frangi
arXiv preprint arXiv:2205.05928, 2022
12022
Investigation of Quasi-Periodic Solutions in Nonlinear Oscillators Featuring Internal Resonance
G Gobat, A Frangi, C Touzé, L Guillot, B Cochelin
Advances in Nonlinear Dynamics, 797-806, 2022
12022
Modellazione di ordin ridotto e decomposizione in sottodomini per l'analisi strutturale
G GOBAT
Politecnico di Milano, 2015
12015
Model order reduction of nonlinear MEMS structures: a high order invariant manifold approach
A Opreni, A Vizzaccaro, G Gobat, A Martin, L Salles, AA Frangi, C Touzé
15ème Colloque National en Calcul des Structures CSMA 2022, 2022
2022
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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