Ioannis Stefanou

We also made an exciting discovery—traveling shear bands within faults, resulting in oscillating frictional responses. These findings challenge conventional models and expand our knowledge of frictional weakening during earthquakes.

Our numerical results provide further evidence for the rate and state friction law, enhancing our understanding of earthquake nucleation and seismic energy release.

📢 Calling all Geomechanics enthusiasts! Join us at the ALERT Geomaterials Doctoral School 2023 from September 28th to 30th, 2023, for an exciting exploration of the intersection between Machine Learning and Geomechanics.

📚 Through a combination of lectures and practical exercises, you will delve into regression and classification ML methods, supervised and unsupervised techniques, Artificial Neural Networks, deep learning, model reduction techniques, and even delve into reinforcement learning.

New paper: Evolution TANN and the identification of internal variables and continuous-time evolution equations in solid mechanics https://t.co/CZYfmak7SU

Our recent research article in JGR Solid Earth was selected as Editor’s highlight to appear on Eos! https://t.co/xQ0ZwYcDh8

New paper on earthquake control: robust control, theory and experimental tests https://t.co/ozbe0xJLOP