We propose a novel numerical scheme to simulate interactions between a magnetic field and nonlinearly magnetized objects immersed in it.
This paper proposes a novel three-way coupling framework to simulate the surface-tension-dominant contact between rigid and fluid, which using a Lagrangian surface membrane to handle the interactions between bodies and fluid.
This paper presents a new method for estimating nonlinear constitutive models from trajectories of surface data. The key insight is to have a parametric material correction model learn the error of the elastic and damping properties of a nominal material.
This paper presents a versatile, numerical approach to simulating various magnetic phenomena using a level-set method, which contains a novel two-way coupling mechanism between a magnetic field and magnetizable objects.