Automated shape repair approaches currently lack access to datasets that describe real-
world damaged geometry. We present Fantastic Breaks (and Where to Find Them …

Large-scale topological changes play a key role in capturing the fine debris of fracturing
virtual brittle material. Real-world, tough brittle fractures have dynamic branching behaviour …

One of the primary challenges inherent in utilizing deep learning models is the scarcity and
accessibility hurdles associated with acquiring datasets of sufficient size to facilitate effective …

Drawing a direct analogy with the well-studied vibration or elastic modes, we introduce an
object's fracture modes, which constitute its preferred or most natural ways of breaking. We …

This paper proposes a novel simulation approach that combines implicit integration with the
Bonded Discrete Element Method (BDEM) to achieve faster, more stable and more accurate …

Sculpting is an art form that relies on both the visual and tactile senses. A faithful simulation
of sculpting, therefore, requires interactive, physically accurate haptic and visual feedback …

Fracture produces new mesh fragments that introduce additional degrees of freedom in the
system dynamics. Existing finite element method (FEM) based solutions suffer from …

Abstract The hybrid Lagrangian/Eulerian formulation of continuum shells is highly effective
for producing challenging simulations of thin materials like cloth with bending resistance and …

Traditional mesh‐based methods for cutting deformable bodies rely on modifying the
simulation mesh by deleting, duplicating, deforming or subdividing its elements …

Abstract The Bonded Discrete Element Method (BDEM) has raised interests in the graphics
community in recent years because of its good performance in fracture simulations …