Add to ORKGThe theory of elasticity describes deformable materials such as rubber, cloth, paper, and flexible metals. We employ elasticity theory to construct differential equations that model the behavior of non-rigid curves, surfaces, and solids as a function of time. Elastically deformable models are active: they respond in a natural way to applied forces, constraints, ambient media, and impenetrable obstacles. The models are fundamentally dynamic and realistic animation is created by numerically solving their underlying differential equations. Thus, the description of shape and the description of motion are unified
Implementation of Deformable Objects i With in depth focus on deformable surfaces, we have successfu...
Abstract. Preliminary results on the analysis of a physically-based model are presented. Over the pa...
We advocate a simple geometric model for elasticity: distance between the differential of a deformat...
The theory of elasticity describes deformable materials such as rubber, cloth, paper, and flexible m...
The theory of elasticity describes deformable materials such as rubber, cloth, paper, and flexible m...
This book examines in detail the Theory of Elasticity which is a branch of the mechanics of a deform...
In an earlier work we proposed a class of physically based models suitable for animating flexible ob...
Continuous deformable models are generally represented using a grid of control points. The elastic p...
Although kinematic modelling methods are adequate for describing the shapes of static objects, they ...
Physically based deformable models have been widely embraced by the Computer Graphics community. Man...
More and more of the world around us is simulated by computers. These simulations are performed at d...
Physically based deformable models have been widely embraced by the Computer Graphics community. Man...
Cataloged from PDF version of article.Continuous deformable models are generally represented using a...
We continue our development of physically-based models for animating nonrigid objects in simulated p...
This paper explores the use of elements of Differential Geometry to control the manipulation of the ...
Implementation of Deformable Objects i With in depth focus on deformable surfaces, we have successfu...
Abstract. Preliminary results on the analysis of a physically-based model are presented. Over the pa...
We advocate a simple geometric model for elasticity: distance between the differential of a deformat...
The theory of elasticity describes deformable materials such as rubber, cloth, paper, and flexible m...
The theory of elasticity describes deformable materials such as rubber, cloth, paper, and flexible m...
This book examines in detail the Theory of Elasticity which is a branch of the mechanics of a deform...
In an earlier work we proposed a class of physically based models suitable for animating flexible ob...
Continuous deformable models are generally represented using a grid of control points. The elastic p...
Although kinematic modelling methods are adequate for describing the shapes of static objects, they ...
Physically based deformable models have been widely embraced by the Computer Graphics community. Man...
More and more of the world around us is simulated by computers. These simulations are performed at d...
Physically based deformable models have been widely embraced by the Computer Graphics community. Man...
Cataloged from PDF version of article.Continuous deformable models are generally represented using a...
We continue our development of physically-based models for animating nonrigid objects in simulated p...
This paper explores the use of elements of Differential Geometry to control the manipulation of the ...
Implementation of Deformable Objects i With in depth focus on deformable surfaces, we have successfu...
Abstract. Preliminary results on the analysis of a physically-based model are presented. Over the pa...
We advocate a simple geometric model for elasticity: distance between the differential of a deformat...