We present a method that deforms an image plane to visually meet the shape and pose of a manifold sur-face. The user provides constraints that couple a small number of surface points with their corresponding im-age pixels to initially deform the plane. Matching, based on geodesic distances, couples additional points, followed by a second deformation that brings the im-age plane into its final pose and shape. The method works on any type of surface that supports geodesic distances evaluation. This includes not-triangulated and high genus models with arbitrary topology. The result is a smooth, visually pleasing and realistic tex-tured surface that can be superimposed onto or used instead of the original model and with some limitations can be ...
Deformation techniques are often used to model the shape of geometric objects. This paper presents a...
Abstract—This paper presents a novel Riemannian framework for shape analysis of parameterized surfac...
We present a method for matching curves which accommodates large and small deformation. The method p...
We present a method that deforms an image plane to visually meet the shape and pose of a manifold su...
We present a geometry processing framework that allows direct manipulation or preservation of positi...
We present an interactive method for applying deformations to a surface mesh while preserving its gl...
AbstractÐWe present a novel technique for texture mapping on arbitrary surfaces with minimal distort...
International audienceA general formulation for geodesic distance propagation of surfaces is present...
International audienceWe construct shape spaces of elastic spherical surfaces immersed in Euclidean ...
This paper proposes a framework for interactively deforming 3D mesh models. 3D mesh models are often...
Abstract—This paper presents a novel approach that achieves dynamic surface alignment by geodesing m...
Abstract. Deformations are a powerful tool for shape modeling and design. We present a new model for...
We argue that full surface correspondence (registration) and optimal deformations (geodesics) are tw...
International audienceTackles the general problem of surface tracking. The authors present a new met...
Abstract — We present a novel technique for texture mapping on arbitrary surfaces with minimal disto...
Deformation techniques are often used to model the shape of geometric objects. This paper presents a...
Abstract—This paper presents a novel Riemannian framework for shape analysis of parameterized surfac...
We present a method for matching curves which accommodates large and small deformation. The method p...
We present a method that deforms an image plane to visually meet the shape and pose of a manifold su...
We present a geometry processing framework that allows direct manipulation or preservation of positi...
We present an interactive method for applying deformations to a surface mesh while preserving its gl...
AbstractÐWe present a novel technique for texture mapping on arbitrary surfaces with minimal distort...
International audienceA general formulation for geodesic distance propagation of surfaces is present...
International audienceWe construct shape spaces of elastic spherical surfaces immersed in Euclidean ...
This paper proposes a framework for interactively deforming 3D mesh models. 3D mesh models are often...
Abstract—This paper presents a novel approach that achieves dynamic surface alignment by geodesing m...
Abstract. Deformations are a powerful tool for shape modeling and design. We present a new model for...
We argue that full surface correspondence (registration) and optimal deformations (geodesics) are tw...
International audienceTackles the general problem of surface tracking. The authors present a new met...
Abstract — We present a novel technique for texture mapping on arbitrary surfaces with minimal disto...
Deformation techniques are often used to model the shape of geometric objects. This paper presents a...
Abstract—This paper presents a novel Riemannian framework for shape analysis of parameterized surfac...
We present a method for matching curves which accommodates large and small deformation. The method p...