Various methods have been proposed for fitting subdivision surfaces to different forms of shape data (e.g., dense meshes or point clouds), but none of these methods effectively deals with shapes with sharp features, that is, creases, darts and corners. We present an effective method for fitting a Loop subdivision surface to a dense triangle mesh with sharp features. Our contribution is a new exact evaluation scheme for the Loop subdivision with all types of sharp features, which enables us to compute a fitting Loop subdivision surface for shapes with sharp features in an optimization framework. With an initial control mesh obtained from simplifying the input dense mesh using QEM, our fitting algorithm employs an iterative method to solve a ...
A modified quadric error metric (QEM) for simplification of Loop subdivision surfaces is presented T...
This project studies the surface subdivision schemes and the possible combination of these subdivisi...
In this paper we describe a method for creating sharp features and trim regions on multiresolution s...
Various methods have been proposed for fitting subdivision surfaces to different forms of shape data...
Computer graphics applications call for various mesh generation techniques to visualize objects, sto...
International audienceThis paper presents an algorithm for approximating arbitrary polygonal meshes ...
International audienceIn this paper we present a new framework for subdivision surface fitting of ar...
This work examines the use of Loop subdivision surfaces as a surrogate for CAD or analytic-based geo...
We present a variational method for subdivision surface reconstruction from a noisy dense mesh. A ne...
This paper describes a technique to evaluate Loop subdivision surfaces at arbitrary parameter values...
International audienceIn this paper we present a new framework for subdivision surface approximation...
In this paper we present a powerful differentiable surface fitting technique to derive a compact sur...
Fitting a sparse surface to approximate vast dense data is of interest for many applications: revers...
Thesis (Ph. D.)--University of Washington, 1996Subdivision surfaces are a convenient representation ...
A modified quadric error metric (QEM) for simplifica-tion of Loop subdivision surfaces is presented....
A modified quadric error metric (QEM) for simplification of Loop subdivision surfaces is presented T...
This project studies the surface subdivision schemes and the possible combination of these subdivisi...
In this paper we describe a method for creating sharp features and trim regions on multiresolution s...
Various methods have been proposed for fitting subdivision surfaces to different forms of shape data...
Computer graphics applications call for various mesh generation techniques to visualize objects, sto...
International audienceThis paper presents an algorithm for approximating arbitrary polygonal meshes ...
International audienceIn this paper we present a new framework for subdivision surface fitting of ar...
This work examines the use of Loop subdivision surfaces as a surrogate for CAD or analytic-based geo...
We present a variational method for subdivision surface reconstruction from a noisy dense mesh. A ne...
This paper describes a technique to evaluate Loop subdivision surfaces at arbitrary parameter values...
International audienceIn this paper we present a new framework for subdivision surface approximation...
In this paper we present a powerful differentiable surface fitting technique to derive a compact sur...
Fitting a sparse surface to approximate vast dense data is of interest for many applications: revers...
Thesis (Ph. D.)--University of Washington, 1996Subdivision surfaces are a convenient representation ...
A modified quadric error metric (QEM) for simplifica-tion of Loop subdivision surfaces is presented....
A modified quadric error metric (QEM) for simplification of Loop subdivision surfaces is presented T...
This project studies the surface subdivision schemes and the possible combination of these subdivisi...
In this paper we describe a method for creating sharp features and trim regions on multiresolution s...