Non-Iterative, Feature-Preserving Mesh Smoothing

Jones, Thouis R., Durand, Frédo, Desbrun, Mathieu

01 1900

With the increasing use of geometry scanners to create 3D models, there is a rising need for fast and robust mesh smoothing to remove inevitable noise in the measurements. While most previous work has favored diffusion-based iterative techniques for feature-preserving smoothing, we propose a radically different approach, based on robust statistics and local first-order predictors of the surface. The robustness of our local estimates allows us to derive a non-iterative feature-preserving filtering technique applicable to arbitrary "triangle soups". We demonstrate its simplicity of implementation and its efficiency, which make it an excellent solution for smoothing large, noisy, and non-manifold meshes. / Singapore-MIT Alliance (SMA)

mesh smoothing

robust statistics

mollification

feature preservation

Identification of Coefficients in Reaction-Diffusion Equations

Yu, Weiming

31 March 2004

No description available.

Mathematics

Reaction diffusion equation

mollification

identification

Existence theorems for noncoercive incremental contact problems with Coulomb friction

Rietz, Andreas

January 2005

Friction is a phenomenon which is present in most mechanical devices and frequently encountered in everyday life. In particular, understanding of this phenomenon is important in the modelling of contact between an elastic object and an obstacle. Noncoercive incremental contact problems with Coulomb friction constitute an important class of such friction problems due to their frequent occurrence in mechanical engineering. They occur for example when modelling an object which is not fixed to a support. The topic of this thesis is to study this class of friction problems. This thesis considers both discrete and continuous systems. For the continuous systems we consider both problems with a nonlocal friction law where the contact force is mollified and problems with a normal compliance friction law where the body may penetrate the obstacle. For all friction problems we derive a sufficient condition for the existence of a solution. This condition is a compatibility condition on the applied force field, and if it is violated there exists a nontrivial solution to a corresponding dynamical problem.

Mathematics

Coulomb friction

noncoercive

normal compliance

mollification

MATEMATIK

MATHEMATICS

MATEMATIK

Solving ill-posed problems with mollification and an application in biometrics

Lindgren, Emma

January 2018

This is a thesis about how mollification can be used as a regularization method to reduce noise in ill-posed problems in order to make them well-posed. Ill-posed problems are problems where noise get magnified during the solution process. An example of this is how measurement errors increases with differentiation. To correct this we use mollification. Mollification is a regularization method that uses integration or weighted average to even out a noisy function. The different types of error that occurs when mollifying are the truncation error and the propagated data error. We are going to calculate these errors and see what affects them. An other thing worth investigating is the ability to differentiate a mollified function even if the function itself can not be differentiated. An application to mollification is a blood vessel problem in biometrics where the goal is to calculate the elasticity of the blood vessel’s wall. To do this measurements from the blood and the blood vessel are required, as well as equations for the calculations. The model used for the calculations is ill-posed with regard to specific variables which is why we want to apply mollification. Here we are also going to take a look at how the noise level affects the final result as well as the mollification radius.

Mollification

regularization

ill-posed problems

biometrics

blood vessel

Mathematics

Matematik

Identification of General Source Terms in Parabolic Equations

Yi, Zhuobiao

January 2002

No description available.

Mathematics

IHCP

general source tem

ill-posed

inverse problem

mollification