AbstractSolving the eikonal equation allows to compute a monotone front propagation of anisotropic nature and is thus a widely applied technique in different areas of science and engineering. Various methods are available out of which only a subset is suitable for shared-memory parallelization, which is the key focus of this analysis. We evaluate three different approaches, those being the recently developed parallel fast marching method based on domain decompositioning, the inherently parallel fast iterative method, and a parallel approach of the semi-ordered fast iterative method, which offers increased stability for variations in the front velocity as compared to established iterative methods. We introduce the individual algorithms, eval...
Fast methods are very popular algorithms to compute time-of-arrival maps (distance maps measured in ...
Abstract. Generating numerical solutions to the eikonal equation and its many variations has a broad...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
AbstractSolving the eikonal equation allows to compute a monotone front propagation of anisotropic n...
The semi-ordered fast iterative method is used to com-pute a monotone front propagation of anisotrop...
AbstractThe fast marching method is widely used to solve the eikonal equation. By introducing a new ...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and o...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
In the past decade, many numerical algorithms for the Eikonal equation have been proposed. Recently,...
In this paper we propose a novel computational technique to solve the Eikonal equation efficiently o...
Abstract. A computational study of the fast marching and the fast sweeping methods for the eikonal e...
Static non-linear Hamilton-Jacobi equations are often used to describe a propagating front. Advanced...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
We present an adaptive domain decomposition strategy to introduce distributed memory parallelism int...
Fast methods are very popular algorithms to compute time-of-arrival maps (distance maps measured in ...
Abstract. Generating numerical solutions to the eikonal equation and its many variations has a broad...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
AbstractSolving the eikonal equation allows to compute a monotone front propagation of anisotropic n...
The semi-ordered fast iterative method is used to com-pute a monotone front propagation of anisotrop...
AbstractThe fast marching method is widely used to solve the eikonal equation. By introducing a new ...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and o...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
We compare the computational performance of the Fast Marching Method, the Fast Sweeping Method and t...
In the past decade, many numerical algorithms for the Eikonal equation have been proposed. Recently,...
In this paper we propose a novel computational technique to solve the Eikonal equation efficiently o...
Abstract. A computational study of the fast marching and the fast sweeping methods for the eikonal e...
Static non-linear Hamilton-Jacobi equations are often used to describe a propagating front. Advanced...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...
We present an adaptive domain decomposition strategy to introduce distributed memory parallelism int...
Fast methods are very popular algorithms to compute time-of-arrival maps (distance maps measured in ...
Abstract. Generating numerical solutions to the eikonal equation and its many variations has a broad...
Hamilton-Jacobi equations arise in a number of seemingly disparate applications, from front propagat...