The application of Voronoi and Delaunay tessellation based methods for reconstructing continuous fields from discretely sampled data sets is discussed. The succesfull operation as "multidimensional interpolation" method is corroborated through their ability to reproduce even intricate statistical aspects of the analytical predictions of perturbation theory of cosmic velocity field evolution. The newly developed and fully self-adaptive technique for density field estimation by means of Delaunay tessellations, basically exploiting their "minimum triangulation" quality, is shown to succesfully reproduce the morphology of the foamlike structure in N-body simulations of cosmic structure formation. The full hierarchy of structure is implicitly an...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation ...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation ...
This study is the first in a series in which we analyse the structure and topology of the Cosmic Web...
The application of Voronoi and Delaunay tessellation based methods for reconstructing continuous fie...
Abstract: The application of Voronoi and Delaunay tessellation based methods for reconstructing cont...
Here we introduce the Delaunay Density Estimator Method. Its purpose is rendering a fully volume-cov...
Here we introduce the Delaunay Density Estimator Method. Its purpose is rendering a fully volume-cov...
Optimally resolved one-dimensional density and velocity profiles through cosmological N-body simulat...
We describe two new - stochastic-geometrical - methods to obtain reliable velocity field statistics ...
We describe two new - stochastic-geometrical - methods to obtain reliable velocity field statistics ...
Abstract: We describe two new, stochastic-geometrical, methods to obtain reliable velocity field sta...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation...
We introduce two new methods to obtain reliable velocity field statistics from N-body simulations, o...
We review the analysis of the Cosmic Web by means of an extensive toolset based on the use of Delaun...
We review the analysis of the Cosmic Web by means of an extensive toolset based on the use of Delaun...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation ...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation ...
This study is the first in a series in which we analyse the structure and topology of the Cosmic Web...
The application of Voronoi and Delaunay tessellation based methods for reconstructing continuous fie...
Abstract: The application of Voronoi and Delaunay tessellation based methods for reconstructing cont...
Here we introduce the Delaunay Density Estimator Method. Its purpose is rendering a fully volume-cov...
Here we introduce the Delaunay Density Estimator Method. Its purpose is rendering a fully volume-cov...
Optimally resolved one-dimensional density and velocity profiles through cosmological N-body simulat...
We describe two new - stochastic-geometrical - methods to obtain reliable velocity field statistics ...
We describe two new - stochastic-geometrical - methods to obtain reliable velocity field statistics ...
Abstract: We describe two new, stochastic-geometrical, methods to obtain reliable velocity field sta...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation...
We introduce two new methods to obtain reliable velocity field statistics from N-body simulations, o...
We review the analysis of the Cosmic Web by means of an extensive toolset based on the use of Delaun...
We review the analysis of the Cosmic Web by means of an extensive toolset based on the use of Delaun...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation ...
We present the results of a study comparing density maps reconstructed by the Delaunay Tessellation ...
This study is the first in a series in which we analyse the structure and topology of the Cosmic Web...
Add to ORKG