A fast direct search (FDS) algorithm is presented to increase the efficiency of contact detection for convex polygonal and polyhedral particles. All contact types are detected using only a small subset of these contact types: vertex-to-edge for polygons while vertex-to-face and edge-to-edge for polyhedra. First, an initial contact list is generated. Then in subsequent steps the contact list is updated by checking only local boundaries of the blocks and their separation. An exclusion algorithm is applied to avoid unnecessary examination for particles that are near but not-in-contact. The benchmark tests show that the FDS produces significant speed-up in various cases
Detection of contacts between interacting blocks is an important but time-consuming calculation in d...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
\u3cp\u3eA novel granular discrete element method (DEM) is introduced to simulate mixtures of partic...
We present an algorithm for contact detection between polygonal (2-D) or polyhedral (3-D) convex par...
ftp://ftp.inrialpes.fr/pub/sharp/publications/joukhadar:etal:iros:99.pdf.gz (not accepted here, non ...
A new contact detection algorithm between three-dimensional non-spherical particles in the discrete ...
When applying the combined finite-discrete element method for analysis of dynamic problems, contact ...
Houlsby (2009) presented the concept of "potential particles", a method for modelling non-circular p...
The detection of contacts between interacting blocks is an important but time-consuming calculation ...
The following paper presents a new approach for the Discrete Element Method (DEM) with polyhedral pa...
Purpose - The paper aims to introduce an efficient contact detection algorithm for smooth convex par...
An efficient algorithm for contact detection among many arbitrarily sized objects is developed. Obje...
Contact detection algorithm is a critical constituent of discontinuous calculation method, the accur...
moving in close proximity, the contact determination procedure pre-sented in this paper performs one...
This paper deals with the calculation of the motion and the administration of the contacts for syste...
Detection of contacts between interacting blocks is an important but time-consuming calculation in d...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
\u3cp\u3eA novel granular discrete element method (DEM) is introduced to simulate mixtures of partic...
We present an algorithm for contact detection between polygonal (2-D) or polyhedral (3-D) convex par...
ftp://ftp.inrialpes.fr/pub/sharp/publications/joukhadar:etal:iros:99.pdf.gz (not accepted here, non ...
A new contact detection algorithm between three-dimensional non-spherical particles in the discrete ...
When applying the combined finite-discrete element method for analysis of dynamic problems, contact ...
Houlsby (2009) presented the concept of "potential particles", a method for modelling non-circular p...
The detection of contacts between interacting blocks is an important but time-consuming calculation ...
The following paper presents a new approach for the Discrete Element Method (DEM) with polyhedral pa...
Purpose - The paper aims to introduce an efficient contact detection algorithm for smooth convex par...
An efficient algorithm for contact detection among many arbitrarily sized objects is developed. Obje...
Contact detection algorithm is a critical constituent of discontinuous calculation method, the accur...
moving in close proximity, the contact determination procedure pre-sented in this paper performs one...
This paper deals with the calculation of the motion and the administration of the contacts for syste...
Detection of contacts between interacting blocks is an important but time-consuming calculation in d...
A novel granular discrete element method (DEM) is introduced to simulate mixtures of particles of an...
\u3cp\u3eA novel granular discrete element method (DEM) is introduced to simulate mixtures of partic...