A clear methodology for mesh-based simulation technique is presented in this study. The principles from creating the model to creating geometry, mesh generation, calculation, and result analysis (post- processing) were highlighted. Some of the results picked from previous works that employed the mesh-based technique were presented and that demonstrates how robust this technique is. It is obvious that today the use of computer simulations, in general, is paramount and that with computer simulations, different solutions can be evaluated numerically, and only promising designs are sent to the laboratory or production line for scale-up production
International audienceMeshless methods, that appeared in the early nineties, constitute nowadays an ...
Mass Spring System is easy to understand and implement. However, it has many disadvantages. For exam...
Numerical simulations of partial differential equations problems are used in a variety of domains. ...
The developments in mesh generation are usually driven by the needs of new applications and/or novel...
In most engineering applications, it is necessary to conduct analyses, eg thermal, stress or flow an...
IntroductionUnless the boundary element method (see Brebbia and Wrobel 1980), mesh less methods such...
A lot of experimental results were provided in author's Ph.Lic. thesis [3]. In this report we g...
In this work we address the conceptualisation of a Simulation Environment for the development of mul...
Most numerical simulations required techniques for the representation and munipulation of complex, t...
Reality-based 3D techniques and Finite Element Analysis share the way the object under investigation...
My research areas are design and analysis of algorithms, computational geometry, mesh gen-eration, a...
This project focuses on building a three-dimensional high quality "mesh" for scientific simulations....
Results of numerical simulation of enclosed volume with supply and exhaust ventilation are presented...
In this paper, we present a novel approach for a tighter integration of 3D modeling and physically-b...
IntroductionIn this chapter, pre- and post-processing is discussed along with related aspects and th...
International audienceMeshless methods, that appeared in the early nineties, constitute nowadays an ...
Mass Spring System is easy to understand and implement. However, it has many disadvantages. For exam...
Numerical simulations of partial differential equations problems are used in a variety of domains. ...
The developments in mesh generation are usually driven by the needs of new applications and/or novel...
In most engineering applications, it is necessary to conduct analyses, eg thermal, stress or flow an...
IntroductionUnless the boundary element method (see Brebbia and Wrobel 1980), mesh less methods such...
A lot of experimental results were provided in author's Ph.Lic. thesis [3]. In this report we g...
In this work we address the conceptualisation of a Simulation Environment for the development of mul...
Most numerical simulations required techniques for the representation and munipulation of complex, t...
Reality-based 3D techniques and Finite Element Analysis share the way the object under investigation...
My research areas are design and analysis of algorithms, computational geometry, mesh gen-eration, a...
This project focuses on building a three-dimensional high quality "mesh" for scientific simulations....
Results of numerical simulation of enclosed volume with supply and exhaust ventilation are presented...
In this paper, we present a novel approach for a tighter integration of 3D modeling and physically-b...
IntroductionIn this chapter, pre- and post-processing is discussed along with related aspects and th...
International audienceMeshless methods, that appeared in the early nineties, constitute nowadays an ...
Mass Spring System is easy to understand and implement. However, it has many disadvantages. For exam...
Numerical simulations of partial differential equations problems are used in a variety of domains. ...