In this work, possibility of simulating biological organs in realtime using the Boundary Element Method (BEM) is investigated. Biological organs are assumed to follow linear elastostatic material behavior, and constant boundary element is the element type used. First, a Graphics Processing Unit (GPU) is used to speed up the BEM computations to achieve the realtime performance. Next, instead of the GPU, a computer cluster is used. Results indicate that BEM is fast enough to provide for realtime graphics if biological organs are assumed to follow linear elastostatic material behavior. Although the present work does not conduct any simulation using nonlinear material models, results from using the linear elastostatic material model imply tha...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
In the past decade computer models have become very popular in the field of biomechanics due to expo...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
In this work, possibility of simulating biological organs in realtime using the Boundary Element Met...
In this work, possibility of simulating biological organs in realtime using the Boundary Element Met...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
In this chapter, authors provide a description of boundary element method (BEM) applications in biom...
Abstract. This work addresses the implementation of the direct version of the Boundary Element Metho...
Many applications in biomedical engineering and sur-gical simulators require effective modeling meth...
A parallel, Boundary Element Method procedure for elastostatic problems is here illustrated. Startin...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
In the past decade computer models have become very popular in the field of biomechanics due to expo...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...
In this work, possibility of simulating biological organs in realtime using the Boundary Element Met...
In this work, possibility of simulating biological organs in realtime using the Boundary Element Met...
Biomedical engineering solutions like surgical simulators need High Performance Computing (HPC) to a...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
Finite element analysis (FEA) enjoys a variety of applications in the field of biomechanics, from si...
The use of biomechanical modelling, especially in conjunction with finite element analysis, has beco...
In this chapter, authors provide a description of boundary element method (BEM) applications in biom...
Abstract. This work addresses the implementation of the direct version of the Boundary Element Metho...
Many applications in biomedical engineering and sur-gical simulators require effective modeling meth...
A parallel, Boundary Element Method procedure for elastostatic problems is here illustrated. Startin...
Abstract. Realistic deformation of computer-simulated anatomical structures is computationally inten...
We propose an efficient numerical algorithm for computing deformations of “very ” soft tissues (such...
Finite element (FE) simulations are increasingly valuable in assessing and improving the performance...
In the past decade computer models have become very popular in the field of biomechanics due to expo...
There are two types of structures in human body, solid organs and hollow membrane like organs. Brain...