Projects per year
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Keywords
- Solid mechanics
- Biomechanics of soft tissue
- Numerical methods and algorithms
- Finite element method
- Mesh-free methods
- Real time computations on GPU
Fingerprint Fingerprint is based on mining the text of the person's scientific documents to create an index of weighted terms, which defines the key subjects of each individual researcher.
- 3 Similar Profiles
Tissue
Engineering & Materials Science
Brain
Engineering & Materials Science
Image registration
Engineering & Materials Science
Biomechanics
Engineering & Materials Science
Biomechanical Phenomena
Medicine & Life Sciences
Least squares approximations
Engineering & Materials Science
Moving Least Squares
Mathematics
Galerkin methods
Engineering & Materials Science
Network
Recent external collaboration on country level. Dive into details by clicking on the dots.
Projects 2009 2020
Real Time Brain Deformation Computation for Accurate Target Localisation in Epilepsy Treatment
University of Western Australia
1/01/18 → 31/12/18
Project: Research
Resection-induced brain shift estimation: biomechanics-based approach
Miller, K., Joldes, G., Knuckey, N. & Wittek, A.
National Health & Medical Research Council NHMRC
1/01/18 → 31/12/20
Project: Research
Merit Award - Fellowships - Translation of patient specific biomechanics into clinical practice
1/07/17 → 30/06/18
Project: Research
Towards translating the benefits of patient specific biomechanics into clinical practice
1/01/16 → 31/12/17
Project: Research
Multi-Modality Imaging and Patient-Specific Modelling
University of Western Australia
1/01/16 → 31/12/16
Project: Research
Research Output 2006 2018
Strong-form approach to elasticity: Hybrid finite difference-meshless collocation method (FDMCM)
Bourantas, G. C., Mountris, K. A., Loukopoulos, V. C., Lavier, L., Joldes, G. R., Wittek, A. & Miller, K., 1 May 2018, In : Applied Mathematical Modelling. 57, p. 316-338 23 p.Research output: Contribution to journal › Article
Meshless Method
Collocation Method
Elasticity
Finite Difference
Derivatives
A new method for essential boundary conditions imposition in explicit meshless methods
Joldes, G. R., Chowdhury, H., Wittek, A. & Miller, K., 1 Jul 2017, In : Engineering Analysis with Boundary Elements. 80, p. 94-104 11 p.Research output: Contribution to journal › Article
Meshless Method
Explicit Methods
Boundary conditions
Element-free Galerkin
Explicit Time Integration
An implicit potential method along with a meshless technique for incompressible fluid flows for regular and irregular geometries in 2D and 3D
Bourantas, G. C., Loukopoulos, V. C., Chowdhury, H. A., Joldes, G. R., Miller, K. & Bordas, S. P. A., 1 Apr 2017, In : Engineering Analysis with Boundary Elements. 77, p. 0 15 p.Research output: Contribution to journal › Article
Meshless
Incompressible Flow
Incompressible Fluid
Fluid Flow
Irregular
BioPARR: A software system for estimating the rupture potential index for abdominal aortic aneurysms
Joldes, G. R., Miller, K., Wittek, A., Forsythe, R. O., Newby, D. E. & Doyle, B. J., 5 Jul 2017, In : Scientific Reports. 7, 1, 15 p., 4641Research output: Contribution to journal › Article
Open Access
Abdominal Aortic Aneurysm
Biomechanical Phenomena
Aneurysm
Rupture
Software
Computational biomechanics for medicine: From algorithms to models and applications
Wittek, A. (ed.), Joldes, G. (ed.), Nielsen, P. M. F. (ed.), Doyle, B. J. (ed.) & Miller, K. (ed.), 29 Apr 2017, Switzerland: Springer International Publishing Switzerland. 173 p.Research output: Book/Report › Edited book/Anthology
biodynamics
Biomechanics
medicine
Biomechanical Phenomena
Medicine