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Question about how to determine support radius..

Submitted by bahamute on
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Computational Mechanics Forum
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meshless
support

Hi, everyone.

I'm going to employ the meshfree method to analyze composite model.

But, I can't understand how to determine the support radius although I have read some references.

I will use the circular support domain.

Please explain how to determine the support radius.

Need help with understanding Thin Plate Splines as Radial Basis function for Meshfree simulation

Submitted by VardhiniV on
research
meshfree

I want to try applying TPS as the RBF for the simulation of groundwater flow and transport. but the i'm getting error because of zeros in diagonal elements in the global matrix. Please help with the shape function

4 Post-docs, 2 PhD studentships - Isogeometric, Meshless, Multiscale Methods, XFEM

Submitted by Stephane Bordas on
job
meshfree
xfem
PhD Studentship
multiscale methods
Isogeometric Analysis
Marie-Curie fellowships
advanced researchers
early stage researchers

(Closing date:

15 December 2011) £24370 - £28251 per annum (Grade 5), £29972 - £35788
per annum (Grade 6). 3 posts
http://www.cardiff.ac.uk/jobs/engin/research-assistants--research-assoc…

(Closing date:

How to deal with noisy data in a mesh free Galerkin method

Submitted by Micah Paul on
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fluid mechanics
computational mechanics
meshfree
gradient
meshfree method
fluids
particles tracking
Noise
Element-free Galerkin method
PTV
natural neighbor
I'm currently working with a particle tracking velocimetry method, specifically trying to extract shear and vorticity data from the non-gridded velocity results. Of several methods used, the most efficient and accurate was based on a non-Sibsonian element free method. Unlike a more typical Galerkin problem which finds displacements by solving a PDE, this method uses the displacements of natural neighbors to find local flow gradients. 

CMMSE 2010 - Call for papers - Minisymposium on Sampling theory and meshfree methods

Submitted by netuzhylov on
conference
meshfree
meshless
sampling

Please note the Minisymposium on Sampling theory and meshfree methods as a part of

the International Conference on Computational and Mathematical methods in Science and Engineering

CMMSE 2010, 26-30 June 2010, Almeria, Andalucia, Spain --   http://gsii.usal.es/~CMMSE  --

 This mini-symposium aims to bring together such related areas of
mathematics and computational mechanics as Sampling Theory and Meshfree
Numerical Methods.

UK Newton Post-Doc Fellowship in Computational Mechanics

Submitted by Stephane Bordas on
job
biomechanics
fracture
computational mechanics
meshfree
simulation
xfem
position
job
post-doc
post-doctoral
biofilms

 

Dear All,



A new multi-million pound initiative to fund research collaborations and improve links between UK and overseas researchers has been launched.



The Newton International Fellowships aim to attract the most promising, early stage, post-doctoral researchers working overseas, who do not hold UK citizenship, in the fields of humanities, engineering, natural

and social sciences.



The Future of Meshless Methods

Submitted by Ettore Barbieri on
opinion
meshfree
meshless
xfem
gfem
PUFEM

I joined imechanica almost a year ago and I've been frequently following its interesting discussions, even the most animated ones. I think that a place like this is ideal to foster the exchange of ideas in the scientific community;

Moreover it is fantastic as a simple student like me can interact and easily ask questions to the most important researcher in the field of mechanics.

Epi-convergence (max-ent bases), crack growth

Submitted by N. Sukumar on
meshfree
epi-convergence
crack growth

In the attached paper, we have used Variational Analysis techniques (in particular, the theory of epi-convergence) to prove the continuity of maximum-entropy basis functions. In general, for non-smooth functionals, moving objectives and/or constraints, the tools of Newton-Leibniz calculus (gradient, point-convergence) prove to be insufficient; notions of set-valued mappings, set-convergence, etc., are required. Epi-convergence bears close affinity to Gamma- or Mosco-convergence (widely used in the mathematical treatment of martensitic phase transformations). The introductory material on convex analysis and epi-convergence had to be omitted in the revised version; hence the material is by no means self-contained. Here are a few more pointers that would prove to be helpful. Our main point of reference is Variational Analysis by RTR and RJBW; the Princeton Classic Convex Analysis by RTR provides the important tools in convex analysis. For convex optimization, the text Convex Optimization by SB and LV (available online) is excellent. The lecture slides provide a very nice (and gentle) introduction to some of the important concepts in convex analysis. The epigraphical landscape is very rich, and many of the applications would resonate with mechanicians.

On a different topic (non-planar crack growth), we have coupled the x-fem to a new fast marching algorithm. Here are couple of animations on growth of an inclined penny crack in tension (unstructured tetrahedral mesh with just over 12K nodes): larger `time' increment and smaller `time' increment. This is joint-work with Chopp, Bechet and Moes (NSF-OISE project). I will update this page as and when more relevant links are available.

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