Boundary Elements, 24th [Kõva köide]

Section 1 BEM in Portugal: The BEM at the Constructions Lab in the
University of Coimbra; On the verification of a potential based low order
boundary element method for incompressible flows; Numerical modelling of OWC
wave-power plants of the oscillating water column type; Scattering by cracks:
Numerical simulations using a boundary finite element method;
Thermo-mechanical analysis of metal forming processes through a combined
finite element boundary element approach. Section 2 Meshless methods:
Boundary meshfree methods based on the boundary point interpolation methods;
The method of fundamental solutions for solving Poisson problems; Solution of
Poisson equation by Trefftz method; On methods for solving the Dirichlet
problem for Poisson's equation; Accurately solving the Poisson equation by
combining multiscale radial basis functions and Gaussian quadrature; A
meshless boundary element technique based on multi-level iterated
Helmholtz-type interpolation; Polynomial particular solutions for Poisson
problems; Some recent advances on the RBF; A meshless computational method
for solving inverse heat conduction problems; Mesh-free method for
groundwater modelling; Sound transmission through inhomogeneous waveguides;
The use of radial basis functions for one-dimensional structural analysis
problems. Section 3 Plates and shells: Hierarchical plate modelling by
boundary elements; Stability analysis of laminate plates by the boundary
element method; Boundary element stress analysis of plates on 2 parameter
foundation under generalized loading; Ponding on floating membranes; Integral
equation method for cylindrical shell under axisymmetric loads; A strategy to
perform the Reissner-Mindlin's theory. Section 4 Advanced formulations: BIE
and Trefftz approximation; The hybrid boundary element method applied to
functionally graded materials; A non-singular hybrid boundary element
formulation incorporating a higher order fundamental solution; The BEM
formulation of the distinct element method; A study on the source point
locations in the method of fundamental solution; Two multipole alternatives
based on Taylor series expansions for 3D BEM elasticity formulation;
Implementation of the slip-weakening model in a Displacement Discontinuity
Method based numerical technique; Boundary element analysis of hyper-elastic
elastomeric materials. Section 5 Dual reciprocity method: A boundary element
method using DRM for nonlinear heat conduction problems; The Laplace
transform dual reciprocity boundary element method for nonlinear transient
field problems; The dual reciprocity method for solving biharmonic problems;
Dual reciprocity formulation for elasticity problems using compact supported
radial basis functions; An improved DRM representation of partial derivatives.