Boundary elements XXVII : incorporating electrical engineering and electromagnetics

his book contains the edited proceedings of the 27th World Conference on Boundary Elements together with papers presented at the associated International Seminar on Computational Methods in Electrical Engineering and Electromagnetics. The Boundary Element Conference series continues to attract original contributions on theoretical and fundamental developments, as well as innovative applications. Its scope has also recently been expanded to include other mesh reduction methods. The presentations from the Computational Methods in Electrical Engineering and Electromagnetics Seminar cover a wide variety of theoretical and applied topics. Over 65 papers are included and these are divided under the following headings: BOUNDARY ELEMENTS AND OTHER MESH REDUCTION METHODS - Meshless Methods; Dual Reciprocity Method; Advanced Formulations; Inverse Problems; Stress Analysis; Plates and Shells; Damage Mechanics; Wave Propagation; Fluid Problems; Electrostatics and Electromagnetics; Computational Problems.E LECTRICAL ENGINEERING AND ELECTROMAGNETICS - Interaction of Humans with Electromagnetic Fields; High Frequency Electromagnetic Field Coupling to Transmission Lines; Numerical and Computational Methods; Electrical Engineering and Electronics.

• Part I: Boundary Elements and other Mesh Reduction Methods
• Section 1: Meshless methods
• Highly accurate methods for solving elliptic and parabolic partial differential equations
• Convergence analysis of methods for solving general equations
• Radial basis meshless methods for unsaturated flow problems
• Direct solution of certain ill-posed boundary value problems by the collocation method
• RBF collocation methods as pseudospectral methods
• Solving Cauchy problems of elliptic equations by the method of fundamental solutions
• Effective domain decomposition meshless formulation of fully-viscous incompressible fluid flows
• Parallel domain decomposition meshless modeling of dilute convection-diffusion of species
• Evaluation of the European stock option by using the RBF approximation
• Three-dimensional steady thermal stress analysis by triple-reciprocity BEM
• Torsion of cracked components using radial basis functions
• Section 2: Dual reciprocity method
• Least squares differential quadrature time integration scheme in the dual reciprocity boundary element method solution of convection-diffusion problems
• Solution of nonlinear diffusion equation using the dual reciprocity boundary element method and the relaxation type time integration scheme
• Section 3: Advanced formulations
• Performance of the BEM, MFS, and RBF collocation method in a 2.5D wave propagation analysis
• Coupled modeling of structural strength
• A spectral boundary element method
• Multi-level boundary element methods
• The Analytic Element Method and supporting GIS geodatabase model
• Boundary element formulations for stochastic flow in semi-confined aquifers with random boundary conditions
• Section 4: Inverse problems
• An inverse BEM-based heat conduction approach to identify surface temperatures
• The Almansi decomposition for solving direct and inverse Stokes problems
• Singularity superposition BEM/inverse technique for reconstruction of heat flux distributions within film cooling holes
• Section 5: Stress analysis
• Using three-dimensional CURVIC contact models to predict stress concentration effects in an axisymmetric model
• Approximation of complex potentials as a uniform approach for solving classical and non-classical boundary value problems of plane elasticity
• FEM and BEM analysis of structural welds for design certification purposes
• Section 6: Plates and shells
• Nonlinear vibrations of axisymmetric circular plates with variable thickness
• BEM modeling of MEMS with thin plates and shells using a total Lagrangian approach
• Design of test settings for BEM algorithms
• EFG based stability analysis of piezoelectric FGM plates subjected to electricity, heat and non-uniformly distributed loads
• Section 7: Damage mechanics
• Fatigue crack growth and interactions
• Debonding process in composites using BEM
• Applications of SGBEM for analysis of 3D cracks in general anisotropic linear elastic multi-regions
• The effect of functionally graded core on the dynamic fracture behavior in model sandwich structures
• A novel boundary-domain element method of initial stress, finite deformation and discrete cracks in multilayered solids
• Section 8: Wave propagation
• Wave propagation in an elastic half-space containing a homogeneous basin using the MFS
• 3D elastic scattering by empty cracks using the traction boundary element method
• An advanced BEM for 3D scalar wave propagation and Fluid-Structure Interaction analysis
• Section 9: Fluid problems
• Dual porosity DRM formulation for flow and transport through fractured porous media
• Meshfree direct and indirect local radial basis function collocation formulations for transport phenomena
• Flow analysis in a water reservoir using a combined boundary element and weighted finite difference method
• Section 10: Electrostatics and electromagnetics
• A 3D BEM modelling of human exposure to extremely low frequency (ELF) electric fields
• Numerical solution of magnetohydrodynamic flow problems using boundary element method
• The Fast Fourier transform on multipoles (FFTM) method for three-dimensional electrostatics field analysis
• New boundary conditions for objects in a continuum ionized medium with an external electric field
• The Robin Hood method for electrostatic problems
• Section 11: Computational problems
• Local integral equations
• The unit circle trap in boundary elements
• Part II: Electrical Engineering and Electromagnetics
• Section 1: Interaction of humans with electromagnetic fields
• (special session organised by D. Poljak)
• Indirect Galerkin-Bubnov Boundary Element analysis of coated thin wire antenna in free space
• Magnetic field shielding of underground power cables in urban areas: a real-life example
• A simplified calculation of transient plane waves in a presence of an imperfectly conducting half-space
• A simplified method for the assessment of ELF magnetic fields from three-phase power lines
• Simplification of Pocklington's integral equation for arbitrary bent thin wires
• Calculation of base station antenna radiation pattern using the weak Galerkin-Bubnov FEM formulation for integro-differential operators
• Section 2: High frequency electromagnetic field coupling to transmission lines
• (special session organised by S. Tkatchenko & F. Rachidi)
• Practical computation of electromagnetic wave coupling to transmission lines for the EMC engineer
• Analytical characterization of a line bend
• Transient plane wave coupling to a finite length wire buried in a conductive ground
• Evaluation of lightning electromagnetic fields over a lossy ground
• Characterization of a railways system overhead transmission line excited by a lightning electromagnetic field
• Section 3: Numerical and computational methods
• The direct application of FFT algorithms on the synthesis of non-uniformly spaced arrays
• The application of the Robin Hood method in electrostatic problems
• Some examples of optimal design in electrostatics and electromagnetism
• Numerical calculation of magnetic dissipation at power transformers
• Numerical calculation of 2200MWt MHD-steam combined cycle system with tail gasification
• Power-frequency magnetic field calculation around an indoor transformer substation
• Section 4: Electrical engineering and electronics
• Simulation of electromagnetically actuated structures with embedded magnetostrictive layers
• Multi-sensor method of producing a material independent inductive distance measuring device
• Integrating end-use metering, building modeling and statistical regressions in the energy analysis of buildings
• An image querying in clustered multimedia databases