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Full Description
Theoretical advances and new foundations are reported which contribute to expanding the range of applications as well as the type of materials modelled in response to current industrial and professional requirements. The contents of the volume reflect the ability of the subject matter to evolve and the establishment of a continuously renewed community of stakeholders.
As design, analysis and manufacture become more integrated, the chances are that the users of computational software will be less aware of the capabilities of the analytical techniques that are at the core of the process. This reinforces the need to retain expertise in certain specialised areas of numerical methods, such as BEM/MRM, to ensure that all new tools perform satisfactorily in the integrated process.
The maturity of BEM since 1978 has resulted in a substantial number of industrial applications which demonstrate the accuracy, robustness and easy use of the technique. Their range is still being widened, taking advantage of the potentialities of the Mesh Reduction techniques in general.
This volume constitutes an important reference base from which to discuss new ideas and critically compare results before developed solutions and tools are released to end professional users.
Contents
Section 1: Advanced formulations and inverse problems
Node location optimization and inquiry into geometry-preserving versus isoparametric formulation in the collocation boundary element method; Solution of corrosion problems using the boundary element method; Discontinuous boundary condition impact on near corner stress values around a spherical cavity
Section 2: Computational method and others
High-accurate approach for repeated integrals calculation from double layer potential with piecewise-constant density over triangular panels; Automatic robot car parallel parking system using artificial neural network; Local moving least squares method for granular debris flow; A meshless collocation method based on hierarchical matrices for
efficient numerical analysis of large-scale linear systems
Section 3: Fluid and solid mechanics
Solid-solid interfacial dynamics and modelling; Fast algorithm for boundary integral equation solving in two-dimensional flow simulation by vortex methods; On meshless Lagrangian vortex methods for two-dimensional flow simulation at moderate and high Reynolds numbers
Section 4: Meshless and multiscale problems
Acoustic wave scattering by null-thickness bodies with complex geometry; Multiscale modelling of concrete plates using the boundary element method; Modelling of concrete using the boundary element method and homogenisation technique
