Implementation of essential boundary conditions in a meshless method

Collocation methods for applying essential boundary conditions are deÿned as those methods in which conditions are enforced exactly at a discrete set of boundary nodes. In mesh-free methods, this is usually accomplished by replacing rows of the matrix equations which result from discretization of th

A Boundary Element Method (BEM)-based inverse algorithm utilizing the iterative regularization method, i.e. the conjugate gradient method (CGM), is used to solve the Inverse Heat Conduction Problem (IHCP) of estimating the unknown transient boundary temperatures in a multi-dimensional domain with ar

A time-convolutive variational hypersingular integral formulation of transient heat conduction over a 2-D homogeneous domain is considered. The adopted discretization leads to a linear equation system, whose coe cient matrix is symmetric, and is generated by double integrations in space and time. As

A new code for simulating convection in a horizontal layer of ¯uid is described. The code can be used to study the usual Rayleigh±Be Ânard convection problem but can also incorporate internal heating, rotation and the vortex force responsible for Langmuir circulation. Boundary conditions in the hori

In this paper a new technique is presented for transferring the domain integrals in the boundary integral equation method into equivalent boundary integrals. The technique has certain similarities to the dual reciprocity method (DRM) in the way radial basis functions are used to approximate the body