Abstract
An efficient approach is presented for optimal domain decomposition of finite element meshes in conjunction with k-median method and a meta-heuristic algorithm. A clique graph is used for transforming the connectivity of a finite element model (FEM) into that of the corresponding graph. Subsequently, to decompose the nodes of a graph or the meshes of a finite element model to k subdomains, k-median approach is employed. Then, for finding k medians of graph, a recently developed meta-heuristic algorithm, so-called Colliding Bodies Optimization (CBO), and standard Particle Swarm Optimization (PSO) are utilized. The performance of these methods is investigated through four FEMs to minimize the cost of k-median problem. A comparison of the numerical results using the CBO and PSO algorithms indicates that the CBO is capable of performing better decomposition using smaller or equal computational efforts.
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