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Implementation and evaluation of a simulation system based on particle swarm optimisation for node placement problem in wireless mesh networks

Published Online:pp 1-13https://doi.org/10.1504/IJCNDS.2016.077935

With the fast development of wireless technologies, wireless mesh networks (WMNs) are becoming an important networking infrastructure due to their low cost and increased high speed wireless internet connectivity. This paper implements a simulation system based on particle swarm optimisation (PSO) in order to solve the problem of mesh router placement in WMNs. Four replacement methods of mesh routers are considered: constriction method (CM), random inertia weight method (RIWM), linearly decreasing Vmax method (LDVM) and linearly decreasing inertia weight method (LDIWM). Simulation results are provided, showing that the CM converges very fast, but has the worst performance among the methods. The considered performance metrics are the size of giant component (SGC) and the number of covered mesh clients (NCMC). The RIWM converges fast and the performance is good. The LDIWM is a combination of RIWM and LDVM. The LDVM converges after 170 number of phases but has a good performance.

Keywords

wireless mesh networks, WMNs, particle swarm optimisation, PSO, node placement, giant components, client coverage, simulation, mesh router placement, constriction, random inertia weight, linearly decreasing Vmax, linearly decreasing inertia weight