Objective selection of minimum acceptable mesh refinement for electromagnetic simulation
Optimization of computational electromagnetics (EM) simulation models can be costly in both time and computing resource. Mesh refinement is a key parameter in determining the number of unknowns to be processed, which, in turn, controls the time and memory required. Hence, it is important to use only a mesh that is good enough for the objectives of the simulation. This might be for direct handling of high-fidelity EM models or, even more importantly, for setting up low-fidelity models in variable-fidelity optimization. On the other hand, in the early stages of an optimization process, a relatively coarse mesh can show whether the governing parameters of the simulation are being appropriately modeled. As the simulation geometry approaches its target, then so to can the mesh definition become more refined. This paper presents an approach to identify the minimum acceptable mesh coarseness based on the projected evolution of FSV’s Global Difference Measure as a model is refined from a very crude representation. Our approach is demonstrated using two examples of antenna structures.
The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the DOI link.
Citation : Duffy, A.P., Zhang, G., Koziel, S. and Wang, L. (2015) Objective Selection of Minimum Acceptable Mesh Refinement for EMC Simulations. IEEE Transactions on Electromagnetic Compatibility, 57 (5), pp. 1266-1269
Research Group : Centre for Electronic and Communications Engineering
Research Institute : Institute of Engineering Sciences (IES)
Peer Reviewed : Yes
Showing items related by title, author, creator and subject.
Enhancing numerical modelling efficiency for electromagnetic simulation of physical layer components. Sasse, Hugh Granville (Thesis or dissertation / Doctoral / PhD)The purpose of this thesis is to present solutions to overcome several key difficulties that limit the application of numerical modelling in communication cable design and analysis. In particular, specific limiting factors ...
Partial discharge (PD) events arise inside power cables due to defects of cable’s insulation material, characterized by a lower electrical breakdown strength than the surrounding dielectric material. These electrical ...
Uncertainty analysis methods are widely used in today’s Electromagnetic Compatibility (EMC) simulations in order to take account of the non-ideality and unpredictability in reality and improve the reliability of simulation ...