On Sparse Reconstructions in Near-Field Acoustic Holography Using the Method of Superposition

Abstract

The method of superposition is proposed in combination with a sparse [Formula: see text] optimization algorithm with the aim of finding a sparse basis to accurately reconstruct the structural vibrations of a radiating object from a set of acoustic pressure values on a conformal surface in the near-field. The nature of the reconstructions generated by the method differs fundamentally from those generated via standard Tikhonov regularization in terms of the level of sparsity in the distribution of charge strengths specifying the basis. In many cases, the [Formula: see text] optimization leads to a solution basis whose size is only a small fraction of the total number of measured data points. The effects of changing the wavenumber, the internal source surface and the (noisy) acoustic pressure data in general will all be studied with reference to a numerical study on a cuboid of similar dimensions to a typical loudspeaker cabinet. The development of sparse and accurate reconstructions has a number of advantageous consequences including improved reconstructions from reduced data sets, the enhancement of numerical solution methods and wider applications in source identification problems.