Title :
Sparse wideband array design with reweighted iterative optimisation and frequency invariant response
Author :
Hawes, Matthew B. ; Wei Liu
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. of Sheffield, Sheffield, UK
Abstract :
Sparse wideband sensor (such as microphones) array design for sensor location optimisation is traditionally solved by genetic algorithms, simulated annealing or other similar methods. Recently, a compressive sensing based approach has been proposed by minimising a modified l1 norm of the weight coefficients. To have a closer approximation to the original l0 norm minimisation, in this work, we further modify the design by adding a reweighting term to the modified l1 norm and propose a reweighted optimisation process for a design result with much improved sparsity. Moreover, the formulation can further be extended to give a frequency invariant (FI) response by considering the idea of response variation (RV). Limiting RV to a small value as an added constraint, we can obtain a sparse design result according to the frequency invariance criterion.
Keywords :
array signal processing; compressed sensing; genetic algorithms; iterative methods; minimisation; simulated annealing; FI response variation; RV; compressive sensing based approach; frequency invariance criterion; frequency invariant response; genetic algorithms; microphone; norm minimisation; reweighted iterative optimisation; sensor location optimisation; simulated annealing; sparse wideband array design; sparse wideband sensor; Array signal processing; Arrays; Compressed sensing; Digital signal processing; Minimization; Optimization; Wideband; Sparse array; compressive sensing; frequency invariant beamforming; tapped delay-line; wideband beamforming;
Conference_Titel :
Digital Signal Processing (DSP), 2014 19th International Conference on
Conference_Location :
Hong Kong
DOI :
10.1109/ICDSP.2014.6900698
