Sparsity in tensor optimization for optical-interferometric imaging

Author

Auria, A. ; Carrillo, R.E. ; Thiran, J.-P. ; Wiaux, Y.

Author_Institution

Signal Process. Lab. (LTS5), Ecole Polytech. Fed. de Lausanne (EPFL), Lausanne, Switzerland

fYear

2014

fDate

27-30 Oct. 2014

Firstpage

6026

Lastpage

6030

Abstract

Image recovery in optical interferometry is an ill-posed nonlinear inverse problem arising from incomplete power spectrum and bispectrum measurements. We review our previous work, which reformulates this nonlinear problem in the framework of tensor recovery and studies two different approaches to solve it: one is nonlinear and nonconvex while the other is linear and convex. We extend the linear convex procedure to account for signal sparsity and we also present numerical simulations that show the improvement in the quality of reconstruction of sparse images when including a sparsity prior.

Keywords

concave programming; convex programming; image reconstruction; inverse problems; light interferometers; light interferometry; linear programming; nonlinear programming; numerical analysis; optical images; tensors; bispectrum measurement; ill-posed nonlinear inverse problem; image recovery; linear convex procedure; nonconvex approach; nonlinear approach; numerical simulation; optical-interferometric imaging; power spectrum measurement; signal sparsity; sparse image reconstruction; tensor optimization; Image reconstruction; Minimization; Optical imaging; Optical interferometry; Signal to noise ratio; Tensile stress; interferometric imaging; optical interferometry; phase retrieval; tensor optimization;

fLanguage

English

Publisher

ieee

Conference_Titel

Image Processing (ICIP), 2014 IEEE International Conference on

Conference_Location

Paris

Type

conf

DOI

10.1109/ICIP.2014.7026216

Filename

7026216