Accelerated Nonlinear Multichannel Ultrasonic Tomographic Imaging Using Target Sparseness

Author

Chengdong Dong ; Yuanwei Jin ; Enyue Lu

Author_Institution

Dept. of Appl. Math., Shanghai Univ. of Finance & Econ., Shanghai, China

Volume

23

Issue

3

fYear

2014

fDate

Mar-14

Firstpage

1379

Lastpage

1393

Abstract

This paper presents an accelerated iterative Landweber method for nonlinear ultrasonic tomographic imaging in a multiple-input multiple-output (MIMO) configuration under a sparsity constraint on the image. The proposed method introduces the emerging MIMO signal processing techniques and target sparseness constraints in the traditional computational imaging field, thus significantly improves the speed of image reconstruction compared with the conventional imaging method while producing high quality images. Using numerical examples, we demonstrate that incorporating prior knowledge about the imaging field such as target sparseness accelerates significantly the convergence of the iterative imaging method, which provides considerable benefits to real-time tomographic imaging applications.

Keywords

gradient methods; image reconstruction; inverse problems; iterative methods; ultrasonic imaging; MIMO signal processing techniques; accelerated iterative Landweber method; accelerated nonlinear multichannel ultrasonic tomographic imaging; image reconstruction; iterative imaging method; multiple-input multiple-output configuration; real-time tomographic imaging; sparsity constraint; target sparseness constraints; Acoustics; Convergence; Image reconstruction; Inverse problems; MIMO; Tomography; Ultrasonic tomography; accelerated projected steepest descent method; inverse problems; multiple-input multiple-output; sparsity constraints;

fLanguage

English

Journal_Title

Image Processing, IEEE Transactions on

Publisher

ieee

ISSN

1057-7149

Type

jour

DOI

10.1109/TIP.2014.2302679

Filename

6725612