Fast and Robust Deconvolution-Based Image Reconstruction for Photoacoustic Tomography in Circular Geometry: Experimental Validation
- Creators
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Zhang, Chi
- Li, Changhui
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Wang, Lihong V.
Abstract
Photoacoustic tomography (PAT) is a fast-developing biomedical imaging technology suitable for in vivo imaging. PAT in spherical or circular geometry gives good image resolution yet is slow or expensive in signal acquisition and image formation. Reducing the number of detection angles can ameliorate such issues, usually at the expense of image quality. This paper introduces a deconvolution-based algorithm that models the imaging process as a linear and shift-invariant system. As demonstrated by the in vivo experiment, this algorithm not only runs much faster than the back-projection algorithm but also shows stronger robustness in that it provides better image quality when detection angles are sparse. Therefore, this algorithm promises to enable real-time PAT in circular geometry.
Additional Information
© 2010 IEEE. Manuscript received November 22, 2009; revised January 31, 2010. First published Online February 8, 2010. Current version published February 23, 2010. This work was sponsored in part by National Institutes of Health under Grant R01 EB008085, Grant U54 CA136398, and Grant R01 CA113453901. L. Wang has a financial interest in Microphotoacoustics, Inc. and Endra, Inc., which, however, did not support this work.Attached Files
Published - 05411796.pdf
Accepted Version - nihms-183137.pdf
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Additional details
- PMCID
- PMC2954598
- Eprint ID
- 70018
- Resolver ID
- CaltechAUTHORS:20160830-085658187
- NIH
- R01 EB008085
- NIH
- U54 CA136398
- NIH
- R01 CA113453901
- Created
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2016-08-31Created from EPrint's datestamp field
- Updated
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2021-11-11Created from EPrint's last_modified field