Applicability of genetic algorithms to reconstruction of projected data from ultrasonic tomography | Zendy

Shyam Prasad Kodali | Zendy; Sunith Bandaru | Zendy; Kalyanmoy Deb | Zendy; Prabhat Munshi | Zendy; N. N. Kishore | Zendy

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Applicability of genetic algorithms to reconstruction of projected data from ultrasonic tomography

Author(s) -

Shyam Prasad Kodali,

Sunith Bandaru,

Kalyanmoy Deb,

Prabhat Munshi,

N. N. Kishore

Publication year - 2008

Publication title -

citeseer x (the pennsylvania state university)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.1145/1389095.1389419

Subject(s) - tomography , computer science , ultrasonic sensor , ultrasonic imaging , algorithm , iterative reconstruction , genetic algorithm , artificial intelligence , computer vision , acoustics , machine learning , physics , optics

The use of a-priori information, where available, is an important step in solving an already computationally expensive tomographic imaging problem [1]. Here, an enhanced genetic algorithm based reconstruction technique is proposed that is capable of detecting the shape, size and location of multiple types of inclusions of known physical properties in a given test specimen. Preliminary results are found to be better than those reported with MART1. Simulations show that the algorithm is consistent for a wide range of grid sizes and geometries of inclusion(s). A logarithmic time complexity analysis gives a linear relationship between number of unknowns and reconstruction times, thus establishing the predictability of the algorithm.

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