Paper Info
Title
An Evaluation Of Computational Imaging Techniques For Heterogeneous Inverse Scattering
Abstract
Inferring internal scattering parameters for general, heterogeneous materials, remains a challenging inverse problem. Its difficulty arises from the complex way in which scattering materials interact with light, as well as the very high dimensionality of the material space implied by heterogeneity. The recent emergence of diverse computational imaging techniques, together with the widespread availability of computing power, present a renewed opportunity for tackling this problem. We take first steps in this direction, by deriving theoretical results, developing an algorithmic framework, and performing quantitative evaluations for the problem of heterogeneous inverse scattering from simulated measurements of different computational imaging configurations.
Year
DOI
Venue
2016
10.1007/978-3-319-46487-9_42
COMPUTER VISION - ECCV 2016, PT III
Keywords
Field
DocType
Inverse scattering, Computational imaging
Quantitative Evaluations,Computer science,Computational photography,Algorithm,Curse of dimensionality,Scattering parameters,Artificial intelligence,Scattering,Inverse problem,Machine learning,Inverse scattering problem,X-ray scattering techniques
Conference
Volume
ISSN
Citations 
9907
0302-9743
10
PageRank 
References 
Authors
0.57
28
3
Name
Order
Citations
PageRank
Gkioulekas, Ioannis112412.79
Anat Levin23578212.90
Todd Zickler3155571.72