TY - GEN
T1 - Field trial of a highly portable coded aperture gamma ray and 3D imaging system
AU - Boehnen, Chris
AU - Paquit, Vincent
AU - Ziock, Klaus
AU - Guzzardo, Tyler
AU - Whitaker, Michael
AU - Raffo-Caiado, Ana
PY - 2011
Y1 - 2011
N2 - Given the growing concerns surrounding declared and undeclared nuclear activities around the world, a novel multi-modal imaging system combining gamma imaging, visible-light imaging, and multi-resolution 3D imaging has been developed at the Oak Ridge National Laboratory (ORNL). As part of an international collaborative effort, this research aims at providing a portable imaging system to assess, monitor and/or detect nuclear material dispersion in nuclear facilities. This novel imaging system includes (1) a coded-aperture gamma-ray imager that provides a map of all major radiological sources present in the field-of-view and (2) a low-resolution stereo system to retrieve high-level 3D scene information. Using a unique approach to combine the data a 3D model of the scene can be rendered with the gamma information as a projected texture, therefore allowing easy visualization of the location of all detected radiological sources. In this paper, we give a summary of this research by first presenting the instruments, then by detailing our approach to project gamma information on the high-resolution 3D point-cloud, and presenting the results of the first field trial of the system.
AB - Given the growing concerns surrounding declared and undeclared nuclear activities around the world, a novel multi-modal imaging system combining gamma imaging, visible-light imaging, and multi-resolution 3D imaging has been developed at the Oak Ridge National Laboratory (ORNL). As part of an international collaborative effort, this research aims at providing a portable imaging system to assess, monitor and/or detect nuclear material dispersion in nuclear facilities. This novel imaging system includes (1) a coded-aperture gamma-ray imager that provides a map of all major radiological sources present in the field-of-view and (2) a low-resolution stereo system to retrieve high-level 3D scene information. Using a unique approach to combine the data a 3D model of the scene can be rendered with the gamma information as a projected texture, therefore allowing easy visualization of the location of all detected radiological sources. In this paper, we give a summary of this research by first presenting the instruments, then by detailing our approach to project gamma information on the high-resolution 3D point-cloud, and presenting the results of the first field trial of the system.
KW - 3D Imaging
KW - Coded Aperture
KW - Gamma Imaging
KW - International Safeguards
KW - Stereo Imaging
UR - http://www.scopus.com/inward/record.url?scp=84876076729&partnerID=8YFLogxK
U2 - 10.1109/FIIW.2011.6476819
DO - 10.1109/FIIW.2011.6476819
M3 - Conference contribution
AN - SCOPUS:84876076729
SN - 9781467358361
T3 - 2011 Future of Instrumentation International Workshop, FIIW 2011 - Proceedings
SP - 75
EP - 78
BT - 2011 Future of Instrumentation International Workshop, FIIW 2011 - Proceedings
T2 - 2011 Future of Instrumentation International Workshop, FIIW 2011
Y2 - 7 November 2011 through 8 November 2011
ER -