Your search keyword '"Harry E. Martz"' showing total 4 results

1. Development of a multi-energy flash computed tomography diagnostic for three dimensional imaging of ballistic experiments

Author

Michael B. Zellner, Robert W Borys, Chester A Benjamin, Thomas L. Quigg, Corey E Yonce, Ronald Cantrell, Jennifer A. Benjamin, Benjamin P. Huntzinger, Larry McMichael, Kyle Champley, Nathan J. Sturgill, Thomas E. Nellenbach, Seth T. Halsey, Allen P. Ducote, Harry E. Martz, Kenneth W. Dudeck, Thomas J. O'Connor, and David R. Schall

Subjects

medicine.medical_specialty, Tomographic reconstruction, medicine.diagnostic_test, business.industry, Computer science, Computed tomography, Industrial computed tomography, 01 natural sciences, Imaging phantom, 030218 nuclear medicine & medical imaging, 010309 optics, 03 medical and health sciences, Flash (photography), 0302 clinical medicine, 0103 physical sciences, medicine, Computer vision, Medical physics, Artificial intelligence, Tomography, business, Fiducial marker, Energy (signal processing)

Abstract

The U.S. Army Research Laboratory, in conjunction with Lawrence Livermore National Laboratory, is developing a Multi-Energy Flash Computed Tomography (MEFCT) diagnostic that will be used to capture tomographic image(s) of dynamic impact and detonation events. To accomplish dynamic tomography, the diagnostic uses numerous source–detector pairs to accumulate up to fifteen two-dimensional images, which are subsequently used to compute up to three three-dimensional tomographic reconstructions. The diagnostic is designed to provide either: a single-frame, three-dimensional tomographic reconstruction that delineates material specificity throughout the field, or a three-frame tomographic reconstruction movie spaced in time, while lacking the information pertaining to the material specificity. This work assesses aspects of the diagnostic development including structural design, dynamic capability, instrument resolution and computational reconstruction. Examples of real-time measurements are provided from static phantom fiducials, as well as a dynamic experiment depicting a non-symmetric ballistic penetration to demonstrate the usefulness of the capability.

Published

2018

2. Simulation of Phase Effects in Imaging for Mesoscale NDE

Author

Anton Barty, Maurice B. Aufderheide, and Harry E. Martz

Subjects

Physics, Absorption (acoustics), medicine.diagnostic_test, business.industry, Phase (waves), Mesoscale meteorology, Computed tomography, Nondestructive testing, medicine, Energy density, Aerospace engineering, business, National Ignition Facility, Inertial confinement fusion, Simulation

Abstract

High energy density experiments, such as those planned at the National Ignition Facility (NIF), use mesoscale targets with the goals of studying high energy density physics, inertial confinement fusion, and the support of national security needs. Mesoscale targets are typically several millimeters in size and have complex micrometer‐sized structures composed of high‐density metals and low‐density foams and ices. These targets are designed with exacting tolerances that are difficult to achieve at present. Deviation from these tolerances can result in compromise of experimental goals and thus it is necessary to determine as‐built properties of these targets using NDE techniques. Radiography and computed tomography are being used to investigate these targets, but the mix between phase and absorption information is difficult to separate, making interpretation of results difficult. We have recently improved the HADES radiographic simulation code to include phase in simulations, as an aid for doing NDE on mesos...

Published

2005

3. Studies of dynamic failure of steel pipes using x-ray radiography

Author

Jeffrey B. Chandler, Harry E. Martz, D M Slone, Ernie Urquidez, Alexis E. Schach von Wittenau, Anne J. Sunwoo, Dennis M. Goodman, Jessie Jackson, Thaddeus J. Orzechowski, Gurcharn S. Dhillon, Gary E. Steinhour, Charles F. Cook, Martin R. de Haven, John D. Molitoris, and Maurice B. Aufderheide

Subjects

X ray radiography, Brittleness, Materials science, business.industry, Nondestructive testing, Radiography, Forensic engineering, X ray image, Structural engineering, business, Brittle fracture

Abstract

The failure of a steel pipe subjected to shock loading was observed using x ray imaging. We describe and analyze the x ray images in detail. We see radiographic evidence that most of the fractures were due to shear rather than brittle failure. We also make quantitative comparisons between static radiographs and simulations but do not see perfect agreement. The sources of the current lack of agreement are discussed, as well as future work planned.

Published

2002

4. HADES-CCG, a new tomographic reconstruction tool

Author

Jessie Jackson, Harry E. Martz, J Hall, D M Slone, Alexis E. Schach von Wittenau, Maurice B. Aufderheide, Clint M. Logan, and Dennis M. Goodman

Subjects

Physics, Tomographic reconstruction, business.industry, Monte Carlo method, Detector, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing), Iterative reconstruction, Optics, Conjugate gradient method, Object model, Ray tracing (graphics), Tomography, business, Algorithm

Abstract

We have developed a new tomography code, HADES-CCG. This code uses HADES, a radiographic simulation code, to perform forward- and back-projection and is coupled to a Constrained Conjugate Gradient (CCG) optimizer. An iterative solution to the reconstruction problem is found which is optimal, given the detector noise model, a source model and the appropriate attenuation cross-sections. By explicitly including experimental effects in forward- and back-projection, these effects are not folded back into the object model.

Published

2001