CoBRA: Cone beam Computed Tomography (CT) reconstruction code in Interactive Data Language (IDL)

Title: CoBRA: Cone beam Computed Tomography (CT) reconstruction code in Interactive Data Language (IDL)

Full Record
Other Related Research

Abstract

In support of stockpile stewardship and other important missions, Los Alamos is continually looking for fast and effective ways of inspecting and evaluating industrial parts. Thus, Los Alamos is continually striving to improve our radiography and computed tomography (CT) capabilities. Cormack and Hounsfield received the Nobel Prize in 1979 for their pioneering work in computed tomography that led to the development of medical scanners. Copley et al. provides a good history of the development of industrial CT systems. The early systems collect data via a single detector or linear detector array. While CT offers greatly increased spatial resolutions over radiography, CT inspections with a linear array are slow and costly. To improve the viability of CT for NDT applications, Feldkamp, Davis, and Kress reported a cone beam reconstruction technique that speeds up the CT process by using image data rather than data collected by a linear array. Because it potentially offers processing speeds up to 10 times faster than CT systems that use a linear array, we are building a cone beam CT for use with our 20 MV x-ray source and Los Alamos Neutron Science Center (LANSCE) neutron sources. Our software, called CoBRA, is a portable cone beam reconstructionmore »« less

Authors:: Sheats, M J; Stupin, D M

Publication Date:: 1997-10-01

Research Org.:: Los Alamos National Lab., NM (United States)

Sponsoring Org.:: USDOE, Washington, DC (United States)

OSTI Identifier:: 543669

Report Number(s):: LA-UR-97-3480; CONF-9707100-
ON: DE98000247; TRN: 97:005696

DOE Contract Number:: W-7405-ENG-36

Resource Type:: Conference

Resource Relation:: Conference: 24. annual review of progress in quantitative nondestructive evaluation, San Diego, CA (United States), 24 Jul - 1 Aug 1997; Other Information: PBD: 1997

Country of Publication:: United States

Language:: English

Subject:: 44 INSTRUMENTATION, INCLUDING NUCLEAR AND PARTICLE DETECTORS; 99 MATHEMATICS, COMPUTERS, INFORMATION SCIENCE, MANAGEMENT, LAW, MISCELLANEOUS; COMPUTERIZED TOMOGRAPHY; C CODES; PROCESSING; ALGORITHMS; IMAGES; EFFICIENCY

Citation Formats


                    Sheats, M J, and Stupin, D M. CoBRA: Cone beam Computed Tomography (CT) reconstruction code in Interactive Data Language (IDL).  United States: N. p., 1997. 
        Web.

Copy to clipboard


                    Sheats, M J, & Stupin, D M. CoBRA: Cone beam Computed Tomography (CT) reconstruction code in Interactive Data Language (IDL).  United States.

Copy to clipboard


                    Sheats, M J, and Stupin, D M. Wed .  
        "CoBRA: Cone beam Computed Tomography (CT) reconstruction code in Interactive Data Language (IDL)".  United States.  https://www.osti.gov/servlets/purl/543669.

Copy to clipboard


                    
@article{osti_543669,

  title        = {CoBRA: Cone beam Computed Tomography (CT) reconstruction code in Interactive Data Language (IDL)},

  author       = {Sheats, M J and Stupin, D M},

  abstractNote = {In support of stockpile stewardship and other important missions, Los Alamos is continually looking for fast and effective ways of inspecting and evaluating industrial parts. Thus, Los Alamos is continually striving to improve our radiography and computed tomography (CT) capabilities. Cormack and Hounsfield received the Nobel Prize in 1979 for their pioneering work in computed tomography that led to the development of medical scanners. Copley et al. provides a good history of the development of industrial CT systems. The early systems collect data via a single detector or linear detector array. While CT offers greatly increased spatial resolutions over radiography, CT inspections with a linear array are slow and costly. To improve the viability of CT for NDT applications, Feldkamp, Davis, and Kress reported a cone beam reconstruction technique that speeds up the CT process by using image data rather than data collected by a linear array. Because it potentially offers processing speeds up to 10 times faster than CT systems that use a linear array, we are building a cone beam CT for use with our 20 MV x-ray source and Los Alamos Neutron Science Center (LANSCE) neutron sources. Our software, called CoBRA, is a portable cone beam reconstruction code for CT applications that efficiently and rapidly reconstructs large data sets. CoBRA applications include both x-ray and neutron inspections using x-ray phosphor screens coupled to either a CCD camera or flat-panel amorphous silicon arrays. Photographs of two amorphous silicon arrays.},

  doi          = {},

  url          = {https://www.osti.gov/biblio/543669},
  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {1997},

  month        = {10}

}

Copy to clipboard

Conference:

View Conference (0.94 MB)

Other availability

Please see Document Availability for additional information on obtaining the full-text document. Library patrons may search WorldCat to identify libraries that hold this conference proceeding.

Save / Share:

Export Metadata

Save to My Library

Similar records in OSTI.GOV collections:

Further advancements for large area-detector based computed tomography system

Conference Davis, A W ; Keating, S C ; Claytor, T N

We present advancements made to a large area-detector based system for industrial x-ray computed tomography. Past performance improvements in data acquisition speeds were made by use of high-resolution large area, flat-panel amorphous-silicon (a-Si) detectors. The detectors have proven, over several years, to be a robust alternative to CCD-optics and image intensifier CT systems. These detectors also provide the advantage of area detection as compared with the single slice geometry of linear array systems. New advancements in this system include parallel processing of sinogram reconstructions, improved visualization software and migration to frame-rate a-Si detectors. Parallel processing provides significant speed improvements formore »« less
Full Text Available
Radiation dose reduction in medical x-ray CT via Fourier-based iterative reconstruction

Journal Article Fahimian, Benjamin P. ; Yunzhe, Zhao ; Zhifeng, Huang ; ... - Medical Physics

Purpose: A Fourier-based iterative reconstruction technique, termed Equally Sloped Tomography (EST), is developed in conjunction with advanced mathematical regularization to investigate radiation dose reduction in x-ray CT. The method is experimentally implemented on fan-beam CT and evaluated as a function of imaging dose on a series of image quality phantoms and anonymous pediatric patient data sets. Numerical simulation experiments are also performed to explore the extension of EST to helical cone-beam geometry. Methods: EST is a Fourier based iterative algorithm, which iterates back and forth between real and Fourier space utilizing the algebraically exact pseudopolar fast Fourier transform (PPFFT). Inmore »« less
https://doi.org/10.1118/1.4791644
ADVANCED DATA PROCESSING FOR VOLUMETRIC COMPUTED TOMOGRAPHY DATA

Technical Report - UC BERKELEY, M SHEATS

Computed tomography (CT) has long been used by industry as a non-destructive evaluation technique for discovering flaws in parts before their use. Traditional linear array computed tomography systems acquired data at a rate that could be reconstructed simultaneously with data acquisition. With new area detectors, the data rate of acquisition has increased exponentially, and the reconstruction algorithm does not scale linearly with increased data. FlashCT DPS (Flat Panel Amorphous Silicon High Resolution Computed Tomography, Data Processing System) is a software package developed by M. Sheats, and A. Davis at LANL to meet the data processing demands of new flat panelmore »« less
https://doi.org/10.2172/784592

Full Text Available
Large area detector based computed tomography system for production nondestructive evaluation.

Conference Keating, S C ; Davis, A A ; Claytor, T N

We present a system for industrial x-ray computed tomography that has been optimized for all phases of nondestructive component inspection. Data acquisition is greatly enhanced by the use of high resolution, large area, flat-panel amorphous-silicon detectors. The detectors have proven, over several years, to be a robust alternative to CCD-optics and image intensifier CT systems. In addition to robustness, these detectors provide the advantage of area detection as compared with the single slice geometry of linear array systems. Parallel processing provides significant speed improvements for data reconstruction, and is implemented for parallel-beam, fan-beam and Feldkamp conebeam reconstruction algorithms. By clusteringmore »« less
Full Text Available
Image-guided radiotherapy using a mobile kilovoltage x-ray device

Journal Article Sorensen, Stephen P ; Chow, Phillip E ; Kriminski, Sergey ; ... - Medical Dosimetry

Abstract-: A mobile isocentric C-arm kilovoltage imager has been evaluated as a potential tool for image-guided radiotherapy. The C-arm is equipped with an amorphous silicon flat panel for high-quality image acquisition. Additionally, the device is capable of cone beam computed tomography (CT) and volumetric reconstruction. This is achieved through the application of a modified Feldkamp algorithm with acquisition over a 180 deg. scan arc. The number of projections can be varied from 100 to 1000, resulting in a reconstructed volume 20 cm in diameter by 15-cm long. While acquisition time depends upon number of projections, acceptable quality images can bemore »« less
https://doi.org/10.1016/j.meddos.2005.12.003

Similar Records