#12 Recent Developments in Digital Imaging
Author: Kunio Doi, Lawrence Lanzl, Pei-Jan Paul Lin, eds.ISBN: 9780883184639
Published: (1984 Summer School) | 576 pp |
OUT OF PRINT
Table of Contents
Basic Imaging TheoryCharles E. Metz, University of Chicago
Noise Analysis of Radiographic Imaging
Gary T. Barnes, University of Alabama
Signal Detection Theory and Medical Image Assessment
Robert F. Wagner, Charles E. Metz, and David Brown, National Center for Devices and Radiological Health
Analysis of MTFS, Wiener Spectra, and Signal-to-Noise Ratios of Digital Radiographic Imaging Systems
Maryellen Lissak Giger and Kunio Doi, University of Chicago
Physical Properties of Photoelectronic Imaging Devices and Systems
Hans Roehrig and Tao-Yi Fu, University of Arizona
Contrast-Detail Analysis of Imaging Systems: Caveats and Kudos
Gerald Cohen, University of Texas Medical School
Photoelectronic Imaging in Medicine
Hans Roehrig and M. Hayworth, University of Arizona
Flying-Spot Digital Radiography
Paul J. Bjorkholm, Martin Annis, and Frederick H. Seguin, American Science and Engineering, Inc.
Digital Chest Unit Design Considerations
Mike M. Tesic, Picker International
High Resolution Digital Radiography Using a Proximity-type Image Intensifier
Shih-Ping Wang, Xonics Imaging, Inc.
Computed Radiography with Scanning-Laser-Stimulated Luminescence
Hisatoyo Kato, Junji Miyahara, and Masao Takano, Fuji Photo Film Co., Ltd.
The Projection Digital Radiography System
Lee M. Klynn and Michael E. Wilmer, ADAC Laboratories
An Extensible Digital F1uorography Architecture
Don E. Livinghouse, David A. Barr, and Paul O. Scheibe, ADAC Laboratories
Characteristics of a Linear Xenon Detector Array for Scanned Projection Radiography
Aaron Fenster, D. J. Drost, and B. K. Rutt, University of Toronto
Image Quality Evaluation of Picker’s Digital Chest Radiographic System
Gary T. Barnes, R. A. Sones, and Mike M. Tesic, University of Alabama
Digital Radiography with Self-scanning Linear Photodiode Arrays
Donald Sashin, University of Pittsburgh
Digital Radiography—A Search for Better Images
Charles A. Mistretta, University of Wisconsin
Digital Subtraction Angiography: System Architecture for Optimal Image Quality and Future Growth
David L. Ergun and Thomas A. Giordano, Philips Medical Systems, Inc.
Temporal Filtering
Robert A. Kruger, University of Utah
Hybrid and Cardiac DSA Systems
Stanley H. Fox and Donald J. Volz, General Electric
Performance Specs and Measurements of DSA Systems
Stanley H. Fox, General Electric
Matched Filter DSA
Stephen J. Riederer, Duke University
Functional Design and Description of the Siemens Digitron II Digital Angiography System
David E. Gustafson, O. J. Lucchesi, B. Leung, B. D. Franciose, and R. Randall, Siemens Gammasonics, Inc.
Quantitative Analysis of Digital Fluorographic Images
Frank A. DiBianca, University of North Carolina
A Comparison of X-ray Film Digitizer Technologies
Robert E. Alvarez, DigiRad Corporation
Acceptance Testing of a Total DSA Imaging System: the Power Train, the Image Intensifier Television Camera Chain and the DSA Image Processing Unit
Pei-Jan Paul Lin, Northwestern University Medical School
AAPM Task Group Report on DSA; Performance Evaluation Methods and Phantom Designs
Maynard High, Gerald Cohen, Pei-Jan Paul Lin, Arthur Olson, Lawrence Rothenberg, Lois Rutz, Gerald Shapiro, Chomg-Gang Shaw and Louis Wagner, AAPM Diagnostic X-ray Imaging Committee
Performance Evaluation of DSA Imaging Systems by Means of AAPM DSA Phantoms
Arthur Olson and Pei-Jan Paul Lin, DownState Medical Center
The Video Camera in a Digital Fluoroscopic Imaging System
John Sandrik, General Electric
Dynamic and Static Phantoms for Evaluation of Overall System Performance of DSA Units
Hiroshi Fujita, Kunio Doi, Heang-Ping Chan and Maryellen Lissak Giger, University of Chicago