Design and realization of high speed single exposure dual energy image processing

Author

Bentum, M.J. ; Arendsen, R.G.J. ; Slump, C.H. ; Mistretta, C.A. ; Peppler, W.W. ; Zink, F.E.

Author_Institution

Lab. for Network Theory, Twente Univ., Netherlands

fYear

1992

fDate

14-17 Jun 1992

Firstpage

25

Lastpage

34

Abstract

At the Department of Medical Physics at the University of Wisconsin-Madison, research on dual energy chest imaging including the algorithm and patient studies is done using a Pixar image processor computer. In the project described here, a study was made of which low-cost system is able to replace the Pixar and provide high-speed dual energy image processing. The dual energy algorithm was analyzed and the user and system requirements were obtained. A single workstation (e.g. Sun Sparc Station 2) does not provide enough processing power. Therefore accelerator boards for the workstation were reviewed. A prototype system was developed, using an i860-based accelerator board, i.e. the CSPI SuperCard-1, in a Sun 3/150 host computer. Bare computer time for the dual energy algorithm was reduced from 25 min using the Pixar image computer to less than three minutes using the SuperCard-1 processor board

Keywords

image processing equipment; medical image processing; workstations; CSPI SuperCard-1; Pixar image processor computer; Sun 3/150; accelerator board; accelerator boards; dual energy chest imaging; high-speed dual energy image processing; i860; system requirements; workstation; Biomedical imaging; Bones; Cancer; Image processing; Medical diagnostic imaging; Physics; Radiography; Signal processing algorithms; Sun; Workstations;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer-Based Medical Systems, 1992. Proceedings., Fifth Annual IEEE Symposium on

Conference_Location

Durham, NC

Print_ISBN

0-8186-2742-5

Type

conf

DOI

10.1109/CBMS.1992.244966

Filename

244966