Title :
Multiresolution segmentation of 3D images by the hyperstack
Author :
Vincken, K.L. ; De Graaf, C.N. ; Koster, A.S.E. ; Viergever, M.A. ; Appelman, F.J.R. ; Timmens, G.R.
Author_Institution :
Utrecht Univ., Netherlands
Abstract :
An improvement in the design of the hyperstack, a three-dimensional image segmentation tool, is described. It is based on a multiresolution approach which is mathematically supported by the diffusion equation. The blurring strategy, used to build the scale space, is outlined, including some difficulties that occur in view of the transition from 2-D to 3-D. The existing prototype, a hyperstack grounded on isointensity following, is extended by two novel ideas: weighted linking and stand-alone parents. The result of a segmented 3D SPECT image (of a liver) is shown. Theoretical considerations concerning the addition of feature information to guide the segmentation process are briefly mentioned. A flexible way to obtain several output images from one single hyperstack is outlined and the reduction of the sampling rate by means of interpolation, which will decrease the total amount of processing time, is investigated
Keywords :
computerised pattern recognition; computerised picture processing; data structures; medical computing; 3D images; blurring strategy; data structure; diffusion equation; feature information; hyperstack; interpolation; isointensity following; liver; multiresolution; processing time; sampling rate; scale space; segmentation; segmented 3D SPECT image; stand-alone parents; three-dimensional image segmentation tool; weighted linking; Computer vision; Data structures; Digital images; Equations; Image resolution; Image sampling; Image segmentation; Joining processes; Prototypes; Signal resolution;
Conference_Titel :
Visualization in Biomedical Computing, 1990., Proceedings of the First Conference on
Conference_Location :
Atlanta, GA
Print_ISBN :
0-8186-2039-0
DOI :
10.1109/VBC.1990.109310
