Title :
Medical image sequence interpolation via hierarchical pel-recursive motion estimation
Author :
Pearlman, William A. ; Abdel-Malek, Aiman
Author_Institution :
General Electric Corp., Schenectady, NY, USA
Abstract :
Reduction of exposure in a pulsed cardiac X-ray fluoroscopy system may be accomplished by interrupting exposure during slower phases of the cardiac cycle and filling in the missing frames by interpolation to restore the full frame rate. The authors present a novel interpolation method whereby the collected frames are decomposed into a multiresolution hierarchy and a pixel-recursive algorithm is employed from the lowest to highest resolution in the hierarchy to obtain estimates of the pixel displacements. The intensity changes between corresponding pixels are then interpolated to fill in the missing frames. The authors show a computer simulation of the method, where only 11 of the original 29 frames produce a natural, nearly artifact-free rendition of the sequence
Keywords :
cardiology; diagnostic radiography; digital simulation; image sequences; interpolation; medical image processing; motion estimation; artifact-free rendition; cardiac cycle; computer simulation; exposure reduction; frame rate; intensity changes; medical image sequence interpolation; missing frames; motion estimation; multiresolution hierarchy; pixel displacements; pixel-recursive algorithm; pulsed cardiac X-ray fluoroscopy; Biomedical imaging; Filling; Image resolution; Image sequences; Interpolation; Motion estimation; Noise reduction; Research and development; Thyristors; X-ray imaging;
Conference_Titel :
Computer-Based Medical Systems, 1992. Proceedings., Fifth Annual IEEE Symposium on
Conference_Location :
Durham, NC
Print_ISBN :
0-8186-2742-5
DOI :
10.1109/CBMS.1992.244943
