Title :
Interframe coding of magnetic resonance images
Author :
Nosratinia, Aria ; Mohsenian, Nader ; Orchard, Michael T. ; Liu, Bede
Author_Institution :
Beckman Inst., Illinois Univ., Urbana, IL, USA
fDate :
10/1/1996 12:00:00 AM
Abstract :
Presents a new interframe coding method for medical images, in particular magnetic resonance (MR) images. Until now, attempts in using interframe redundancies for coding MR images have been unsuccessful. The authors believe that the main reason for this is twofold: unsuitable interframe estimation models and the thermal noise inherent in magnetic resonance imaging (MRI). The interframe model used here is a continuous affine mapping based on (and optimized by) deforming triangles. The inherent noise of MRI is dealt with by using a median filter within the estimation loop. The residue frames are quantized with a zero-tree wavelet coder, which includes arithmetic entropy coding. This particular method of quantization allows for progressive transmission, which aside from avoiding buffer control problems is very attractive in medical imaging applications
Keywords :
biomedical NMR; image coding; medical image processing; arithmetic entropy coding; buffer control problems; continuous affine mapping; deforming triangles; estimation loop; inherent noise; magnetic resonance images; median filter; medical diagnostic imaging; quantization method; thermal noise; unsuitable interframe estimation models; zero-tree wavelet coder; Arithmetic; Biomedical imaging; Deformable models; Entropy coding; Filters; Image coding; Magnetic noise; Magnetic resonance; Magnetic resonance imaging; Magnetic separation;
Journal_Title :
Medical Imaging, IEEE Transactions on
