Title :
Performance evaluation of 3-D transforms for medical image compression
Author :
Sunder, R. Shyam ; Eswaran, C. ; Sriraam, N.
Author_Institution :
Fac. of Inf. Technol., Multimedia Univ., Cyberjaya
Abstract :
In this paper, 3-D discrete Hartley, cosine and Fourier transforms are used for the compression of magnetic resonance images and X-ray angiograms. The performance results are then compared and evaluated. The transforms are applied on image blocks of sizes 8times8timesM where M represents the number of slices. The resultant transform coefficients are quantized and then encoded using a combination of run length and Huffman coding schemes to achieve maximum compression. The performances of the transforms are evaluated in terms of peak signal to noise ratio and bit rate. It is found from the experimental results, that 3-D discrete Hartley transform yields the best results for magnetic resonance brain images whereas for X-ray angiograms the 3-D discrete cosine transform is found to be superior to the other two transforms
Keywords :
Fourier transforms; Huffman codes; biomedical MRI; brain models; data compression; diagnostic radiography; discrete Hartley transforms; discrete cosine transforms; image coding; medical image processing; performance evaluation; 3D discrete Fourier transforms; 3D discrete Hartley transforms; 3D discrete cosine transform; 3D transforms; Huffman coding; X-ray angiogram; magnetic resonance brain images; magnetic resonance image compression; medical image compression; performance evaluation; run length coding; transform coefficients; Biomedical imaging; Bit rate; Discrete transforms; Fourier transforms; Huffman coding; Image coding; Magnetic resonance; PSNR; Performance evaluation; X-ray imaging;
Conference_Titel :
Electro Information Technology, 2005 IEEE International Conference on
Conference_Location :
Lincoln, NE
Print_ISBN :
0-7803-9232-9
DOI :
10.1109/EIT.2005.1627021
