High Performance Angiogram Sequence Compression using 2D Bi-orthogonal Multiwavelet and Hybrid SPIHT-DEFLATE Algorithm

Digital imaging and communication (DICOM) files play a major role in diagnosis. Storage of DICOM files and transmission is a big challenge faced by researchers. Reducing the size of DICOM files will help researchers to reduce the cost of storage and transmission. This paper presents the high perform...

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Veröffentlicht in:	Indian journal of science and technology 2015-07, Vol.8 (14), p.1-1
Hauptverfasser:	Somassoundaram, T., Subramaniam, N. P.
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Sprache:	eng
Schlagworte:	Algorithms Coders Compressing Diagnostic systems Encoders Medical Medical imaging Two dimensional
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container_title	Indian journal of science and technology
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creator	Somassoundaram, T. Subramaniam, N. P.
description	Digital imaging and communication (DICOM) files play a major role in diagnosis. Storage of DICOM files and transmission is a big challenge faced by researchers. Reducing the size of DICOM files will help researchers to reduce the cost of storage and transmission. This paper presents the high performance compression of angiogram files using 2D-multiwavelet transform and SPIHT encoder. First, the angiogram DICOM file is converted into frames to apply 2D multiwavelet transform and then the resulting coefficients are encoded using the SPIHT encoder. Motion estimation and compensation cannot be performed on medical videos since it may distract the original diagnostic information. The compression algorithm is tested with coronary angiogram video taken from GRUSELAMBIX-Standard DICOM file available in Osiris. The qualitative analysis is done on the proposed algorithm to prove its efficiency. The proposed algorithm provides better peak signal to noise ratio and the average user scale values shows that the medical diagnostic information is preserved through the proposed algorithm.
doi_str_mv	10.17485/ijst/2015/v8i14/65559
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subjects	Algorithms Coders Compressing Diagnostic systems Encoders Medical Medical imaging Two dimensional
title	High Performance Angiogram Sequence Compression using 2D Bi-orthogonal Multiwavelet and Hybrid SPIHT-DEFLATE Algorithm
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