PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION

PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION

Bibliographic Details
Main Author: Matthew, Isaac Kevin
Language:English
Published: Wright State University / OhioLINK 2008
Subjects:
Computer Science
MPEG4ALS
music compression
compression
music telepresence
latency
compression ratio
telepresence
Rice Code
Frame length
Online Access:http://rave.ohiolink.edu/etdc/view?acc_num=wright1222293495
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spelling ndltd-OhioLink-oai-etd.ohiolink.edu-wright12222934952021-08-03T06:16:58Z PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION Matthew, Isaac Kevin Computer Science MPEG4ALS music compression compression music telepresence latency compression ratio telepresence Rice Code Frame length In this thesis compression ratio and latency of different classical audio music tracks are analyzed with various encoder options of MPEG4ALS. Different tracks of audio music tracks are tested with MPEG4-ALS coder with different options to find the optimum values for various parameters to obtain maximum compression ratio with minimum CPU time (encoder and decoder time). Optimum frame length for which the compression ratio saturates for music audio is found out by analyzing the results when different classical music tracks are experimented with various frame lengths. Also music tracks with varying sampling rate are tested and the compression ratio and latency relationship with sampling rate are analyzed and plotted. It is found that the compression gain rate was higher when the codec complexity is less, and joint channel correlation and long term correlations are not significant and latency trade off make the more complex codec options unsuitable for applications where latency is critical. When the two entropy coding options, Rice code and BGMC (Block Gilbert-Moore Codes) are applied on various classical music tracks, it was obvious that the Rice code is more suitable for low-latency applications compared to the more complex BGMC coding, as BGMC improved compression performance with the expense of latency, making it unsuitable in real-time applications. 2008-09-26 English text Wright State University / OhioLINK http://rave.ohiolink.edu/etdc/view?acc_num=wright1222293495 http://rave.ohiolink.edu/etdc/view?acc_num=wright1222293495 unrestricted This thesis or dissertation is protected by copyright: all rights reserved. It may not be copied or redistributed beyond the terms of applicable copyright laws.
collection NDLTD
language English
sources NDLTD
topic Computer Science
MPEG4ALS
music compression
compression
music telepresence
latency
compression ratio
telepresence
Rice Code
Frame length
spellingShingle Computer Science
MPEG4ALS
music compression
compression
music telepresence
latency
compression ratio
telepresence
Rice Code
Frame length
Matthew, Isaac Kevin
PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION
author Matthew, Isaac Kevin
author_facet Matthew, Isaac Kevin
author_sort Matthew, Isaac Kevin
title PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION
title_short PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION
title_full PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION
title_fullStr PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION
title_full_unstemmed PERFORMANCE AND COMPLEXITY CO-EVALUATIONS OF MPEG4-ALS COMPRESSION STANDARD FOR LOW-LATENCY MUSIC COMPRESSION
title_sort performance and complexity co-evaluations of mpeg4-als compression standard for low-latency music compression
publisher Wright State University / OhioLINK
publishDate 2008
url http://rave.ohiolink.edu/etdc/view?acc_num=wright1222293495
work_keys_str_mv AT matthewisaackevin performanceandcomplexitycoevaluationsofmpeg4alscompressionstandardforlowlatencymusiccompression
_version_ 1719433982683119616

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