Burrows-Wheeler Transform and combination of Move-to-Front coding and Run Length Encoding for lossless audio coding

机译：Burrows-Wheeler变换，以及“向前移动”编码和“行程长度”编码的组合，可实现无损音频编码

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

This paper presents a lossless audio coding using Burrows-Wheeler Transform (BWT) and a combination of a Move-To-Front coding (MTF) and Run Length Encoding (RLE). Audio signals used are assumed to be of floating point values. The BWT is applied to this floating point values to get the transformed coefficients; and then these resulting coefficients are converted using the Move-to-Front coding to coefficients can be better compressed and then these resulting coefficients are compressed using a combination of the Run Length Encoding, and entropy coding. Two entropy coding are used which are Arithmetic and Huffman coding. Simulation results show that the proposed lossless audio coding method outperforms other lossless audio coding methods; using only Burrows-Wheeler Transform method, using combined Burrows-Wheeler Transform and Move-to-Front coding method, and using combined Burrows-Wheeler Transform and Run Length Encoding method.

机译：本文提出了一种使用Burrows-Wheeler变换（BWT）以及前向移动编码（MTF）和游程长度编码（RLE）组合的无损音频编码。假定使用的音频信号具有浮点值。将BWT应用于此浮点值以获取变换后的系数;然后使用前移编码将这些结果系数转换为可以更好地压缩的系数，然后使用游程长度编码和熵编码的组合对这些结果系数进行压缩。使用两种熵编码，分别是算术编码和霍夫曼编码。仿真结果表明，所提出的无损音频编码方法优于其他无损音频编码方法。仅使用Burrows-Wheeler变换方法，结合使用Burrows-Wheeler变换和前移编码方法，以及结合使用Burrows-Wheeler变换和游程编码方法。

著录项

来源
《International Conference on Computer Engineering Systems》|2014年|354-359|共6页
会议地点
作者
Elsayed H.A.;
展开▼
作者单位

展开▼
会议组织
原文格式 PDF
正文语种
中图分类
关键词
Huffman codes; arithmetic codes; audio coding; entropy codes; transform coding; Burrows-Wheeler transform; Huffman coding; arithmetic coding; audio signals; entropy coding; floating point values; lossless audio coding; move-to-front coding; run length encoding; transformed coefficients; Entropy; Arithmetic Coding; Audio Coding; Burrows-Wheeler Transform; Entropy coding; Huffman Coding; Move-To-Front coding; Run Length Encoding;

机译：霍夫曼编码;算术编码;音频编码;熵编码;变换编码; Burrows-Wheeler变换;霍夫曼编码;算术编码;音频信号;熵编码;浮点值;无损音频编码;前移编码;游程编码变换系数熵算术编码音频编码Burrows-Wheeler变换熵编码Huffman编码前移编码游程编码;

相似文献

外文文献
中文文献
专利

1. Chain code lossless compression using move-to-front transform and adaptive run-length encoding [J] . Borut Zalik, Niko Lukac Signal Processing. Image Communication: A Publication of the the European Association for Signal Processing . 2014,第1期

机译：使用前移变换和自适应游程编码的链码无损压缩
2. Lossless compression of binary image using move-to-front transform and two-role encoder [J] . Benzid R. Electronics Letters . 2011,第2期

机译：使用前移和两角色编码器对二进制图像进行无损压缩
3. From LZ77 to the Run-Length Encoded Burrows-Wheeler Transform, and Back [J] . Alberto Policriti, Nicola Prezza LIPIcs : Leibniz International Proceedings in Informatics . 2017,第30期

机译：从LZ77到流量长度编码的洞穴轮转器变换，然后返回
4. Burrows-Wheeler Transform and combination of Move-to-Front coding and Run Length Encoding for lossless audio coding [C] . Elsayed H.A. International Conference on Computer Engineering Systems . 2014

机译：挖洞轮转器变换和移动到前面编码的组合和无损音频编码的运行长度编码
5. Linear interactive encoding and decoding schemes for lossless source coding with decoder only side information. [D] . Meng, Jin. 2008

机译：仅使用解码器附带信息的无损源编码的线性交互式编码和解码方案。
6. Combining the Burrows-Wheeler Transform and RCM-LDGM Codes for the Transmission of Sources with Memory at High Spectral Efficiencies [O] . Imanol Granada, Pedro M. Crespo, Javier Garcia-Frías 2019

机译：将挖掘机轮车变换和RCM-LDGM码组合在高频效率下与内存传输的源
7. Data Compression Scheme with Composition of The Burrows-Wheeler Transform, Move-to-Front Transform, and Huffman Coding [O] . Lawi Armin, Latief Nurhayati 2013

机译：具有Burrows-Wheeler变换，Moto-to-Front变换和Huffman编码的数据压缩方案

Burrows-Wheeler Transform and combination of Move-to-Front coding and Run Length Encoding for lossless audio coding

摘要

著录项

相似文献

相关主题

期刊订阅