Title :
Hybrid image compression based on polynomial and block truncation coding
Author :
Al-Khafaji, Ghadah
Author_Institution :
Dept. of Comput. Sci., Baghdad Univ., Baghdad, Iraq
Abstract :
In this paper, a simple hybrid lossy image compression system is introduced; it is based on a combination of two techniques that exploits the spatial domain efficiently of linear polynomial approximation model to decompose image signal followed by block truncation coding of two-level quantizer on the residue part of the image, which represents the error caused by applying polynomial approximation. Then, the compressed information encoded using a simple run length coding and Huffman coding techniques. The test results shown in this paper are promising in terms of high compression rate achieved due to integrates the flexibility of polynomial model in overcoming the limitations of extra overhead information required compared to traditional predictive, along with effectiveness of block truncation coding as a 1-bit quantizer moments preserving.
Keywords :
Huffman codes; block codes; data compression; image coding; polynomial approximation; quantisation (signal); runlength codes; Huffman coding technique; block truncation coding; compressed information; compression rate; hybrid image compression; hybrid lossy image compression system; image signal; linear polynomial approximation model; overhead information; polynomial model; quantizer moments preserving; residue part; run length coding; spatial domain; two-level quantizer; Abstracts; Encoding; Gold; Image coding; Polynomials; Quantization (signal); Image compression; block truncation coding and hybrid compression system; polynomial representation model;
Conference_Titel :
Electrical, Communication, Computer, Power, and Control Engineering (ICECCPCE), 2013 International Conference on
Conference_Location :
Mosul
DOI :
10.1109/ICECCPCE.2013.6998758
