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A low complexity block-based adaptive lossless image compression
Yang, Long1; He, Xiaohai1; Zhang, Gang2; Qing, Linbo1; Che, Tiben1; He, X. (nic5602@scu.edu.cn)
Source PublicationOptik
Volume124Issue:24Pages:6545-6552
2013
Language英语
ISSN00304026
DOI10.1016/j.ijleo.2013.05.125
Indexed BySCI ; Ei
WOS IDWOS:000327685700015
Subtype期刊论文
AbstractFor low power and lossless image compression, in this paper, a low complexity, block-based decomposition of subbands technology is proposed for embedded compression (EC) algorithm, which is ready for being implemented on a single-chip of FPGA. The proposed algorithm is based on high-speed pipeline architecture of 2-D lossless integer wavelet transformation (IWT) with 2-D Lossless Hadamard Transformation (LHT). In the proposed algorithm, the coefficients of a 2-D IWT are decomposed by 4 × 4 blocks to further remove redundancy, compared with direct encoder by EBCOT of JPEG2000. Considering the feature of the 2-D IWT, a different strategy is designed for LL-subband and non-LL subbands, which denotes DC prediction (DCP) and adaptive transformation method (ATM), respectively. DCP is used to remove the correlation between two adjacent blocks of LL-subband, and ATM is used to transform non-LL subbands by 2-D LHT selectivity. After further transformation, the coefficients are decomposed as truncated integer part (TIP) and truncated residue parts (TRP), considering the complexity of hardware implementation, TIP is encoded by Zero Running Length (ZRL) and Exp-Golomb (EG). TRP is encoded by a fixed length (FL) encoder after removed redundancy by the feature of 2-D LHT, when seen as bit patterns [1]. Experimental results show that the proposed EC algorithm can achieve a good compression performance as JPEG2000, and the coding latency can be decreased at an average of 43.9%. Another innovation of this paper is EC's hardware-friendly feature and easy hardware implementation, which are presented by a simple addition or subtraction of the LIWT and LHT, and need a small on-chip memory. © 2013 Elsevier GmbH. All rights reserved.; For low power and lossless image compression, in this paper, a low complexity, block-based decomposition of subbands technology is proposed for embedded compression (EC) algorithm, which is ready for being implemented on a single-chip of FPGA. The proposed algorithm is based on high-speed pipeline architecture of 2-D lossless integer wavelet transformation (IWT) with 2-D Lossless Hadamard Transformation (LHT). In the proposed algorithm, the coefficients of a 2-D IWT are decomposed by 4 × 4 blocks to further remove redundancy, compared with direct encoder by EBCOT of JPEG2000. Considering the feature of the 2-D IWT, a different strategy is designed for LL-subband and non-LL subbands, which denotes DC prediction (DCP) and adaptive transformation method (ATM), respectively. DCP is used to remove the correlation between two adjacent blocks of LL-subband, and ATM is used to transform non-LL subbands by 2-D LHT selectivity. After further transformation, the coefficients are decomposed as truncated integer part (TIP) and truncated residue parts (TRP), considering the complexity of hardware implementation, TIP is encoded by Zero Running Length (ZRL) and Exp-Golomb (EG). TRP is encoded by a fixed length (FL) encoder after removed redundancy by the feature of 2-D LHT, when seen as bit patterns [1]. Experimental results show that the proposed EC algorithm can achieve a good compression performance as JPEG2000, and the coding latency can be decreased at an average of 43.9%. Another innovation of this paper is EC's hardware-friendly feature and easy hardware implementation, which are presented by a simple addition or subtraction of the LIWT and LHT, and need a small on-chip memory. © 2013 Elsevier GmbH. All rights reserved.
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Document Type期刊论文
Identifierhttp://ir.ioe.ac.cn/handle/181551/6365
Collection自适应光学技术研究室(八室)
Corresponding AuthorHe, X. (nic5602@scu.edu.cn)
Affiliation1. Image Information Institute, College of Electronics and Information Engineering, Sichuan University, Chengdu 610064, China
2. Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu 610209, China
Recommended Citation
GB/T 7714
Yang, Long,He, Xiaohai,Zhang, Gang,et al. A low complexity block-based adaptive lossless image compression[J]. Optik,2013,124(24):6545-6552.
APA Yang, Long,He, Xiaohai,Zhang, Gang,Qing, Linbo,Che, Tiben,&He, X. .(2013).A low complexity block-based adaptive lossless image compression.Optik,124(24),6545-6552.
MLA Yang, Long,et al."A low complexity block-based adaptive lossless image compression".Optik 124.24(2013):6545-6552.
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