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基于块方向预测和Context的图象无失真编码方法 被引量:6

Lossless Image Coding Method Based on Block Direction Prediction and Context
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摘要 首先分析无失真图象编码技术,提出一种基于块方向预测和Context的自适应无失真编码方法,该方法主要使用块方向预测和基于Context的误差模型去除图象在空间上的相关性.在此方法中,一幅图象首先被分割成图象块,对图象的每一块自适应地选择一个使预测误差绝对值之和最小的块方向预测器;然后通过Context选择和误差反馈进一步降低信息熵;最后,采用快速而有效的Rice编码器对误差图象编码.实验结果显示,该方法的压缩效果明显优于JPEG(jointofpictureexpertgroup)无失真模式和FELICS(fastandeficientlosslessimagecompression),略好于CB9和LOCO-I,甚至UCM(universalcon-textmodeling). In this paper, lossless image coding techniques are discussed first, then a lossless image coding method based on block direction prediction and context is presented. It removed the redundancy of the image in spatial domain by block direction prediction and context based error modeling. In the proposed method, an image is first partitioned into blocks. Then, a direction predictor that results in minimum prediction error is adaptively selected for each block. After that, context selection and error feedback are applied to further reduce the entropy. A fast and efficient Rice coder is applied finally for the residual image coding. The experimental results show that the proposed method significantly outperforms over JPEG (joint of picture expert group) lossless mode and FELICS (fast and efficient lossless image compression), and it obtains comparison ratio superior to CB9, LOCO I, even UCM.
作者 赵德斌 陈耀强 高文
机构地区 香港城市大学计算机科学系 哈尔滨工业大学计算机科学系
出处 《软件学报》 EI CSCD 北大核心 1998年第10期766-770,共5页 Journal of Software
基金 香港城市大学科研基金
关键词 无失真编码 块方向性预测 图象编码 图象处理 Data compression, lossless coding, block direction prediction, context, Rice coder.
分类号 TN919.8 [电子电信—通信与信息系统] TP391.41 [自动化与计算机技术—计算机应用技术]
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参考文献2

  • 1Kuo C H,Proceedings of the IASTED (International Association of Science and Technology for Development) International Conference on Signal and Image Processing,1995年,410页
  • 2Huang L,Pattern Recognit Lett,1991年,12卷,2期,69页

同被引文献7

  • 1LI W.Overview of fine granularity scalability in mpeg-4 video standard[J].IEEE Transactions on Circuits and Systems in Video Technology,2001,11(3):385-398.
  • 2HE Y W,ZHAO X J.Improved Fine Granular Scalable Coding with Inter-Layer Prediction[C].Proceedings of Data Compression Conference,Mar,2002:172.
  • 3Weinberger M J, Seroussi G, Sapiro G. LOCO-Ⅰ: A Low Complexity,Context-Based, Lossless Image Compression Algorithm [A]. Data Compression Conference[C], 1996(3).
  • 4Klimesh M, Stanton V, Watola D. Hardware Implementation of a Lossless Image Compression Algorithm Using a Field Programmable Gate Array[R]. TMO Process Report,2001(2).
  • 5Weinberger Marcelo J, Seroussi Gadiel, Sapiro Guillermo. The LOCO-ⅠLossless Image Compression Algorithm: Principles and Standardization into JPEG-LS[J].IEEE Trans. on Image Processing, 2000,8(9): 1309-1324.
  • 6Estrakh D D, Mitchell H B, Schaefer P A. Soft' Median Adaptive Predictor for Lossless Picture Compression[J]. Signal Processing, 2001(81): 1985 - 1989.
  • 7Savakis A E. Evaluation of Lossless Compression Methods fer Gray Scale Document Images[C]. International Confference. on Image Processing,Vancouver, 2000.

引证文献6

二级引证文献24

软件学报
1998年 第10期

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