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基于视频监控系统的运动自适应去隔行算法 被引量:3

Video surveillance system-based motion-adaptive de-interlacing algorithm
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摘要 针对视频监控系统的去隔行问题,在分析了传统去隔行算法优缺点的基础上,提出了一种高性能的运动自适应去隔行算法。该算法通过可检测空间周期模式运动的4场运动检测方法对插值点运动状态进行判断,将图像分为静止区域和运动区域。静止区域的插值采用场合并算法;运功区域的插值采用改进型边沿自适应插值算法,增强了水平边沿检测功能并提升了一致性边沿方向的估计水平。DSP实验结果表明,提出的算法可提高图像的峰值信噪比(PSNR)和结构相似度(SSIM),有效抑制锯齿化、行间闪烁和运动虚像等不良效应,获得良好的视觉效果。 This paper proposed a motion-adaptive de-interlacing algorithm with high performance based on the analysis of the advantages and disadvantages of traditional de-interlacing algorithm for video surveillance systems. The algorithm divided the picture into static region and motion region on the basis of the motion state of interpolation points through 4-field motion detection which could detect the spatial-periodic pattern moving. Field insertion algorithm was exploited for interpolation of the static region. A modified edge-adaptive interpolation algorithm was used for the interpolation of the motion region which eould increase the function of horizontal edge detection and enhance the level of consistency edge direction estimation. The proposed interpolation algorithm was implemented on DSP for experimental verification. The results show that the algorithm improves Peak Signal-to-Noise Ratio (PSNR) and Structural SIMilarity (SSIM) and restrains saw-tooth, interline flicker, motion virtual image and other adverse effects and gets bettter visual effects.
作者 聂苗 黎英 石力卓 蒋佳晨 闫亚超
机构地区 昆明理工大学信息工程与自动化学院
出处 《计算机应用》 CSCD 北大核心 2013年第10期2922-2925,2930,共5页 journal of Computer Applications
关键词 去隔行 运动检测 空间周期模式运动 边沿自适应插值 de-interlacing motion detection spatial-periodic pattern moving edge-adaptive interpolation
分类号 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18

  • 1JEON G, ANISETI'I M, BELLANDI V, et al. Designing of a type- 2 fuzzy logic filter for improving edge-preserving restoration of inter- laced-to-progressive conversion [ J ]. Information Sciences, 2009, 179(13) : 2194 -2207.
  • 2BROX P, BATURONE I, SaNCHEZ-SOLANO S, et al. A fuzzy edge-dependent motion adaptive algorithm for de-interlacing[ J]. Fuzzy Sets and Systems, 2007, 158(3): 337 -347.
  • 3SUN H B, ZHENG N N, GE C Y, et al. An efficient motion adap- tive de-interlacing and its VLSI architecture design[ C]// Proceed- ings of the 2008 IEEE Computer Society Annual Symposium on VL- SI. Piseataway: IEEE, 2008:460-466.
  • 4JIN S J, KIM W K, JEONG J C, et al. Fine directional de-interla- cing algorithm using modified sobel operation [ J]. IEEE Transae- tions on Consumer Electronics, 2008, 4(2) : 857 -862.
  • 5GUTIERREZ-RIOS J, BROXB P, FERNANDEZ-HERNANDEZ F, et al. Fuzzy motion adaptive algorithm and its hardware implementa- tion for video de-interlacing[ J]. Applied Soft Computing, 2011, 11 (4): 3311-3320.
  • 6PARK M K, KANG M G, NAM K, et al. New edge dependent de- interlacing algorithm based on horizontal edge pattern [ J]. IEEE Transactions on Consumer Electronics, 2003, 49(4) : 1508 - 1512.
  • 7JUNG Y Y, CHOL B T, PART Y J, et al. An effective de- interlacing technique using motion compensated interpolation [ J ]. IEEE Transactions on Consumer Electronics, 2000, 46 (3) : 460 - 466.
  • 8CHANG J Y, KIM Y D, SHIN S G, et al. Adaptive arbitration of intra-field and motion compensation methods for de-interlacing [ J ]. IEEE Transactions on circuits and systems for video technology, 2009, 19(8) : 1214 -1220.
  • 9JUNG Y Y, YANG S J, YU P H. An effective de-interlacing technique using two types of motion information [ J ]. IEEE Transactions on Consumer Electronics, 2003, 49 (3) : 493 -498.
  • 10TSAI C N, WU M T, YEH C H, et al. Adaptive video de- interlacing algorithm by motion characteristic detection [ C ]// Proceedings of the 2009 IEEE International Symposium on Circuits and Systems. Piscataway: IEEE, 2009 : 3202 - 3205.

二级参考文献19

  • 1殷学民,袁建华,邹谋炎.基于棱边方向检测与运动补偿的视频去隔行算法[J].数据采集与处理,2007,22(1):59-66. 被引量:2
  • 2Haan G de, Bellers E B. Deinterlacing-An Overview[ C]//Proceedings of the IEEE, 1998,86 (9) : 1839 - 1857.
  • 3Ronald H Y, Chung Kwan-Yee K. Wong, etc. Generalized Motion and Edge Adaptive Interpolation De-interlacing Algorithm [ J ]. WSEAS Transactions on Computers, 2006 : 1 - 8.
  • 4Brox P, Sanchez-Solano S, Baturone I, et al. FPGA Implementation of a Fuzzy Based Video De-interlacing Algorithm[ C]//Proc. of SPIE, 2005, 5837 : 650 - 660.
  • 5TSAI Tsung-Han. Platform-Based Design for the Low Complexity and High Performance De-interlacing System [ C ]//IEICE Trans. Information and Systems, 2008, E91 -D( 13 ) :2784 - 2792.
  • 6NVIDIA. http ://cuda. csdn. net/[ EB/OL ].
  • 7Lin Shyh-Feng, Chang Yu-Lin, and Chen Liang-Gee. Motion Adaptive De-interlacing by Horizontal Motion Detection and En- hanced ELA Processing[ C]//IEEE International Symposium on Circuits and Synstems, 2003:696 - 699.
  • 8Hsiao H H, Jeng J I4. Modified De-interlacing Method Based on Edge Direction[ C ]//The 23rd Workshop on Combinatorial Mathematics and Computation Theory :225 - 231.
  • 9Shahinfard, E. Sid-Ahmed, M. A. Ahmadi, M. A Motion Adaptive Deinterlacing Method with Hierarchical Motion Detection Algorithm [ C ]//15th IEEE International Conference on Image Processing, 2008:889 -892.
  • 10NVIDIA. CUDA Programming Guide Version 2. 1 [ EB/OL]. http ://www. nvidia. com/'ubject/cuda_home, html.

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计算机应用
2013年 第10期

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