Parallel VLSI design for a real-time video-impulse noise-reduction processor

Shih-Chang Hsia

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Parallel VLSI design for a real-time video-impulse noise-reduction processor

机译：实时视频脉冲降噪处理器的并行VLSI设计

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High-quality televisions (TVs) such as improved digital TV, enhanced TV, and high-definition TV have become popular in recent years. However, impulse noise affects TV broadcasts. This paper proposes an efficient noise-removal algorithm using an adaptive digital signal-processing approach. Simulations have demonstrated that the new adaptive algorithm could efficiently reduce impulse noise even in highly corrupted images. In order to achieve real-time implementation, a cost-effective architecture is proposed using a parallel structure and pipelined processing. The proposed processor can achieve the throughput rate of 45M pixels/s using only 4k gates and two line buffers. Unlike median-filtering chips, this processor provides better filtering quality and its circuit is much less complex.

机译：近年来，诸如改进的数字电视，增强型电视和高清电视之类的高质量电视（TV）变得很流行。但是，脉冲噪声会影响电视广播。本文提出了一种使用自适应数字信号处理方法的高效降噪算法。仿真表明，即使在高度损坏的图像中，新的自适应算法也可以有效降低脉冲噪声。为了实现实时实现，提出了使用并行结构和流水线处理的具有成本效益的体系结构。所提出的处理器仅使用4k门和两个行缓冲器就可以实现45M像素/秒的吞吐率。与中值滤波芯片不同，该处理器可提供更好的滤波质量，并且电路复杂度也大大降低。

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《IEEE transactions on very large scale integration (VLSI) systems》 |2003年第4期|p.651-658|共8页
作者
Shih-Chang Hsia;
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正文语种 eng
中图分类微电子学、集成电路（IC）;
关键词
VLSI; adaptive signal processing; digital television; high definition television; median filters; pipeline processing; real-time systems; video signal processing; TV broadcasts; adaptive digital signal-processing approach; cost-effective architecture; digital TV; en;

机译：VLSI;自适应信号处理;数字电视;高清晰度电视;中值滤波器;管道处理;实时系统;视频信号处理;电视广播;自适应数字信号处理方法;经济高效的体系结构;数字电视;en;

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1. VLSI Architecture Design Approaches for Real-Time Video Processing [J] . A. AHMAD, K. K. LOO, J. COSMAS WSEAS Transactions on Circuits and Systems . 2008,第7a9期

机译：实时视频处理的VLSI架构设计方法
2. Design of a Dynamically Reconfigurable VLSI Processor Based on Real-Time Register-Transfer-Level Optimization [J] . Yonanda Adhitama, Michitaka Kameyama 東北大学電通谈话会記録 . 2007,第1期

机译：基于实时寄存器传输级优化的动态可重构VLSI处理器设计
3. Design of an efficient VLSI inner-product processor for real-time DSP applications [J] . Ahmad M.O., Poornalah D.V. IEEE Transactions on Circuits and Systems . 1989,第2期

机译：针对实时DSP应用的高效VLSI内产品处理器的设计
4. VLSI PROCESSOR ARCHITECTURE FOR REAL-TIME GA PROCESSING AND PE-VLSI DESIGN [C] . Tetsuya Imai, Masaya Yoshikawa, Hidekazu Terai, IEEE International Symposium on Circuits and Systems . 2004

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6. Massively Parallel Signal Processing using the Graphics Processing Unit for Real-Time Brain–Computer Interface Feature Extraction [O] . J. Adam Wilson, Justin C. Williams 2009

机译：使用图形处理单元的大规模并行信号处理用于实时脑机接口特征提取
7. High-Speed VLSI Architecture Based on Massively Parallel Processor Arrays for Real-Time Remote Sensing Applications [O] . A. Castillo, J. Estrada, P. Perez, 2011

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8. A VLSI Processor Design of Real-Time Data Compression for High-Resolution Imaging Radar [R] . Fang, W. 1994

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Parallel VLSI design for a real-time video-impulse noise-reduction processor

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