Title :
Parallel VLSI design for a real-time video-impulse noise-reduction processor
Author :
Hsia, Shih-Chang
Author_Institution :
Dept. of Comput. & Commun. Eng., Nat. Kaohsiung First Univ. of Sci. & Technol., Taiwan
Abstract :
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.
Keywords :
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; enhanced TV; filtering quality; high-definition TV; high-quality televisions; line buffers; median-filtering chips; noise-removal algorithm; parallel VLSI design; parallel structure; pipeline architecture; pipelined processing; real-time implementation; real-time video-impulse noise-reduction processor; throughput rate; Adaptive algorithm; Adaptive filters; Circuit noise; Digital TV; Filtering; HDTV; Image edge detection; Neodymium; Noise reduction; Very large scale integration;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2003.816135
