Current NTSC systems employ an interlaced scan scheme where visually annoying artifacts, such as line flickers, large area flickers, and edge flickers, are inevitably generated and more objectionable with a larger display. With the development of HDTV systems, how an NTSC signal can be displayed in an HDTV system has also become a problem. Accordingly in order to solve these problems, many adaptive scan rate up-conversion systems have been proposed. The proposed system consists of a modified edge directional line averaging (ELA) interpolation module and contrast enhancement module. The modified ELA interpolation module reduces the visually annoying artifacts induced by an interlaced scan scheme whereas the degradation in the contrast and details due to interpolation processing is compensated by the contrast enhancement module. Moreover, the proposed system is easy to implement and the VLSI architecture is very simple. This new system was mainly developed for doubling the scan rate in an NTSC system; however, it can also be used in the format conversion in an HDTV system.
[1]
E.E. Pissaloux,et al.
Image Processing
,
1994,
Proceedings. Second Euromicro Workshop on Parallel and Distributed Processing.
[2]
Jae S. Lim,et al.
Two-Dimensional Signal and Image Processing
,
1989
.
[3]
A. Nieminen,et al.
Scan rate conversions using weighted median filtering
,
1989,
IEEE International Symposium on Circuits and Systems,.
[4]
Sanjit K. Mitra,et al.
EDGE-ENHANCED IMAGE ZOOMING
,
1996
.
[5]
Chung J. Kuo,et al.
Adaptive interpolation technique for scanning rate conversion
,
1996,
IEEE Trans. Circuits Syst. Video Technol..
[6]
Jong-Sen Lee,et al.
Digital Image Enhancement and Noise Filtering by Use of Local Statistics
,
1980,
IEEE Transactions on Pattern Analysis and Machine Intelligence.
[7]
Yeong-Taeg Kim.
Deinterlacing algorithm based on sparse wide-vector correlations
,
1996,
Other Conferences.