tailieunhanh - De-interlacing A Key Technology for Scan Rate Conversion

T HE human visual system is less sensitive to flickering details than to large-area flicker. Television displays apply interlacing to profit from this fact, while broadcast formats were originally defined to match the display scanning format. As a consequence, interlace is found throughout the video chain. If we describe interlacing as a form of spatio-temporal subsampling, then de-interlacing, the topic of our book, is the reverse operation aiming at the removal of the sub-sampling artefacts | Advan Volume 9 . Bellers G. de Haan Conversion I o n De-interlacing A Key Technology for Scan Rate ELSEVIER De-interlacing Series Editor J. Biemond Delft University of Technology The Netherlands Volume 1 Three-Dimensional Object Recognition Systems edited by A. K. Jain and R J. Flynn Volume 2 VLSI Implementations for Image Communications edited by R Pirsch Volume 3 Digital Moving Pictures - Coding and Transmission on ATM Networks . Leduc Volume 4 Motion Analysis for Image Sequence Coding G. Tziritas and C. Labit Volume 5 Wavelets in Image Communication edited by M. Barlaud Volume 6 Subband Compression of Images Principles and Examples . Ramstad . Aase and . Husoy Volume 7 Advanced Video Coding Principles and Techniques . . Meier and D. Chai Volume 8 Image and Video Databases Restoration Watermarking and Retrieval A. Hanjalic . Langelaar . van Roosmalen J. Biemond and . Lagendijk Volume 9 De-interlacing A Key Technology for Scan Rate Conversion . Bellers and G. de Haan