Bidirectional Motion Estimation Approach Using Warping Mesh Combined to Frame Interpolation

This paper concentrates on the bidirectional motion estimation problem for applications at very low bit rate. The missing frames in the original video sequence are predicted by the decoder using only the received frames with not additional information. The same selected moving objects on each decode...

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Hauptverfasser:	Munoz-Jimenez, V., Mokraoui-Zergainoh, A., Astruc, J.-P.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Decoding Discrete wavelet transforms Interpolation Layout Mathematical model Motion estimation Mouth MPEG 4 Standard Video coding Video sequences
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creator	Munoz-Jimenez, V. Mokraoui-Zergainoh, A. Astruc, J.-P.
description	This paper concentrates on the bidirectional motion estimation problem for applications at very low bit rate. The missing frames in the original video sequence are predicted by the decoder using only the received frames with not additional information. The same selected moving objects on each decoded frames, are initially meshed from quadrilateral blocks which are then deformed using specific warping functions. The positions of the mesh nodes are adapted to the object's edges in such a way that the reconstruction error is as small as possible. Afterwards, the position displacements of these nodes are used to predict those of the moving objects in the missing frames. Finally, the meshed objects are reconstructed thanks to the predicted nodes. The proposed approach is integrated in the H.264/AVC video coding standard. Simulation results present the performance of the proposed bidirectional motion estimation.
doi_str_mv	10.1109/ISSPIT.2008.4775707
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Decoding Discrete wavelet transforms Interpolation Layout Mathematical model Motion estimation Mouth MPEG 4 Standard Video coding Video sequences
title	Bidirectional Motion Estimation Approach Using Warping Mesh Combined to Frame Interpolation
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