Motion vector forecast and mapping (MV-FMap) method for entropy coding based video coders

Since the finalization of the H.264/AVC standard and in order to meet the target set by both ITU-T and MPEG to define a new standard that reaches 50% bit rate reduction compared to H.264/AVC, many tools have efficiently improved the texture coding and the motion compensation accuracy. These improvem...

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Published in	2010 IEEE International Workshop on Multimedia Signal Processing pp. 206 - 211
Main Authors	Le Tanou, Julien, Thiesse, Jean-Marc, Jung, Joel, Antonini, Marc
Format	Conference Proceeding
Language	English
Published	IEEE 01.10.2010
Subjects	Automatic voltage control Bit rate Diamond-like carbon Entropy coding Motion estimation Transform coding
Online Access	Get full text
ISBN	1424481104 9781424481101
DOI	10.1109/MMSP.2010.5662020

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Abstract	Since the finalization of the H.264/AVC standard and in order to meet the target set by both ITU-T and MPEG to define a new standard that reaches 50% bit rate reduction compared to H.264/AVC, many tools have efficiently improved the texture coding and the motion compensation accuracy. These improvements have resulted in increasing the proportion of bit rate allocated to motion information. Thus, the bit rate reduction of this information becomes a key subject of research. This paper proposes a method for motion vector coding based on an adaptive redistribution of motion vector residuals before entropy coding. Motion information is gathered to forecast a list of motion vector residuals which are redistributed to unexpected residuals of lower coding cost. Compared to H.264/AVC, this scheme provides systematic gain on tested sequences, and 2.3% in average, reaching up to 4.9% for a given sequence.
AbstractList	Since the finalization of the H.264/AVC standard and in order to meet the target set by both ITU-T and MPEG to define a new standard that reaches 50% bit rate reduction compared to H.264/AVC, many tools have efficiently improved the texture coding and the motion compensation accuracy. These improvements have resulted in increasing the proportion of bit rate allocated to motion information. Thus, the bit rate reduction of this information becomes a key subject of research. This paper proposes a method for motion vector coding based on an adaptive redistribution of motion vector residuals before entropy coding. Motion information is gathered to forecast a list of motion vector residuals which are redistributed to unexpected residuals of lower coding cost. Compared to H.264/AVC, this scheme provides systematic gain on tested sequences, and 2.3% in average, reaching up to 4.9% for a given sequence.
Author	Le Tanou, Julien Jung, Joel Thiesse, Jean-Marc Antonini, Marc
Author_xml	– sequence: 1 givenname: Julien surname: Le Tanou fullname: Le Tanou, Julien email: jletanou@gmail.com organization: Orange Labs., Issy-les-Moulineaux, France – sequence: 2 givenname: Jean-Marc surname: Thiesse fullname: Thiesse, Jean-Marc email: jeanmarc.thiesse@orange-ftgroup.com organization: Orange Labs., Issy-les-Moulineaux, France – sequence: 3 givenname: Joel surname: Jung fullname: Jung, Joel email: joelb.jung@orange-ftgroup.com organization: Orange Labs., Issy-les-Moulineaux, France – sequence: 4 givenname: Marc surname: Antonini fullname: Antonini, Marc email: am@i3s.unice.fr organization: I3S Lab., Univ. of Nice-Sophia Antipolis, Sophia Antipolis, France
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SubjectTerms	Automatic voltage control Bit rate Diamond-like carbon Entropy coding Motion estimation Transform coding
Title	Motion vector forecast and mapping (MV-FMap) method for entropy coding based video coders
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