An enhanced motion estimation approach using a genetic trail bounded approximation for H.264/AVC codecs

Mohammad A. Haque; Jong Myon Kim

doi:10.1007/s11042-012-1023-2

An enhanced motion estimation approach using a genetic trail bounded approximation for H.264/AVC codecs

Mohammad A. Haque, Jong Myon Kim^*

^*Corresponding author for this work

Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

Genetic algorithm-based motion estimation schemes play a significant role in improving the results of H.264/AVC standardization efforts when addressing conversational and non-conversational video applications. In this paper, we present a robust motion estimation scheme that uses a noble genetic trail bounded approximation (GTBA) approach to speed up the encoding process of H.264/AVC video compression and to reduce the number of bits required to code frame. The proposed algorithm is utilized to enhance the fitness function strength by integrating trail information of motion vector and sum of absolute difference (SAD) information into a fitness function. Experimental results reveal that the proposed GTBA resolves conflict obstacles with respect to both the number of bits required to code frames and the execution time for estimation.

Original language	English
Journal	Multimedia Tools and Applications
Volume	63
Issue number	1
Pages (from-to)	63-76
Number of pages	14
ISSN	1380-7501
DOIs	https://doi.org/10.1007/s11042-012-1023-2
Publication status	Published - 1 Mar 2013

Keywords

Genetic algorithm
H.264
Inter-prediction
Motion estimation
Video compression

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abstract = "Genetic algorithm-based motion estimation schemes play a significant role in improving the results of H.264/AVC standardization efforts when addressing conversational and non-conversational video applications. In this paper, we present a robust motion estimation scheme that uses a noble genetic trail bounded approximation (GTBA) approach to speed up the encoding process of H.264/AVC video compression and to reduce the number of bits required to code frame. The proposed algorithm is utilized to enhance the fitness function strength by integrating trail information of motion vector and sum of absolute difference (SAD) information into a fitness function. Experimental results reveal that the proposed GTBA resolves conflict obstacles with respect to both the number of bits required to code frames and the execution time for estimation.",

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AB - Genetic algorithm-based motion estimation schemes play a significant role in improving the results of H.264/AVC standardization efforts when addressing conversational and non-conversational video applications. In this paper, we present a robust motion estimation scheme that uses a noble genetic trail bounded approximation (GTBA) approach to speed up the encoding process of H.264/AVC video compression and to reduce the number of bits required to code frame. The proposed algorithm is utilized to enhance the fitness function strength by integrating trail information of motion vector and sum of absolute difference (SAD) information into a fitness function. Experimental results reveal that the proposed GTBA resolves conflict obstacles with respect to both the number of bits required to code frames and the execution time for estimation.

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An enhanced motion estimation approach using a genetic trail bounded approximation for H.264/AVC codecs

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