Efficient Bit Rate Transcoding for High Efficiency Video Coding

High efficiency video coding (HEVC) shows a significant advance in compression efficiency and is considered to be the successor of H.264/AVC. To incorporate the HEVC standard into real-life network applications and a diversity of other applications, efficient bit rate adaptation (transrating) algori...

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Veröffentlicht in:	IEEE transactions on multimedia 2016-03, Vol.18 (3), p.364-378
Hauptverfasser:	Luong Pham Van, De Praeter, Johan, Van Wallendael, Glenn, Van Leuven, Sebastiaan, De Cock, Jan, Van de Walle, Rik
Format:	Artikel
Sprache:	eng
Schlagworte:	Bit rate bit rate adaptation complexity scalable transcoding Complexity theory high efficiency video coding Machine learning Streaming media Transcoding Video coding
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container_title	IEEE transactions on multimedia
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creator	Luong Pham Van De Praeter, Johan Van Wallendael, Glenn Van Leuven, Sebastiaan De Cock, Jan Van de Walle, Rik
description	High efficiency video coding (HEVC) shows a significant advance in compression efficiency and is considered to be the successor of H.264/AVC. To incorporate the HEVC standard into real-life network applications and a diversity of other applications, efficient bit rate adaptation (transrating) algorithms are required. A current problem of transrating for HEVC is the high computational complexity associated with the encoder part of such a cascaded pixel domain transcoder. This paper focuses on deriving an optimal strategy for reducing the transcoding complexity with a complexity-scalable scheme. We propose different transcoding techniques which are able to reduce the transcoding complexity in both CU and PU optimization levels. At the CU level, CUs can be evaluated in top-to-bottom or bottom-to-top flows, in which the coding information of the input video stream is utilized to reduce the number of evaluations or to early terminate certain evaluations. At the PU level, the PU candidates are adaptively selected based on the probability of PU sizes and the co-located input PU partitioning. Moreover, with the use of different proposed methods, a complexity-scalable transrating scheme can be achieved. Furthermore, the transcoding complexity can be effectively controlled by the machine learning based approach. Simulations show that the proposed techniques provide a superior transcoding performance compared to the state-of-the-art related works. Additionally, the proposed methods can achieve a range of trade-offs between transrating complexity and coding performance. From the proposed schemes, the fastest approach is able to reduce the complexity by 82% while keeping the bitrate loss below 3%.
doi_str_mv	10.1109/TMM.2015.2512231
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subjects	Bit rate bit rate adaptation complexity scalable transcoding Complexity theory high efficiency video coding Machine learning Streaming media Transcoding Video coding
title	Efficient Bit Rate Transcoding for High Efficiency Video Coding
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