Complexity reduction of H.264 using Lagrange optimization methods

Kannangara, C.S.; Richardson, Iain E. G.; Bystrom, M.; Solera, J.R.; Zhao, Yafan; MacLennan, Alan; Cooney, Rory

doi:10.1049/cp:20050115

Cited by 9 publications

(5 citation statements)

References 11 publications

(10 reference statements)

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“…In exploring the variety of macroblock partitions available in H.264/AVC, there are works [10,11] that only carry motion estimation for the most probable partition. The early prediction of skipped macroblocks prior to motion estimation [12,13] is also used for complexity control. Intraprediction tests can also be reduced by means of selecting the most probable best mode according to heuristics [14,15].…”

Section: Complexity Reduction Techniquesmentioning

confidence: 99%

Complexity-constrained H.264 HD video coding through mode ranking

Fonseca

Queiroz

2009

2009 Picture Coding Symposium

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Video compression is a computation-intensive task and realtime implementation of state-of-the-art video standards is a challenge. In this paper we propose a complexity scalable framework to H.264/AVC prediction module since the "intra" and "inter" prediction steps are responsible for almost all computation complexity. The idea is to employ a subset of prediction modes instead of testing all modes recommended by H.264/AVC standard. Only the most "popular" prediction modes are ranked and tested until reaching a complexity budget. The ranking is done by sampling macroblocks of previous frames. Results show a negligible the quality loss while achieving large computational savings.

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Section: Complexity Reduction Techniquesmentioning

confidence: 99%

Complexity-constrained H.264 HD video coding through mode ranking

Fonseca

Queiroz

2009

2009 Picture Coding Symposium

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“…[19,20], we have previously proposed methods for fast mode choice based on estimating and comparing rate-distortion costs of skipping versus coding a macroblock. Early prediction of macroblock mode choice is made by estimating a Lagrangian rate-distortion cost function that incorporates an adaptive model for the Lagrange multiplier parameter based on local sequence statistics and then utilizing this cost in the decision process.…”

Section: Complexity Reduction Methods For H264 Mode Selectionmentioning

confidence: 99%

Efficient mode selection for H.264 complexity reduction in a Bayesian framework

Bystrom

Richardson

Zhao

2008

Signal Processing: Image Communication

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“…Parallel decoding techniques of H.264 exist from the highest level, which is the group of frames or pictures (GOP), the coarse-grain level, till the lowest level, which is the block inside a macroblock, the fine-grain level. Kannangara [5] reduced the complexity of the H.264 decoder (19-65%) by predicting the SKIP macroblocks using an estimation based on a Lagrangian ratedistortion cost function. Gurhanli [6] suggested a parallel approach by decoding independent groups of frames on different cores.…”

Section: Related Workmentioning

confidence: 99%

Design of the H264 application and Implementation on Heterogeneous Architectures

Adda¹,

Benyamina²

2017

IJCA

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Multimedia applications are present in most mobile hand-held devices.H.264 is an emerging video coding standard, which aims at compressing high-quality video contents at low-bit rates. While the new encoding and decoding processes are similar to many previous standards, the new standard includes a number of new features and thus requires much more computation than most existing standards do. The complexity of H.264 standard poses a large amount of challenges to implementing the encoder/decoder in real-time requiring large amount of processing resources. This paper presents the design and analysis of the H.264 decoder implemented on a heterogeneous architecture (multi-CPUs/multi-GPUs). A model-driven approach is adopted by using the standard MARTE profile of UML. Our approach is based on hybrid partitioning that combines both functional and data partitioning which is applied to find the most suitable processors (CPU or GPU) regarding the execution time. We claim that our approach allows giving a better performance, which is crucial when implemented in modern complex systems.

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Complexity reduction of H.264 using Lagrange optimization methods

Cited by 9 publications

References 11 publications

Complexity-constrained H.264 HD video coding through mode ranking

Complexity-constrained H.264 HD video coding through mode ranking

Efficient mode selection for H.264 complexity reduction in a Bayesian framework

Design of the H264 application and Implementation on Heterogeneous Architectures

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