A.K. Kannur scite author profile

This paper presents an enhanced rate control scheme for H.264 using motion detection and motion analysis. PSNR based measure is used for determining motion complexity and detecting scene changes. Motion Vectors and Rate Distortion measures are further used to classify regions with motion inside a frame and Macro-blocks are then grouped into slices using the Flexible Macro-block Ordering feature of H.264. We present a filtered slice grouping technique to maintain a stable region of motion. The proposed method provides smoother quality videos with better average PSNR. The bit rates are within bound and fewer frames are skipped in sequences with scene changes at low bit rates.

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Power-aware content-adaptive H.264 video encoding

Kannur

2009

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H.264 is a computationally intensive video codec striving for achieving the best quality for the compressed video. The computational complexity poses as a challenge for power-constrained applications. We present a system level complexity reduction for H.264 video encoding by allocating resources based on computational complexity and quality trade-off. We develop a framework which allocates the computational power of the encoder adaptive to video contents and also scales with the available battery power using a ROI classification method. Analysis is done to profile the key modules of the encoder which can be power-optimized while allocating resources. The results of the encoder module analysis are combined with the motion content analysis to obtain a power efficient encoder parameter set which reduces the computations and hence the power consumed. Our simulation results on the JM H.264 framework confirm our hypothesis and computational savings of more than 50% with quality degradation less than 1% is achieved thereby extending it's feasibility for battery powered wireless devices.

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Analysis of CPU Utilisation and Stack Consumption of a Multimedia Embedded System

Ramachandra

Kannur

2008

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A.K. Kannur

Adapting quantization offset in multiple description coding for error resilient video transmission

An enhanced rate control scheme with motion assisted slice grouping for low bit rate coding in H.264

Power-aware content-adaptive H.264 video encoding

Analysis of CPU Utilisation and Stack Consumption of a Multimedia Embedded System

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