Viswesh Parameswaran scite author profile

As the importance of multimedia applications in hand-held devices increases, the computational strain and corresponding demand for energy in such devices continues to grow. Portable multimedia devices with inherently limited energy supplies face tight energy constraints and require optimization for energy conservation. Power-aware applications give their users flexibility to prioritize and trade between performance and battery-life.This paper introduces a power-aware technique for user selectable power reduction in exchange for controlled reductions in video quality for H.264 video streams. The technique uses an encoder-decoder pair. The encoder characterizes video streams and provides information to the decoder via Flexible Macroblock Ordering (FMO) by generating prioritized slice groups. The decoder selectively ignores low priority slice groups based on user selected preference effectively reducing the decoder workload. With a reduced computational requirement, processor voltage and frequency scaling (DVFS) significantly improve decoder power performance within timing constraints. Our PXA270 system implementation resulted in power savings of as much as 53% with an average PSNR per frame of 24dB compared to the unmodified video.

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An Adaptive Slice Group Multiple Description Coding Technique for Real-time Video Transmission over Wireless Networks

Parameswaran

Murthy

Sen

et al. 2007

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Viswesh Parameswaran

Improved Path Selection Algorithms for Multipath Video Streaming in Wireless Ad-Hoc Networks

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

Power reduction via macroblock prioritization for power aware H.264 video applications

An Adaptive Slice Group Multiple Description Coding Technique for Real-time Video Transmission over Wireless Networks

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