DocumentCode
81205
Title
Delay—Power-Rate-Distortion Model for Wireless Video Communication Under Delay and Energy Constraints
Author
Chenglin Li ; Dapeng Wu ; Hongkai Xiong
Author_Institution
Dept. of Electron. Eng., Shanghai Jiao Tong Univ., Shanghai, China
Volume
24
Issue
7
fYear
2014
fDate
Jul-14
Firstpage
1170
Lastpage
1183
Abstract
Smart mobile phones are capable of performing video coding and streaming over wireless networks, but are often constrained by the end-to-end delay requirement and energy supply. To achieve optimal performance under the delay and energy constraints, in this paper we extend the traditional rate-distortion (R-D) model and the previously proposed delay R-D model to a novel delay-power-rate-distortion (d-P-R-D) model by including another two dimensions (the encoding time and encoder power consumption), which quantifies the relationship among source encoding delay, rate, distortion, and power consumption for IPPPP coding mode in H.264/AVC. We have verified the accuracy of our proposed d-P-R-D model through experiments. Based on the proposed d-P-R-D model, we develop a novel rate-control (RC) algorithm, which minimizes the encoding distortion under the constraints of rate, delay, and power. The experimental results demonstrate the superiority of the proposed RC algorithm over the existing scheme. Therefore, the d-P-R-D model and the model-based RC provide a theoretical basis and a practical guideline for the cross-layer system design and performance optimization in wireless video communication under delay and energy constraints.
Keywords
mobile computing; power consumption; rate distortion theory; smart phones; video coding; video communication; video streaming; H.264-AVC; IPPPP coding mode; cross-layer system design; d-P-R-D model; delay constraint; delay-power-rate-distortion model; encoder power consumption; encoding distortion minimization; encoding time; end-to-end delay requirement; energy constraint; energy supply; performance optimization; rate-control algorithm; smart mobile phones; source encoding delay; video coding; video streaming; wireless networks; wireless video communication; Complexity theory; Delays; Encoding; Quantization (signal); Streaming media; Video coding; Wireless communication; Delay-power-rate-distortion (d-P-R-D) model; H.264/AVC; rate control (RC); video coding; wireless video;
fLanguage
English
Journal_Title
Circuits and Systems for Video Technology, IEEE Transactions on
Publisher
ieee
ISSN
1051-8215
Type
jour
DOI
10.1109/TCSVT.2014.2302517
Filename
6727573
Link To Document