A rate-distortion empirical model for rate adaptive wireless scalable video
Yongju Cho
Radha, H.
Jeongju Yoo
Jinwoo Hong
Electron. & Telecommun. Res. Inst., Seoul;
This paper appears in: Information Sciences and Systems, 2008. CISS 2008. 42nd Annual Conference on
Publication Date: 19-21 March 2008
On page(s): 350-355
Location: Princeton, NJ,
ISBN: 978-1-4244-2246-3
INSPEC Accession Number: 10073642
Digital Object Identifier: 10.1109/CISS.2008.4558550
Current Version Published: 2008-07-09
Abstract
Resent studies (L. Larzon, et al., June 1999)-(S. A. Khayam, et al., Aug, 2003) have indicated that a significant improvement in wireless video throughput can be achieved by cross layer design with side-information (CLDS) protocols. In (Y. Cho, et al.), for real-time video streaming over wireless LANs the optimal rate prediction architecture under CLDS ( ORPACLDS ) was developed. In (Y. Cho, et al.), we showed that an accurate source and channel coding rate prediction can be achieved by utilizing the video quality models and the distribution of channel prediction error process under CLDS. To optimally utilize ORPACLDS , the video quality function for rates exceeding the channel capacity (i.e., video rate-distortion function) should be taken into consideration. To this end, in this paper we propose an empirical model for video rate-distortion. To deduce the generic video rate- distortion model, actual scalable video coding (SVC) and low density parity check (LDPC) code were used. The outstanding performance of ORPACLDS in accordance with the video rate-distortion model is exhibited by using a comprehensive set of IEEE 802.11b wireless traces.
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