Title :
Impact of Frame Loss Position on Transmitted Video Quality: Models and Improvements
Author :
Vakili, Ahmad ; Grégoire, Jean-Charles
Author_Institution :
Energy, Mater., & Telecommun. (EMT), Inst. Nat. de la Rech. Sci. (INRS), Montreal, QC, Canada
Abstract :
This paper addresses the question of whether or not the specific packet/frame lost, and in particular, its relative position toward the I-frames influences the quality of transmitted compressed video. We focus on the QCIF size video frame, one of the most pervasive video formats across the Internet and cellular systems. Using the average Peak Signal to Noise Ratio (PSNR) of the received coded video to measure the amount of distortion, we demonstrate that the interval between the lost frame and the last I-frame does have a significant effect on the resulting quality. Further, after investigating the probability of different burst loss lengths in noisy environments, where the duration of data loss is almost constant, we propose a method to improve performance of video streaming over the noisy channels based on packet scheduling, without requiring an increase in the bit rate.
Keywords :
Internet; cellular radio; data compression; mobile computing; video coding; video streaming; Internet; QCTF size video frame; average peak signal to noise ratio; burst loss lengths; cellular systems; data loss; frame loss position; noisy environments; packet scheduling; pervasive video formats; video coding; video compression; video quality; video streaming; Accuracy; Codecs; Noise measurement; Numerical models; PSNR; Propagation losses; Streaming media; H.264/AVC; PSNR; burst loss; frame loss;
Conference_Titel :
Multimedia and Ubiquitous Engineering (MUE), 2011 5th FTRA International Conference on
Conference_Location :
Loutraki
Print_ISBN :
978-1-4577-1228-9
Electronic_ISBN :
978-0-7695-4470-0
DOI :
10.1109/MUE.2011.31
