Distortion optimized scheduling and QoS driven prioritization of video streams over WLAN

This paper presents a distortion optimization scheme. It involves a packet scheduling algorithm, based on a novel distortion prediction model, and a prioritization mechanism that categorizes the transmitted packets according to their video distortion importance to different priority classes. In the...

Full description

Saved in:
Bibliographic Details
Published inPacket Video 2007 pp. 349 - 355
Main Authors Politis, Ilias, Pliakas, Thomas, Tsagkaropoulos, Michail, Dagiuklas, Tasos, Kormentzas, George, Kotsopoulos, Stavros
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.11.2007
Subjects
Automatic repeat request
Bandwidth
Decoding
Delay
Predictive models
Scheduling algorithm
Streaming media
Video compression
Wireless LAN
Wireless networks
Online AccessGet full text

Cover

More Information
Summary:This paper presents a distortion optimization scheme. It involves a packet scheduling algorithm, based on a novel distortion prediction model, and a prioritization mechanism that categorizes the transmitted packets according to their video distortion importance to different priority classes. In the proposed scheme the video streams have been encoded based on the H.264/AVC codec with its multireference frame capability. A distortion prediction model, designed to capture the multi-referenced frame coding characteristic, is used to predetermine the distortion importance of each video frame in the stream. This information is prestored in each packet header. A scheduling algorithm will select which individual packet or combinations of packets will be drop based on the available transmission rate of the communication network, which in this case is a 802.11e WLAN. The network has been configured to differentiate the transmitted packets according to their distortion impact. Significant video packets are appointed to high priority access categories while least significant packets to lower categories. Simulation results show the improvement in the received video quality between the proposed scheduling scheme and an additive-distortion scheduling approach that omits the correlations among neighboring video frames. Moreover the simulation results show the improvement on the received video quality when the prioritization mechanism is implemented in addition to the packet scheduling algorithm.
ISBN:1424409802
9781424409808
ISSN:2167-969X
DOI:10.1109/PACKET.2007.4397060