Abstract
Video content as one of the key features of future Internet services should be made ubiquitously available to users. Moreover, this should be done in a timely fashion and with adequate support for Quality of Service (QoS). Although providing the required coverage for ubiquitous video services, wireless networks, however, pose many challenges especially for QoS-sensitive video streaming due to their inadequate or varying capacity. In this article, we propose a cross-layer video adaptation solution, which may be used for optimizing network resource consumption and user experienced quality of video streaming in wireless networks; thus improving the availability of video services to mobile users. Our solution utilizes the flexibility of the Scalable Video Coding (SVC) technology and combines fast and fair Medium Access Control (MAC) layer packet scheduling with long-term application layer adaptation. The proposed solution both improves the usage of network resources by dropping video data based on its priority when the network is congested but also reduces efficiently the number of useless packet transfers in a congested network. We evaluate our solution with a simulation study under varying network congestion conditions. We find that already application layer adaptation gains over 60% less base layer losses, momentous for SVC video decodability and quality, than in the case without any adaptation. When our MAC layer scheduling is enabled, nearly a zero loss situation with respect to packet losses carrying base layers can be attained, resulting in peak-signal-to-noise ratio values very close to the original.
Highlights
The future Internet should ensure seamless and ubiquitous access to media through heterogeneous networks and terminals by implementing dynamic scalability across the whole delivery chain
Of the diverse cross-layer optimization approaches supported by the OPTIMIX architecture for video streaming, we focus on considering the solutions for application layer as well as Medium Access Control (MAC) layer bitrate adaptation of Scalable Video Coding (SVC)-encoded video streams
5 Conclusions To meet the requirement of ubiquitous media access for the future Internet services, we proposed in this article to use the OPTIMIX architecture for optimized media delivery and cross-layer signaling
Summary
The future Internet should ensure seamless and ubiquitous access to media through heterogeneous networks and terminals by implementing dynamic scalability across the whole delivery chain. To save processing in the BS, the BS controller can be used to trigger the MAC-level SVC adaptation on and off dynamically based on the wireless link status information collected using the OPTIMIX cross-layer signaling architecture. The parameters monitored by the BS controller, namely the rate of video packets dropped due to buffer overflow or exceeding of retransmission limit and the video queue size, are AC_VI specific This is to ensure that the MAC-level prioritized transmission and adaptation of SVC are triggered on based on the link conditions experienced by the video traffic. Based on the obtained results, we can conclude that the combined MAC and application level adaptation approach proposed in this article can be used to achieve the best performance in terms of both optimal network resource usage and video QoE. Additional QoE performance gains could be expected when using a more efficient application adaptation solution
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