1 research outputs found
Exploiting Network Awareness to Enhance DASH Over Wireless
The introduction of Dynamic Adaptive Streaming over HTTP (DASH) helped reduce
the consumption of resource in video delivery, but its client-based rate
adaptation is unable to optimally use the available end-to-end network
bandwidth. We consider the problem of optimizing the delivery of video content
to mobile clients while meeting the constraints imposed by the available
network resources. Observing the bandwidth available in the network's two main
components, core network, transferring the video from the servers to edge nodes
close to the client, and the edge network, which is in charge of transferring
the content to the user, via wireless links, we aim to find an optimal solution
by exploiting the predictability of future user requests of sequential video
segments, as well as the knowledge of available infrastructural resources at
the core and edge wireless networks in a given future time window. Instead of
regarding the bottleneck of the end-to-end connection as our throughput, we
distribute the traffic load over time and use intermediate nodes between the
server and the client for buffering video content to achieve higher throughput,
and ultimately significantly improve the Quality of Experience for the end user
in comparison with current solutions