Title :
Smooth workload adaptive broadcast
Author :
Guo, Yang ; Gao, Lixin ; Towsley, Don ; Sen, Subhabrata
Author_Institution :
MathWorks. Inc., Natick, MA, USA
fDate :
4/1/2004 12:00:00 AM
Abstract :
The high-bandwidth requirements and long-lived characteristics of digital video make transmission bandwidth usage a key limiting factor in the widespread streaming of such content over the Internet. A challenging problem is to develop bandwidth-efficient techniques for delivering popular videos to a large, asynchronous client population with time-varying demand characteristics. In this paper, we propose smooth workload adaptive broadcast to address the above issues. A key component of our scheme is Flexible Periodic Broadcast (FPB). By introducing a feedback control loop into FPB, and enhancing FPB using techniques such as parsimonious transmission, smooth workload adaptive broadcast provides instantaneous or near-instantaneous playback services and can smoothly adapt to workload changes. Furthermore, FPB, as proposed in this paper, is bandwidth efficient and exhibits the periodic smooth channel transition property.
Keywords :
Internet; digital video broadcasting; video coding; video on demand; FPB; Flexible Periodic Broadcast; Internet; content streaming; digital video; feedback control loop; large asynchronous client population; on-demand video streaming; parsimonious transmission; periodic smooth channel transition property; smooth workload adaptive broadcast; time-varying demand; transmission bandwidth usage; Adaptive control; Bandwidth; Delay; Digital video broadcasting; Feedback control; Helium; Internet; Multimedia communication; Programmable control; Streaming media;
Journal_Title :
Multimedia, IEEE Transactions on
DOI :
10.1109/TMM.2003.822786
