Spelling suggestions: "subject:"besteffort networks"" "subject:"bestcomfort networks""
1 |
Flow control of real-time unicast multimedia applications in best-effort networksBhattacharya, Aninda 15 May 2009 (has links)
One of the fastest growing segments of Internet applications are real-time mul-
timedia applications, like Voice over Internet Protocol (VoIP). Real-time multimedia
applications use the User Datagram Protocol (UDP) as the transport protocol because
of the inherent conservative nature of the congestion avoidance schemes of Transmis-
sion Control Protocol (TCP). The e®ects of uncontrolled °ows on the Internet have
not yet been felt because UDP tra±c frequently constitutes only » 20% of the total
Internet tra±c. It is pertinent that real-time multimedia applications become better
citizens of the Internet, while at the same time deliver acceptable Quality of Service
(QoS).
Traditionally, packet losses and the increase in the end-to-end delay experienced
by some of the packets characterizes congestion in the network. These two signals
have been used to develop most known °ow control schemes. The current research
considers the °ow accumulation in the network as the signal for use in °ow control.
The most signi¯cant contribution of the current research is to propose novel end-
to-end °ow control schemes for unicast real-time multimedia °ows transmitting over
best-e®ort networks. These control schemes are based on predictive control of the
accumulation signal. The end-to-end control schemes available in the literature are
based on reactive control that do not take into account the feedback delay existing
between the sender and the receiver nor the forward delay in the °ow dynamics. The performance of the proposed control schemes has been evaluated using the
ns-2 simulation environment. The research concludes that active control of hard real-
time °ows delivers the same or somewhat better QoS as High Bit Rate (HBR, no
control), but with a lower average bit rate. Consequently, it helps reduce bandwidth
use of controlled real-time °ows by anywhere between 31:43% to 43:96%. Proposed
reactive control schemes deliver good QoS. However, they do not scale up as well as
the predictive control schemes. Proposed predictive control schemes are e®ective in
delivering good quality QoS while using up less bandwidth than even the reactive con-
trol schemes. They scale up well as more real-time multimedia °ows start employing
them.
|
Page generated in 0.0668 seconds