Skip to main content

Coupled Congestion Control for RTP Media
RFC 8699

Revision differences

Document history

Date By Action
2020-02-04
(System)
Received changes through RFC Editor sync (changed abstract to 'When multiple congestion-controlled Real-time Transport Protocol (RTP) sessions traverse the same network bottleneck, combining their controls …
Received changes through RFC Editor sync (changed abstract to 'When multiple congestion-controlled Real-time Transport Protocol (RTP) sessions traverse the same network bottleneck, combining their controls can improve the total on-the-wire behavior in terms of delay, loss, and fairness.  This document describes such a method for flows that have the same sender, in a way that is as flexible and simple as possible while minimizing the number of changes needed to existing RTP applications.  This document also specifies how to apply the method for the Network-Assisted Dynamic Adaptation (NADA) congestion control algorithm and provides suggestions on how to apply it to other congestion control algorithms.')
2020-01-31
(System)
Received changes through RFC Editor sync (created alias RFC 8699, changed title to 'Coupled Congestion Control for RTP Media', changed abstract to 'When multiple …
Received changes through RFC Editor sync (created alias RFC 8699, changed title to 'Coupled Congestion Control for RTP Media', changed abstract to 'When multiple congestion-controlled Real-time Transport Protocol
(RTP) sessions traverse the same network bottleneck, combining their
controls can improve the total on-the-wire behavior in terms of
delay, loss, and fairness.  This document describes such a method for
flows that have the same sender, in a way that is as flexible and
simple as possible while minimizing the number of changes needed to
existing RTP applications.  This document also specifies how to apply
the method for the Network-Assisted Dynamic Adaptation (NADA)
congestion control algorithm and provides suggestions on how to apply
it to other congestion control algorithms.', changed pages to 20, changed standardization level to Experimental, changed state to RFC, added RFC published event at 2020-01-31, changed IESG state to RFC Published)
2020-01-31
(System) RFC published