…the transport protocol is the same. ¶ This document uses the terminology from [ RFC7656 ] and [ RFC8825 ] . Other terms are used according to their definitions from the RTP specification [ RFC3550 ] . In particular, note the following frequently used terms: RTP stream, RTP sessio…
…description is defined in [ RFC4566 ]. The term media transport is defined in [ RFC7656 ]. The term generation is defined in [ RFC8838 ] Section 2. The terms stats object and monitored object are defined in [ WEBRTC-STATS ]. When referring to exceptions, the terms throw and creat…
…the transport protocol is the same. ¶ This document uses the terminology from [ RFC7656 ] and [ RFC8825 ] . Other terms are used according to their definitions from the RTP specification [ RFC3550 ] . In particular, note the following frequently used terms: RTP stream, RTP sessio…
…ons from RTP [ RFC3550 ], AVPF [ RFC4585 ], CCM [ RFC5104 ], and RTP Taxonomy [ RFC7656 ] also apply in this document. Feedback Messages: CCM [ RFC5104 ] categorized different RTCP feedback messages into four types: Request, Command, Indication, and Notification. This document pl…
…description is defined in [ RFC4566 ]. The term media transport is defined in [ RFC7656 ]. The term generation is defined in [ TRICKLE-ICE ] Section 2. The term RTCStatsType is defined in [ WEBRTC-STATS ]. When referring to exceptions, the terms throw and create are defined in [ …
…description is defined in [ RFC4566 ]. The term media transport is defined in [ RFC7656 ]. The term generation is defined in [ RFC8838 ] Section 2. The terms stats object and monitored object are defined in [ WEBRTC-STATS ]. When referring to exceptions, the terms throw and creat…
…gle Real-time transport protocol stream Single Transport ( SRST ), defined in [[RFC7656]] Section 3.7, refers to a Scalable Video Coding SVC ) implementation that transmits all layers within a single transport, using a single Real-time Transport Protocol (RTP) stream and synchron…
…gle Real-time transport protocol stream Single Transport ( SRST ), defined in [[RFC7656]] Section 3.7, refers to an SVC implementation that transmits all layers within a single transport, using a single Real-time Transport Protocol (RTP) stream and synchronization source (SSRC). …
…gle Real-time transport protocol stream Single Transport ( SRST ), defined in [[RFC7656]] Section 3.7, refers to an SVC implementation that transmits all layers within a single transport, using a single Real-time Transport Protocol (RTP) stream and synchronization source (SSRC). …
…gle Real-time transport protocol stream Single Transport ( SRST ), defined in [[RFC7656]] Section 3.7, refers to an SVC implementation that transmits all layers within a single transport, using a single Real-time Transport Protocol (RTP) stream and synchronization source (SSRC). …
… that use the "a=rid" parameter in SDP and make use of redundancy RTP streams [ RFC7656 ] -- e.g., RTP RTX [ RFC4588 ] or Forward Error Correction (FEC) [ RFC5109 ] -- for any of the source RTP streams that have "a=rid" lines remaining after applying the rules in Section 6 and it…
… that use the "a=rid" parameter in SDP and make use of redundancy RTP streams [ RFC7656 ] -- e.g., RTP RTX [ RFC4588 ] or Forward Error Correction (FEC) [ RFC5109 ] -- for any of the source RTP streams that have "a=rid" lines remaining after applying the rules in Section 6 and it…
…scription is defined in [[!RFC4566]]. The term media transport is defined in [[!RFC7656]]. The term generation is defined in [[RFC8838]] Section 2. The terms stats object and monitored object are defined in [[!WEBRTC-STATS]]. When referring to exceptions, the terms [= exception/t…
As described in [ RFC3550 ] , RTP packets are associated with RTP streams [ RFC7656 ] . Each RTP stream is identified by an SSRC value, and each RTP packet includes an SSRC field that is used to associate the packet with the correct RTP stream. RTCP packets also use SSRCs to iden…