DCCP

E565076

DCCP (Datagram Congestion Control Protocol) is a transport-layer protocol designed to provide congestion-controlled, unreliable datagram delivery for real-time and multimedia applications.

All labels observed (1)

Label Occurrences
DCCP canonical 2

How this entity was disambiguated

Statements (48)

Predicate Object
instanceOf Internet protocol
transport-layer protocol
abbreviation DCCP NERFINISHED
category congestion control protocol
comparedToTCP lower latency for loss-tolerant traffic
comparedToUDP built-in congestion control
connectionSemantics connection-oriented control with unreliable data
connectionType bidirectional
definedIn RFC 4340 NERFINISHED
deliveryType datagram-oriented
designGoal provide congestion control without reliability overhead
support timing-sensitive traffic
doesNotProvide data retransmission
reliable in-order delivery
fullName Datagram Congestion Control Protocol NERFINISHED
handles path MTU discovery interactions
hasExtension various CCIDs such as TCP-like and TFRC-based
headerContains Congestion Control ID (CCID)
acknowledgement numbers
connection state information
sequence numbers
initialSpecificationYear 2006
layer transport layer
packetType supports multiple packet types (e.g., Data, Ack, Reset)
portNumberRange uses UDP/TCP-style 16-bit port numbers
primaryFeature congestion control for unreliable flows
provides congestion-controlled datagram delivery
relatedTo SCTP NERFINISHED
TCP NERFINISHED
UDP
reliability unreliable
standardizedBy Internet Engineering Task Force
surface form: IETF
status Proposed Standard in the IETF standards track
supports ECN (Explicit Congestion Notification) NERFINISHED
application-level framing
multimedia applications
multiple congestion control IDs
online games
partial checksums
pluggable congestion control mechanisms
real-time applications
streaming media
telephony-like applications
useCase applications that can tolerate loss but not delay
interactive multimedia
uses acknowledgements for congestion control
connection setup with handshake
feature negotiation

How these facts were elicited

Referenced by (2)

Full triples — surface form annotated when it differs from this entity's canonical label.