TY - GEN
T1 - Mapping of loss and delay between intserv and diffserv
AU - Chahed, T.
AU - Hébuterne, G.
AU - Fayet, C.
N1 - Publisher Copyright:
© 2000 IEEE.
PY - 2000/1/1
Y1 - 2000/1/1
N2 - End-to-end QoS in IP networks views intserv, as acting on a per-flow basis, at the peripheries of large, core networks whereas diffserv, as acting on an aggregation of flows. In this context, it is necessary to map QoS, in terms of QoS parameters, between the individual and the aggregate flow levels. This is crucial as only the individual, intserv flow performance is relevant to the end user, whereas the aggregate, diffserv view is of interest to the network operator only. A deterministic approach at the packet level reveals the presence of synchronization that may result in biases of loss and delay among the individual flows at a diffserv router, and at the edge router where packets are tagged according to their conformance. We show that, qualitatively, packet loss at the diffserv level results in 'bursty loss' at the intserv level. Quantitatively, packet loss at the diffserv region is first related to consecutive, intserv packet loss and then to the local packet loss at the intserv level. As for delay, synchronization may lead a packet to experience maximum delay at every network element of the end-to-end path.
AB - End-to-end QoS in IP networks views intserv, as acting on a per-flow basis, at the peripheries of large, core networks whereas diffserv, as acting on an aggregation of flows. In this context, it is necessary to map QoS, in terms of QoS parameters, between the individual and the aggregate flow levels. This is crucial as only the individual, intserv flow performance is relevant to the end user, whereas the aggregate, diffserv view is of interest to the network operator only. A deterministic approach at the packet level reveals the presence of synchronization that may result in biases of loss and delay among the individual flows at a diffserv router, and at the edge router where packets are tagged according to their conformance. We show that, qualitatively, packet loss at the diffserv level results in 'bursty loss' at the intserv level. Quantitatively, packet loss at the diffserv region is first related to consecutive, intserv packet loss and then to the local packet loss at the intserv level. As for delay, synchronization may lead a packet to experience maximum delay at every network element of the end-to-end path.
UR - https://www.scopus.com/pages/publications/33750940920
U2 - 10.1109/ECUMN.2000.880723
DO - 10.1109/ECUMN.2000.880723
M3 - Conference contribution
AN - SCOPUS:33750940920
T3 - 1st European Conference on Universal Multiservice Networks, ECUMN 2000
SP - 48
EP - 55
BT - 1st European Conference on Universal Multiservice Networks, ECUMN 2000
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 1st European Conference on Universal Multiservice Networks, ECUMN 2000
Y2 - 2 October 2000 through 4 October 2000
ER -