TY - GEN
T1 - On how to mitigate the packet reordering issue in the explicit load balancing scheme
AU - Taleb, Tarik
AU - Mashimo, Daisuke
AU - Hashimoto, Kazuo
AU - Kato, Nei
AU - Nemoto, Yoshiaki
PY - 2007/12/1
Y1 - 2007/12/1
N2 - Efficient load balancing is an important requirement for intelligent engineering of traffic over all-IP satellite networks. In this regard, the authors have recently proposed an Explicit Loud Balancing (ELB) scheme for next-generalion LEO/MEO satellite systems. In ELB, a congesting satellite requests its neighboring satellites to forward a portion of data, originally destined to travel through the satellite, via alternative paths that do not involve the satellite. While this feature yields better traffic distribution and reduces the overall packet drops that may occur at the congesting satellite, it raises the so-called packet reordering issue. In connection-oriented protocols such as TCP, an out-of-order reception of packets generates duplicate acknowledgments that result in a gratuitous halving of the congestion window. This ultimately degrades the overall throughput of the network. To cope with packet reordering issue in ELB, we suggest some minor modifications to the TCP implementation at the receiver side to enable receivers to judge the actual reason beneath the out of order reception of packets. We compare the performance of our method to that of standard TCP and TCP-PR, a recently proposed scheme for persistent packet reordering. Depending on the traffic characteristics and the satellite constellation type, discussion on the advantages and pitfalls of each scheme is given.
AB - Efficient load balancing is an important requirement for intelligent engineering of traffic over all-IP satellite networks. In this regard, the authors have recently proposed an Explicit Loud Balancing (ELB) scheme for next-generalion LEO/MEO satellite systems. In ELB, a congesting satellite requests its neighboring satellites to forward a portion of data, originally destined to travel through the satellite, via alternative paths that do not involve the satellite. While this feature yields better traffic distribution and reduces the overall packet drops that may occur at the congesting satellite, it raises the so-called packet reordering issue. In connection-oriented protocols such as TCP, an out-of-order reception of packets generates duplicate acknowledgments that result in a gratuitous halving of the congestion window. This ultimately degrades the overall throughput of the network. To cope with packet reordering issue in ELB, we suggest some minor modifications to the TCP implementation at the receiver side to enable receivers to judge the actual reason beneath the out of order reception of packets. We compare the performance of our method to that of standard TCP and TCP-PR, a recently proposed scheme for persistent packet reordering. Depending on the traffic characteristics and the satellite constellation type, discussion on the advantages and pitfalls of each scheme is given.
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U2 - 10.1109/GIIS.2007.4404161
DO - 10.1109/GIIS.2007.4404161
M3 - Conference contribution
AN - SCOPUS:47349109589
SN - 1424413753
SN - 9781424413751
T3 - 2007 1st International Global Information Infrastructure Symposium, GIIS 2007 - "Closing the Digital Divide"
SP - 14
EP - 19
BT - 2007 1st International Global Information Infrastructure Symposium, GIIS 2007 - "Closing the Digital Divide"
T2 - 2007 1st International Global Information Infrastructure Symposium, GIIS 2007
Y2 - 2 July 2007 through 2 July 2007
ER -