2 research outputs found
Can network coding bridge the digital divide in the Pacific?
Conventional TCP performance is significantly impaired under long latency
and/or constrained bandwidth. While small Pacific Island states on satellite
links experience this in the extreme, small populations and remoteness often
rule out submarine fibre connections and their communities struggle to reap the
benefits of the Internet. Network-coded TCP (TCP/NC) can increase goodput under
high latency and packet loss, but has not been used to tunnel conventional TCP
and UDP across satellite links before. We report on a feasibility study aimed
at determining expected goodput gain across such TCP/NC tunnels into island
targets on geostationary and medium earth orbit satellite links.Comment: 5 pages, 3 figures, conference (Netcod2015
Measurement of packet train arrival conditions in high latency networks
Real-time Internet applications such as telephony, video conferencing and remote control are increasing in importance.A critical requirement for such applications is the ability to receive data packets in correct order with minimal delay (latency) and loss of data.Most Internet Service Providers (ISP) try to achieve this by adding bandwidth in the form of additional infrastructure (links and routers) and load balancing to meet the continuous Internet traffic growth.For real-time protocols, such upgrades are not exclusively beneficial, however.They tend to increase the number of routers (and hence router queues) a packet has to pass through, and increase the potential for out-of-order delivery of packets. Our paper presents the baseline results of a longitudinal study investigating the effects of such infrastructure changes on international real-time traffic