Title :
Reliable Transport in Delay-Tolerant Networks With Opportunistic Routing
Author :
Sassatelli, Lucile ; Ali, Ahmad ; Panda, Madhumita ; Chahed, Tijani ; Altman, Eitan
Author_Institution :
Lab. I3S, Univ. Nice Sophia Antipolis, Sophia Antipolis, France
Abstract :
This paper tackles the issue of reliable transport in delay-tolerant mobile ad hoc networks (DTNs) that are operated by some opportunistic routing algorithm. We propose a reliable transport mechanism that relies on acknowledgements (ACKs) and coding at the source. The various versions of the problem depending on buffer management policies are formulated and a fluid model based on mean-field approximation is derived for the designed reliable transport mechanism. This model allows both the mean file completion time and the energy consumption to be expressed up to the delivery of the last ACK at the source. The accuracy of this model is assessed through numerical simulations and a detailed investigation of the impact of the system parameters on the performance is conducted. We eventually present a joint optimization of the mean completion delay with or without an energy constraint, to identify the optimal set of parameters to use.
Keywords :
approximation theory; delay tolerant networks; mobile ad hoc networks; network coding; optimisation; telecommunication network reliability; telecommunication network routing; ACKs; DTN; MANET; acknowledgements; buffer management policies; delay-tolerant networks; energy consumption; fluid model; mean completion delay optimization; mean file completion time; mean-field approximation; mobile ad hoc networks; opportunistic routing algorithm; reliable transport mechanism; source coding; Approximation methods; Delays; Encoding; Relays; Reliability; Routing; Wireless communication; Reliable transport; delay-tolerant networks; fluid models; mobile ad hoc networks; random coding;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2014.2327227
