Abstract—In predictable mobile networks, network nodes move in a predictable way and therefore have dynamically changing but predictable connectivity. We have developed a model that formalizes predictable dynamic topologies as sequences of static snapshots. We use this model to design and evaluate a predictable mobile-routing protocol based on link-state routing, whose performance is superior to its static and ad-hoc counterparts. Our routing protocol accounts for occurrences of additional, unpredictable changes, as well as their interaction with predictable changes. We evaluate our protocol using simulations based on randomly generated topologies and spacecraft-network scenarios. In both cases, we show that our protocol outperforms traditi...
Arbitrary and random motion of mobile ad hoc network nodes while communicating results in frequent t...
International audienceExisting Internet protocols assume persistent end-to-end connectivity, which c...
Extending the terrestrial Internet beyond Earth introduces challenges bigger than what traditional I...
Abstract—Predictable mobile networks are dynamic in terms of the mobility and connectivity of the ne...
By exploiting non-random behaviors for the mobility patterns that mobile users exhibit, we can predi...
Mobile radio communication networks in the operational theater exhibit volatile network topology wit...
[Abstract] The research presents a routing protocol for exchange of routing information among vastly...
Due to the dynamic change of the opportunistic network topology and the lack of stable information t...
Link disruption has a considerable impact on routing in multilayered satellite networks, which inclu...
We consider the problem of routing in emerging wireless networks where nodes move around explicitly ...
Abstract—Just as terrestrial networks have shifted to routed, message centric networks, the satellit...
Routing algorithms constitute an important area for the packet transmission in satellite networks. T...
Ad hoc network consists of a set of identical nodes that move freely and independently and communica...
International audienceSince wireless ad-hoc networks with mobile nodes have not stable topology, the...
Frequent changes in network topologies caused by mobility in. mobile ad hoc networks (MANETs) impose...
Arbitrary and random motion of mobile ad hoc network nodes while communicating results in frequent t...
International audienceExisting Internet protocols assume persistent end-to-end connectivity, which c...
Extending the terrestrial Internet beyond Earth introduces challenges bigger than what traditional I...
Abstract—Predictable mobile networks are dynamic in terms of the mobility and connectivity of the ne...
By exploiting non-random behaviors for the mobility patterns that mobile users exhibit, we can predi...
Mobile radio communication networks in the operational theater exhibit volatile network topology wit...
[Abstract] The research presents a routing protocol for exchange of routing information among vastly...
Due to the dynamic change of the opportunistic network topology and the lack of stable information t...
Link disruption has a considerable impact on routing in multilayered satellite networks, which inclu...
We consider the problem of routing in emerging wireless networks where nodes move around explicitly ...
Abstract—Just as terrestrial networks have shifted to routed, message centric networks, the satellit...
Routing algorithms constitute an important area for the packet transmission in satellite networks. T...
Ad hoc network consists of a set of identical nodes that move freely and independently and communica...
International audienceSince wireless ad-hoc networks with mobile nodes have not stable topology, the...
Frequent changes in network topologies caused by mobility in. mobile ad hoc networks (MANETs) impose...
Arbitrary and random motion of mobile ad hoc network nodes while communicating results in frequent t...
International audienceExisting Internet protocols assume persistent end-to-end connectivity, which c...
Extending the terrestrial Internet beyond Earth introduces challenges bigger than what traditional I...