Contact Graph Routing (CGR) for Delay/Disruption Tolerant Networking (DTN) space-based networks makes use of the predictable nature of node contacts to make real-time routing decisions given unpredictable traffic patterns. The contact graph will have been disseminated to all nodes before the start of route computation. CGR was designed for space-based networking environments where future contact plans are known or are independently computable (e.g., using known orbital dynamics). For each data item (known as a bundle in DTN), a node independently performs route selection by examining possible paths to the destination. Route computation could conceivably run thousands of times a second, so computational load is important. This work refers to...
International audienceContact Graph Routing (CGR) is the state-of-theart deterministic routing appro...
Existing Internet protocols assume persistent end-to-end connectivity, which cannot be guaranteed in...
Extending the terrestrial Internet beyond Earth introduces challenges bigger than what traditional I...
Contact Graph Routing (CGR) is a dynamic routing system that computes routes through a time-varying ...
The Interplanetary Overlay Network (ION) software suite is an open-source, flight-ready implementati...
In this paper, we analyze the performance of two contact graph routing (CGR) enhancements, namely, C...
A Space Internet is possible, as long as the delay and disruption challenges imposed by the space en...
Delay- and Disruption Tolerant Networks (DTNs) are based on an overlay protocol and on the store-car...
Delay- and Disruption Tolerant Networks (DTNs) are based on an overlay protocol and on the store-car...
Contact Graph Routing (CGR) is a dynamic routing system that computes routes through a time-varying ...
Delay Tolerant Networking (DTN) networks have no continuous end-to-end connectivity and data undergo...
This paper proposes a variant of Contact Graph Routing (CGR), the DTN routing algorithm developed by...
The Delay-/Disruption-Tolerant Networking (DTN) architecture was designed to cope with challenges su...
Interplanetary Internet or Interplanetary Networking (IPN) is envisaged as a space network which int...
International audienceExisting Internet protocols assume persistent end-to-end connectivity, which c...
International audienceContact Graph Routing (CGR) is the state-of-theart deterministic routing appro...
Existing Internet protocols assume persistent end-to-end connectivity, which cannot be guaranteed in...
Extending the terrestrial Internet beyond Earth introduces challenges bigger than what traditional I...
Contact Graph Routing (CGR) is a dynamic routing system that computes routes through a time-varying ...
The Interplanetary Overlay Network (ION) software suite is an open-source, flight-ready implementati...
In this paper, we analyze the performance of two contact graph routing (CGR) enhancements, namely, C...
A Space Internet is possible, as long as the delay and disruption challenges imposed by the space en...
Delay- and Disruption Tolerant Networks (DTNs) are based on an overlay protocol and on the store-car...
Delay- and Disruption Tolerant Networks (DTNs) are based on an overlay protocol and on the store-car...
Contact Graph Routing (CGR) is a dynamic routing system that computes routes through a time-varying ...
Delay Tolerant Networking (DTN) networks have no continuous end-to-end connectivity and data undergo...
This paper proposes a variant of Contact Graph Routing (CGR), the DTN routing algorithm developed by...
The Delay-/Disruption-Tolerant Networking (DTN) architecture was designed to cope with challenges su...
Interplanetary Internet or Interplanetary Networking (IPN) is envisaged as a space network which int...
International audienceExisting Internet protocols assume persistent end-to-end connectivity, which c...
International audienceContact Graph Routing (CGR) is the state-of-theart deterministic routing appro...
Existing Internet protocols assume persistent end-to-end connectivity, which cannot be guaranteed in...
Extending the terrestrial Internet beyond Earth introduces challenges bigger than what traditional I...