Litcius/Paper detail

Ring Road Networks: Access for Anyone

Marius Feldmann, Juan A. Fraire, Felix Walter, Scott Burleigh

2022IEEE Communications Magazine18 citationsDOI

Abstract

Several billion people currently lack reliable access to the Internet and thus to a tremendous source of knowledge. In this article, we describe a field-tested communication approach combining CubeSat platforms and delay-tolerant networking (DTN) solutions to provide asynchronous connectivity to populations and regions that are underserved by the Internet. The resulting class of networks is known as ring road networks (RRNs), a networking approach that is built on technology developed for the construction of a solar system Internet. The necessary self-sufficiency of DTN nodes enables network access to be deployed incrementally at low cost, supporting communities that cannot be profitably served by Internet satellite constellations. We present the RRN architecture and evaluate the expected performance by means of simulations. Based on the latter, we discuss µD3TN: a lightweight and open source DTN protocol stack for RRNs and other DTN classes. µD3TN has been flight-tested in ESA's OPS-SAT in low Earth orbit during December 2020 and May 2021. This work discusses the experiment results as we validated the RRN approach in concrete application use cases. The reported outcomes motivate a new application domain.

Topics & Concepts

Computer scienceThe InternetAsynchronous communicationComputer networkProtocol stackDomain (mathematical analysis)Delay-tolerant networkingInternet accessArchitectureTelecommunicationsRouting protocolRouting (electronic design automation)World Wide WebMathematical analysisWireless sensor networkArtOptimized Link State Routing ProtocolMathematicsVisual artsOpportunistic and Delay-Tolerant NetworksDistributed systems and fault toleranceSatellite Communication Systems