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On-Board Federated Learning for Dense LEO Constellations

Nasrin Razmi, Bho Matthiesen, Armin Dekorsy, Petar Popovski

2022ICC 2022 - IEEE International Conference on Communications66 citationsDOIOpen Access PDF

Abstract

Mega-constellations of small-size Low Earth Orbit (LEO) satellites are currently planned and deployed by various private and public entities. While global connectivity is the main rationale, these constellations also offer the potential to gather immense amount of data, e.g., for Earth observation. Power and bandwidth constraints together with motives like privacy, limiting delay, or resiliency make it desirable to process this data directly within the constellation. We consider the implementation of on-board federated learning (FL) orchestrated by an out-of-constellation parameter server (PS) and propose a novel communication scheme tailored to support FL. It leverages intraorbit inter-satellite links, the predictability of satellite movements and partial aggregating to massively reduce the training time and communication costs. In particular, for a constellation with 40 satellites equally distributed among five low Earth orbits and the PS in medium Earth orbit, we observe a 29× speed-up in the training process time and a 8× traffic reduction at the PS over the baseline.

Topics & Concepts

ConstellationComputer scienceLimitingLow earth orbitEarth observationSatelliteCommunications satelliteBandwidth (computing)Process (computing)On boardPredictabilityScheme (mathematics)Satellite constellationOrbit (dynamics)Real-time computingTelecommunicationsComputer networkAerospace engineeringEngineeringOperating systemQuantum mechanicsMathematical analysisPhysicsMechanical engineeringAstronomyMathematicsSatellite Communication SystemsAge of Information OptimizationIoT Networks and Protocols
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