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Computational Nanosatellite Constellations

Brandon Lucia, Brad Denby, Zachary Manchester, Harsh Desai, Emily Ruppel, Alexei Colin

2021GetMobile Mobile Computing and Communications34 citationsDOI

Abstract

As rocket launch cadences increase, access to space rises dramatically - setting the stage for the next space industry surge. New, smaller, and less expensive satellites - now "nanosatellites" - can be deployed en masse to form constellations of hundreds, thousands, or even tens of thousands of devices [27, 40, 41, 16, 17, 18, 43]. A constellation of nanosatellites equipped with sensors (e.g., visual or hyperspectral cameras, particle detectors, or magnetometers) and radios provides a first-time opportunity for orbital swarm sensing to synthesize data from the unique vantage point of low-Earth orbit (LEO).

Topics & Concepts

ConstellationLow earth orbitMagnetometerAerospace engineeringComputer scienceRemote sensingSatelliteSpace debrisSpacecraftOrbit (dynamics)Rocket (weapon)PhysicsEngineeringGeologyAstronomyMagnetic fieldQuantum mechanicsSpacecraft Design and TechnologySatellite Communication SystemsSpacecraft Dynamics and Control
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