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