Session
Poster Session 1
Location
Salt Palace Convention Center, Salt Lake City, UT
Abstract
Satellite swarms are transforming space exploration by enabling cost-effective missions and distributed onboard intelligence. Precise formation control is critical for optimized data collection, collaborative sensing, and collision avoidance. NASA’s Starling mission demonstrates how scalable, autonomous swarms enable satellites to operate as a coordinated network in low Earth orbit [1]. This research project offers a practical, cost-effective platform for testing agile swarm formation control using physical robots, enabling testing and validation of formation control algorithms and evaluating their effectiveness. This project tests Interstel’s iCOSMOS-Swarm, a software platform designed for autonomous coordination of unmanned vehicle swarms. The formation includes four robots to represent ChildSats and a static computer to represent the Mothership.
Document Type
Event
Robot Swarm: A Test Platform for Spacecraft Formations
Salt Palace Convention Center, Salt Lake City, UT
Satellite swarms are transforming space exploration by enabling cost-effective missions and distributed onboard intelligence. Precise formation control is critical for optimized data collection, collaborative sensing, and collision avoidance. NASA’s Starling mission demonstrates how scalable, autonomous swarms enable satellites to operate as a coordinated network in low Earth orbit [1]. This research project offers a practical, cost-effective platform for testing agile swarm formation control using physical robots, enabling testing and validation of formation control algorithms and evaluating their effectiveness. This project tests Interstel’s iCOSMOS-Swarm, a software platform designed for autonomous coordination of unmanned vehicle swarms. The formation includes four robots to represent ChildSats and a static computer to represent the Mothership.
