Presentation Type

Paper (supporting PowerPoints may be added as Additional Files)

Location

Bass Auditorium

Start Date

26-2-2019 2:00 PM

Abstract

Swarms of small spacecraft offer whole new capabilities in Earth observation, global positioning and communications compared to a large monolithic spacecraft. These small spacecraft can provide bigger apertures that increase gain in communication antennas, increase area coverage or effective resolution of distributed cameras and enable persistent observation of ground or space targets. However, there remain important challenges in operating large number of spacecrafts at once. Current methods would require a large number of ground operators monitor and actively control these spacecraft which poses challenges in terms of coordination and control which prevents the technology from scaled up in cost-effective manner. Technologies are required to enable one ground operator to manage tens if not hundreds of spacecraft. We propose to utilize laser beams directed from the ground or from a command and control spacecraft to organize and manage a large swarm.

Each satellite in the swarm will have a customized “smart skin” containing solar panels, power and control circuitry and an embedded secondary propulsion unit. A secondary propulsion unit may include electrospray propulsion, solar radiation pressure-based system, photonic laser thrusters and Lorentz force thrusters. Solar panels typically occupy the largest surface area on an earth orbiting satellite. A laser beam from another spacecraft or from the ground would interact with solar panels of the spacecraft swarm. The laser beam would be used to select a ‘leader’ amongst a group of spacecraft, set parameters for formation-flight, including separation distance, local if-then rules and coordinated changes in attitude and position.

Area of Interest

Space Situational Awareness

Biographies

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Feb 26th, 2:00 PM

Lasers for Communication and Coordination Control of Spacecraft Swarms

Bass Auditorium

Swarms of small spacecraft offer whole new capabilities in Earth observation, global positioning and communications compared to a large monolithic spacecraft. These small spacecraft can provide bigger apertures that increase gain in communication antennas, increase area coverage or effective resolution of distributed cameras and enable persistent observation of ground or space targets. However, there remain important challenges in operating large number of spacecrafts at once. Current methods would require a large number of ground operators monitor and actively control these spacecraft which poses challenges in terms of coordination and control which prevents the technology from scaled up in cost-effective manner. Technologies are required to enable one ground operator to manage tens if not hundreds of spacecraft. We propose to utilize laser beams directed from the ground or from a command and control spacecraft to organize and manage a large swarm.

Each satellite in the swarm will have a customized “smart skin” containing solar panels, power and control circuitry and an embedded secondary propulsion unit. A secondary propulsion unit may include electrospray propulsion, solar radiation pressure-based system, photonic laser thrusters and Lorentz force thrusters. Solar panels typically occupy the largest surface area on an earth orbiting satellite. A laser beam from another spacecraft or from the ground would interact with solar panels of the spacecraft swarm. The laser beam would be used to select a ‘leader’ amongst a group of spacecraft, set parameters for formation-flight, including separation distance, local if-then rules and coordinated changes in attitude and position.