Autonomous robot swarms that grab, move, and place payloads in space — of any mass, shape, or distribution. Hundreds of robots, hundreds of simultaneous payloads.
▸ Request accessThat doesn't scale. As launch costs collapse, the number of objects in orbit explodes — yet today every payload carries its own propulsion, like every shipping box having its own drivetrain.
Constellations of autonomous robotic spacecraft — thrusters, grippers, onboard coordination — converge on a payload, grab it, reposition it, and release it. The intelligence lives in the swarm, not the cargo.
If SpaceX is building the railroad, Stelaris is the distribution layer — the FedEx of space.
How the swarm decides, coordinates, and adapts — multi-agent RL with prediction-based control, being built now in simulation.
The physical robots — thrusters, grippers, and structure designed for modularity and resilience.
Fleet-scale scheduling and routing that matches payloads to robots across the constellation.
The algorithmic kernel — multi-agent coordination with prediction-based control — is being validated in simulation today, across a live cluster of compute nodes. That engine is the foundation the product is built on, and the counter above is its running tally.