Deploy at scale
in a single launch
Leverage the power of a constellation, at a lower cost than a single cubesat
Earth Observation
Distributed optics, with each satellite hosting a camera, enables extremely fast revisits, image stacking, 3d stereo optics, and data fusion. While each individual camera lower capabilities than a larger, more traditional camera, by leveraging 20-100 of them, it starts to outperform individual earth observation satellites.
Rapid-Deployable Mesh Network
Enable a larger, "traditional" satellite with the ability host a canister of these satellites, ready to go, in the event of adversarial attack or disrupted radio communications -- and rapidly deploy a mesh radio network on-demand. Think of it as a cell network on demand.
Rapid Prototyping
Rapidly prototype and batch test in space. We can host a component to test, deploy them in-situ across 100 satellites at a lower price point than on-ground testing, and generate 100 hours of space qualification time per real-world hour. Access 73,000 hours of space qual time in one month, for cheaper than on-ground testing, with a faster turnaround time as these things are mass produced, ready to go.
Aggregate Sensing
Dispense a constellation into a space weather storm, patch of high-density neutral particles, etc. to capture data with extreme resolution.