Sandbox Environment for the Orbital Domain
Key Features
Interactive Maneuver Planning
Drag-and-drop interface for defining and testing impulsive maneuvers in simulation and observing the results.
Historical Data Replay
Visualize and explore past high-interest events using available datasets and orbital playback tools.
No-Code Sandbox Environment
Designed for accessibility — run scenarios and explore orbital behaviors with no programming required.
Scenario & Mission Editor
Create, edit, and share saved mission states to support repeatable training or exploratory testing.
Integrated Orbital Visualizations
Explore orbits and trajectories through a dynamic visualization environment, with planned support for access geometries. Users can switch between reference frames, analyze viewing opportunities, and build a richer understanding of spatial relationships and orbital behavior.
Example Use Cases
Students & Instructors
Gain hands-on experience with real orbital mechanics concepts using guided scenarios and self-paced exercises.
Space Operators
Train teams on conjunction risk workflows, orbital planning, and maneuver analysis without needing live system access.
Mission Analysts
Model new orbits, test orbital behaviors, or replay historical events to explore risk factors and system reliability.
Partners & Researchers
Use Laboratory as a sandbox to explore new algorithms, UI concepts, or cross-domain interoperability.
Data Catalog
Central data hub connecting the Slingshot Global Sensor Network (SGSN) and Sovereign Space Object Tracking (SSOT). Provides continuous, high-precision orbital intelligence through near real-time sensor data, advanced processing, and on-demand tasking for mission-ready awareness.
Digital Space Twin
An interactive 3D environment for modeling and visualizing near real-time orbital data. Explore missions, maneuvers, and conjunctions in a dynamic spatial context built for operators, analysts, and educators alike.
Processing, Fusion and Analysis Tools
Processing and fusion systems that transform raw sensor observations into high-fidelity orbital products and actionable insights.