AI for Maneuver Planning & Decision Support
AI for Maneuver Planning & Decision Support
TALOS AI is designed to help transform conjunction awareness into action. By combining advanced analytics, maneuver modeling, and orbital simulation, TALOS helps operators explore and compare maneuver options that balance risk, delta-v, and mission objectives.
Key Features
AI-Driven Maneuver Planning
Tailored AI solutions for space training & operations — from GEO wargaming to real-time course of action (CoA) recommendations in LEO.
Agnostic & Interoperable
Open, agnostic, and interoperable by design — TALOS integrates new data sources, types, schemas, and phenomenologies to meet your mission needs.
Secure & Deployable Across Multiple Security Levels
Designed for government and defense use, with deployment options that support unclassified and classified environments.
Flowbase User Experience
A modular, operator-focused interface for comparing multiple maneuver plans side-by-side. Users can visualize delta-v, timeline impacts, and risk profiles in near real time to support decision-making before committing to an action.
Example Use Cases
Government & Defense
Explore rendezvous and proximity operations (RPO) scenarios across fleets, preview multiple maneuver options, and support operator decision-making before mission commands are finalized.
Fleet Operators
Support the generation and comparison of delta-v-efficient maneuver options, analyze post-burn trajectories, and archive results to support audit and reporting workflows.
Analysts & Engineers
Analyze predicted vs. observed flight paths, quantify maneuver outcome metrics, and visualize orbital impacts over time.
Developers
Integrate TALOS maneuver outputs and analysis data into custom dashboards through available APIs.
Seradata
The industry’s trusted source for satellite, launch, and space event intelligence. With a continuously updated catalog and deep historical archive, it’s the go-to reference for insurers, operators, and analysts worldwide.
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.
Developer Docs
Centralized documentation hub for APIs and future MCP server integrations supporting Slingshot’s ecosystem. Built for engineers, integrators, and researchers building with Slingshot data.
Processing, Fusion and Analysis Tools
Processing and fusion systems that transform raw sensor observations into high-fidelity orbital products and actionable insights.