SPARTAN is a secure, adaptive routing and autonomy framework for unmanned systems operating in denied, degraded, intermittent, and limited (DDIL) communications and navigation-contested environments. Designed to maintain operational continuity under threat, SPARTAN enables resilient navigation, dynamic path selection, and secure coordination across distributed platforms. Its architecture combines quantum-secure communications with autonomous decision-making to ensure mission performance when traditional control links are disrupted.

SPARTAN leverages multi-modal inputs to support collaborative routing, threat-aware repositioning, and distributed mission-state updates across mobile teams. Built for lightweight integration into airborne, maritime, and ground systems, it enables edge-level autonomy in scenarios where network degradation, signal denial, or environmental uncertainty threaten operational success. SPARTAN advances mission agility by supporting decentralized execution and adaptive maneuver in highly dynamic battlespaces.

SPARTAN operates as a modular communications and autonomy layer for tactical drone operations, secure relay networks, and resilient ISR missions. It is compatible with a range of open standards, autonomy frameworks, and secure networking overlays. Designed for flexibility and resilience, SPARTAN enhances operational assurance when centralized routing and traditional telemetry links are unavailable or compromised.

PQL's SPARTAN Swarm SIM allows you to experiment with some of the features embedded within the framework. The simulation page is best viewed on desktop or in landscape mode on a mobile device.

For more information, technical briefings, or contracting opportunities, please contact Post Quantum Labs at [email protected].