Aero Drop Systems (ADS) has developed Pathfinder, a proprietary autonomous navigation framework designed to reduce dependence on GNSS-based positioning. Pathfinder is signal-resilient, capable of maintaining precision even in complete GNSS dead zones and unaffected by deceptive interference.

At the core of Pathfinder lies an array of sensors and advanced self-regulating logic driven by machine learning. Unlike traditional systems that treat GPS as a singular source of truth, Pathfinder fuses a constant stream of information from multiple internal and external domains and dynamically rebalances itself in real time as it evaluates, cross-verifies, and refines its positional understanding based on an algorithm that classifies the trustworthiness of each data stream.

The result is a self-correcting navigation intelligence that can anticipate changing conditions, isolate false data, and continue to perform when other systems cannot. This allows Pathfinder to sustain highly accurate navigation during satellite connection or radio frequency outages or when being targeted with jamming or spoofing.

Designed as a modular framework, Pathfinder can be integrated across a range of fully autonomous platforms operating on land, at sea, or in the air. Its flexible architecture makes it suitable for both commercial logistics and defense applications, where navigation integrity is critical to mission success.

Currently in the testing phase, Pathfinder is part of ADS’s broader initiative to develop resilient, autonomous logistics technologies capable of performing in contested and complex environments. ADS has confirmed that Pathfinder will serve as the core navigation technology for the platform Aerocrate. Aerocrate is a disposable, autonomous aerial delivery system that enables precise, reliable resupply without requiring recovery operations, staging areas, or active communication with the platform.