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GPS-denied operations. Simulation-first safety. Immutable audit trail. ResQ coordinates swarm responses to disasters before the first responder arrives.
Capabilities
Four core capabilities that separate ResQ from tactical drone systems designed for controlled environments.
Mesh communications enable full swarm coordination even when satellite and cellular infrastructure is destroyed. Drones self-organize and maintain formation without external positioning.
Every behavior is verified in PX4 SITL + Gazebo simulation before deployment. No autonomous action reaches a real drone until it has passed thousands of simulated scenarios.
Every mission decision, route change, and sensor observation is committed to the Neo N3 blockchain and pinned to IPFS. Complete chain of custody from dispatch to recovery.
PDIE ML models forecast disaster spread using historical patterns and live sensor data. Swarms are tasked before human operators recognize the need — minutes matter.
How It Works
PDIE Intelligence Layer
The Predictive Disaster Intelligence Engine analyzes incoming sensor data, satellite imagery, and historical patterns. It forecasts disaster spread and generates swarm tasking recommendations — often before ground teams are alerted.
DTSOP Digital Twin
The Digital Twin Swarm Operations Platform generates optimized multi-drone routes. It avoids no-fly zones in real time, accounts for wind and obstacle data, and runs thousands of micro-simulations before committing a flight plan.
HCE + Edge AI
The Hierarchical Command Engine dispatches the swarm. On-drone edge inference handles real-time obstacle avoidance and sensor fusion autonomously — no network required. Every action is committed to an immutable audit trail.
Use Cases
ResQ is purpose-built for the scenarios where existing aerial systems fail. No GPS, no comms, no problem.
ResQ swarms provide continuous perimeter mapping, detect spot fires, and route safe corridors for firefighting crews — even as comms infrastructure burns.
Thermal and visual sensor fusion identifies survivors on rooftops and in trees. GPS-denied mesh coordinates handoffs between drones without ground station contact.
Optimal grid coverage algorithms distribute the search zone across available drones. PDIE prioritizes sectors based on last-known location and terrain analysis.
Visual-inertial odometry and edge inference keep drones stable in urban environments. Blockchain-logged sensor data provides evidence for post-incident analysis.
If you can't find what you're looking for, get in touch.
ResQ is available to first-responder organizations, government agencies, and disaster response NGOs. Join the early access program.