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Flyability - Version Elios 3 -Autonomy Engine Software
The Elios 3 Autonomy Engine combines real-time perception, intelligent navigation, and adaptive flight control to support complex indoor inspections in challenging GPS-denied environments.
In manual drone operations, managing battery levels, navigating in low-visibility conditions, and handling tight exit paths adds pressure and leaves little margin for error. By integrating intelligence into every flight, Elios 3 Autonomy simplifies operations, reinforces safety margins, and expands who can confidently execute complex missions.
Spend less mental energy managing flight risks and more time focusing on the inspection itself.
Automation enables faster results with consistent, repeatable data that cannot be achieved manually.
Complex missions become accessible to more teams, enabling safer and more scalable inspection operations.
With advanced sensing and real-time environmental awareness, Elios 3 Autonomy continuously interprets its surroundings and solves complex navigation in real time — so you can fly further, inspect deeper, and operate with total confidence.
Autonomous Repeat Flight allows operators of any skill level to replay a previously recorded mission with a single click. The drone follows the same trajectory and revisits the same Points of Interest (POIs), capturing data from near-identical positions and viewpoints every time.
With Smart Return-To-Home, the Elios 3 doesn`t just return — it thinks its way back. The system automatically calculates the shortest, safest path home, actively detecting and avoiding obstacles along the way.
After a battery swap, Resume Inspection autonomously guides the drone back to the last Return-to-Home trigger point, following the shortest route to save time, maintain efficiency, and minimize mission downtime.
The Flight Time Management Gauge continuously monitors battery levels and alerts you when it`s time to return. It calculates the shortest optimal route back to the home point, ensuring timely and predictable exits while maximizing usable flight time.