7 | Cadre Geo

: Used to create 3D frames for domes and specialized spherical buildings.

Using a 20MP or 42MP full-frame camera (such as the Sony RX1R II), the Geo 7 produces sub-1cm ground sampling distance (GSD) at 120m altitude. This is ideal for:

Early fixed-wing drones required a bungee launcher or a hand-throw launch and a belly landing on grass. This limited their use in rocky quarries or dense forests. The Cadre Geo 7 solves this with a quad-plane VTOL configuration. Cadre Geo 7

Cadre Geo 7 comprises five integrated layers:

CADRE Geo 7 is designed to fit into a larger engineering workflow rather than acting as a standalone CAD suite. : Used to create 3D frames for domes

The Cadre Geo 7 is not just another drone on the market; it is a purpose-built, fixed-wing UAV (Unmanned Aerial Vehicle) designed specifically for professional mapping, surveying, and agricultural inspection. While many operators are familiar with multi-rotor drones like the DJI Phantom or Mavic series, the Geo 7 represents a paradigm shift toward long-endurance, wide-area data collection.

For beyond visual line of sight (BVLOS) waivers, the Geo 7’s redundancy systems (dual GPS, airspeed sensor, and return-to-home autopilot) help petition regulators. This limited their use in rocky quarries or dense forests

A mid-sized aggregate mine needed weekly volume checks on three limestone stockpiles totaling 200,000 cubic meters. Traditional GPS rover surveys took 4 hours and posed safety risks (climbing piles).