Smart Avionics

Ability to design and build platforms that can be integrated on any robot of ours, to make them cooperate and work autonomously in any environment.

Ability to create custom software to manage robots and devices singularly and in swarming, making them cooperate in every environment (space, air, land, water).

Ability to design and integrate platforms that support requested software and or sensors on any robot of ours, to make them cooperate and work autonomously in any environment.

Control and protection system for rugged elements, to guarantee durability, resistance and functioning in challenging environments.

To navigate using satellite images updated in real time.

Inertial navigation and asset control system designed for device dynamics monitoring; it uses onboard computer to operate corrections.

Smart detection of trellis during flight operation, to help in adverse condition and reduce accidental collision (main accident cause in HEMS operation).

Our devices are designed to be able to change mission profile in real time: they can either autonomously, or through remote control modify their program.

Ability to design and build platforms that can be integrated on any robot of ours, to make them cooperate and work autonomously in any environment.

Ability to create custom software to manage robots and devices singularly and in swarming, making them cooperate in every environment (space, air, land, water).

Ability to design and integrate platforms that support requested software and or sensors on any robot of ours, to make them cooperate and work autonomously in any environment.

Control and protection system for rugged elements, to guarantee durability, resistance and functioning in challenging environments.

All our devices are equipped with Artificial Intelligence, to execute missions autonomously, make calculations and elaborations onboard 24/7 and change profile missions in real time.

To navigate using satellite images updated in real time.

Inertial navigation and asset control system designed for device dynamics monitoring; it uses onboard computer to operate corrections.

Smart detection of trellis during flight operation, to help in adverse condition and reduce accidental collision (main accident cause in HEMS operation).

Our devices are designed to be able to change mission profile in real time: they can either autonomously, or through remote control modify their program.

Manipulation and training of CNN enables us to analyse both onboard and post-acquisition datasets collected by any device or generated through machine learning techniques.

Any flying robot can be trained to have better performances according to environmental conditions, pre-existing hardware and profile mission.

A powerful device for remote design, interaction and training in 3D, featuring a software up to date technique that greatly eases every process.

To provide data collection with video or thermal cameras, depending on purpose. Data can be processed onboard for a real time detection.