It is an autonomous reconnaissance vehicle can be hand launched and transported by one person and is designed to meet strategic needs of intelligence, reconnaissance and target acquisition at short range. MPLAR uses neural networks to recognize and autonomously pursue the targets it has been trained for. Thanks to “Launch and Forget”, mission mode, the operator is exempted from the duty of constantly monitoring the video/data stream. The architecture flexibility and the capability to integrate customized solutions based on specific customer requests, makes MPLAR an incredibly versatile instrument, able to adapt to different mission profiles and to guarantee a 24h operational continuity in any meteorological condition.
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.
Hardware and software encryption, to tailor safety at the highest standard.
Our activity and projects involve several aspects, such as design and handling of satellite launchers.
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.
Artificial Intelligence implements a navigation system that guarantees a centimetric accuracy in landing.
To navigate using satellite images updated in real time.
A quick and easy to handle way to interact with Artificial Intelligence.
To prevent what is not contemplated in pre-existing model.
Artificial Intelligence enables our devices to position and move according to target and mission programs.
A long lasting autonomy is a crucial feature for autonomous and surveillance programs.
To know and monitor a target status can help to prevent failures, safety issues and avoidable expenses.
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.
Hardware and software encryption, to tailor safety at the highest standard.
Our activity and projects involve several aspects, such as design and handling of satellite launchers.
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.
Artificial Intelligence implements a navigation system that guarantees a centimetric accuracy in landing.
To navigate using satellite images updated in real time.
A quick and easy to handle way to interact with Artificial Intelligence.
To prevent what is not contemplated in pre-existing model.
Artificial Intelligence enables our devices to position and move according to target and mission programs.
A long lasting autonomy is a crucial feature for autonomous and surveillance programs.
To know and monitor a target status can help to prevent failures, safety issues and avoidable expenses.
Robot and mission safety is a primary concern and obstacle avoidance is guaranteed.
Our robots actively communicate and arrange to manage missions like a swarm, in which everyone acts according to its peculiar technical characteristics.
To analyse and detect any detail or process in image composition.
For complex image handling and multipurpose uses.
Able to notice and elaborate image details, to identify humans respecting privacy policies.
Temperature evaluation at different wavelengths can provide essential data.
Normalized Difference Vegetation Index describes the vigour level of vegetation and cultures.
A powerful sensor to investigate several variables.
To control many variables with one single sensor, reducing size and complexity.
H4R SMART AVIONICS
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