Paratech Technology
Smart cargo recovery for the future of space
Space cargo that is lost on its return to earth?
Every year, tons of space equipment and materials return to Earth unchecked, ending up in the ocean, remote areas or destroyed on impact. This not only entails an economic loss of millions of dollars, but also contributes to the contamination of the planet with technological debris that is difficult to track and recover.
Technology to transform critical sectors into advanced solutions
The Paratech project is one of the latest technologies developed by Invicsa Airtech within the framework of the ESA BIC (European Space Agency) space incubator. The objective is clear: to safely, accurately and sustainably recover various items used in the aerospace sector, such as unmanned aerial platforms operating in the stratosphere (HAPS), rocket launchers, stratospheric balloons and other devices operating in the stratosphere.Smart cargo recovery for the future of space.
Instead of letting these systems fall out of control or end up useless after a mission, Paratech proposes an advanced solution: an autonomous parachute system guided by artificial intelligence, capable of controlling the descent and directing the payload to a specific landing point.
Non-impact load recovery:
accurate, autonomous and environmentally friendly
BENEFITS OF PARATECH TECHNOLOGY
Safe recovery of reusable equipment
Precise landing at the desired point
Reduction of logistics and production costs
Reduction of the ecological footprint
Adaptable to multiple air and space platforms
Paratech marks a step forward in the sustainability and efficiency of the aerospace sector, making possible what until now was only desirable:
recovering what we throw into the sky.
How does it work?
The Paratech system uses different types of technical parachutes, selected according to altitude, weight and type of mission.
Once deployed, the on-board system analyses its environment in real time (position, wind, obstacles…) and, using artificial intelligence algorithms, actively guides the parachute so that the payload descends smoothly and lands exactly where it is desired.
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