dynamic_DANA


Autonomous onboard maneuvering and in-orbit servicing


Smart maneuvering, for a safer Space.



The smart way to navigate Space

dynamic_DANA is AIKO's innovative onboard maneuvering solution designed to enhance the safety and efficiency of spacecraft operations in the increasingly congested low Earth orbit environment.

By leveraging advanced AI algorithms, dynamic_DANA enables autonomous spacecraft maneuvering, allowing satellites to autonomously avoid collisions, adjust their orbits, and perform other critical tasks without direct human intervention.


Fully automated, perfectly controlled.

Dynamic_DANA is a comprehensive suite of algorithms that enables autonomous execution of various GNC tasks, including:

Collision Avoidance: by using advanced sensors and algorithms to detect potential collisions and autonomously maneuver the spacecraft to avoid them.

Orbit Adjustments: dynamic_DANA can accurately adjust a satellite's orbit to meet mission requirements or to avoid debris fields.

Mapping Unidentified Objects: by identifying and map unidentified objects in space, providing valuable information for collision avoidance and situational awareness.

Target Approach: dynamic_DANA can autonomously navigate a spacecraft towards a designated target, enabling tasks such as rendezvous, docking, or in-orbit servicing. 


Say Goodbye to Latency with dynamic_DANA

Dynamic_DANA reduces dependence on ground control and boosts mission flexibility.
It automates critical tasks like collision avoidance and orbit adjustments, ensuring both safety and longer satellite lifespans.

With advanced algorithms, dynamic_DANA optimizes fuel use and minimizes latency, leading to more efficient, cost-effective operations.
This autopilot solution is essential for operators seeking to enhance mission autonomy, safety, and operational efficiency. 


HERITAGE

dynamic_DANA builds upon AIKO's proven track record in AI-based space navigation. AIKO's involvement in projects like AIVIONIC, ATENA, and DEEPNAV has solidified its expertise in developing and deploying AI solutions for challenging navigation tasks.
  Key achievements from these projects include:

AIVIONIC (lead by Deimos Elecnor): Demonstrated the feasibility of AI-based techniques for relative navigation, including rendezvous and landing on celestial bodies.

ATENA (lead by GMV): Developed AI algorithms for feature tracking and enhanced relative navigation systems, showcasing the potential of AI in automating deep space operations.

DEEPNAV (lead by AIKO): Successfully developed and tested AI-based visual navigation solutions for small satellites approaching asteroids, further strengthening AIKO's capabilities in this domain. 


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