Our Vision

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•   Self-flying, autonomous space systems by implementing Artificial Intelligence on-board for day-to-day operations and functions, with the human role reduced to monitoring and emergency responsiveness

•   Artificial Intelligence not only offers increased performance compared to legacy architectures, but is the most enabling technology for advanced space missions in the near future

•   Key spacecraft operations to be managed by Artificial Intelligence will include Altitude Control, Station Keeping, Fault Detection Isolation & Recovery (FDIR), and Power Management etc.     

 

The market

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•    The Space Industry value chain is currently estimated at approximately $350 billion and will grow to $2.7 trillion by 2040, according to recent studies by Bank of America/Merrill Lynch (Space Age 2.0) 

•    Growth drivers are new satellite technologies such as the Low Earth Orbiting (LEO) constellations, Earth data collection and observation, outer space scientific missions, commercial human spaceflights 

•  Our potential customers are the satellite operators (GEO, LEO, MEO) worldwide

 

Space Industry Challenges

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•   Traditionally, the three basic functions of spacecraft operations are Telemetry monitoring, Tracking and Commanding (TT&C). 

•  Satellite operational activities and their prior planning are typically labor-intensive. 

•  Emerging space-based architectures will stretch the capacity of current spacecraft operations

•  Future missions may need high-speed data links, more complex ground infrastructure, advanced software solutions and on-board automations

•    We believe that Artificial Intelligence will be a disruptor for the Space Industry, which will facilitate, enable and accelerate further growth and investment opportunities

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Our product: Intellspace Station Keeper

 

•    State-of-the-art Artificial Intelligence (AI) software solution 

•   First ever implementation of Artificial Intelligence to the satellite and space industry

•    A real space and industry marker disruptor

•    Optimization and automation of the satellite Station keeping operations

•    Key benefits for the satellite operators:

•    Reduction of the human factor involvement and errors

•  Reduction of the number of SCC operators and Orbit analysis engineers, resulting in reduction of the satellite operators running costs and OPEX

•    Extension of the satellite on-orbit End-Of-Life (EOL) expectancy by optimizing the fuel consumption during station keeping maneuvers resulting in significant increase of the company’s revenues

•    Improve spacecraft reliability and operational autonomy

•    Analysis and optimization of the satellite big data for future missions

•    Enhancement of the Cyber Security by adding 3rd party Artificial Intelligence based Cyber Security software suite

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