Sulaiman Al Ali, Chief Commercial Officer – Business at Space42, discusses how local satellite assembly and testing, AI-powered geospatial intelligence, and strategic partnerships are strengthening the UAE’s position in the global space ecosystem while delivering real-world impact across mobility, environmental monitoring, and national security.
The UAE is accelerating its ambitions to become a global leader in space technology, geospatial intelligence, and artificial intelligence, with investments focused on building sovereign capabilities across the entire value chain. From satellite assembly, integration and testing to AI-powered geospatial platforms, the country is moving beyond data consumption towards developing advanced technologies that support national security, infrastructure planning, environmental monitoring, and economic diversification.
Sulaiman Al Ali, Chief Commercial Officer – Business at Space42, discusses how the company is strengthening local engineering capabilities through strategic partnerships, advancing the UAE’s position in the global space ecosystem, and harnessing the power of AI and geospatial intelligence to deliver real-world outcomes.
Ali also shares insights into talent development, sovereign space infrastructure, and how integrated Earth observation and AI systems are helping organisations make faster, more informed decisions across critical sectors.
Interview Excerpts
How is Space42 strengthening in-country assembly, integration, and testing to move the UAE higher up the space and geospatial value chain?
Space42 is strengthening the UAE’s position within the industry ecosystem by moving from access to owned capability. In-country assembly, integration, and testing gives the UAE greater sovereignty over how advanced Earth observation systems are developed and ultimately scaled.
Partnerships play a central role in this process. Through our work with ICEYE, we have advanced the Foresight SAR constellation while building the technical depth required to localise critical parts of the value chain. It involved a deliberate knowledge-transfer model, whereby our teams worked closely with ICEYE gaining hands-on exposure to the standards, disciplines, and technical requirements needed to work with advanced SAR satellites. The skill sets developed directly supported operations within Space42’s AIT facility in Abu Dhabi. The successful integration and testing of Foresight-3, Foresight-4, and Foresight-5 in Abu Dhabi reflects that transition from partnership-enabled learning to operational capability inside the UAE.
Earth Observation is becoming increasingly important for national security and resilience, infrastructure planning, environmental monitoring, and emergency response.
“By developing sovereign SAR and AIT capabilities, the UAE is moving higher up the space value chain, from consuming space-based data to developing integrated solutions that support national priorities and create long-term economic value.”
How does GIQ’s development on Microsoft Azure elevate the UAE’s global AI and space standing, and what real-world impacts do AI and geospatial intelligence have on mobility, environment, and security?
The availability of GIQ, Space42’s AI-powered geospatial intelligence platform on Microsoft Azure Marketplace, expands both our global footprint and the reach of the UAE’s space industry.
Data exists in abundance; satellites, High Altitude Platform Systems (HAPS), aerial surveys, and ground sensors continue to produce more geospatial information than most organisations can process. The challenge is turning that information into actionable intelligence.
GIQ brings together input from multiple sources, including the Foresight SAR constellation’s high-resolution, all-weather Earth Observation data, HAPS’ persistent near-space sensing, and third-party insights. This is synthesised by AI models that identify patterns and changes, to create decision-grade output. Through Microsoft Azure, customers can access these capabilities globally, train models to manage their own data, and maintain governance over what remains in their environment.
The practical applications are broad. In mobility, GIQ can support high-definition mapping, route planning, digital twins, and the data foundations needed for smarter transport systems. In environmental monitoring, it can help track floods, climate risks, land-use change, and natural disasters. In national security, it can support faster situational awareness across borders, maritime activity, and critical infrastructure.
What role do strategic partnerships, including collaboration with the UAE Space Agency, play in building local engineering capabilities and talent pipelines?
Strategic partnerships localise global expertise and in turn build exportable space-based capabilities. In our field, progress depends on live programs, hands-on engineering, and sustained exposure to advanced systems.
A clear example is our collaboration with the UAE Space Agency, through which GIQ was originally developed as a platform to integrate and analyse data from different national sources. What began as a UAE-focused effort has since evolved into a global AI-powered platform that supports decision-making across sectors.
Our partnership with the Abu Dhabi Investment Office (ADIO) gave rise to the Space Systems AIT facility, and paved the way for local talent development. Through assembly, integration, and testing, we have been able to strengthen engineering judgment, allowing on-ground teams to act on their own data quickly and effectively.
“Our engineers have calibrated payloads and run technical qualification on Foresight missions from Abu Dhabi, with each program growing the team’s cumulative skill set.”
Can you share real-world use cases where integrated geospatial and AI systems have improved visibility, coordination, and decision-making outcomes?
During the UAE floods in 2024, Space42 used satellite-based Earth observation and AI-powered analytics to support near real-time visibility of affected areas, despite challenging weather conditions. This helped turn complex geospatial data into a clearer operational picture at a time when speed and coordination were critical.
That visibility allowed response efforts to be prioritised more effectively. Authorities could better understand where the impact was most severe, deploy resources with greater precision, and coordinate agencies through stronger situational awareness.
The value of this approach extends beyond emergency response. Across use cases, our integrated geospatial and AI systems have shown measurable impact, including reducing predictive maintenance costs by up to 30%, improving emergency response times by up to 90%, and reducing operational inefficiencies by up to 25%.