Space AI: Leveraging Artificial Intelligence for Space to Improve Life on Earth

This paper introduces Space AI as a unified interdisciplinary field at the intersection of artificial intelligence and space science and technology. It proposes a systematic framework organizing Space AI into four mission contexts: AI on Earth, AI in Orbit, AI in Deep Space, and AI for Multi-Planetary Life, aiming to accelerate humanity's capability to explore and operate in space while translating advances into broad societal impact on Earth.

Traditional space systems generate massive amounts of data that exceed downlink bandwidth capacities. Furthermore, the latency involved in sending data to Earth for processing prevents real-time responses to critical events like wildfires or tsunamis. Existing space infrastructure is largely 'dumb' and dependent on ground control.

The authors conducted a systematic literature review and technological survey. They analyzed current capabilities in Earth Observation, Communication, and Navigation, mapped these to specific AI techniques (Computer Vision, Reinforcement Learning), and cross-referenced them with the UN Sustainable Development Goals (SDGs) to assess impact.

The survey confirms that AI integration significantly enhances space system efficiency. Key findings include: AI can reduce downlink data volume by up to 90% via smart filtering; ML improves weather prediction accuracy over traditional physical models; and autonomous navigation reduces the need for ground operator intervention, lowering operational costs.

The paper serves as an excellent foundational text for understanding the 'Space AI' ecosystem. It successfully argues for the transformative potential of combining these fields. However, it stays relatively high-level regarding the specific algorithmic adaptations needed for radiation-hardened hardware. It implies that standard models can be easily ported, which underestimates the engineering challenges of bit-level reliability and power optimization in space. The connection to SDGs is inspiring but requires more concrete economic modeling to prove viability.