Will AI replace astronaut jobs?

Astronauts face moderate AI disruption risk with a score of 43/100, meaning the occupation will transform rather than disappear. While AI will automate routine monitoring tasks like oxygen purity testing and GPS system operation, the core responsibilities—commanding spacecraft, conducting scientific experiments, and managing critical launch operations—remain deeply human-dependent. AI serves as a tool to enhance decision-making, not replace the astronaut's irreplaceable judgment in extreme environments.

How will AI change the astronaut role?

The 43/100 disruption score reflects a fundamental asymmetry in the astronaut role: while AI excels at automating standardized monitoring tasks, it struggles with the unpredictability of spaceflight. Vulnerable skills like interpreting visual literacy, monitoring oxygen purity, and analyzing GPS performance parameters are increasingly handled by automated systems and AI-powered diagnostics. These tasks are rule-based and repetitive—ideal for machine learning. However, astronauts' most resilient competencies—managing challenging work conditions, understanding aircraft mechanics, and executing satellite launches—require human judgment in novel situations. The skill vulnerability score of 55.93/100 reflects this mixed picture. Near-term, AI will augment astronauts through enhanced 3D graphics, physics simulations, and weather forecasting models, reducing cognitive load during planning phases. Long-term, autonomous systems may handle routine orbital operations, but human astronauts will remain essential for complex scientific experiments, spacecraft troubleshooting, and crisis management. The high AI complementarity score of 64.45/100 indicates astronauts who embrace AI tools will become more effective, not obsolete.

Moderate Risk

astronaut

Q: What skills does a astronaut need to stay relevant with AI?

Key skills for astronaut in the AI era include: operate 3D computer graphics software, physics, use specialised computer models for weather forecasting, analyse weather forecast, plan space satellite missions. These are areas where AI augments human capabilities rather than replacing them.

Astronauts are crew members commanding spacecrafts for operations beyond low Earth orbit or higher than the regular altitude reached by commercial flights. They orbit the Earth in order to perform operations such as scientific research and experiments, launching or release of satellites, and building of space stations.

ISCO 3153Explore this role

56

Skill Vulnerability

Impact: Now

55

Task Automation

Impact: 1–3 years

64

AI Enhancement

Impact: 5+ years

How AI Will Change This Role

Expected Impact Timeline

Near-term (1-3 years)

AI beginning to assist with specific sub-tasks. Core role remains human-driven.

Mid-term (3-7 years)

AI handles routine components. Professionals shift toward strategic and creative aspects.

Long-term (7-15 years)

Hybrid human-AI workflow standard. Continuous upskilling required to stay relevant.

Expected Salary Impact

→

Salaries expected to remain stable with moderate AI impact

Job Demand Outlook

→

Job openings will remain stable but role requirements will shift

Tasks Most Likely to Be Automated

⚠test oxygen purity
⚠interpret visual literacy
⚠global navigation satellite system performance parameters
⚠geostationary satellites

Tasks That Will Remain Human

✔deal with challenging work conditions
✔aircraft mechanics
✔launching of satellites into orbit
✔types of satellites

Skills to Develop for AI Resilience

operate 3D computer graphics softwarephysicsuse specialised computer models for weather forecastinganalyse weather forecastplan space satellite missions

⚠ Most Vulnerable Skills

test oxygen purity80%

test oxygen purityTest the purity and the moisture content of the processed oxygen making use of the burette moisture meter.

interpret visual literacy77%

interpret visual literacyInterpret charts, maps, graphics, and other pictorial presentations used in place of the written word.

global navigation satellite system performance parameters75%

global navigation satellite system performance parametersThe performance parameters for Global Navigation Satellite Systems (GNSS), and the requirements that any GNSS system should possess in specific conditions.

geostationary satellites75%

geostationary satellitesThe functioning and purpose of geostationary satellites, their movement in the same direction as rotation of the Earth, and their application for telecommunication and commercial purposes.

operate GPS systems75%

operate GPS systemsUse GPS Systems.

Exposure

✔ Most Resilient Skills

deal with challenging work conditions8%

deal with challenging work conditionsDeal with challenging circumstances in which to perform work, such as night work, shift work, and atypical working conditions.

aircraft mechanics22%

aircraft mechanicsTechnicalities over mechanics in aircrafts and related topics in order to perform a wide range of repais in aircrafts.

launching of satellites into orbit25%

launching of satellites into orbitThe different procedures, phases, and requirements for launching satellites into orbit.

types of satellites30%

types of satellitesThe different types of satellites used for communications, streaming services, surveillance, and scientific research.

perform scientific experiments in space35%

perform scientific experiments in spacePerform different kinds of experiments in various fields of science including human, biological, and physical. Follow scientific methods and document findings, aiming to achieve innovation or discover...

Exposure

✨ AI-Enhanced Skills

operate 3D computer graphics software79%

operate 3D computer graphics softwareUse graphical ICT tools, such as Autodesk Maya, Blender which enable digital editing, modelling, rendering and composition of graphics. These tools are based in mathematical representation of three-di...

physics78%

physicsThe natural science involving the study of matter, motion, energy, force and related notions.

use specialised computer models for weather forecasting78%

use specialised computer models for weather forecastingMake short-term and long-term weather forecasts applying physical and mathematical formulae; understand specialised computer modelling applications.

analyse weather forecast78%

analyse weather forecastAnalyse weather forecasts and the information provided on meteorological conditions, such as wind forces, atmospheric structures, clouds, and visibility. Constantly monitor weather conditions to maint...

plan space satellite missions77%

plan space satellite missionsPlan missions to either launch, release, or capture satellites in orbit. Plan launch windows for each one of these activities and the steps required for a successful mission, such as preparation of la...

AI Boost