Czy AI zastąpi zawód: administrator systemów informacyjno-telekomunikacyjnych?

Administratorzy systemów informacyjno-telekomunikacyjnych face a very high AI disruption risk with a score of 84/100, driven by automation of routine maintenance tasks like backups and anti-virus deployment. However, this role will not disappear—instead, it will transform. The most resilient responsibilities—security engineering, cloud technologies, and ICT system programming—require human judgment and evolving expertise that AI complements rather than replaces.

Czym zajmuje się administrator systemów informacyjno-telekomunikacyjnych?

Administratorzy systemów informacyjno-telekomunikacyjnych maintain the backbone of organizational IT infrastructure. They configure and manage computer systems, networks, servers, workstations, and peripheral devices to ensure reliable daily operation. Their work includes acquiring, installing, and updating hardware components, managing data storage systems, configuring network services like domain name systems, and monitoring system health. These professionals balance technical problem-solving with strategic infrastructure planning to keep organizational technology running smoothly and securely.

Jak AI wpływa na ten zawód?

The 84/100 disruption score reflects a dual reality in this role. Routine administrative tasks score extremely high in automation potential: storing digital data (vulnerable), performing backups (vulnerable), and implementing anti-virus software (vulnerable) are increasingly handled by AI-driven monitoring and automated deployment systems. The Task Automation Proxy of 68.97/100 confirms that nearly 70% of daily manual tasks face genuine automation risk in the next 5-7 years. However, Skill Vulnerability of 61.41/100 reveals that four in ten core competencies remain resilient. Security engineering, cloud technologies, and ICT system programming—which require architectural thinking and threat modeling—show strong resilience. The medium-high AI Complementarity score (66.26/100) indicates that emerging tools will augment rather than eliminate expertise. Near-term (1-3 years): automation will eliminate repetitive monitoring and routine patching, requiring skill migration. Long-term (3-10 years): roles evolve toward cloud architecture, security hardening, and systems integration, where human decision-making remains essential.

Najważniejsze wnioski

• •Routine backup, anti-virus, and data storage tasks face the highest automation risk; these should be your transition focus if updating skills.
• •Security engineering, cloud architecture, and system programming remain highly resilient—deepening expertise in these areas provides job security.
• •AI will become a tool for system monitoring and automated remediation; professionals who learn to manage AI-assisted infrastructure will thrive.
• •This role is transforming from 'keeping systems running' to 'architecting resilient, secure, cloud-native infrastructure'—strategic upskilling is critical.

Wynik zakłócenia AI NestorBot obliczany jest na podstawie 3-czynnikowego modelu wykorzystującego taksonomię umiejętności ESCO: podatność umiejętności na automatyzację, wskaźnik automatyzacji zadań oraz komplementarność z AI. Dane aktualizowane kwartalnie.