Robotics Technicians
Build, install, test, or maintain robotic equipment or related automated production systems.
How AI Impacts Each Task
23 tasks analyzed
Make repairs to robots or peripheral equipment, such as replacement of defective circuit boards, sensors, controllers, encoders, or servomotors.
Troubleshoot robotic systems, using knowledge of microprocessors, programmable controllers, electronics, circuit analysis, mechanics, sensor or feedback systems, hydraulics, or pneumatics.
Install, program, or repair programmable controllers, robot controllers, end-of-arm tools, or conveyors.
Maintain service records of robotic equipment or automated production systems.
Modify computer-controlled robot movements.
Perform preventive or corrective maintenance on robotic systems or components.
Align, fit, or assemble components, using hand tools, power tools, fixtures, templates, or microscopes.
Attach wires between controllers.
Evaluate the efficiency and reliability of industrial robotic systems, reprogramming or calibrating to achieve maximum quantity and quality.
Program complex robotic systems, such as vision systems.
Test performance of robotic assemblies, using instruments such as oscilloscopes, electronic voltmeters, or bridges.
Develop robotic path motions to maximize efficiency, safety, and quality.
Train customers or other personnel to install, use, or maintain robots.
Build or assemble robotic devices or systems.
Fabricate housings, jigs, fittings, or fixtures, using metalworking machines.
Document robotics test procedures and results.
Assist engineers in the design, configuration, or application of robotic systems.
Install new robotic systems in stationary positions or on tracks.
Train robots, using artificial intelligence software or interactive training techniques, to perform simple or complex tasks, such as designing and carrying out a series of iterative tests of chemical samples.
Maintain inventories of robotic production supplies, such as sensors or cables.
Inspect installation sites.
Develop three-dimensional simulations of automation systems.
Operate robots to perform customized tasks, such as environmental cleanup or explosive detection operations.
| Task | AI Capability | Risk | Time % | |
|---|---|---|---|---|
| Make repairs to robots or peripheral equipment, such as replacement of defective circuit boards, sensors, controllers, encoders, or servomotors. | 5Estimated | 11.0% | 8% | |
| Troubleshoot robotic systems, using knowledge of microprocessors, programmable controllers, electronics, circuit analysis, mechanics, sensor or feedback systems, hydraulics, or pneumatics. | 60Estimated | 51.0% | 8% | |
| Install, program, or repair programmable controllers, robot controllers, end-of-arm tools, or conveyors. | 10Estimated | 13.0% | 7% | |
| Maintain service records of robotic equipment or automated production systems. | 95Estimated | 87.2% | 4% | |
| Modify computer-controlled robot movements. | 42.65Observed | 44.1% | 5% | |
| Perform preventive or corrective maintenance on robotic systems or components. | 5Estimated | 11.0% | 6% | |
| Align, fit, or assemble components, using hand tools, power tools, fixtures, templates, or microscopes. | 30Estimated | 45.0% | 5% | |
| Attach wires between controllers. | 30Estimated | 45.0% | 4% | |
| Evaluate the efficiency and reliability of industrial robotic systems, reprogramming or calibrating to achieve maximum quantity and quality. | 65Estimated | 53.0% | 5% | |
| Program complex robotic systems, such as vision systems. | 70Estimated | 55.0% | 4% | |
| Test performance of robotic assemblies, using instruments such as oscilloscopes, electronic voltmeters, or bridges. | 27.58Observed | 38.0% | 5% | |
| Develop robotic path motions to maximize efficiency, safety, and quality. | 75Estimated | 57.0% | 4% | |
| Train customers or other personnel to install, use, or maintain robots. | 40Estimated | 31.0% | 4% | |
| Build or assemble robotic devices or systems. | 72.38Observed | 62.0% | 4% | |
| Fabricate housings, jigs, fittings, or fixtures, using metalworking machines. | 10Estimated | 13.0% | 3% | |
| Document robotics test procedures and results. | 95Estimated | 87.2% | 3% | |
| Assist engineers in the design, configuration, or application of robotic systems. | 70.23Observed | 55.1% | 4% | |
| Install new robotic systems in stationary positions or on tracks. | 5Estimated | 11.0% | 4% | |
| Train robots, using artificial intelligence software or interactive training techniques, to perform simple or complex tasks, such as designing and carrying out a series of iterative tests of chemical samples. | 56.25Observed | 49.5% | 3% | |
| Maintain inventories of robotic production supplies, such as sensors or cables. | 95Estimated | 87.2% | 3% | |
| Inspect installation sites. | 40Estimated | 43.0% | 3% | |
| Develop three-dimensional simulations of automation systems. | 70Estimated | 55.0% | 2% | |
| Operate robots to perform customized tasks, such as environmental cleanup or explosive detection operations. | 27.43Observed | 20.0% | 2% |
Skill Impact Analysis
AI-Vulnerable Skills (6)
High reliance on Information Ordering is a risk area. Consider developing complementary AI-resistant skills to maintain value.
High reliance on Reading Comprehension is a risk area. Consider developing complementary AI-resistant skills to maintain value.
High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.
Mathematics is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.
Memorization is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.
Programming is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.
AI-Resistant Skills (11)
Adaptability/Flexibility is AI-resistant — strengthening this skill provides durable career protection.
Equipment Maintenance is AI-resistant — strengthening this skill provides durable career protection.
Complex Problem Solving is AI-resistant — strengthening this skill provides durable career protection.
Manual Dexterity is AI-resistant — strengthening this skill provides durable career protection.
Leadership is AI-resistant — strengthening this skill provides durable career protection.
Coordination is AI-resistant — strengthening this skill provides durable career protection.
Instructing is AI-resistant — strengthening this skill provides durable career protection.
Social Perceptiveness is AI-resistant — strengthening this skill provides durable career protection.
Recommended Courses
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Risk reduction and salary impact are estimates based on skill gap analysis, course relevance, and labor market data. Actual results vary by individual circumstance.
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Score History
Risk score over 2 scoring runs
overall change
Education & Training
Percentage of workers at each education and training level
Education Level
Prior Experience Needed
Work experience required to enter this job
Training Provided After Hiring
How long it typically takes to learn on the job
Related News
Recent articles about AI affecting this occupation
VCs Pivot to Physical AI, Spurring Industrial Tech Jobs
Investors are moving capital away from pure software toward AI applications in manufacturing and robotics. This shift signals a growing demand for hardware-savvy tech workers and engineers who can bridge the gap between digital models and physical systems.
Google and Fanuc Partner on AI Robotics, Accelerating Factory Automation
Industrial robotics are getting significantly smarter. They claim to target repetitive job tasks.
Novarc signs welding automation and AI manufacturing MoU with Hanwha Ocean
Shipbuilding giant Hanwha Ocean is partnering with Novarc to bring AI-driven robotic welding to its shipyards. This move threatens traditional manual welding jobs in maritime manufacturing while creating new demands for robot operators and AI technicians.
Nvidia and Kawasaki Heavy Plan Silicon Valley Robotics Center
The two tech giants are partnering to build a new robotics facility in Silicon Valley. This collaboration signals a major investment in physical automation and will likely drive local demand for robotics engineers.
Google's New AI World Simulator Accelerates Autonomous Robotics Training
DeepMind is merging Street View with its Project Genie to generate interactive, real-world simulations, drastically speeding up how AI agents and robots are trained for physical environments.
Last scored March 14, 2026 · Based on BLS employment data and O*NET task analysis