medium risk

Mechatronics Engineers

Research, design, develop, or test automation, intelligent systems, smart devices, or industrial systems control.

Select a Specialization:

Green New & EmergingHigher risk than 70% of occupations

AI Impact Summary

Mechatronics Engineers faces moderate AI displacement risk with a score of 36/100. This occupation has higher AI displacement risk than 70% of all analyzed occupations. Of 23 analyzed tasks, 4 are highly automatable, particularly routine cognitive tasks. Strong protective factors — including social intelligence, creativity, or regulatory barriers — significantly reduce effective risk.

Skill Impact Analysis

AI-Vulnerable Skills (6)

Mathematics10%

High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Reading Comprehension10%

High reliance on Reading Comprehension is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Mathematics10%

High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Information Ordering5%

High reliance on Information Ordering is a risk area. Consider developing complementary AI-resistant skills to maintain value.

Memorization5%

Memorization is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.

Programming15%

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/Flexibility85%

Adaptability/Flexibility is AI-resistant — strengthening this skill provides durable career protection.

Complex Problem Solving75%

Complex Problem Solving is AI-resistant — strengthening this skill provides durable career protection.

Leadership88%

Leadership is AI-resistant — strengthening this skill provides durable career protection.

Coordination70%

Coordination is AI-resistant — strengthening this skill provides durable career protection.

Persuasion80%

Persuasion is AI-resistant — strengthening this skill provides durable career protection.

Instructing75%

Instructing is AI-resistant — strengthening this skill provides durable career protection.

Negotiation85%

Negotiation is AI-resistant — strengthening this skill provides durable career protection.

Social Perceptiveness90%

Social Perceptiveness is AI-resistant — strengthening this skill provides durable career protection.

AI-Augmented Skills (7)

Judgment and Decision MakingCritical ThinkingWritingActive LearningSystems AnalysisMonitoringTechnology Design

Recommended Courses

Courses matched to Mechatronics Engineers skill gaps, ranked by relevance to your displacement risk profile.

Get personalized recommendations. Answer a few questions about your experience and skills to get course suggestions tailored specifically to you.

Upskill to Reduce Risk

Courses addressing your most AI-vulnerable skills

Courseraintermediate

Machine Learning Specialization

by Stanford / DeepLearning.AI

~10 weeks$49/mo4.9Certificate

Addresses vulnerability: Mathematics

Estimated Impact

-7.3pt risk+$7K/yr salary

AI-Augmentation Tools

Learn to work alongside AI and boost your productivity

Coursera

Creative Writing Specialization

by Wesleyan University

~8 weeks$49/mo4.7Certificate

Enhances AI augmentation: Writing

Estimated Impact

-5.3pt risk+$7K/yr salary

Strengthen Your Edge

Double down on skills AI can't replicate

Courseraintermediate

Leading People and Teams Specialization

by University of Michigan

~6 weeks$49/mo4.7Certificate

Strengthens resilience: Leadership

Estimated Impact

-3.7pt risk+$7K/yr salary

We may earn a commission when you enroll through our links, at no extra cost to you. This helps fund the Takeover Tracker.

Risk reduction and salary impact are estimates based on skill gap analysis, course relevance, and labor market data. Actual results vary by individual circumstance.

Education & Training

Percentage of workers at each education and training level

Education Level

Post-Secondary Certificate7%

Associate's Degree1%

Bachelor's Degree89%

Level 112%

Prior Experience Needed

Work experience required to enter this job

3-6 months10%

1-2 years14%

2-4 years13%

4-6 years33%

6-8 years18%

Over 10 years12%

Training Provided After Hiring

How long it typically takes to learn on the job

None10%

Up to 1 month35%

1-3 months15%

3-6 months12%

6 months - 1 year4%

1-2 years5%

2-4 years10%

4-6 years10%

How AI Impacts Each Task

23 tasks analyzed

Design engineering systems for the automation of industrial tasks.

Risk: 45.0%AI: 45EstimatedTime: 6%

Create mechanical design documents for parts, assemblies, or finished products.

Risk: 85.2%AI: 90EstimatedTime: 5%

Maintain technical project files.

Risk: 87.2%AI: 95EstimatedTime: 3%

Design, develop, or implement control circuits or algorithms for electromechanical or pneumatic devices or systems.

Risk: 49.0%AI: 55EstimatedTime: 5%

Implement or test design solutions.

Risk: 39.0%AI: 30EstimatedTime: 6%

Create mechanical models and tolerance analyses to simulate mechatronic design concepts.

Risk: 51.0%AI: 60EstimatedTime: 5%

Conduct studies to determine the feasibility, costs, or performance benefits of new mechatronic equipment.

Risk: 49.0%AI: 55EstimatedTime: 4%

Design advanced electronic control systems for mechanical systems.

Risk: 47.0%AI: 50EstimatedTime: 5%

Research, select, or apply sensors, communication technologies, or control devices for motion control, position sensing, pressure sensing, or electronic communication.

Risk: 53.3%AI: 65.72ObservedTime: 5%

Publish engineering reports documenting design details or qualification test results.

Risk: 87.2%AI: 95EstimatedTime: 4%

Identify and select materials appropriate for mechatronic system designs.

Risk: 51.0%AI: 60EstimatedTime: 4%

Develop electronic, mechanical, or computerized processes to perform tasks in dangerous situations, such as underwater exploration or extraterrestrial mining.

Risk: 41.0%AI: 35EstimatedTime: 3%

Apply mechatronic or automated solutions to the transfer of materials, components, or finished goods.

Risk: 51.0%AI: 60EstimatedTime: 4%

Design mechatronics components for computer-controlled products, such as cameras, video recorders, automobiles, or airplanes.

Risk: 43.0%AI: 40EstimatedTime: 4%

Design advanced precision equipment for accurate or controlled applications.

Risk: 45.0%AI: 45EstimatedTime: 4%

Upgrade the design of existing devices by adding mechatronic elements.

Risk: 47.0%AI: 50EstimatedTime: 4%

Create embedded software design programs.

Risk: 53.0%AI: 65EstimatedTime: 4%

Analyze existing development or manufacturing procedures and suggest improvements.

Risk: 51.1%AI: 60.3ObservedTime: 4%

Provide consultation or training on topics such as mechatronics or automated control.

Risk: 43.4%AI: 70.97ObservedTime: 4%

Oversee the work of contractors in accordance with project requirements.

Risk: 23.0%AI: 20EstimatedTime: 5%

Design self-monitoring mechanical systems, such as gear systems that monitor loading or condition of systems to detect and prevent failures.

Risk: 43.0%AI: 40EstimatedTime: 4%

Monitor or calibrate automated systems, industrial control systems, or system components to maximize efficiency of production.

Risk: 85.2%AI: 90EstimatedTime: 4%

Design or develop automated control systems for environmental applications, such as waste processing, air quality, or water quality systems.

Risk: 47.0%AI: 50EstimatedTime: 4%

Task	AI Capability	Risk	Time %
Design engineering systems for the automation of industrial tasks.	45Estimated	45.0%	6%
Create mechanical design documents for parts, assemblies, or finished products.	90Estimated	85.2%	5%
Maintain technical project files.	95Estimated	87.2%	3%
Design, develop, or implement control circuits or algorithms for electromechanical or pneumatic devices or systems.	55Estimated	49.0%	5%
Implement or test design solutions.	30Estimated	39.0%	6%
Create mechanical models and tolerance analyses to simulate mechatronic design concepts.	60Estimated	51.0%	5%
Conduct studies to determine the feasibility, costs, or performance benefits of new mechatronic equipment.	55Estimated	49.0%	4%
Design advanced electronic control systems for mechanical systems.	50Estimated	47.0%	5%
Research, select, or apply sensors, communication technologies, or control devices for motion control, position sensing, pressure sensing, or electronic communication.	65.72Observed	53.3%	5%
Publish engineering reports documenting design details or qualification test results.	95Estimated	87.2%	4%
Identify and select materials appropriate for mechatronic system designs.	60Estimated	51.0%	4%
Develop electronic, mechanical, or computerized processes to perform tasks in dangerous situations, such as underwater exploration or extraterrestrial mining.	35Estimated	41.0%	3%
Apply mechatronic or automated solutions to the transfer of materials, components, or finished goods.	60Estimated	51.0%	4%
Design mechatronics components for computer-controlled products, such as cameras, video recorders, automobiles, or airplanes.	40Estimated	43.0%	4%
Design advanced precision equipment for accurate or controlled applications.	45Estimated	45.0%	4%
Upgrade the design of existing devices by adding mechatronic elements.	50Estimated	47.0%	4%
Create embedded software design programs.	65Estimated	53.0%	4%
Analyze existing development or manufacturing procedures and suggest improvements.	60.3Observed	51.1%	4%
Provide consultation or training on topics such as mechatronics or automated control.	70.97Observed	43.4%	4%
Oversee the work of contractors in accordance with project requirements.	20Estimated	23.0%	5%
Design self-monitoring mechanical systems, such as gear systems that monitor loading or condition of systems to detect and prevent failures.	40Estimated	43.0%	4%
Monitor or calibrate automated systems, industrial control systems, or system components to maximize efficiency of production.	90Estimated	85.2%	4%
Design or develop automated control systems for environmental applications, such as waste processing, air quality, or water quality systems.	50Estimated	47.0%	4%

Protective Factors

Total protective discount: 29.3%

Essential Soft Skills

Traits that are hard for AI to replicate

InnovationAnalytical ThinkingInitiativeAttention to DetailPersistenceIntegrityDependabilityCooperationSelf ControlAdaptability/FlexibilityStress ToleranceAchievement/Effort

Wage & Employment (2024)

Median Wage

$117,750

per year

Mean Wage

$121,720

per year

Employment

151K

workers

Wage Range

$62,840 - $183,510

10th - 90th pct

Wage Distribution

$62,840Median: $117,750$183,510

Career Planning

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Recommendations

Skills to Develop

These skills are at risk from AI automation. Mechatronics Engineers professionals should diversify beyond them.

Mathematics
High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.
Reading Comprehension
High reliance on Reading Comprehension is a risk area. Consider developing complementary AI-resistant skills to maintain value.
Mathematics
High reliance on Mathematics is a risk area. Consider developing complementary AI-resistant skills to maintain value.
Information Ordering
High reliance on Information Ordering is a risk area. Consider developing complementary AI-resistant skills to maintain value.
Memorization
Memorization is AI-vulnerable but has moderate importance in this role. AI tools may handle this; focus on higher-value skills.

Skills to Leverage

These human-centric skills remain difficult for AI to replicate. Double down here.

Adaptability/Flexibility
Adaptability/Flexibility is AI-resistant — strengthening this skill provides durable career protection.
Complex Problem Solving
Complex Problem Solving is AI-resistant — strengthening this skill provides durable career protection.
Leadership
Leadership is AI-resistant — strengthening this skill provides durable career protection.
Coordination
Coordination is AI-resistant — strengthening this skill provides durable career protection.
Persuasion
Persuasion is AI-resistant — strengthening this skill provides durable career protection.

Tools to Adopt

AI can amplify these skills. Learn the tools that augment rather than replace your work.

Judgment and Decision Making
Judgment and Decision Making will be enhanced by AI. Develop expertise in using AI tools for this skill to increase productivity.
Critical Thinking
Critical Thinking will be enhanced by AI. Develop expertise in using AI tools for this skill to increase productivity.
Writing
Writing will be enhanced by AI. Develop expertise in using AI tools for this skill to increase productivity.
Active Learning
Active Learning will be enhanced by AI. Develop expertise in using AI tools for this skill to increase productivity.
Systems Analysis
Systems Analysis will be enhanced by AI. Develop expertise in using AI tools for this skill to increase productivity.

Score History

Risk score over 2 scoring runs

-1.0

overall change

Checking for existing plan...