Takeover Tracker
34%medium risk
Electrical Engineering Technologists
vs

70 shared · 21 different

core competencies

28%medium risk
Fire-Prevention and Protection Engineers

Side-by-Side Comparison

MetricElectrical Engineering TechnologistsFire-Prevention and Protection Engineers
Risk Score34.5%28.2%
Risk TierMedium RiskMedium Risk
Risk Percentile64th31th
Tasks at Risk (>50%)6 / 151 / 14
Median Salary$77,390$109,660
Employment64K23K

Skill Comparison

|

Sorted by largest difference

Computers and Electronics
Building and Construction
Communicating with Persons Outside Organization
Operations Analysis
Telecommunications
Interacting With Computers
Chemistry
Resolving Conflicts and Negotiating with Others
Getting Information
Establishing and Maintaining Interpersonal Relationships
Drafting, Laying Out, and Specifying Technical Devices, Parts, and Equipment
Monitor Processes, Materials, or Surroundings

Protective Factors

Higher values indicate stronger protection against AI displacement

Electrical Engineering Technologists

30%

total discount

Fire-Prevention and Protection Engineers

30%

total discount

Task Risk Comparison

Tasks sorted by AI automation risk — higher means more automatable

Electrical Engineering Technologists

6 of 15 at risk
85%Calculate design specifications or cost, material, and resource estimates, and prepare project schedules and budgets.
84%Evaluate electrical engineering plans to determine whether they comply with applicable environmental standards.
84%Review electrical engineering plans to ensure adherence to design specifications and compliance with applicable electrical codes and standards.
55%Conduct statistical studies to analyze or compare production costs for sustainable or nonsustainable designs.
52%Diagnose, test, or analyze the performance of electrical components, assemblies, or systems.

Fire-Prevention and Protection Engineers

1 of 14 at risk
86%Prepare and write reports detailing specific fire prevention and protection issues, such as work performed, revised codes or standards, and proposed review schedules.
47%Conduct research on fire retardants and the fire safety of materials and devices.
47%Evaluate fire department performance and the laws and regulations affecting fire prevention or fire safety.
45%Develop plans for the prevention of destruction by fire, wind, and water.
43%Inspect buildings or building designs to determine fire protection system requirements and potential problems in areas such as water supplies, exit locations, and construction materials.

Wage Comparison

Fire-Prevention and Protection Engineers earns +$32,270(+42%) vs Electrical Engineering Technologists
Electrical Engineering TechnologistsFire-Prevention and Protection Engineers
10th
$47,010$62,050
25th
$59,700$85,400
Median
$77,390$109,660
75th
$97,760$136,150
90th
$114,630$166,670

Premium Head-to-Head Analysis

Displacement Timeline Comparison

Electrical Engineering Technologists20282035
Fire-Prevention and Protection Engineers20282035
20242030203520402045

Fire-Prevention and Protection Engineers has a longer runway before significant displacement, projected 0 years later than Electrical Engineering Technologists.

Risk-Adjusted Salary

Salary weighted by displacement risk: salary × (1 − risk%)

Electrical Engineering Technologists

$50,714

from $77,390

Fire-Prevention and Protection Engineers

$78,703

from $109,660

After adjusting for AI risk, Fire-Prevention and Protection Engineers offers $27,989 more in risk-adjusted pay.

Transition Feasibility

1%

Skill Overlap

Low overlap — significant retraining needed for transition

0

Unique to Electrical

0

Unique to Fire-Prevention

Combined Protection Strategy

Regardless of which path you choose, focus on these protective factors

Fine Manipulation
Social Intelligence
Creativity
Decision Complexity
Electrical Engineering TechnologistsFire-Prevention and Protection Engineers
Find transitions from Electrical Engineering TechnologistsFind transitions from Fire-Prevention and Protection Engineers