Lead Safety Systems Engineer

Posted 2 Days Ago
Be an Early Applicant
Seattle, WA, USA
In-Office
Senior level
Professional Services
The Role
Lead the system-level safety architecture and validation framework for autonomous heavy machinery. Define safety requirements, perform hazard analyses (FMEA/HAZOP/FTA/STPA), design redundancy and fail-safe behaviors, lead verification/validation (simulation, SIL, HIL, field testing), build fleet safety observability, and drive incident analysis and continuous learning across engineering and operations teams.
Summary Generated by Built In

About AIM

AIM builds autonomy for the real world - robots that move mountains. Our systems fuse software, hardware, robotics, and mission-critical infrastructure into ruggedized, safety-critical machinery operating on jobsites across the world. We replace decades of manual, error-prone, high-risk work with intelligent machines that reshape how earthmoving is done. Autonomous heavy machinery introduces safety challenges that do not exist in traditional robotics or automotive autonomy. AIM machines operate in dynamic environments where terrain is constantly changing, multiple machines operate in close proximity, and human workers interact directly with robotic equipment. Safety is therefore not a single subsystem - it is a system-level property that must be designed into every layer of the autonomy stack and operational workflow. We’re building the safety systems, architectures, and validation frameworks that allow autonomous machines to operate reliably around people, equipment, and critical infrastructure. We’re growing fast, scaling globally, and building the engineering foundation that will define the next century of construction.

About you

You are a systems thinker who understands that safety emerges from the interaction of hardware, software, human behavior, and operational environments.

You have experience designing and validating safety-critical systems, ideally in robotics, autonomy, industrial machinery, aerospace, or automotive systems.

You are comfortable working across disciplines - robotics, perception, controls, hardware, operations, and product - ensuring that safety requirements propagate correctly through the entire system.

You think in terms of failure modes, hazard mitigation, and safe system behavior under uncertainty.

You are equally comfortable:

  • analyzing hazards

  • defining safety architectures

  • designing validation strategies

  • working with operators and field engineers to ensure real-world safety

You take ownership of system outcomes, not just analysis documents. You ensure safety requirements translate into real system behavior and operational procedures.

Most importantly, you help organizations build safety into engineering culture and system design, not bolt it on afterward.

About us together

AIM machines operate in environments that introduce safety challenges rarely seen in traditional autonomy domains:

  • machines interacting directly with human workers

  • continuously changing terrain and jobsite layouts

  • dust, vibration, and harsh environmental conditions

  • dynamic interactions between multiple machines

  • safety-critical operations involving heavy loads and moving equipment

  • real-time control systems operating on ruggedized edge compute

Safety must therefore be addressed at multiple layers:

  • system architecture

  • autonomy behavior

  • machine control systems

  • human-machine interaction

  • operational procedures

  • fleet-level monitoring and learning

We will design safety systems that allow autonomous machines to operate predictably, fail safely, and continuously improve through operational learning.

If that excites you - you’re the kind of Safety Systems Engineer who will thrive here.

What you will own

As the Lead Safety Systems Engineer, you will define and implement the system safety architecture and validation framework for AIM’s autonomous machines.

You will work across engineering and operations teams to ensure that safety is designed, validated, and continuously improved across the entire autonomy stack and deployed fleet.

Lead System Safety Architecture

  • Define system-level safety architectures across hardware, software, and control systems.

  • Design safety layers including redundancy, fault detection, and safe-state transitions.

  • Define degraded operating modes and fail-safe behaviors for autonomous machines.

  • Specify safety mechanisms such as safety controllers, watchdog systems, and emergency stop architectures.

  • Ensure safety design patterns scale across multiple machine platforms.

Develop and Maintain the Safety Case

  • Develop and maintain the structured system safety case demonstrating that AIM machines are safe for deployment.

  • Maintain traceability between hazards, safety requirements, mitigation strategies, and validation evidence.

  • Ensure safety arguments remain valid as the system evolves.

  • Produce safety documentation required for customers, regulators, and OEM partners.

Perform Hazard Analysis and Risk Management

  • Lead comprehensive hazard analysis across system domains using methodologies such as:

    • FMEA

    • HAZOP

    • Fault Tree Analysis

    • STPA where applicable

  • Identify failure modes and unsafe system behaviors across mechanical, electrical, software, and operational systems.

  • Define mitigation strategies and safety requirements.

  • Maintain hazard tracking throughout the product lifecycle.

Define Operational Design Domains (ODD)

  • Define the environmental and operational conditions under which AIM machines operate safely.

  • Identify constraints including terrain, weather, visibility, machine proximity, and human presence.

  • Maintain ODD definitions as system capabilities evolve.

  • Define mechanisms for detecting ODD boundary violations.

Design Safe Human-Machine Interaction

  • Define safe interaction models between machines and human workers.

  • Specify safety perimeters and behavior constraints around workers and equipment.

  • Define human override and intervention mechanisms.

  • Ensure machine intent and system state are communicated clearly to operators and nearby personnel.

Lead Verification and Validation Strategy

  • Develop system-level verification and validation strategies for safety-critical functionality.

  • Define appropriate mixes of:

    • simulation testing

    • software-in-the-loop testing

    • hardware-in-the-loop testing

    • field testing

  • Ensure validation programs cover the full operational design domain.

  • Develop automated testing frameworks for safety-critical systems.

Build Fleet Safety Observability

  • Define telemetry and monitoring systems that track safety performance across deployed machines.

  • Develop safety metrics including near-miss events, safety envelope violations, and system health indicators.

  • Identify safety trends across the fleet and proactively address emerging risks.

Lead Incident Analysis and Continuous Learning

  • Establish safety event classification frameworks.

  • Lead root cause analysis for safety incidents and near misses.

  • Ensure lessons learned are incorporated into system design, validation strategies, and operational procedures.

Raise the Safety Engineering Bar

  • Define safety engineering standards across the organization.

  • Lead cross-disciplinary safety design reviews.

  • Mentor engineers on hazard analysis and safety-critical system design.

  • Build scalable safety engineering processes that enable teams to design and validate safe systems.

Basic Qualifications

  • Bachelor’s or Master’s degree in Systems Engineering, Mechanical Engineering, Electrical Engineering, Robotics, or related technical field.

  • 7+ years of experience designing or validating safety-critical systems.

  • Experience with system safety analysis methods such as FMEA, HAZOP, FTA, or STPA.

  • Strong understanding of hardware-software system integration.

  • Experience developing verification and validation strategies for complex systems.

  • Ability to work across multidisciplinary engineering teams.

  • Strong analytical and communication skills.

Preferred Qualifications

  • Experience developing safety architectures for autonomous systems or robotics platforms.

  • Experience with functional safety standards such as:

    • ISO 17757

    • ISO 19014

    • ISO 13849

    • IEC 61508

    • ISO 26262

    • SOTIF

  • Experience designing safety systems for heavy machinery, industrial robotics, automotive, or aerospace systems.

  • Experience with human-robot interaction safety design.

  • Experience with system observability and fleet telemetry systems.

  • Experience supporting regulatory or certification processes.

How you’ll stand out

  • You think in terms of systems, not components, and understand how safety emerges from complex interactions.

  • You translate safety theory into practical system design decisions.

  • You build safety frameworks that enable engineering teams to design safe systems at scale.

  • You are comfortable operating at the intersection of robotics, software, hardware, and real-world operations.

  • You care deeply about ensuring autonomous machines behave safely in the environments where people depend on them.

What we offer

  • Opportunity to define the safety architecture for real-world autonomous machines.

  • High-impact ownership across AIM’s autonomy stack and deployed fleet.

  • Collaboration with world-class engineers across robotics, software, hardware, and machine learning.

  • Competitive compensation, equity, medical/dental/vision, 401(k), life insurance.

  • Opportunities to see your work operate on machines deployed across the world.

Skills Required

  • Bachelor's or Master's degree in Systems, Mechanical, Electrical Engineering, Robotics, or related field
  • 7+ years of experience designing or validating safety-critical systems
  • Experience with system safety analysis methods such as FMEA, HAZOP, Fault Tree Analysis, or STPA
  • Strong understanding of hardware-software system integration
  • Experience developing verification and validation strategies for complex systems (simulation, SIL, HIL, field testing)
  • Ability to work across multidisciplinary engineering teams
  • Strong analytical and communication skills
  • Experience developing safety architectures for autonomous systems or robotics platforms
  • Familiarity with functional safety standards (ISO 17757, ISO 19014, ISO 13849, IEC 61508, ISO 26262, SOTIF)
  • Experience designing safety systems for heavy machinery, industrial robotics, automotive, or aerospace
  • Experience with human-robot interaction safety design
  • Experience with system observability and fleet telemetry systems
  • Experience supporting regulatory or certification processes
Am I A Good Fit?
beta
Get Personalized Job Insights.
Our AI-powered fit analysis compares your resume with a job listing so you know if your skills & experience align.

The Company
238 Employees
Year Founded: 2006

What We Do

Associated Industries of Massachusetts (AIM) is the state's largest business association, serving more than 3,500 businesses across 150 different industries and representing more than 650,000 people. They operate as passionate thought-leaders, trusted advisors, and advocates working to improve the Massachusetts economy through fair pro-growth legislation and the provision of top-rate employer services to their vibrant community of members.

Similar Jobs

tms Logo tms

Operations Manager

Agency • Gaming • Marketing Tech • Mobile • Analytics
Remote or Hybrid
US
1296 Employees

Lowe’s Logo Lowe’s

Human Resources Business Partner

Consumer Web • eCommerce • Information Technology • Retail • Software • Analytics • App development
Hybrid
Spokane Valley, WA, USA
300000 Employees

ServiceNow Logo ServiceNow

Senior Customer Success Manager

Artificial Intelligence • Cloud • HR Tech • Information Technology • Productivity • Software • Automation
Remote or Hybrid
United States
29000 Employees
102K-179K Annually

Boeing Logo Boeing

Business Process Analyst

Aerospace • Information Technology • Software • Cybersecurity • Design • Defense • Manufacturing
In-Office
Everett, WA, USA
170000 Employees
89K-133K Annually

Similar Companies Hiring

ABN AMRO Clearing USA LLC Thumbnail
Information Technology • Professional Services • Financial Services
Chicago, IL
215 Employees
Fora Thumbnail
Agency • On-Demand • Professional Services • Sales • Software • Travel • Hospitality
New York, NY
200 Employees
Energy CX Thumbnail
Greentech • Professional Services • Business Intelligence • Consulting • Energy • Financial Services • Utilities
Chicago, IL
108 Employees

Sign up now Access later

Create Free Account

Please log in or sign up to report this job.

Create Free Account