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Remote Robotic Simulation Engineer Jobs in Provo, UT

Robot System Architect V

Lehi, UT · Remote

$248K/yr

Lehi, Utah or remote or DFW, Type of hire : Contract Role Overview: JOB SUMMARY We are seeking an ... Bachelor's or master's degree in Systems Engineering, Robotic Engineering, Computer Science ...

This position is remote eligible for candidates who currently reside in Utah. What You'll Do ... Data Engineering for QA: Craft complex SQL scripts and data generation utilities to simulate ...

This position is remote eligible for candidates who currently reside in Utah. What You'll Do ... Data Engineering for QA: Craft complex SQL scripts and data generation utilities to simulate ...

Remote Robotic Simulation Engineer information

See Provo, UT salary details

$27.4K

$99.9K

$159.9K

How much do remote robotic simulation engineer jobs pay per year?

As of Jul 13, 2026, the average yearly pay for remote robotic simulation engineer in Provo, UT is $99,898.00, according to ZipRecruiter salary data. Most workers in this role earn between $79,000.00 and $120,100.00 per year, depending on experience, location, and employer.

How does a Remote Robotic Simulation Engineer typically collaborate with cross-functional teams during project development?

As a Remote Robotic Simulation Engineer, you will work closely with mechanical, electrical, and software engineering teams to ensure accurate virtual representations of robotic systems. Collaboration often involves regular video meetings, shared simulation files, and joint troubleshooting sessions to validate robotic behaviors before deployment. Clear communication skills and familiarity with collaborative platforms are essential, as feedback and updates are exchanged frequently to meet project milestones. This remote structure allows for flexible work arrangements but also demands proactive engagement to stay aligned with team goals.

What is a Remote Robotic Simulation Engineer?

A Remote Robotic Simulation Engineer is a professional who designs, develops, and tests virtual models of robotic systems using simulation software, often while working from a remote location. Their work helps predict and improve the performance of robots before they are physically built, reducing costs and development time. These engineers collaborate with multidisciplinary teams to refine robot behaviors in simulated environments and may also troubleshoot or optimize robot algorithms. The role often requires strong skills in robotics, computer programming, and simulation tools like ROS, Gazebo, or MATLAB. Working remotely, they leverage digital communication tools to stay connected with their teams and projects.

What are the key skills and qualifications needed to thrive as a Remote Robotic Simulation Engineer, and why are they important?

To thrive as a Remote Robotic Simulation Engineer, you need a solid background in robotics, computer science, and engineering, often supported by a bachelor’s or master’s degree in a related field. Proficiency with simulation software such as Gazebo or ROS, familiarity with programming languages like Python or C++, and experience with 3D modeling tools are typically required. Strong problem-solving abilities, communication skills, and self-motivation are crucial for excelling in remote and collaborative environments. These skills ensure precise development, effective troubleshooting, and successful integration of robotic systems in virtual settings.

What is the difference between Remote Robotic Simulation Engineer vs Remote Robotics Software Developer?

AspectRemote Robotic Simulation EngineerRemote Robotics Software Developer
CredentialsBachelor's or higher in Robotics, Mechanical, or Electrical Engineering; experience with simulation toolsBachelor's or higher in Computer Science, Robotics, or related field; programming skills
Work EnvironmentPrimarily uses simulation platforms like Gazebo, V-REP; collaborates with engineers and researchersFocuses on developing robotics software, algorithms, and control systems; often involves coding and testing
Industry UsageCommon in research, testing, and validation of robotic systemsUsed in software development for robotics applications, automation, and product deployment

The main difference is that Remote Robotic Simulation Engineers focus on creating and testing virtual models of robots using simulation tools, while Remote Robotics Software Developers primarily write and optimize software for robotic systems. Both roles require programming skills and industry knowledge but serve different stages of robotic development.

What are the most commonly searched types of Robotic Simulation Engineer jobs in Provo, UT? The most popular types of Robotic Simulation Engineer jobs in Provo, UT are:
What job categories do people searching Remote Robotic Simulation Engineer jobs in Provo, UT look for? The top searched job categories for Remote Robotic Simulation Engineer jobs in Provo, UT are:
Robot System Architect V

Robot System Architect V

Ztek Consulting INC

Lehi, UT • Remote

$248K/yr

Contractor

Posted 26 days ago


Job description

Role name: Robot System Architect V

Work Location: Lehi, Utah or remote or DFW,

Type of hire : Contract

Role Overview:

JOB SUMMARY

We are seeking an innovative and experienced System Architect to join our Haulage Business Units. The System Architect will provide strategic direction and governance for the overall robotic architecture, ensuring alignment with the Haulage Unit's product and service goals. Utilizing a deep understanding of system architecture principles and designs, the System Architect will design and create high-quality, reliable, safe, and scalable systems.

Key Responsibilities:

ESSENTIAL DUTIES AND RESPONSIBILITIES

  • Develop and maintain the overall system architecture for autonomous vehicle solutions in the construction space, ensuring alignment with business, safety goals, and technical requirements.
  • Gather, analyze, and manage system requirements from stakeholders, ensuring clear documentation and traceability throughout the project lifecycle.
  • Create functional block diagrams and system architecture diagrams to visualize and communicate system designs.
  • Support Hazard Analysis and Risk Assessment (HARA) processes to ensure safety and compliance.
  • Provide technical expertise and support during the implementation and testing phases of projects.
  • Work closely with cross-functional teams, including Product Managers, System Engineers, Safety Engineers, and Project Managers, to ensure cohesive and efficient project execution.
  • Create and maintain comprehensive documentation for system architecture, design decisions, and technical specifications.

Mandatory skills:

  • ESSENTIAL EDUCATION, WORK EXPERIENCE, JOB SKILLS

Education:

  • Bachelor's or master's degree in Systems Engineering, Robotic Engineering, Computer Science, Mechatronics Engineering, Electrical Engineering, Mechanical Engineering, or a related field.

Experience:

  • 3+ years of experience in system architecture or solution architecture roles, preferably in the robotics, autonomous vehicles or construction industry.
  • Proven experience in designing and implementing complex systems involving hardware and software integration.

Skills:

  • Strong understanding of system architecture principles and methodologies for safety-critical systems.
  • Proficiency in creating system requirements documents, functional block diagrams, and system architecture diagrams.
  • Strong knowledge of autonomous vehicle technologies, including sensors, control systems, and communication protocols.
  • Awareness of cybersecurity principles and practices relevant to autonomous vehicle systems.
  • Creative mindset with the ability to propose and implement innovative solutions to enhance system performance.
  • Excellent problem-solving and analytical skills.
  • Strong communication and collaboration skills to work effectively with cross-functional teams.
  • Detail-oriented with a strong focus on quality and performance.
  • Strong presentation skills with the ability to summarize reports and analysis for leadership, customer, and regulatory authority reviews.