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Computer Science Robotics Jobs in Ohio (NOW HIRING)

... in computer science, electrical engineering, automation engineering, or equivalent, or 2+ years of robotics work cells and control systems experience - Bachelor's degree in computer science ...

... in computer science, electrical engineering, automation engineering, or equivalent, or 2+ years of robotics work cells and control systems experience - Bachelor's degree in computer science ...

OH · On-site

... in computer science, electrical engineering, automation engineering, or equivalent, or 2+ years of robotics work cells and control systems experience - Bachelor's degree in computer science ...

When you join us, you'll be part of a global team harnessing the power of scientific testing and ... Familiarity with mechatronics, electronics, or mechanical design (CAD) is highly advantageous.

When you join us, you'll be part of a global team harnessing the power of scientific testing and ... Familiarity with mechatronics, electronics, or mechanical design (CAD) is highly advantageous.

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Computer Science Robotics information

What is the difference between Computer Science Robotics vs Mechanical Engineering?

AspectComputer Science RoboticsMechanical Engineering
Required CredentialsBachelor's or Master's in Computer Science, Robotics, or related fieldsBachelor's or Master's in Mechanical Engineering or related fields
Work EnvironmentSoftware development labs, robotics programming environmentsDesign and testing labs, manufacturing facilities
Employer & Industry UsageTech companies, research institutions, automation firmsManufacturing, automotive, aerospace industries
Common Search & Comparison IntentUnderstanding roles involving programming and software in roboticsUnderstanding hardware design and mechanical systems in robotics

Computer Science Robotics focuses on programming, algorithms, and software development for robotic systems, while Mechanical Engineering emphasizes designing, building, and testing the physical components of robots. Both fields often collaborate but serve different core functions within robotics development.

What are the key skills and qualifications needed to thrive as a Computer Science Robotics professional, and why are they important?

To thrive in Computer Science Robotics, you need a strong background in programming languages (such as Python, C++, or ROS), algorithms, and robotics engineering, typically backed by a degree in computer science, robotics, or a related field. Familiarity with robotics platforms, simulation software, machine learning frameworks, and certifications like ROS or robotics-specific courses are highly valuable. Critical thinking, problem-solving, teamwork, and effective communication are essential soft skills for tackling complex challenges and collaborating on interdisciplinary projects. These skills and qualifications ensure the development, deployment, and continual improvement of advanced robotic systems in real-world environments.

What are some common challenges faced by professionals working in computer science robotics, and how can they be addressed?

Professionals in computer science robotics often encounter challenges such as integrating software with complex hardware systems, ensuring reliable sensor data processing, and managing real-time system constraints. Collaborating effectively with multidisciplinary teams—including mechanical, electrical, and software engineers—is crucial to overcoming these obstacles. Staying current with rapidly evolving technologies and maintaining a strong foundation in both programming and robotics principles can help address these challenges. Participating in regular code reviews and system testing also contributes to smoother project development and deployment.

What are computer science robotics?

Computer science robotics is a field that combines computer science principles with robotics engineering to design, program, and control robots. Professionals in this field work on creating software and algorithms that allow robots to perceive their environment, make decisions, and perform tasks autonomously. The field covers areas such as artificial intelligence, machine learning, computer vision, and sensor integration. Careers in computer science robotics are found in industries like manufacturing, healthcare, space exploration, and consumer electronics. This interdisciplinary field requires knowledge of both programming and hardware systems.
Infographic showing various Computer Science Robotics job openings in Ohio as of July 2026, with employment types broken down into 1% As Needed, 82% Full Time, 15% Part Time, and 2% Contract. Highlights an 82% Physical, 1% Hybrid, and 17% Remote job distribution.
Lead Robotics Software Engineer - Architecture and Systems

Lead Robotics Software Engineer - Architecture and Systems

MRINetwork Jobs

Columbus, OH • On-site

Full-time

Medical, Dental, Vision, PTO

Posted 17 days ago


Job description

Lead Robotics Software Engineer - Architecture & Systems

In this position, you will guide the architecture, development, and long-term evolution of the core robotics software platform that powers our clinical robotic systems. You will be responsible not only for designing high-performance, safety-critical software system that integrates the core robotics functions into a full system— but also for driving the system architecture, technical decisions, engineering practices, and cross-functional alignment that enable the entire robotics organization to deliver at a higher level.

This role is ideal for an experienced engineer who thrives at the intersection of hands-on development and team leadership, and who has a track record of building real-world robotic systems with exceptional performance and reliability.

What You’ll Do

  • Own the overall software architecture for the medical robotic device, setting the long-term technical direction of the full stack — including state estimation, planning, control frameworks, real-time infrastructure, and safety systems.
  • Lead multiple technical workstreams, ensuring that perception, planning, controls, and systems software integrate seamlessly into a unified, high-performance platform. You don't own the motion of the robot - but you make sure that it all ties into a seamless architecture and controls.
  • Solve complex, system-level challenges, such as timing budgets, throughput requirements, deterministic real-time execution, and robust error handling across distributed components.
  • Establish engineering standards and design patterns that elevate code quality, maintainability, and long-term scalability.
  • Drive technical reviews and architectural decision-making, guiding the team through trade-offs involving latency, reliability, computational footprint, and deployment constraints.
  • Manage, mentor and develop robotics software engineers, providing hands-on coaching in areas such as ROS2 best practices, real-time C++, perception/control integration, and performance optimization.
  • Partner with hardware, systems, and clinical engineering to define system behavior, safety envelopes, and the requirements for mission-critical features.
  • Lead validation of robotic behaviors in the lab and clinical-like environments, ensuring safe operation in proximity to patients and clinicians.
  • Enable scalable architecture design across multiple robotic platforms and Formalize the software development practices, documentation, and peer-review processes
  • Advance the team’s capabilities in algorithmic sophistication, including multi-sensor fusion, motion generation, collision avoidance, and modeling — raising the bar on technical excellence.
  • Stay ahead of emerging technologies (e.g., improved middleware, optimized control frameworks, new sensor stacks), making informed recommendations about where to adopt and where to innovate internally.
  • Represent the robotics software organization in cross-functional leadership discussions, helping set priorities and drive clarity between engineering, product, and operational needs.

About You

  • Degree in Robotics, Computer Science, Electrical or Mechanical Engineering, or a related technical discipline.
  • 7+ years building and delivering production systems, including real-world deployment, in the medical device industry
  • Understanding and experience in medical compliance and/or medical device product development
  • Demonstrated experience leading architecture, design, and integration for multi-component systems.
  • Expert-level C++ skills with strong Python capability.
  • Prior leadership in building and maintaining safety-critical or real-time software systems.
  • Proven ability to guide teams through ambiguity, resolve technical disagreements, and drive toward solutions that balance performance, safety, and delivery.
  • Clear and confident communicator capable of presenting complex technical concepts to executives, clinicians, and cross-functional partners.
  • Motivated by building technology that improves human outcomes, contributes to clinician workflow, and delivers precision and safety at every level.
  • Authorized to work in the United States indefinitely.

Bonus Points

  • Experience delivering robotics systems in medical, manufacturing, or other semi-structured domains, ideally robotic arm applications
  • Strong depth in one or more core areas: whole-body control, model-predictive control, multi-sensor fusion, motion planning, mapping, or collision modeling.
  • Deep experience building and deploying robotics systems in ROS2, including DDS configuration, lifecycle management, real-time execution, and system bring-up.
  • History of refactoring or evolving legacy systems into cleaner, more scalable architectures
  • Experience building test frameworks for robotics software, including simulation-based validation, HIL/SIL testing, or CI pipelines.

Benefits

  • Equity: Company stock options.
  • Insurance Coverage: medical, dental, and vision insurance available
  • Unlimited PTO and a full winter shutdown
  • Relocation Assistance: Relocation assistance is available to move you near facility in the Columbus, OH area