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Day Shift Robotics Simulator Jobs in Virginia (NOW HIRING)

... just simulation results. * Contribute to architectural decisions around planning frameworks ... We spend our days building robotic systems, developing complex assembly intelligence software, and ...

Senior Robotics Engineer

Sterling, VA ยท On-site

$103K - $142K/yr

Developing and expanding advance simulation and motion planning capabilities * Collaborating with ... We spend our days building robotic systems, developing complex assembly intelligence software, and ...

Delivering simulations and scenarios related to customer demonstrations and deployments ... We spend our days building robotic systems, developing complex assembly intelligence software, and ...

Simulation Technician

Falls Church, VA ยท On-site

$29.60 - $44.40/hr

This role will be full-time, day shift opportunity working Monday-Friday with occasional Saturdays ... Ensure that simulation equipment is in working order and that routine maintenance is performed ...

Experience integrating geometric pipelines with downstream systems--robotics, simulation, databases ... We spend our days building robotic systems, developing complex assembly intelligence software, and ...

Availability to work different shift hours (early mornings or evenings) is a plus. * Unsponsored ... We spend our days building robotic systems, developing complex assembly intelligence software, and ...

About the Role As a Mechatronics & Robotics Technician, you will use your skills to support the ... Final pay will be based on factors including shift selection and location. Starting Day 1 of ...

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Day Shift Robotics Simulator information

What are some common challenges faced by Day Shift Robotics Simulators, and how can they be addressed?

Day Shift Robotics Simulators often encounter challenges such as troubleshooting unexpected errors during simulation runs, maintaining up-to-date knowledge of rapidly evolving robotics software, and ensuring accurate data collection for analysis. To address these, it's important to develop strong problem-solving skills, actively participate in team knowledge-sharing sessions, and regularly review system updates or best practices. Collaborating closely with robotics engineers and maintenance teams can also help quickly resolve technical issues and minimize downtime.

What is the difference between Day Shift Robotics Simulator vs Day Shift Robotics Technician?

AspectDay Shift Robotics SimulatorDay Shift Robotics Technician
Required CredentialsTechnical certifications, programming skillsTechnical certifications, troubleshooting skills
Work EnvironmentLaboratory or simulation labs, office settingsManufacturing floors, industrial settings
Employer & Industry UsageRobotics companies, research labsManufacturing plants, automation companies
Common Search & Comparison IntentUnderstanding simulation roles vs hands-on roles

The Day Shift Robotics Simulator focuses on virtual training and programming of robots in controlled environments, while the Day Shift Robotics Technician involves hands-on maintenance, troubleshooting, and repair of robotic systems in industrial settings. Both roles require technical certifications but differ mainly in practical versus simulation-based work environments.

What are Day Shift Robotics Simulators?

Day Shift Robotics Simulators are professionals who operate and oversee the use of robotic simulation software or equipment during daytime working hours. They ensure that robotic systems are tested, programmed, and optimized in a virtual environment before implementation on the production floor. This role is crucial for identifying issues, improving efficiency, and reducing real-world risks or downtime. Day Shift Robotics Simulators often collaborate with engineers and technicians to update simulation parameters and analyze performance data.

What are the key skills and qualifications needed to thrive as a Day Shift Robotics Simulator, and why are they important?

To thrive as a Day Shift Robotics Simulator, you need a solid background in robotics, automation, and computer science, often supported by a relevant degree or technical certification. Familiarity with simulation software, robotic programming languages (such as ROS or Python), and industrial control systems is typically required. Strong problem-solving skills, attention to detail, and effective communication help you interpret simulation results and collaborate with engineering teams. These abilities ensure accurate testing, troubleshooting, and optimization of robotic systems for efficient day shift operations.
What job categories do people searching Day Shift Robotics Simulator jobs in Virginia look for? The top searched job categories for Day Shift Robotics Simulator jobs in Virginia are:
What cities in Virginia are hiring for Day Shift Robotics Simulator jobs? Cities in Virginia with the most Day Shift Robotics Simulator job openings:

Robotics Engineer (Path Planning)

Molg

Sterling, VA โ€ข On-site

Full-time

Re-posted 24 days ago


Job description

ABOUT US

Hey! Weโ€™re Molg ๐Ÿ‘‹ Weโ€™re building robotic systems that make electronics manufacturing circular. We work with hyperscalers and leading electronics manufacturers to automate how hardware is designed, manufactured, disassembled, repaired, reused, and recovered. Using robotics, computational design, and AI, our systems turn todayโ€™s e-waste into resilient, data-driven supply chainsโ€”and change how electronics are made in the first place.

IN THIS ROLE YOU WILL:

Join a cross-functional team of robotics, software, and mechanical engineers to build the motion planning core that powers Molgโ€™s robotic microfactories. As a Robotics Engineer (Path Planning), you will:

  • Design and implement motion and path planning algorithms for arm-based industrial robots operating in dense, multi-arm robotic cells.

  • Develop robust collision detection and avoidance systems that account for robot geometry, tooling, fixtures, and dynamic obstacles.

  • Build and maintain multi-arm coordination strategies, including synchronization, shared workspace reasoning, and deadlock avoidance.

  • Integrate motion planning systems with real robotic hardware, controllers, and higher-level task planning software.

  • Tune planners for real-world execution, balancing optimality, speed, determinism, and safety under production constraints.

  • Work closely with mechanical and systems engineers to ensure motion plans are feasible given real tolerances, compliance, and variability.

  • Debug and improve robot behavior using data from live cells, logs, and telemetryโ€”not just simulation results.

  • Contribute to architectural decisions around planning frameworks, kinematics representations, and system performance.

Youโ€™ll have the opportunity to build alongside an incredible team, develop innovative solutions, and grow in a fast-paced environment that values autonomy and impact.

WHO YOU ARE:

You are a hands-on robotics engineer who understands that planning only matters if it works on real robots. You bring:

  • Strong experience with motion and path planning for arm-based robots (industrial or collaborative).

  • Solid understanding of collision detection, geometric reasoning, and kinematics in constrained environments.

  • Experience coordinating multiple robotic arms operating in shared or overlapping workspaces.

  • Proficiency in C++ and/or Python for robotics and performance-critical systems.

  • Comfort working with robotics middleware and frameworks (e.g., ROS2, custom planners).

  • Ability to work in-person at Molg HQ in Sterling, VA.

WHO WE ARE:

We spend our days building robotic systems, developing complex assembly intelligence software, and designing the next generation of circular products for our customers. Given the importance of working hands-on with physical systems, the majority of our team is in-person collaboratively working in our industrial space in Sterling, VA, down the road from the largest data center market in the world. Our facility includes a variety of robots, CNC milling machines, 3D printers, and all the tools needed to build and test our products. It is important to us that anyone on our team that is interested in learning how to use our various pieces of equipment and machinery is taught and can gain the skills and appreciation for making physical things.

THINGS TO KNOW:

  • Weโ€™re a hands on collaborative team with big ambitions, and thereโ€™s a good amount of context-switching. We expect people to be autonomous and drive their own work to completion.

  • We are scrappy and looking to build a great sustainable company for years to come.

  • As a growing company and startup, priorities may shift as customer or business requirements change. We strive to empower individuals with context and decision-making power to meet this need.