1

Contract Robotic Simulation Engineer Jobs in Georgia

$14.75 - $20.25/hr

The engineer will work closely with production, maintenance, quality, and manufacturing teams to ... Experience with offline robotic simulation software (RoboGuide, MotoSim, RobotStudio, Process ...

As a Modeling and Simulation Engineer/Requirements Developer , your duties will include the ... No Position Contingent Upon Award of Contract: No #LI-AP1 Benefits: Torch Technologies is proud to ...

In this role, you will remotely operate and supervise robotic systems through advanced control ... Provide feedback on robot performance and usability * Assist engineering teams in identifying ...

In this role, you will remotely operate and supervise robotic systems through advanced control ... Provide feedback on robot performance and usability * Assist engineering teams in identifying ...

... robotic systems that load and unload trailers faster, safer, and more reliably than traditional ... Background in Gazebo or other physics simulation for sensor modeling Remote Work Requirements This ...

... two robotic arms and enables advanced motion planning and 3D perception for complex manipulation ... You will own the end-to-end software lifecycle: from high-level architecture and simulation, down ...

At Slip Robotics, we are at the forefront of revolutionizing the logistics and automation industry ... Perform detailed analysis and simulations to validate and optimize electrical designs, considering ...

At Slip Robotics, we are at the forefront of revolutionizing the logistics and automation industry ... Perform detailed analysis and simulations to validate and optimize electrical designs, considering ...

next page

Showing results 1-20

Contract Robotic Simulation Engineer information

What does a Contract Robotic Simulation Engineer do?

A Contract Robotic Simulation Engineer is responsible for designing, developing, and testing robotic systems using simulation software, typically on a temporary or project-based contract. They create virtual environments to model robot behavior, optimize workflows, and identify potential issues before physical implementation. This role often involves collaborating with engineers, programmers, and clients to ensure that robotic solutions meet project specifications. Contract engineers may work across various industries, such as manufacturing, automotive, or logistics, providing specialized expertise for specific projects. Their work helps reduce costs, improve efficiency, and minimize risks in robotic system deployment.

What are some common challenges faced by Contract Robotic Simulation Engineers when working with diverse client requirements?

Contract Robotic Simulation Engineers often need to adapt quickly to different simulation platforms, robot models, and client-specific workflows. Each client may have unique expectations, software environments, and integration needs, requiring strong problem-solving skills and flexibility. Balancing multiple projects, ensuring accurate simulation results, and communicating technical findings effectively with both technical and non-technical stakeholders are key challenges in this role. Collaborating closely with client teams and staying updated with the latest simulation tools can help overcome these obstacles and deliver successful project outcomes.

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

To thrive as a Contract Robotic Simulation Engineer, you need a solid background in robotics, mechanical or electrical engineering, and experience with simulation modeling, often supported by a relevant engineering degree. Proficiency with tools like ROS (Robot Operating System), MATLAB/Simulink, and simulation platforms such as Gazebo or V-REP, as well as familiarity with programming languages like Python or C++, is typically required. Strong problem-solving skills, adaptability, and effective communication make someone stand out in this role, especially when collaborating with cross-functional teams or clients. These competencies are crucial for developing accurate robotic simulations, ensuring system reliability, and meeting project goals efficiently in a contract-based environment.

What is the difference between Contract Robotic Simulation Engineer vs Contract Automation Test Engineer?

AspectContract Robotic Simulation EngineerContract Automation Test Engineer
CredentialsEngineering degree, robotics or simulation certificationsEngineering or computer science degree, testing certifications
Work EnvironmentRobotics labs, simulation platforms, development teamsSoftware testing environments, QA teams, development labs
Industry UsageRobotics, manufacturing, researchSoftware development, quality assurance, tech companies

The Contract Robotic Simulation Engineer focuses on developing and testing robotic systems within simulation environments, often working closely with hardware and control algorithms. In contrast, the Contract Automation Test Engineer primarily designs and executes automated tests for software applications. While both roles require technical expertise and testing skills, the Robotic Simulation Engineer emphasizes robotics and simulation tools, whereas the Automation Test Engineer concentrates on software testing automation.

What are the most commonly searched types of Robotic Simulation Engineer jobs in Georgia? The most popular types of Robotic Simulation Engineer jobs in Georgia are:
What cities in Georgia are hiring for Contract Robotic Simulation Engineer jobs? Cities in Georgia with the most Contract Robotic Simulation Engineer job openings:
Robotic Welding Engineer

$14.75 - $20.25/hr

Full-time

Posted 14 hours ago


Job description

Hendrick Technical SolutionsLocation: 4400 Papa Joe Hendrick Blvd, Charlotte, North Carolina 28262


Hendrick Technical Solutions provides a one-of-a-kind working experience where a diverse group of talented team members are committed to embracing innovation with the intensity to perform at the highest level, primarily focused on our work in theDefensesector.

Hendrick Technical Solutions continuously seeks skilled and talented individuals who are motivated and enthusiastic about helping us meet our goals.

To learn more about the exciting projects we are working on, click the links below.

www.hendrickusa.com

Inside Hendrick Motorsports manufacturing plant in Concord NC | Charlotte Observer

Position Summary:

The Robotic Welding Engineer is responsible for the development, implementation, optimization, and continuous improvement of automated robotic welding systems. This role combines expertise in welding processes, robotics, automation, and manufacturing engineering to ensure high-quality weld production, maximize equipment uptime, and drive operational efficiency. The engineer will work closely with production, maintenance, quality, and manufacturing teams to support both new product launches and ongoing production operations.

Key Responsibilities:

Robotic Welding System Development & Programming

  • Develop, program, and optimize robotic welding applications using systems such as FANUC, Yaskawa, ABB, or KUKA robots.
  • Create and modify robot programs, weld schedules, and motion paths to achieve optimal weld quality, cycle time, and process consistency.
  • Lead commissioning and startup activities for new robotic welding cells and automation equipment.
  • Evaluate and implement advanced robotic welding technologies, sensors, seam tracking, vision systems, and adaptive welding controls.

Welding Process Engineering

  • Develop and optimize welding processes including MIG (GMAW), TIG (GTAW), pulsed MIG, Laser welding, and Laser hybrid welding applications.
  • Establish welding parameters, process standards, and best practices to ensure compliance with customer and industry requirements.
  • Analyze weld defects and process variation using root cause analysis techniques and implement corrective actions.
  • Support weld qualification activities, procedure development, and validation testing.

Continuous Improvement & Manufacturing Support

  • Lead continuous improvement initiatives focused on weld quality, productivity, cycle time reduction, and equipment utilization.
  • Monitor key performance indicators (KPIs) and identify opportunities for process optimization.
  • Support production teams with technical troubleshooting and resolution of robotic, welding, fixture, and automation-related issues.
  • Drive standardization of robotic programming methods, maintenance practices, and operating procedures.

Equipment & Automation Integration

  • Collaborate with manufacturing, controls, and mechanical engineers on the design and integration of robotic welding cells.
  • Specify, evaluate, and implement tooling, fixtures, positioners, weld equipment, and automation systems.
  • Support PLC-controlled systems, HMI interfaces, safety systems, and industrial networking associated with robotic welding cells.
  • Coordinate equipment upgrades, retrofits, and capital projects.

Quality & Compliance

  • Ensure compliance with applicable welding standards, customer specifications, and internal quality requirements.
  • Develop inspection methods and quality control plans with QC department for robotic welding processes.
  • Support customer audits, quality investigations, and corrective action activities.

Required Qualifications

  • Bachelor's degree in mechanical engineering, manufacturing engineering, welding engineering, mechatronics engineering, or related technical discipline.
  • 3+ years of experience in robotic welding, welding automation
  • Strong knowledge of robotic programming platforms such as FANUC, Yaskawa , ABB, or KUKA.
  • Experience with MIG (GMAW), TIG (GTAW), Pulsed MIG, and automated welding processes.
  • Knowledge of PLC systems, industrial controls, sensors, and automation integration.
  • Ability to interpret engineering drawings, GD&T, welding symbols, and technical specifications.
  • Experience performing root cause analysis and implementing corrective actions.
  • Strong project management, communication, and problem-solving skills.

Preferred Qualifications

  • Welding Engineer certification or equivalent welding qualifications.
  • Experience with offline robotic simulation software (RoboGuide, MotoSim, RobotStudio, Process Simulate, etc.).
  • Knowledge of machine vision, seam tracking, laser scanning, and adaptive welding technologies.
  • Experience with automotive, heavy equipment, aerospace, or high-volume manufacturing environments.
  • Familiarity with Lean Manufacturing, Six Sigma, and continuous improvement methodologies.

Key Success Measures

  • Weld quality and first-pass yield.
  • Robotic cell uptime and overall equipment effectiveness (OEE).
  • Reduction in scrap, rework, and downtime.
  • Successful implementation of process improvements and automation projects.
  • Compliance with safety, quality, and production targets.

This position is ideal for an engineer who combines hands-on robotic welding expertise with a passion for automation, process optimization, and advanced manufacturing technologies.

This role subject to International Traffic in Arms Regulations (ITAR) requirements and as such, U.S. Citizen, Permanent Resident or U.S. Person Status Required.

Hendrick is an Equal Opportunity employer. Minorities, women, veterans, and individuals with disabilities are encouraged to apply. For more information regarding the EEOC, please visit https://www.eeoc.gov/sites/default/files/2023-06/22-088_EEOC_KnowYourRights6.12ScreenRdr.pdf.