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3D Robotics Jobs in Michigan (NOW HIRING)

Senior, ML Engineer - VLM

Ann Arbor, MI

$102K - $140K/yr

... 3D/2D detection, tracking, segmentation, depth) through semantic, scenario-level, and action ... Bachelor's Degree in Computer Science, Robotics, Electrical Engineering, or related technical field ...

Senior, ML Engineer - VLM

Ann Arbor, MI · On-site +1

$102K - $140K/yr

... 3D/2D detection, tracking, segmentation, depth) through semantic, scenario-level, and action ... Bachelor's Degree in Computer Science, Robotics, Electrical Engineering, or related technical field ...

Work on topics such as object detection, pose estimation, scene understanding, 3D reconstruction, and sensor fusion. * Contribute to building perception pipelines for autonomous mobile robots (AMRs ...

... 3D, Siemens Plant Simulation, or FANUC ROBOGUIDE (equivalent software experience considered) * Experience deploying cells using Virtual Commissioning, connecting PLC, HMI, and robot controller ...

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3D Robotics information

See Michigan salary details

$73.2K

$83.7K

$101.5K

How much do 3d robotics jobs pay per year?

As of Jul 19, 2026, the average yearly pay for 3d robotics in Michigan is $83,673.00, according to ZipRecruiter salary data. Most workers in this role earn between $78,400.00 and $88,900.00 per year, depending on experience, location, and employer.

What is the difference between 3D Robotics vs UAV Pilot?

Aspect3D RoboticsUAV Pilot
Required CertificationsPart 107 Remote Pilot Certificate, drone operation licensesPart 107 Remote Pilot Certificate, drone operation licenses
Work EnvironmentManufacturing, drone design, R&D, field testingField operations, aerial surveys, inspections
Industry UsageDrone manufacturing, technology developmentSurveying, agriculture, cinematography, inspections

Both 3D Robotics and UAV Pilot roles require similar certifications like the Part 107 Remote Pilot Certificate. While 3D Robotics focuses on drone design and manufacturing, UAV Pilots primarily operate drones in the field for various applications such as surveying or inspections. The roles often overlap in industry usage, but their core responsibilities differ: one develops drones, the other pilots them in real-world scenarios.

What are 3D Robotics?

3D Robotics refers to the design, development, and operation of robots that utilize three-dimensional movement and spatial awareness. These robots are often used in fields such as drone technology, automation, and manufacturing, where they can move in all three spatial axes (x, y, and z). Professionals in 3D robotics work on creating robots capable of tasks like aerial mapping, surveying, inspection, and automation. The field combines mechanical engineering, electronics, programming, and sometimes artificial intelligence to build innovative robotic systems.

What are some common challenges faced by professionals working in 3D robotics, and how can they be addressed?

Professionals in 3D robotics often encounter challenges such as integrating hardware and software components, ensuring precise calibration of sensors, and troubleshooting unexpected behaviors in robotic systems. Collaboration with multidisciplinary teams—including mechanical engineers, software developers, and designers—is essential to address these issues effectively. Staying current with industry advancements and adopting best practices for testing and validation can help overcome technical hurdles and contribute to successful project outcomes.

What are the key skills and qualifications needed to thrive as a 3D Robotics Engineer, and why are they important?

To thrive as a 3D Robotics Engineer, you generally need strong skills in mechanical and electrical engineering, programming, and robotics design, often supported by a degree in engineering or a related field. Familiarity with CAD software, robotics simulation tools, embedded systems, and possibly certifications in robotics or automation are essential. Critical thinking, problem-solving, and effective teamwork set standout professionals apart in this role. These skills are crucial for designing, building, and troubleshooting advanced robotic systems that function reliably in real-world applications.
What cities in Michigan are hiring for 3D Robotics jobs? Cities in Michigan with the most 3D Robotics job openings:
Mechanical Designer - Simulation

Mechanical Designer - Simulation

Gonzalez Group

Southfield, MI • On-site

Full-time

Re-posted 2 days ago


Job description

Mechanical Designer for Process Simulation - GM (BIW Tooling Fixture)

Required Skills:

  • Process Simulate Designer / Operator for GM Body Shop Tooling of Body-In-White Assembly
  • Approximately 4 to 5+ years of experience and some type of formal simulation program
  • Ability to travel (5-20%) for project needs, may be required for technical support
  • Proficient in Siemens Process Simulation Software as an Operator/Designer
  • Strong understanding of Mechanical Design tooling fixture of BIW systems. Knowledge of auto assembly strategies (i.e. part flow within an assembly plant / body shop).

Main areas of responsibilities:

  • Feasibility study and process engineering
  • Define the Robotics and Human operation in the 3D environment.
  • Equipment selection (robots, conveyors, tool, etc.) & placement of equipment.
  • Tool validation to check feasibility.
  • Develop 3D layout for the robotic simulation.
  • Develop reach studies and paths with customer required spec/attributes.
  • Preparing 3D models using CAD software
  • Develop kinematics of 3D models and weld guns
  • Weld/Joint distribution, gun selection, gun sectioning
  • Technology process path distribution (sealing, arc weld…)
  • Validation of processes in work cells / stations
  • Simulate robot moves to verify cycle time, reachability, and feasibility.
  • Ensure compliance with safety and ergonomic regulations.
  • Whole sim cell cycle time, verified with RSC and correct tooling / controls sequence.
  • Develop off-line complete robot programs with multiple robot brands (KUKA, ABB, Comau, Fanuc…).
  • Validate the cycle time of each station/line. Optimize robot programs and find solutions in case of cycle time issues.
  • Development of robot OLP’s to verify reachability of all process and service position.
  • Develop robot programs using teach pendant of the major robot brands.
  • Download a complete offline robot program in native robot language.
  • Configure Robot Controller Simulation (RCS) in the simulation software.
  • Validate the cycle time defined in the cycle diagrams.
  • Generate a precise evaluation of the cycle time through a detailed cycle simulation.
  • Optimize weld distribution to improve the cycle time.
  • Apply robot signal logic with SW

Skills:

  • Interacting with stakeholder (Customers, System Engineer, project team) to get project input details.
  • Development according to customer prescribed documentation and specification.
  • Support reviews with customer.
  • Development of technical documentation for the projects executed.
  • Run Swept Volumes for Robot per customer requirements.
  • Verify the feasibility of solutions and processes. Find and solve issues before the manufacturing phase.

Knowledge & Skills:

  • Feasibility study
  • Line layout planning
  • Basics of robot application
  • Safety standards customer, OSHA, NIOSH
  • Good understanding of IO, transfer of information between Robot and PLC
  • Mechanical understanding of industrial equipment and machinery
  • Demonstrated ability to solve engineering problems.
  • Good understanding of robot program flow and basic programming theories and languages
  • Experience in at least one of the major 3D Modeling tools (NX, Catia, Solidworks, others…) and the ability to quickly self-learn any of the remaining.
  • Experience in at least one of the major 3D Simulation tools (Process Simulate, Delmia, RobCAD, others…) and the ability to quickly self-learn any of the remaining. Proficient with at least one or more of major product/brand (ABB, KUKA, Comau, Fanuc, Motoman, Kawasaki, other…).
  • May be required to retrieve backups from production robots and extract relevant information or upload programs to simulation tools with minimal support. Required to develop OLP programs from simulations and ensure that they work in actual robots with minimal support.
  • Hands on experience processing for at least one or more of the automation technology processes (Spot Welding, Arc Welding, Sealer/Dispense, Riveting, Palletization, Robotic Material, Handling, Paint…)
  • Ability to create well-written, concise technical reports discussing project results as well as create professional documents/videos from simulations that illustrate concepts.
  • Knowledge of Microsoft Office tools (Word, Excel, PowerPoint…) or equivalent tools for word processing, calculation, presentation

Behavioral Competencies:

  • Leadership and site support experience
  • Identifies and analyses information to make decisions and solve problems.

Software Required:

  • Process Simulate (Siemens) NX & AutoCAD Microsoft (Excel)